# STOCKHOLM 1.0
#=GF ID 3.30.420.10/FF/45748
#=GF DE Ribonuclease D
#=GF AC 3.30.420.10/FF/45748
#=GF TP FunFam
#=GF DR CATH: 4.2
#=GF DR DOPS: 93.752
#=GS 1yt3A01/1-194      AC P09155
#=GS 1yt3A01/1-194      OS Escherichia coli K-12
#=GS 1yt3A01/1-194      DE Ribonuclease D
#=GS 1yt3A01/1-194      DR CATH; 1yt3; A:1-194; 
#=GS 1yt3A01/1-194      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS 1yt3A01/1-194      DR GO; GO:0004540; GO:0008033; 
#=GS 1yt3A01/1-194      DR EC; 3.1.13.5; 
#=GS A0A1L9EXR4/1-194   AC A0A1L9EXR4
#=GS A0A1L9EXR4/1-194   OS Serratia marcescens
#=GS A0A1L9EXR4/1-194   DE Ribonuclease D
#=GS A0A1L9EXR4/1-194   DR GENE3D; 2803ef16ed236a9be6720ecc490c39fa/1-194; 
#=GS A0A1L9EXR4/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Serratia; Serratia marcescens; 
#=GS A0A1L9EXR4/1-194   DR EC; 3.1.13.5; 3.1.26.3; 
#=GS A0A090SQW6/1-193   AC A0A090SQW6
#=GS A0A090SQW6/1-193   OS Vibrio maritimus
#=GS A0A090SQW6/1-193   DE Ribonuclease D
#=GS A0A090SQW6/1-193   DR GENE3D; 78f859310cc0c70b47808887068227be/1-193; 
#=GS A0A090SQW6/1-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio maritimus; 
#=GS A0A090SQW6/1-193   DR EC; 3.1.26.3; 
#=GS U2XR06/1-191       AC U2XR06
#=GS U2XR06/1-191       OS alpha proteobacterium RS24
#=GS U2XR06/1-191       DE Protease 4 protein
#=GS U2XR06/1-191       DR GENE3D; b62cf55d4840ac489520b448065f990e/1-191; 
#=GS U2XR06/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; alpha proteobacterium RS24; 
#=GS U2XR06/1-191       DR EC; 3.4.21.92; 
#=GS P09155/1-194       AC P09155
#=GS P09155/1-194       OS Escherichia coli K-12
#=GS P09155/1-194       DE Ribonuclease D
#=GS P09155/1-194       DR GENE3D; c8dc70a31151a1b806b3f6d21f68fdbf/1-194; 
#=GS P09155/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS P09155/1-194       DR GO; GO:0004540; GO:0008033; 
#=GS P09155/1-194       DR EC; 3.1.13.5; 
#=GS Q8EE10/1-191       AC Q8EE10
#=GS Q8EE10/1-191       OS Shewanella oneidensis MR-1
#=GS Q8EE10/1-191       DE Ribonuclease D
#=GS Q8EE10/1-191       DR GENE3D; ae9f3cb2638379f36a9ffcd18aa582e6/1-191; 
#=GS Q8EE10/1-191       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella oneidensis; 
#=GS Q8EE10/1-191       DR GO; GO:0004525; GO:0006396; 
#=GS Q8EE10/1-191       DR EC; 3.1.13.5; 
#=GS Q9KQL4/9-202       AC Q9KQL4
#=GS Q9KQL4/9-202       OS Vibrio cholerae O1 biovar El Tor str. N16961
#=GS Q9KQL4/9-202       DE Ribonuclease D
#=GS Q9KQL4/9-202       DR GENE3D; df9086e0509f546429a9cdfc10e0fd7f/9-202; 
#=GS Q9KQL4/9-202       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS Q9KQL4/9-202       DR GO; GO:0004525; GO:0006396; 
#=GS Q9KQL4/9-202       DR EC; 3.1.13.5; 
#=GS Q8ZP09/1-194       AC Q8ZP09
#=GS Q8ZP09/1-194       OS Salmonella enterica subsp. enterica serovar Typhimurium str. LT2
#=GS Q8ZP09/1-194       DE Ribonuclease D
#=GS Q8ZP09/1-194       DR GENE3D; 15808cbe8c6a5a4b132a06fef6bfc8a6/1-194; 
#=GS Q8ZP09/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; 
#=GS Q8ZP09/1-194       DR EC; 3.1.13.5; 
#=GS Q32FS7/1-194       AC Q32FS7
#=GS Q32FS7/1-194       OS Shigella dysenteriae Sd197
#=GS Q32FS7/1-194       DE Ribonuclease D
#=GS Q32FS7/1-194       DR GENE3D; 1b821b5773885f5a32aa06ed67e4f33d/1-194; 
#=GS Q32FS7/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Shigella; Shigella dysenteriae; 
#=GS Q32FS7/1-194       DR EC; 3.1.13.5; 
#=GS A3MZY2/5-198       AC A3MZY2
#=GS A3MZY2/5-198       OS Actinobacillus pleuropneumoniae serovar 5b str. L20
#=GS A3MZY2/5-198       DE Ribonuclease D
#=GS A3MZY2/5-198       DR GENE3D; 2ea1c94dbd4e14b0ccb94e44c15bfa38/5-198; 
#=GS A3MZY2/5-198       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Actinobacillus; Actinobacillus pleuropneumoniae; 
#=GS A3MZY2/5-198       DR EC; 3.1.13.5; 
#=GS Q2RSM2/1-190       AC Q2RSM2
#=GS Q2RSM2/1-190       OS Rhodospirillum rubrum ATCC 11170
#=GS Q2RSM2/1-190       DE Ribonuclease D
#=GS Q2RSM2/1-190       DR GENE3D; 318b8e80ed87631d31166cdab61ed6d4/1-190; 
#=GS Q2RSM2/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Rhodospirillum; Rhodospirillum rubrum; 
#=GS Q2RSM2/1-190       DR EC; 3.1.13.5; 
#=GS Q7CZV4/1-190       AC Q7CZV4
#=GS Q7CZV4/1-190       OS Agrobacterium fabrum str. C58
#=GS Q7CZV4/1-190       DE Ribonuclease D
#=GS Q7CZV4/1-190       DR GENE3D; 3687072c756f89d90900ffef8443a299/1-190; 
#=GS Q7CZV4/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium tumefaciens complex; Agrobacterium fabrum; 
#=GS Q7CZV4/1-190       DR EC; 3.1.13.5; 
#=GS B4EVV4/1-194       AC B4EVV4
#=GS B4EVV4/1-194       OS Proteus mirabilis HI4320
#=GS B4EVV4/1-194       DE Ribonuclease D
#=GS B4EVV4/1-194       DR GENE3D; 5a1948426847e7e690dee772c98d19fe/1-194; 
#=GS B4EVV4/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Proteus; Proteus mirabilis; 
#=GS B4EVV4/1-194       DR EC; 3.1.13.5; 
#=GS A6TAX6/1-190       AC A6TAX6
#=GS A6TAX6/1-190       OS Klebsiella pneumoniae subsp. pneumoniae MGH 78578
#=GS A6TAX6/1-190       DE Ribonuclease D
#=GS A6TAX6/1-190       DR GENE3D; 60f91cd627fcbf492e903d5bbbc0e4bf/1-190; 
#=GS A6TAX6/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella pneumoniae; Klebsiella pneumoniae subsp. pneumoniae; 
#=GS A6TAX6/1-190       DR EC; 3.1.13.5; 
#=GS Q5E444/1-193       AC Q5E444
#=GS Q5E444/1-193       OS Vibrio fischeri ES114
#=GS Q5E444/1-193       DE Ribonuclease D
#=GS Q5E444/1-193       DR GENE3D; 75f8fabf3e4317d821074ea9f51a0ed3/1-193; 
#=GS Q5E444/1-193       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Aliivibrio; Aliivibrio fischeri; 
#=GS Q5E444/1-193       DR EC; 3.1.13.5; 
#=GS Q9A7L8/1-188       AC Q9A7L8
#=GS Q9A7L8/1-188       OS Caulobacter crescentus CB15
#=GS Q9A7L8/1-188       DE Ribonuclease D
#=GS Q9A7L8/1-188       DR GENE3D; 770828105b5f83c1e688d6b2ddf019ba/1-188; 
#=GS Q9A7L8/1-188       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Caulobacter; Caulobacter vibrioides; 
#=GS Q9A7L8/1-188       DR EC; 3.1.13.5; 
#=GS Q89MQ7/1-191       AC Q89MQ7
#=GS Q89MQ7/1-191       OS Bradyrhizobium diazoefficiens USDA 110
#=GS Q89MQ7/1-191       DE Ribonuclease D
#=GS Q89MQ7/1-191       DR GENE3D; 7768894b0d96876e0e6684b64bced578/1-191; 
#=GS Q89MQ7/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium diazoefficiens; 
#=GS Q89MQ7/1-191       DR EC; 3.1.13.5; 
#=GS A0A0H3CGR4/10-203  AC A0A0H3CGR4
#=GS A0A0H3CGR4/10-203  OS Enterobacter cloacae subsp. cloacae ATCC 13047
#=GS A0A0H3CGR4/10-203  DE Ribonuclease D
#=GS A0A0H3CGR4/10-203  DR GENE3D; 9007655c0b12d06bf01c1e403f7e5c77/10-203; 
#=GS A0A0H3CGR4/10-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter cloacae; Enterobacter cloacae subsp. cloacae; 
#=GS A0A0H3CGR4/10-203  DR EC; 3.1.13.5; 
#=GS C1DPN2/3-196       AC C1DPN2
#=GS C1DPN2/3-196       OS Azotobacter vinelandii DJ
#=GS C1DPN2/3-196       DE Ribonuclease D
#=GS C1DPN2/3-196       DR GENE3D; ae6e0188f5895229e9cfecb0d7873892/3-196; 
#=GS C1DPN2/3-196       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Azotobacter group; Azotobacter; Azotobacter vinelandii; 
#=GS C1DPN2/3-196       DR EC; 3.1.13.5; 
#=GS Q6G329/23-214      AC Q6G329
#=GS Q6G329/23-214      OS Bartonella henselae str. Houston-1
#=GS Q6G329/23-214      DE Ribonuclease D
#=GS Q6G329/23-214      DR GENE3D; b9364b5a6f4dc5167936701eb7476729/23-214; 
#=GS Q6G329/23-214      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bartonellaceae; Bartonella; Bartonella henselae; 
#=GS Q6G329/23-214      DR EC; 3.1.13.5; 
#=GS A1B391/12-211      AC A1B391
#=GS A1B391/12-211      OS Paracoccus denitrificans PD1222
#=GS A1B391/12-211      DE Ribonuclease D
#=GS A1B391/12-211      DR GENE3D; ba34f5b0ee7fb5120c78b38912b415c9/12-211; 
#=GS A1B391/12-211      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Paracoccus; Paracoccus denitrificans; 
#=GS A1B391/12-211      DR EC; 3.1.13.5; 
#=GS P44442/29-221      AC P44442
#=GS P44442/29-221      OS Haemophilus influenzae Rd KW20
#=GS P44442/29-221      DE Ribonuclease D
#=GS P44442/29-221      DR GENE3D; c41251c359a4678dd34201a0c7d0efb6/29-221; 
#=GS P44442/29-221      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; Haemophilus influenzae; 
#=GS P44442/29-221      DR EC; 3.1.13.5; 
#=GS Q92QV7/1-190       AC Q92QV7
#=GS Q92QV7/1-190       OS Sinorhizobium meliloti 1021
#=GS Q92QV7/1-190       DE Ribonuclease D
#=GS Q92QV7/1-190       DR GENE3D; c5299b0fe6715451b49284b384f9f104/1-190; 
#=GS Q92QV7/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium meliloti; 
#=GS Q92QV7/1-190       DR EC; 3.1.13.5; 
#=GS Q9CMV0/13-205      AC Q9CMV0
#=GS Q9CMV0/13-205      OS Pasteurella multocida subsp. multocida str. Pm70
#=GS Q9CMV0/13-205      DE Ribonuclease D
#=GS Q9CMV0/13-205      DR GENE3D; c9d1addc884178417da39970417b7cf6/13-205; 
#=GS Q9CMV0/13-205      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Pasteurella; Pasteurella multocida; Pasteurella multocida subsp. multocida; 
#=GS Q9CMV0/13-205      DR EC; 3.1.13.5; 
#=GS Q1MIW2/1-190       AC Q1MIW2
#=GS Q1MIW2/1-190       OS Rhizobium leguminosarum bv. viciae 3841
#=GS Q1MIW2/1-190       DE Ribonuclease D
#=GS Q1MIW2/1-190       DR GENE3D; d2dffc23471f7be18ae532be95c593fb/1-190; 
#=GS Q1MIW2/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium leguminosarum; 
#=GS Q1MIW2/1-190       DR EC; 3.1.13.5; 
#=GS C9R5F4/13-205      AC C9R5F4
#=GS C9R5F4/13-205      OS Aggregatibacter actinomycetemcomitans D11S-1
#=GS C9R5F4/13-205      DE Ribonuclease D
#=GS C9R5F4/13-205      DR GENE3D; e408cd4eba51376788f505c65abc5e58/13-205; 
#=GS C9R5F4/13-205      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Aggregatibacter; Aggregatibacter actinomycetemcomitans; 
#=GS C9R5F4/13-205      DR EC; 3.1.13.5; 
#=GS Q57DZ9/1-192       AC Q57DZ9
#=GS Q57DZ9/1-192       OS Brucella abortus bv. 1 str. 9-941
#=GS Q57DZ9/1-192       DE Ribonuclease D
#=GS Q57DZ9/1-192       DR GENE3D; f2963e7231d39bd6830e877fc2acdbb6/1-192; 
#=GS Q57DZ9/1-192       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella abortus; 
#=GS Q57DZ9/1-192       DR EC; 3.1.13.5; 
#=GS Q3J515/1-194       AC Q3J515
#=GS Q3J515/1-194       OS Rhodobacter sphaeroides 2.4.1
#=GS Q3J515/1-194       DE Ribonuclease D
#=GS Q3J515/1-194       DR GENE3D; f7233723da03d3d03d9c5a10ba69f990/1-194; 
#=GS Q3J515/1-194       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacter; Rhodobacter sphaeroides; 
#=GS Q3J515/1-194       DR EC; 3.1.13.5; 
#=GS A0A059E838/1-196   AC A0A059E838
#=GS A0A059E838/1-196   OS Hyphomonas sp. L-53-1-40
#=GS A0A059E838/1-196   DE Ribonuclease D
#=GS A0A059E838/1-196   DR GENE3D; 489f16e440460e3aefcfaac74aca99ee/1-196; 
#=GS A0A059E838/1-196   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonas; Hyphomonas sp. L-53-1-40; 
#=GS A0A059E838/1-196   DR EC; 3.1.13.5; 3.1.26.3; 
#=GS A0A160U280/1-196   AC A0A160U280
#=GS A0A160U280/1-196   OS hydrothermal vent metagenome
#=GS A0A160U280/1-196   DE Ribonuclease D
#=GS A0A160U280/1-196   DR GENE3D; 489f16e440460e3aefcfaac74aca99ee/1-196; 
#=GS A0A160U280/1-196   DR ORG; hydrothermal vent metagenome; 
#=GS A0A160U280/1-196   DR EC; 3.1.13.5; 3.1.26.3; 
#=GS A0A178YKJ2/1-190   AC A0A178YKJ2
#=GS A0A178YKJ2/1-190   OS Sinorhizobium americanum
#=GS A0A178YKJ2/1-190   DE Ribonuclease D
#=GS A0A178YKJ2/1-190   DR GENE3D; bfc586db82c2e8a154a279b20b3e06ff/1-190; 
#=GS A0A178YKJ2/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium americanum; 
#=GS A0A178YKJ2/1-190   DR EC; 3.1.13.5; 3.1.26.3; 
#=GS A0A1L3L1P9/1-190   AC A0A1L3L1P9
#=GS A0A1L3L1P9/1-190   OS Sinorhizobium americanum CCGM7
#=GS A0A1L3L1P9/1-190   DE Ribonuclease D
#=GS A0A1L3L1P9/1-190   DR GENE3D; bfc586db82c2e8a154a279b20b3e06ff/1-190; 
#=GS A0A1L3L1P9/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium americanum; 
#=GS A0A1L3L1P9/1-190   DR EC; 3.1.13.5; 3.1.26.3; 
#=GS B3X6C1/1-194       AC B3X6C1
#=GS B3X6C1/1-194       OS Shigella dysenteriae 1012
#=GS B3X6C1/1-194       DE Ribonuclease D
#=GS B3X6C1/1-194       DR GENE3D; 001c371a8fda13a7545bf6ad02e0e5c4/1-194; 
#=GS B3X6C1/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Shigella; Shigella sp. SF-2015; 
#=GS B3X6C1/1-194       DR EC; 3.1.13.5; 
#=GS A0A0F5FL34/1-191   AC A0A0F5FL34
#=GS A0A0F5FL34/1-191   OS Devosia chinhatensis
#=GS A0A0F5FL34/1-191   DE Ribonuclease D
#=GS A0A0F5FL34/1-191   DR GENE3D; 0047531f98e44cbeb1f538684f0ab663/1-191; 
#=GS A0A0F5FL34/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia chinhatensis; 
#=GS A0A0F5FL34/1-191   DR EC; 3.1.13.5; 
#=GS A0A0D1CFR0/4-195   AC A0A0D1CFR0
#=GS A0A0D1CFR0/4-195   OS Novosphingobium sp. P6W
#=GS A0A0D1CFR0/4-195   DE Ribonuclease D
#=GS A0A0D1CFR0/4-195   DR GENE3D; 004b32a2394310633771befbef15c843/4-195; 
#=GS A0A0D1CFR0/4-195   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium sp. P6W; 
#=GS A0A0D1CFR0/4-195   DR EC; 3.1.13.5; 
#=GS A0A0Q9IJW3/1-189   AC A0A0Q9IJW3
#=GS A0A0Q9IJW3/1-189   OS Bosea sp. Root483D1
#=GS A0A0Q9IJW3/1-189   DE Ribonuclease D
#=GS A0A0Q9IJW3/1-189   DR GENE3D; 0059b8bda1bd43f9a3ddd94b2ce7b8fb/1-189; 
#=GS A0A0Q9IJW3/1-189   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bosea; Bosea sp. Root483D1; 
#=GS A0A0Q9IJW3/1-189   DR EC; 3.1.13.5; 
#=GS A0A0Q6ZEK5/1-190   AC A0A0Q6ZEK5
#=GS A0A0Q6ZEK5/1-190   OS Afipia sp. Root123D2
#=GS A0A0Q6ZEK5/1-190   DE Ribonuclease D
#=GS A0A0Q6ZEK5/1-190   DR GENE3D; 006950d72c4b06c58252dc819b792492/1-190; 
#=GS A0A0Q6ZEK5/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Afipia; Afipia sp. Root123D2; 
#=GS A0A0Q6ZEK5/1-190   DR EC; 3.1.13.5; 
#=GS A0A0T8KLP9/3-194   AC A0A0T8KLP9
#=GS A0A0T8KLP9/3-194   OS Streptococcus pneumoniae
#=GS A0A0T8KLP9/3-194   DE Ribonuclease D
#=GS A0A0T8KLP9/3-194   DR GENE3D; 007938b63caff31057bd6ab2cef2fa0d/3-194; 
#=GS A0A0T8KLP9/3-194   DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus pneumoniae; 
#=GS A0A0T8KLP9/3-194   DR EC; 3.1.13.5; 
#=GS A0A031K3V5/4-195   AC A0A031K3V5
#=GS A0A031K3V5/4-195   OS Novosphingobium resinovorum
#=GS A0A031K3V5/4-195   DE Ribonuclease D
#=GS A0A031K3V5/4-195   DR GENE3D; 007ee5c24b579dfd225a1600a4a8923f/4-195; 
#=GS A0A031K3V5/4-195   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium resinovorum; 
#=GS A0A031K3V5/4-195   DR EC; 3.1.13.5; 
#=GS J8VPA6/4-195       AC J8VPA6
#=GS J8VPA6/4-195       OS Sphingomonas sp. LH128
#=GS J8VPA6/4-195       DE Ribonuclease D
#=GS J8VPA6/4-195       DR GENE3D; 007ee5c24b579dfd225a1600a4a8923f/4-195; 
#=GS J8VPA6/4-195       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. LH128; 
#=GS J8VPA6/4-195       DR EC; 3.1.13.5; 
#=GS A0A142IQ47/3-195   AC A0A142IQ47
#=GS A0A142IQ47/3-195   OS Pseudomonas alcaligenes
#=GS A0A142IQ47/3-195   DE Ribonuclease D
#=GS A0A142IQ47/3-195   DR GENE3D; 00921e146947527986dd796c095d1c43/3-195; 
#=GS A0A142IQ47/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas alcaligenes; 
#=GS A0A142IQ47/3-195   DR EC; 3.1.13.5; 
#=GS A0A1A8TLA0/8-201   AC A0A1A8TLA0
#=GS A0A1A8TLA0/8-201   OS Marinomonas aquimarina
#=GS A0A1A8TLA0/8-201   DE Ribonuclease D
#=GS A0A1A8TLA0/8-201   DR GENE3D; 00a85a19734178526d45be0a246bd182/8-201; 
#=GS A0A1A8TLA0/8-201   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Marinomonas; Marinomonas aquimarina; 
#=GS A0A1A8TLA0/8-201   DR EC; 3.1.13.5; 
#=GS A0A084EXC8/19-212  AC A0A084EXC8
#=GS A0A084EXC8/19-212  OS [Haemophilus] parasuis
#=GS A0A084EXC8/19-212  DE Ribonuclease D
#=GS A0A084EXC8/19-212  DR GENE3D; 00a87a4d5d0c8ce06485665a0a2b4dd1/19-212; 
#=GS A0A084EXC8/19-212  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; [Haemophilus] parasuis; 
#=GS A0A084EXC8/19-212  DR EC; 3.1.13.5; 
#=GS A0A0M0IRE8/1-194   AC A0A0M0IRE8
#=GS A0A0M0IRE8/1-194   OS Vibrio xuii
#=GS A0A0M0IRE8/1-194   DE Ribonuclease D
#=GS A0A0M0IRE8/1-194   DR GENE3D; 00da243d63eaaa74e0b391bdd354d675/1-194; 
#=GS A0A0M0IRE8/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio xuii; 
#=GS A0A0M0IRE8/1-194   DR EC; 3.1.13.5; 
#=GS A0A0R2YBN1/3-195   AC A0A0R2YBN1
#=GS A0A0R2YBN1/3-195   OS Pseudomonas libanensis
#=GS A0A0R2YBN1/3-195   DE Ribonuclease D
#=GS A0A0R2YBN1/3-195   DR GENE3D; 00e4c5caa2fd21be96c5fbcf641ed266/3-195; 
#=GS A0A0R2YBN1/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas libanensis; 
#=GS A0A0R2YBN1/3-195   DR EC; 3.1.13.5; 
#=GS A0A0M2BZD0/10-203  AC A0A0M2BZD0
#=GS A0A0M2BZD0/10-203  OS Enterobacter cloacae UCICRE 3
#=GS A0A0M2BZD0/10-203  DE Ribonuclease D
#=GS A0A0M2BZD0/10-203  DR GENE3D; 00f7eac795f5a83d7c91092e4e20beff/10-203; 
#=GS A0A0M2BZD0/10-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter cloacae complex 'Hoffmann cluster III'; 
#=GS A0A0M2BZD0/10-203  DR EC; 3.1.13.5; 
#=GS C5B9V3/2-195       AC C5B9V3
#=GS C5B9V3/2-195       OS Edwardsiella ictaluri 93-146
#=GS C5B9V3/2-195       DE Ribonuclease D
#=GS C5B9V3/2-195       DR GENE3D; 01075d9ab09e430f68cfebc3516a9c94/2-195; 
#=GS C5B9V3/2-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Hafniaceae; Edwardsiella; Edwardsiella ictaluri; 
#=GS C5B9V3/2-195       DR EC; 3.1.13.5; 
#=GS A0A1D7NLD1/3-194   AC A0A1D7NLD1
#=GS A0A1D7NLD1/3-194   OS Porphyrobacter sp. LM 6
#=GS A0A1D7NLD1/3-194   DE Ribonuclease D
#=GS A0A1D7NLD1/3-194   DR GENE3D; 01547272630cf2e3db3a0a00f51cd7bf/3-194; 
#=GS A0A1D7NLD1/3-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Porphyrobacter; Porphyrobacter sp. LM 6; 
#=GS A0A1D7NLD1/3-194   DR EC; 3.1.13.5; 
#=GS J2QFE5/3-195       AC J2QFE5
#=GS J2QFE5/3-195       OS Pseudomonas sp. GM33
#=GS J2QFE5/3-195       DE Ribonuclease D
#=GS J2QFE5/3-195       DR GENE3D; 0158f009cf4a97757feb92b93e36fa87/3-195; 
#=GS J2QFE5/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. GM33; 
#=GS J2QFE5/3-195       DR EC; 3.1.13.5; 
#=GS A0A125P5C6/1-194   AC A0A125P5C6
#=GS A0A125P5C6/1-194   OS Vibrio toranzoniae
#=GS A0A125P5C6/1-194   DE Ribonuclease D
#=GS A0A125P5C6/1-194   DR GENE3D; 0163b285967a8d805afe0510914dcef8/1-194; 
#=GS A0A125P5C6/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio toranzoniae; 
#=GS A0A125P5C6/1-194   DR EC; 3.1.13.5; 
#=GS V1MKH6/1-190       AC V1MKH6
#=GS V1MKH6/1-190       OS Salmonella enterica subsp. enterica serovar Senftenberg str. ATCC 43845
#=GS V1MKH6/1-190       DE Ribonuclease D
#=GS V1MKH6/1-190       DR GENE3D; 0166dfb216336f8567d40e7d3878bbe0/1-190; 
#=GS V1MKH6/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; 
#=GS V1MKH6/1-190       DR EC; 3.1.13.5; 
#=GS G5QYX6/1-190       AC G5QYX6
#=GS G5QYX6/1-190       OS Salmonella enterica subsp. enterica serovar Senftenberg str. A4-543
#=GS G5QYX6/1-190       DE Ribonuclease D
#=GS G5QYX6/1-190       DR GENE3D; 0166dfb216336f8567d40e7d3878bbe0/1-190; 
#=GS G5QYX6/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; 
#=GS G5QYX6/1-190       DR EC; 3.1.13.5; 
#=GS J3HL76/1-192       AC J3HL76
#=GS J3HL76/1-192       OS Phyllobacterium sp. YR531
#=GS J3HL76/1-192       DE Ribonuclease D
#=GS J3HL76/1-192       DR GENE3D; 0169cb735b55a49c06b146f5ee0ed7e7/1-192; 
#=GS J3HL76/1-192       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Phyllobacterium; Phyllobacterium sp. YR531; 
#=GS J3HL76/1-192       DR EC; 3.1.13.5; 
#=GS A0A0J1KIT5/1-190   AC A0A0J1KIT5
#=GS A0A0J1KIT5/1-190   OS Citrobacter sp. MGH100
#=GS A0A0J1KIT5/1-190   DE Ribonuclease D
#=GS A0A0J1KIT5/1-190   DR GENE3D; 01983e50c156ea4d23d29f88f70dddd4/1-190; 
#=GS A0A0J1KIT5/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Citrobacter; Citrobacter freundii complex; Citrobacter sp. MGH100; 
#=GS A0A0J1KIT5/1-190   DR EC; 3.1.13.5; 
#=GS B8F419/5-198       AC B8F419
#=GS B8F419/5-198       OS Haemophilus parasuis SH0165
#=GS B8F419/5-198       DE Ribonuclease D
#=GS B8F419/5-198       DR GENE3D; 01a00974f7026e573d9b9352d220171b/5-198; 
#=GS B8F419/5-198       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; [Haemophilus] parasuis; 
#=GS B8F419/5-198       DR EC; 3.1.13.5; 
#=GS A0NTK4/1-191       AC A0NTK4
#=GS A0NTK4/1-191       OS Labrenzia aggregata IAM 12614
#=GS A0NTK4/1-191       DE Ribonuclease D
#=GS A0NTK4/1-191       DR GENE3D; 01e3a7e3880668377812fc67e2124272/1-191; 
#=GS A0NTK4/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Labrenzia; Labrenzia aggregata; 
#=GS A0NTK4/1-191       DR EC; 3.1.13.5; 
#=GS A0A0M6XUJ8/18-221  AC A0A0M6XUJ8
#=GS A0A0M6XUJ8/18-221  OS Jannaschia rubra
#=GS A0A0M6XUJ8/18-221  DE Ribonuclease D
#=GS A0A0M6XUJ8/18-221  DR GENE3D; 01e8a86c207b09d6c0a9c394e6f4f878/18-221; 
#=GS A0A0M6XUJ8/18-221  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Jannaschia; Jannaschia rubra; 
#=GS A0A0M6XUJ8/18-221  DR EC; 3.1.13.5; 
#=GS W8XWL2/1-194       AC W8XWL2
#=GS W8XWL2/1-194       OS Klebsiella quasipneumoniae subsp. similipneumoniae
#=GS W8XWL2/1-194       DE Ribonuclease D
#=GS W8XWL2/1-194       DR GENE3D; 0218b87c2a7caad92d34ad0bd7dc53c4/1-194; 
#=GS W8XWL2/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella quasipneumoniae; Klebsiella quasipneumoniae subsp. similipneumoniae; 
#=GS W8XWL2/1-194       DR EC; 3.1.13.5; 
#=GS A0A1G3KHM7/4-194   AC A0A1G3KHM7
#=GS A0A1G3KHM7/4-194   OS Sphingopyxis sp. RIFCSPHIGHO2_12_FULL_65_19
#=GS A0A1G3KHM7/4-194   DE Ribonuclease D
#=GS A0A1G3KHM7/4-194   DR GENE3D; 021da6088ca95588e320b77c709b3b54/4-194; 
#=GS A0A1G3KHM7/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis sp. RIFCSPHIGHO2_12_FULL_65_19; 
#=GS A0A1G3KHM7/4-194   DR EC; 3.1.13.5; 
#=GS A0A0N8SPK5/3-195   AC A0A0N8SPK5
#=GS A0A0N8SPK5/3-195   OS Pseudomonas syringae pv. ribicola
#=GS A0A0N8SPK5/3-195   DE Ribonuclease D
#=GS A0A0N8SPK5/3-195   DR GENE3D; 0223dee1e256887f31989b154ae10b4e/3-195; 
#=GS A0A0N8SPK5/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 3; 
#=GS A0A0N8SPK5/3-195   DR EC; 3.1.13.5; 
#=GS A0A0Q0DC91/3-195   AC A0A0Q0DC91
#=GS A0A0Q0DC91/3-195   OS Pseudomonas viridiflava
#=GS A0A0Q0DC91/3-195   DE Ribonuclease D
#=GS A0A0Q0DC91/3-195   DR GENE3D; 0223dee1e256887f31989b154ae10b4e/3-195; 
#=GS A0A0Q0DC91/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas viridiflava; 
#=GS A0A0Q0DC91/3-195   DR EC; 3.1.13.5; 
#=GS C7C9X0/1-191       AC C7C9X0
#=GS C7C9X0/1-191       OS Methylobacterium extorquens DM4
#=GS C7C9X0/1-191       DE Ribonuclease D
#=GS C7C9X0/1-191       DR GENE3D; 027cbf153adf421235105e5a6d3628a5/1-191; 
#=GS C7C9X0/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Methylobacterium; Methylobacterium extorquens group; Methylobacterium extorquens; 
#=GS C7C9X0/1-191       DR EC; 3.1.13.5; 
#=GS A0A1G4E518/1-190   AC A0A1G4E518
#=GS A0A1G4E518/1-190   OS Citrobacter freundii
#=GS A0A1G4E518/1-190   DE Ribonuclease D
#=GS A0A1G4E518/1-190   DR GENE3D; 0298829da84d1be88bc1ad4137c56561/1-190; 
#=GS A0A1G4E518/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Citrobacter; Citrobacter freundii complex; Citrobacter freundii; 
#=GS A0A1G4E518/1-190   DR EC; 3.1.13.5; 
#=GS A0A1E4B4P0/4-197   AC A0A1E4B4P0
#=GS A0A1E4B4P0/4-197   OS Erythrobacter sp. SCN 62-14
#=GS A0A1E4B4P0/4-197   DE Ribonuclease D
#=GS A0A1E4B4P0/4-197   DR GENE3D; 02a8a65fb5a9544df8fb5614a8fdce02/4-197; 
#=GS A0A1E4B4P0/4-197   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter sp. SCN 62-14; 
#=GS A0A1E4B4P0/4-197   DR EC; 3.1.13.5; 
#=GS A0A0A1W1P8/26-216  AC A0A0A1W1P8
#=GS A0A0A1W1P8/26-216  OS Sphingomonas parapaucimobilis NBRC 15100
#=GS A0A0A1W1P8/26-216  DE Ribonuclease D
#=GS A0A0A1W1P8/26-216  DR GENE3D; 02c9025a706357238b22f152f2bcb0e2/26-216; 
#=GS A0A0A1W1P8/26-216  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas parapaucimobilis; 
#=GS A0A0A1W1P8/26-216  DR EC; 3.1.13.5; 
#=GS A0A0L6FXF5/3-195   AC A0A0L6FXF5
#=GS A0A0L6FXF5/3-195   OS Pseudomonas sp. 250J
#=GS A0A0L6FXF5/3-195   DE Ribonuclease D
#=GS A0A0L6FXF5/3-195   DR GENE3D; 02d4eca660c229263f1310aac01753c1/3-195; 
#=GS A0A0L6FXF5/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. 250J; 
#=GS A0A0L6FXF5/3-195   DR EC; 3.1.13.5; 
#=GS A0A085GT00/1-194   AC A0A085GT00
#=GS A0A085GT00/1-194   OS Hafnia alvei ATCC 13337
#=GS A0A085GT00/1-194   DE Ribonuclease D
#=GS A0A085GT00/1-194   DR GENE3D; 02ee7ee2b352cb9c1994977e172f7e4e/1-194; 
#=GS A0A085GT00/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Hafniaceae; Hafnia; Hafnia alvei; 
#=GS A0A085GT00/1-194   DR EC; 3.1.13.5; 
#=GS A0A1M7Z0H0/1-193   AC A0A1M7Z0H0
#=GS A0A1M7Z0H0/1-193   OS Vibrio quintilis
#=GS A0A1M7Z0H0/1-193   DE Ribonuclease D
#=GS A0A1M7Z0H0/1-193   DR GENE3D; 02ffb0846737cd5d8b7658def0db3aeb/1-193; 
#=GS A0A1M7Z0H0/1-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio quintilis; 
#=GS A0A1M7Z0H0/1-193   DR EC; 3.1.13.5; 
#=GS A0A1D2TV00/1-188   AC A0A1D2TV00
#=GS A0A1D2TV00/1-188   OS Phenylobacterium sp. SCN 69-14
#=GS A0A1D2TV00/1-188   DE Ribonuclease D
#=GS A0A1D2TV00/1-188   DR GENE3D; 03298a736e058e4fa542f632b82d9d76/1-188; 
#=GS A0A1D2TV00/1-188   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Phenylobacterium; Phenylobacterium sp. SCN 69-14; 
#=GS A0A1D2TV00/1-188   DR EC; 3.1.13.5; 
#=GS W0MZ20/3-194       AC W0MZ20
#=GS W0MZ20/3-194       OS Pseudomonas syringae CC1557
#=GS W0MZ20/3-194       DE Ribonuclease D
#=GS W0MZ20/3-194       DR GENE3D; 0335b4b190e28a92abcbeb36739d412f/3-194; 
#=GS W0MZ20/3-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 1; Pseudomonas syringae; 
#=GS W0MZ20/3-194       DR EC; 3.1.13.5; 
#=GS B2U439/1-194       AC B2U439
#=GS B2U439/1-194       OS Shigella boydii CDC 3083-94
#=GS B2U439/1-194       DE Ribonuclease D
#=GS B2U439/1-194       DR GENE3D; 033a091e28391e401160ff7d393ca4b5/1-194; 
#=GS B2U439/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Shigella; Shigella boydii; 
#=GS B2U439/1-194       DR EC; 3.1.13.5; 
#=GS A0A1K1U214/12-211  AC A0A1K1U214
#=GS A0A1K1U214/12-211  OS Paracoccus pantotrophus
#=GS A0A1K1U214/12-211  DE Ribonuclease D
#=GS A0A1K1U214/12-211  DR GENE3D; 033b49f1a6658b42dab9a133120eb4f1/12-211; 
#=GS A0A1K1U214/12-211  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Paracoccus; Paracoccus pantotrophus; 
#=GS A0A1K1U214/12-211  DR EC; 3.1.13.5; 
#=GS A0A014ND01/1-190   AC A0A014ND01
#=GS A0A014ND01/1-190   OS Erwinia mallotivora
#=GS A0A014ND01/1-190   DE Ribonuclease D
#=GS A0A014ND01/1-190   DR GENE3D; 035f388324dacccfa7d2ece447582664/1-190; 
#=GS A0A014ND01/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Erwinia; Erwinia mallotivora; 
#=GS A0A014ND01/1-190   DR EC; 3.1.13.5; 
#=GS A0A0M3EUH9/1-194   AC A0A0M3EUH9
#=GS A0A0M3EUH9/1-194   OS Morganella morganii
#=GS A0A0M3EUH9/1-194   DE Ribonuclease D
#=GS A0A0M3EUH9/1-194   DR GENE3D; 03813d873c13528d862d09688ac4ad29/1-194; 
#=GS A0A0M3EUH9/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Morganella; Morganella morganii; 
#=GS A0A0M3EUH9/1-194   DR EC; 3.1.13.5; 
#=GS A0A0D6MX64/12-201  AC A0A0D6MX64
#=GS A0A0D6MX64/12-201  OS Acetobacter aceti NBRC 14818
#=GS A0A0D6MX64/12-201  DE Ribonuclease D
#=GS A0A0D6MX64/12-201  DR GENE3D; 038a0681888426318a7168966c1f992f/12-201; 
#=GS A0A0D6MX64/12-201  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Acetobacter; Acetobacter subgen. Acetobacter; Acetobacter aceti; 
#=GS A0A0D6MX64/12-201  DR EC; 3.1.13.5; 
#=GS A0A0N0D9F0/1-191   AC A0A0N0D9F0
#=GS A0A0N0D9F0/1-191   OS Shimia sp. SK013
#=GS A0A0N0D9F0/1-191   DE Ribonuclease D
#=GS A0A0N0D9F0/1-191   DR GENE3D; 0393e795238c4a31688fec739156b53c/1-191; 
#=GS A0A0N0D9F0/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Shimia; Shimia sp. SK013; 
#=GS A0A0N0D9F0/1-191   DR EC; 3.1.13.5; 
#=GS L2XPJ5/1-190       AC L2XPJ5
#=GS L2XPJ5/1-190       OS Escherichia coli KTE21
#=GS L2XPJ5/1-190       DE Ribonuclease D
#=GS L2XPJ5/1-190       DR GENE3D; 03a30ca76ed336320c7d6ac28383b81a/1-190; 
#=GS L2XPJ5/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS L2XPJ5/1-190       DR EC; 3.1.13.5; 
#=GS S0W162/1-190       AC S0W162
#=GS S0W162/1-190       OS Escherichia coli KTE20
#=GS S0W162/1-190       DE Ribonuclease D
#=GS S0W162/1-190       DR GENE3D; 03a30ca76ed336320c7d6ac28383b81a/1-190; 
#=GS S0W162/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS S0W162/1-190       DR EC; 3.1.13.5; 
#=GS A0A0S2K8I6/3-196   AC A0A0S2K8I6
#=GS A0A0S2K8I6/3-196   OS Pseudoalteromonas phenolica
#=GS A0A0S2K8I6/3-196   DE Ribonuclease D
#=GS A0A0S2K8I6/3-196   DR GENE3D; 03d658e9c65b1e3ee116aeb3df0f0aa1/3-196; 
#=GS A0A0S2K8I6/3-196   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas phenolica; 
#=GS A0A0S2K8I6/3-196   DR EC; 3.1.13.5; 
#=GS A0A1B9KRX9/1-194   AC A0A1B9KRX9
#=GS A0A1B9KRX9/1-194   OS Gilliamella apicola
#=GS A0A1B9KRX9/1-194   DE Ribonuclease D
#=GS A0A1B9KRX9/1-194   DR GENE3D; 03d868b15c682765a45e9dfed30293bd/1-194; 
#=GS A0A1B9KRX9/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Orbales; Orbaceae; Gilliamella; Gilliamella apicola; 
#=GS A0A1B9KRX9/1-194   DR EC; 3.1.13.5; 
#=GS A0A0A1YGN2/3-194   AC A0A0A1YGN2
#=GS A0A0A1YGN2/3-194   OS Pseudomonas taeanensis MS-3
#=GS A0A0A1YGN2/3-194   DE Ribonuclease D
#=GS A0A0A1YGN2/3-194   DR GENE3D; 04127fb9bbb46161fcd74dd298cbcbcb/3-194; 
#=GS A0A0A1YGN2/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas taeanensis; 
#=GS A0A0A1YGN2/3-194   DR EC; 3.1.13.5; 
#=GS A0A1L8CMY1/5-196   AC A0A1L8CMY1
#=GS A0A1L8CMY1/5-196   OS Mariprofundus micogutta
#=GS A0A1L8CMY1/5-196   DE Ribonuclease D
#=GS A0A1L8CMY1/5-196   DR GENE3D; 04160579ffd3913a494828820f87f742/5-196; 
#=GS A0A1L8CMY1/5-196   DR ORG; Bacteria; Proteobacteria; Zetaproteobacteria; Mariprofundales; Mariprofundaceae; Mariprofundus; Mariprofundus micogutta; 
#=GS A0A1L8CMY1/5-196   DR EC; 3.1.13.5; 
#=GS J3GAW9/3-194       AC J3GAW9
#=GS J3GAW9/3-194       OS Pseudomonas sp. GM48
#=GS J3GAW9/3-194       DE Ribonuclease D
#=GS J3GAW9/3-194       DR GENE3D; 04580f92b9640918b6a13c1c5afe9ab6/3-194; 
#=GS J3GAW9/3-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. GM48; 
#=GS J3GAW9/3-194       DR EC; 3.1.13.5; 
#=GS U2NGT4/12-205      AC U2NGT4
#=GS U2NGT4/12-205      OS Serratia fonticola AU-AP2C
#=GS U2NGT4/12-205      DE Ribonuclease D
#=GS U2NGT4/12-205      DR GENE3D; 0464577f0d614239091475df7e29d59a/12-205; 
#=GS U2NGT4/12-205      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Serratia; Serratia fonticola; 
#=GS U2NGT4/12-205      DR EC; 3.1.13.5; 
#=GS A0A077PU28/1-194   AC A0A077PU28
#=GS A0A077PU28/1-194   OS Xenorhabdus bovienii str. kraussei Becker Underwood
#=GS A0A077PU28/1-194   DE Ribonuclease D
#=GS A0A077PU28/1-194   DR GENE3D; 047bbc607e98cb1894a93d6dd49ba591/1-194; 
#=GS A0A077PU28/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Xenorhabdus; Xenorhabdus bovienii; 
#=GS A0A077PU28/1-194   DR EC; 3.1.13.5; 
#=GS A0A1C7D9X8/4-194   AC A0A1C7D9X8
#=GS A0A1C7D9X8/4-194   OS Altererythrobacter namhicola
#=GS A0A1C7D9X8/4-194   DE Ribonuclease D
#=GS A0A1C7D9X8/4-194   DR GENE3D; 04857c8127d58f3cfeb9993cfcb3ca53/4-194; 
#=GS A0A1C7D9X8/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Altererythrobacter; Altererythrobacter namhicola; 
#=GS A0A1C7D9X8/4-194   DR EC; 3.1.13.5; 
#=GS A0A0J5FR32/11-204  AC A0A0J5FR32
#=GS A0A0J5FR32/11-204  OS Xenorhabdus khoisanae
#=GS A0A0J5FR32/11-204  DE Ribonuclease D
#=GS A0A0J5FR32/11-204  DR GENE3D; 04871d77e97a81b0ed88005bb8829e54/11-204; 
#=GS A0A0J5FR32/11-204  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Xenorhabdus; Xenorhabdus khoisanae; 
#=GS A0A0J5FR32/11-204  DR EC; 3.1.13.5; 
#=GS A0A0P7LIY3/3-193   AC A0A0P7LIY3
#=GS A0A0P7LIY3/3-193   OS Shewanella sp. Sh95
#=GS A0A0P7LIY3/3-193   DE Ribonuclease D
#=GS A0A0P7LIY3/3-193   DR GENE3D; 048f43ad820e4ed04a1593c9830cd8c2/3-193; 
#=GS A0A0P7LIY3/3-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella sp. Sh95; 
#=GS A0A0P7LIY3/3-193   DR EC; 3.1.13.5; 
#=GS A0A1G3ICD2/1-191   AC A0A1G3ICD2
#=GS A0A1G3ICD2/1-191   OS Rhodospirillales bacterium RIFCSPLOWO2_12_FULL_58_28
#=GS A0A1G3ICD2/1-191   DE Ribonuclease D
#=GS A0A1G3ICD2/1-191   DR GENE3D; 0495fbdf6334d85c8a36a32a3f118341/1-191; 
#=GS A0A1G3ICD2/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillales bacterium RIFCSPLOWO2_12_FULL_58_28; 
#=GS A0A1G3ICD2/1-191   DR EC; 3.1.13.5; 
#=GS A0A0F3VWJ1/1-190   AC A0A0F3VWJ1
#=GS A0A0F3VWJ1/1-190   OS Escherichia coli
#=GS A0A0F3VWJ1/1-190   DE Ribonuclease D
#=GS A0A0F3VWJ1/1-190   DR GENE3D; 049ae12af24c430a03b4f22ccbe45600/1-190; 
#=GS A0A0F3VWJ1/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A0F3VWJ1/1-190   DR EC; 3.1.13.5; 
#=GS A0A028E2H7/1-190   AC A0A028E2H7
#=GS A0A028E2H7/1-190   OS Escherichia coli O118:H16 str. 2009C-4446
#=GS A0A028E2H7/1-190   DE Ribonuclease D
#=GS A0A028E2H7/1-190   DR GENE3D; 049ae12af24c430a03b4f22ccbe45600/1-190; 
#=GS A0A028E2H7/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A028E2H7/1-190   DR EC; 3.1.13.5; 
#=GS A0A027ZLS8/1-190   AC A0A027ZLS8
#=GS A0A027ZLS8/1-190   OS Escherichia coli O69:H11 str. 08-4661
#=GS A0A027ZLS8/1-190   DE Ribonuclease D
#=GS A0A027ZLS8/1-190   DR GENE3D; 049ae12af24c430a03b4f22ccbe45600/1-190; 
#=GS A0A027ZLS8/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A027ZLS8/1-190   DR EC; 3.1.13.5; 
#=GS K8B9E7/1-194       AC K8B9E7
#=GS K8B9E7/1-194       OS Cronobacter dublinensis 582
#=GS K8B9E7/1-194       DE Ribonuclease D
#=GS K8B9E7/1-194       DR GENE3D; 04a043af4b9ada477480680560e1f29e/1-194; 
#=GS K8B9E7/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Cronobacter; Cronobacter dublinensis; 
#=GS K8B9E7/1-194       DR EC; 3.1.13.5; 
#=GS A0A0X6Z7H1/10-203  AC A0A0X6Z7H1
#=GS A0A0X6Z7H1/10-203  OS Enterobacter cloacae complex sp. GN02468
#=GS A0A0X6Z7H1/10-203  DE Ribonuclease D
#=GS A0A0X6Z7H1/10-203  DR GENE3D; 04c61ee6371df02cdd19b6ce61a477a6/10-203; 
#=GS A0A0X6Z7H1/10-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter cloacae complex sp. GN02468; 
#=GS A0A0X6Z7H1/10-203  DR EC; 3.1.13.5; 
#=GS A0A0M7ALJ8/1-190   AC A0A0M7ALJ8
#=GS A0A0M7ALJ8/1-190   OS Labrenzia alba
#=GS A0A0M7ALJ8/1-190   DE Ribonuclease D
#=GS A0A0M7ALJ8/1-190   DR GENE3D; 04f5984e9e33b8fbf7d49dd08827c352/1-190; 
#=GS A0A0M7ALJ8/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Labrenzia; Labrenzia alba; 
#=GS A0A0M7ALJ8/1-190   DR EC; 3.1.13.5; 
#=GS A0A1C3HET9/1-194   AC A0A1C3HET9
#=GS A0A1C3HET9/1-194   OS Serratia marcescens
#=GS A0A1C3HET9/1-194   DE Ribonuclease D
#=GS A0A1C3HET9/1-194   DR GENE3D; 04f75c858747a6b328ebd70a424ef5f4/1-194; 
#=GS A0A1C3HET9/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Serratia; Serratia marcescens; 
#=GS A0A1C3HET9/1-194   DR EC; 3.1.13.5; 
#=GS F6ET19/4-194       AC F6ET19
#=GS F6ET19/4-194       OS Sphingobium chlorophenolicum L-1
#=GS F6ET19/4-194       DE Ribonuclease D
#=GS F6ET19/4-194       DR GENE3D; 050fef38dca45a04b77923ec3a48b316/4-194; 
#=GS F6ET19/4-194       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium chlorophenolicum; 
#=GS F6ET19/4-194       DR EC; 3.1.13.5; 
#=GS A0A1D3JU56/3-195   AC A0A1D3JU56
#=GS A0A1D3JU56/3-195   OS Pseudomonas veronii 1YdBTEX2
#=GS A0A1D3JU56/3-195   DE Ribonuclease D
#=GS A0A1D3JU56/3-195   DR GENE3D; 0516567d94ce4543f4ddb4f899125542/3-195; 
#=GS A0A1D3JU56/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas veronii; 
#=GS A0A1D3JU56/3-195   DR EC; 3.1.13.5; 
#=GS F3YYY7/25-216      AC F3YYY7
#=GS F3YYY7/25-216      OS Desulfovibrio africanus str. Walvis Bay
#=GS F3YYY7/25-216      DE Ribonuclease D
#=GS F3YYY7/25-216      DR GENE3D; 052c138066d12214b6894f48c9b75404/25-216; 
#=GS F3YYY7/25-216      DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfovibrionales; Desulfovibrionaceae; Desulfovibrio; Desulfovibrio africanus; 
#=GS F3YYY7/25-216      DR EC; 3.1.13.5; 
#=GS A0A0N1JQN4/3-194   AC A0A0N1JQN4
#=GS A0A0N1JQN4/3-194   OS Pseudomonas amygdali pv. morsprunorum
#=GS A0A0N1JQN4/3-194   DE Ribonuclease D
#=GS A0A0N1JQN4/3-194   DR GENE3D; 0534b56fd5f3f5dd82483f7a228f3f38/3-194; 
#=GS A0A0N1JQN4/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 2; Pseudomonas amygdali; 
#=GS A0A0N1JQN4/3-194   DR EC; 3.1.13.5; 
#=GS A0A0P9VIB1/3-194   AC A0A0P9VIB1
#=GS A0A0P9VIB1/3-194   OS Pseudomonas meliae
#=GS A0A0P9VIB1/3-194   DE Ribonuclease D
#=GS A0A0P9VIB1/3-194   DR GENE3D; 0534b56fd5f3f5dd82483f7a228f3f38/3-194; 
#=GS A0A0P9VIB1/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 2; Pseudomonas meliae; 
#=GS A0A0P9VIB1/3-194   DR EC; 3.1.13.5; 
#=GS A0A090V0D3/1-194   AC A0A090V0D3
#=GS A0A090V0D3/1-194   OS Escherichia vulneris NBRC 102420
#=GS A0A090V0D3/1-194   DE Ribonuclease D
#=GS A0A090V0D3/1-194   DR GENE3D; 054b1c8b7c81ea94406b6495c0b4bd61/1-194; 
#=GS A0A090V0D3/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia vulneris; 
#=GS A0A090V0D3/1-194   DR EC; 3.1.13.5; 
#=GS A0A1H1PVT7/9-195   AC A0A1H1PVT7
#=GS A0A1H1PVT7/9-195   OS Pseudomonas xinjiangensis
#=GS A0A1H1PVT7/9-195   DE Ribonuclease D
#=GS A0A1H1PVT7/9-195   DR GENE3D; 056580da7cac8a5aa6d38b234ff1ec5e/9-195; 
#=GS A0A1H1PVT7/9-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas xinjiangensis; 
#=GS A0A1H1PVT7/9-195   DR EC; 3.1.13.5; 
#=GS A0A0D6NGW4/12-200  AC A0A0D6NGW4
#=GS A0A0D6NGW4/12-200  OS Acetobacter orientalis 21F-2
#=GS A0A0D6NGW4/12-200  DE Ribonuclease D
#=GS A0A0D6NGW4/12-200  DR GENE3D; 058884ea954463e20db1b9574a56eb0e/12-200; 
#=GS A0A0D6NGW4/12-200  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Acetobacter; Acetobacter orientalis; 
#=GS A0A0D6NGW4/12-200  DR EC; 3.1.13.5; 
#=GS D4BU81/1-194       AC D4BU81
#=GS D4BU81/1-194       OS Providencia rettgeri DSM 1131
#=GS D4BU81/1-194       DE Ribonuclease D
#=GS D4BU81/1-194       DR GENE3D; 05e421ce3371000b6c7a1efe0fc79be5/1-194; 
#=GS D4BU81/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Providencia; Providencia rettgeri; 
#=GS D4BU81/1-194       DR EC; 3.1.13.5; 
#=GS A0A0A8B4Z0/1-190   AC A0A0A8B4Z0
#=GS A0A0A8B4Z0/1-190   OS Coriobacteriaceae bacterium 68-1-3
#=GS A0A0A8B4Z0/1-190   DE Ribonuclease D
#=GS A0A0A8B4Z0/1-190   DR GENE3D; 05f50df2552205e2e227a53842a506fb/1-190; 
#=GS A0A0A8B4Z0/1-190   DR ORG; Bacteria; Actinobacteria; Coriobacteriia; Coriobacteriales; Coriobacteriaceae; Coriobacteriaceae bacterium 68-1-3; 
#=GS A0A0A8B4Z0/1-190   DR EC; 3.1.13.5; 
#=GS U1JYB5/1-193       AC U1JYB5
#=GS U1JYB5/1-193       OS Pseudoalteromonas marina DSM 17587
#=GS U1JYB5/1-193       DE Ribonuclease D
#=GS U1JYB5/1-193       DR GENE3D; 05f61c80fe0ed0fa89340f98f5ef44c8/1-193; 
#=GS U1JYB5/1-193       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas marina; 
#=GS U1JYB5/1-193       DR EC; 3.1.13.5; 
#=GS A0A010P7W1/1-194   AC A0A010P7W1
#=GS A0A010P7W1/1-194   OS Alteromonas sp. ALT199
#=GS A0A010P7W1/1-194   DE Ribonuclease D
#=GS A0A010P7W1/1-194   DR GENE3D; 05f9c8b99757b8242b5f89e1c0bab9c9/1-194; 
#=GS A0A010P7W1/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Alteromonas; Alteromonas sp. ALT199; 
#=GS A0A010P7W1/1-194   DR EC; 3.1.13.5; 
#=GS C2LFS7/28-221      AC C2LFS7
#=GS C2LFS7/28-221      OS Proteus mirabilis ATCC 29906
#=GS C2LFS7/28-221      DE Ribonuclease D
#=GS C2LFS7/28-221      DR GENE3D; 061086fb851e8167a370a704b6deaddd/28-221; 
#=GS C2LFS7/28-221      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Proteus; Proteus mirabilis; 
#=GS C2LFS7/28-221      DR EC; 3.1.13.5; 
#=GS A0A0T7DGZ8/1-194   AC A0A0T7DGZ8
#=GS A0A0T7DGZ8/1-194   OS Vibrio crassostreae
#=GS A0A0T7DGZ8/1-194   DE Ribonuclease D
#=GS A0A0T7DGZ8/1-194   DR GENE3D; 06302816c2c7e68e1cbf1b876cdfc4fe/1-194; 
#=GS A0A0T7DGZ8/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio crassostreae; 
#=GS A0A0T7DGZ8/1-194   DR EC; 3.1.13.5; 
#=GS K2PBZ9/1-190       AC K2PBZ9
#=GS K2PBZ9/1-190       OS Agrobacterium albertimagni AOL15
#=GS K2PBZ9/1-190       DE Ribonuclease D
#=GS K2PBZ9/1-190       DR GENE3D; 0631b94a8834ebdd00de6297e2e4bed3/1-190; 
#=GS K2PBZ9/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium albertimagni; 
#=GS K2PBZ9/1-190       DR EC; 3.1.13.5; 
#=GS Q7N525/1-194       AC Q7N525
#=GS Q7N525/1-194       OS Photorhabdus luminescens subsp. laumondii TTO1
#=GS Q7N525/1-194       DE Ribonuclease D
#=GS Q7N525/1-194       DR GENE3D; 06392f617d863ab2d443dc99feb48246/1-194; 
#=GS Q7N525/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Photorhabdus; Photorhabdus luminescens; Photorhabdus luminescens subsp. laumondii; 
#=GS Q7N525/1-194       DR EC; 3.1.13.5; 
#=GS A8LNB6/1-193       AC A8LNB6
#=GS A8LNB6/1-193       OS Dinoroseobacter shibae DFL 12 = DSM 16493
#=GS A8LNB6/1-193       DE Ribonuclease D
#=GS A8LNB6/1-193       DR GENE3D; 0656160120f227ea5e0c395051172814/1-193; 
#=GS A8LNB6/1-193       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Dinoroseobacter; Dinoroseobacter shibae; 
#=GS A8LNB6/1-193       DR EC; 3.1.13.5; 
#=GS A0A1D2X5S1/9-196   AC A0A1D2X5S1
#=GS A0A1D2X5S1/9-196   OS Endozoicomonas sp. (ex Bugula neritina AB1)
#=GS A0A1D2X5S1/9-196   DE Ribonuclease D
#=GS A0A1D2X5S1/9-196   DR GENE3D; 066813938ebd87f93ff29ee2590a3374/9-196; 
#=GS A0A1D2X5S1/9-196   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Hahellaceae; Endozoicomonas; Endozoicomonas sp. (ex Bugula neritina AB1); 
#=GS A0A1D2X5S1/9-196   DR EC; 3.1.13.5; 
#=GS A0A1A5CZM0/6-197   AC A0A1A5CZM0
#=GS A0A1A5CZM0/6-197   OS Pseudomonas sp. EGD-AKN5
#=GS A0A1A5CZM0/6-197   DE Ribonuclease D
#=GS A0A1A5CZM0/6-197   DR GENE3D; 067c4c22f1006143c79e39a356d17e36/6-197; 
#=GS A0A1A5CZM0/6-197   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. EGD-AKN5; 
#=GS A0A1A5CZM0/6-197   DR EC; 3.1.13.5; 
#=GS A0A0V8T2S8/6-197   AC A0A0V8T2S8
#=GS A0A0V8T2S8/6-197   OS Pseudomonas sp. ADP
#=GS A0A0V8T2S8/6-197   DE Ribonuclease D
#=GS A0A0V8T2S8/6-197   DR GENE3D; 067c4c22f1006143c79e39a356d17e36/6-197; 
#=GS A0A0V8T2S8/6-197   DR ORG; Bacteria; Proteobacteria; Pseudomonas sp. ADP; 
#=GS A0A0V8T2S8/6-197   DR EC; 3.1.13.5; 
#=GS A0A1F1QJH1/3-195   AC A0A1F1QJH1
#=GS A0A1F1QJH1/3-195   OS Pseudomonas sp. HMSC08G10
#=GS A0A1F1QJH1/3-195   DE Ribonuclease D
#=GS A0A1F1QJH1/3-195   DR GENE3D; 06b092adace12ee20d37ffe2343b08fa/3-195; 
#=GS A0A1F1QJH1/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. HMSC08G10; 
#=GS A0A1F1QJH1/3-195   DR EC; 3.1.13.5; 
#=GS G6EF03/4-194       AC G6EF03
#=GS G6EF03/4-194       OS Novosphingobium pentaromativorans US6-1
#=GS G6EF03/4-194       DE Ribonuclease D
#=GS G6EF03/4-194       DR GENE3D; 06be2a35493461e85d8b75fd0f29dfaa/4-194; 
#=GS G6EF03/4-194       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium pentaromativorans; 
#=GS G6EF03/4-194       DR EC; 3.1.13.5; 
#=GS A0A106C1E0/2-194   AC A0A106C1E0
#=GS A0A106C1E0/2-194   OS Shewanella frigidimarina
#=GS A0A106C1E0/2-194   DE Ribonuclease D
#=GS A0A106C1E0/2-194   DR GENE3D; 06d68b435e2676eb23e2fb17d6b38c05/2-194; 
#=GS A0A106C1E0/2-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella frigidimarina; 
#=GS A0A106C1E0/2-194   DR EC; 3.1.13.5; 
#=GS L0MHJ2/1-194       AC L0MHJ2
#=GS L0MHJ2/1-194       OS Serratia marcescens FGI94
#=GS L0MHJ2/1-194       DE Ribonuclease D
#=GS L0MHJ2/1-194       DR GENE3D; 06f526113c91d11870c2b02fed16807a/1-194; 
#=GS L0MHJ2/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Serratia; Serratia marcescens; 
#=GS L0MHJ2/1-194       DR EC; 3.1.13.5; 
#=GS Q8Z679/1-194       AC Q8Z679
#=GS Q8Z679/1-194       OS Salmonella enterica subsp. enterica serovar Typhi
#=GS Q8Z679/1-194       DE Ribonuclease D
#=GS Q8Z679/1-194       DR GENE3D; 072f4f7a1fd710fc4f5eb2a33de3d926/1-194; 
#=GS Q8Z679/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; 
#=GS Q8Z679/1-194       DR EC; 3.1.13.5; 
#=GS A0A0E9DSK0/1-190   AC A0A0E9DSK0
#=GS A0A0E9DSK0/1-190   OS Chlamydia trachomatis
#=GS A0A0E9DSK0/1-190   DE Ribonuclease D
#=GS A0A0E9DSK0/1-190   DR GENE3D; 0733331a6a3688d443220685168523d2/1-190; 
#=GS A0A0E9DSK0/1-190   DR ORG; Bacteria; Chlamydiae; Chlamydiia; Chlamydiales; Chlamydiaceae; Chlamydia; Chlamydia trachomatis; 
#=GS A0A0E9DSK0/1-190   DR EC; 3.1.13.5; 
#=GS A0A0J3VCN0/1-190   AC A0A0J3VCN0
#=GS A0A0J3VCN0/1-190   OS Escherichia coli
#=GS A0A0J3VCN0/1-190   DE Ribonuclease D
#=GS A0A0J3VCN0/1-190   DR GENE3D; 074c4b19d749e053a1331291ee26d51b/1-190; 
#=GS A0A0J3VCN0/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A0J3VCN0/1-190   DR EC; 3.1.13.5; 
#=GS A0A0C1W0B0/3-194   AC A0A0C1W0B0
#=GS A0A0C1W0B0/3-194   OS Pseudomonas fluorescens
#=GS A0A0C1W0B0/3-194   DE Ribonuclease D
#=GS A0A0C1W0B0/3-194   DR GENE3D; 0763e79f5b0be23b516c7453cdb71d8c/3-194; 
#=GS A0A0C1W0B0/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; 
#=GS A0A0C1W0B0/3-194   DR EC; 3.1.13.5; 
#=GS A0A1B9P9N5/1-193   AC A0A1B9P9N5
#=GS A0A1B9P9N5/1-193   OS Aliivibrio sp. 1S175
#=GS A0A1B9P9N5/1-193   DE Ribonuclease D
#=GS A0A1B9P9N5/1-193   DR GENE3D; 0768b24365dc24f7ec41c69a07127e69/1-193; 
#=GS A0A1B9P9N5/1-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Aliivibrio; Aliivibrio sp. 1S175; 
#=GS A0A1B9P9N5/1-193   DR EC; 3.1.13.5; 
#=GS A0A1B9JYY6/1-194   AC A0A1B9JYY6
#=GS A0A1B9JYY6/1-194   OS Gilliamella apicola
#=GS A0A1B9JYY6/1-194   DE Ribonuclease D
#=GS A0A1B9JYY6/1-194   DR GENE3D; 07ac087ca819668861246aacdead2b4b/1-194; 
#=GS A0A1B9JYY6/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Orbales; Orbaceae; Gilliamella; Gilliamella apicola; 
#=GS A0A1B9JYY6/1-194   DR EC; 3.1.13.5; 
#=GS A0A126RAS1/4-196   AC A0A126RAS1
#=GS A0A126RAS1/4-196   OS Sphingobium sp. MI1205
#=GS A0A126RAS1/4-196   DE Ribonuclease D
#=GS A0A126RAS1/4-196   DR GENE3D; 07d765272dbb2f575e79538b4a905efd/4-196; 
#=GS A0A126RAS1/4-196   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium sp. MI1205; 
#=GS A0A126RAS1/4-196   DR EC; 3.1.13.5; 
#=GS A0A058ZJT2/1-193   AC A0A058ZJT2
#=GS A0A058ZJT2/1-193   OS Actibacterium atlanticum
#=GS A0A058ZJT2/1-193   DE Ribonuclease D
#=GS A0A058ZJT2/1-193   DR GENE3D; 07e1b324efba2402d53f1d4451aee6ce/1-193; 
#=GS A0A058ZJT2/1-193   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Actibacterium; Actibacterium atlanticum; 
#=GS A0A058ZJT2/1-193   DR EC; 3.1.13.5; 
#=GS A0A0Q4EVG8/4-194   AC A0A0Q4EVG8
#=GS A0A0Q4EVG8/4-194   OS Sphingomonas sp. Leaf208
#=GS A0A0Q4EVG8/4-194   DE Ribonuclease D
#=GS A0A0Q4EVG8/4-194   DR GENE3D; 08003f0ddbf1224a9dcef71da26e6f08/4-194; 
#=GS A0A0Q4EVG8/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf208; 
#=GS A0A0Q4EVG8/4-194   DR EC; 3.1.13.5; 
#=GS A0A0Q5UTZ6/4-194   AC A0A0Q5UTZ6
#=GS A0A0Q5UTZ6/4-194   OS Sphingomonas sp. Leaf198
#=GS A0A0Q5UTZ6/4-194   DE Ribonuclease D
#=GS A0A0Q5UTZ6/4-194   DR GENE3D; 08003f0ddbf1224a9dcef71da26e6f08/4-194; 
#=GS A0A0Q5UTZ6/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf198; 
#=GS A0A0Q5UTZ6/4-194   DR EC; 3.1.13.5; 
#=GS A0A090GDB1/1-191   AC A0A090GDB1
#=GS A0A090GDB1/1-191   OS Mesorhizobium plurifarium
#=GS A0A090GDB1/1-191   DE Ribonuclease D
#=GS A0A090GDB1/1-191   DR GENE3D; 080bd2df0cac088b46c0556fdd0d56b5/1-191; 
#=GS A0A090GDB1/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium plurifarium; 
#=GS A0A090GDB1/1-191   DR EC; 3.1.13.5; 
#=GS A0A1B7K121/1-194   AC A0A1B7K121
#=GS A0A1B7K121/1-194   OS Kluyvera georgiana ATCC 51603
#=GS A0A1B7K121/1-194   DE Ribonuclease D
#=GS A0A1B7K121/1-194   DR GENE3D; 0816b4febf52559cd9c9fd1a3f556606/1-194; 
#=GS A0A1B7K121/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Kluyvera; Kluyvera georgiana; 
#=GS A0A1B7K121/1-194   DR EC; 3.1.13.5; 
#=GS A0A1A6FS57/1-191   AC A0A1A6FS57
#=GS A0A1A6FS57/1-191   OS Methylosinus sp. 3S-1
#=GS A0A1A6FS57/1-191   DE Ribonuclease D
#=GS A0A1A6FS57/1-191   DR GENE3D; 0832065e7f221d1260f5ac8f9b951073/1-191; 
#=GS A0A1A6FS57/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylocystaceae; Methylosinus; Methylosinus sp. 3S-1; 
#=GS A0A1A6FS57/1-191   DR EC; 3.1.13.5; 
#=GS A0A0B4BY07/1-195   AC A0A0B4BY07
#=GS A0A0B4BY07/1-195   OS Tateyamaria sp. ANG-S1
#=GS A0A0B4BY07/1-195   DE Ribonuclease D
#=GS A0A0B4BY07/1-195   DR GENE3D; 083619d4244cd71245929b2eaaae55ae/1-195; 
#=GS A0A0B4BY07/1-195   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Tateyamaria; Tateyamaria sp. ANG-S1; 
#=GS A0A0B4BY07/1-195   DR EC; 3.1.13.5; 
#=GS A0A1C3P4K5/1-190   AC A0A1C3P4K5
#=GS A0A1C3P4K5/1-190   OS Citrobacter freundii
#=GS A0A1C3P4K5/1-190   DE Ribonuclease D
#=GS A0A1C3P4K5/1-190   DR GENE3D; 084c41c66a4ed0f6ae558572349d7228/1-190; 
#=GS A0A1C3P4K5/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Citrobacter; Citrobacter freundii complex; Citrobacter freundii; 
#=GS A0A1C3P4K5/1-190   DR EC; 3.1.13.5; 
#=GS A0A064E793/1-190   AC A0A064E793
#=GS A0A064E793/1-190   OS Citrobacter freundii MGH 56
#=GS A0A064E793/1-190   DE Ribonuclease D
#=GS A0A064E793/1-190   DR GENE3D; 084c41c66a4ed0f6ae558572349d7228/1-190; 
#=GS A0A064E793/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Citrobacter; Citrobacter freundii complex; Citrobacter freundii; 
#=GS A0A064E793/1-190   DR EC; 3.1.13.5; 
#=GS A0A1D8JVN1/1-194   AC A0A1D8JVN1
#=GS A0A1D8JVN1/1-194   OS Klebsiella sp. LTGPAF-6F
#=GS A0A1D8JVN1/1-194   DE Ribonuclease D
#=GS A0A1D8JVN1/1-194   DR GENE3D; 086409ddbb91fe32b321773f767b9729/1-194; 
#=GS A0A1D8JVN1/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella sp. LTGPAF-6F; 
#=GS A0A1D8JVN1/1-194   DR EC; 3.1.13.5; 
#=GS A0A068HG75/1-194   AC A0A068HG75
#=GS A0A068HG75/1-194   OS Klebsiella oxytoca KONIH1
#=GS A0A068HG75/1-194   DE Ribonuclease D
#=GS A0A068HG75/1-194   DR GENE3D; 086409ddbb91fe32b321773f767b9729/1-194; 
#=GS A0A068HG75/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella oxytoca; 
#=GS A0A068HG75/1-194   DR EC; 3.1.13.5; 
#=GS A0A1L5EHZ8/1-194   AC A0A1L5EHZ8
#=GS A0A1L5EHZ8/1-194   OS Klebsiella oxytoca
#=GS A0A1L5EHZ8/1-194   DE Ribonuclease D
#=GS A0A1L5EHZ8/1-194   DR GENE3D; 086409ddbb91fe32b321773f767b9729/1-194; 
#=GS A0A1L5EHZ8/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella oxytoca; 
#=GS A0A1L5EHZ8/1-194   DR EC; 3.1.13.5; 
#=GS J5Y4X5/1-194       AC J5Y4X5
#=GS J5Y4X5/1-194       OS Klebsiella sp. OBRC7
#=GS J5Y4X5/1-194       DE Ribonuclease D
#=GS J5Y4X5/1-194       DR GENE3D; 086409ddbb91fe32b321773f767b9729/1-194; 
#=GS J5Y4X5/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella sp. OBRC7; 
#=GS J5Y4X5/1-194       DR EC; 3.1.13.5; 
#=GS A0A1F2HDB8/1-194   AC A0A1F2HDB8
#=GS A0A1F2HDB8/1-194   OS Proteus sp. HMSC10D02
#=GS A0A1F2HDB8/1-194   DE Ribonuclease D
#=GS A0A1F2HDB8/1-194   DR GENE3D; 086409ddbb91fe32b321773f767b9729/1-194; 
#=GS A0A1F2HDB8/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Proteus; Proteus sp. HMSC10D02; 
#=GS A0A1F2HDB8/1-194   DR EC; 3.1.13.5; 
#=GS I4KTZ3/3-195       AC I4KTZ3
#=GS I4KTZ3/3-195       OS Pseudomonas synxantha BG33R
#=GS I4KTZ3/3-195       DE Ribonuclease D
#=GS I4KTZ3/3-195       DR GENE3D; 08ac15610397b5ffefd17790319c101c/3-195; 
#=GS I4KTZ3/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas synxantha; 
#=GS I4KTZ3/3-195       DR EC; 3.1.13.5; 
#=GS A0A0M2R862/1-190   AC A0A0M2R862
#=GS A0A0M2R862/1-190   OS Kiloniella litopenaei
#=GS A0A0M2R862/1-190   DE Ribonuclease D
#=GS A0A0M2R862/1-190   DR GENE3D; 08be8c1d2ca4da1e6deed15bdf273b3f/1-190; 
#=GS A0A0M2R862/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Kiloniellales; Kiloniellaceae; Kiloniella; Kiloniella litopenaei; 
#=GS A0A0M2R862/1-190   DR EC; 3.1.13.5; 
#=GS K9HGM7/1-191       AC K9HGM7
#=GS K9HGM7/1-191       OS Caenispirillum salinarum AK4
#=GS K9HGM7/1-191       DE Ribonuclease D
#=GS K9HGM7/1-191       DR GENE3D; 08bf060f3c7cb418397e793b582ce119/1-191; 
#=GS K9HGM7/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Caenispirillum; Caenispirillum salinarum; 
#=GS K9HGM7/1-191       DR EC; 3.1.13.5; 
#=GS A0A1B9L8U4/1-194   AC A0A1B9L8U4
#=GS A0A1B9L8U4/1-194   OS Gilliamella apicola
#=GS A0A1B9L8U4/1-194   DE Ribonuclease D
#=GS A0A1B9L8U4/1-194   DR GENE3D; 08df11015057e7f42073d83736da04ac/1-194; 
#=GS A0A1B9L8U4/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Orbales; Orbaceae; Gilliamella; Gilliamella apicola; 
#=GS A0A1B9L8U4/1-194   DR EC; 3.1.13.5; 
#=GS U9YWM1/1-190       AC U9YWM1
#=GS U9YWM1/1-190       OS Escherichia coli 113290
#=GS U9YWM1/1-190       DE Ribonuclease D
#=GS U9YWM1/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS U9YWM1/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS U9YWM1/1-190       DR EC; 3.1.13.5; 
#=GS N3NSL4/1-190       AC N3NSL4
#=GS N3NSL4/1-190       OS Escherichia coli P0301867.13
#=GS N3NSL4/1-190       DE Ribonuclease D
#=GS N3NSL4/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS N3NSL4/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS N3NSL4/1-190       DR EC; 3.1.13.5; 
#=GS D8B3P8/1-190       AC D8B3P8
#=GS D8B3P8/1-190       OS Escherichia coli MS 175-1
#=GS D8B3P8/1-190       DE Ribonuclease D
#=GS D8B3P8/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS D8B3P8/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS D8B3P8/1-190       DR EC; 3.1.13.5; 
#=GS H9URJ9/1-190       AC H9URJ9
#=GS H9URJ9/1-190       OS Escherichia coli P12b
#=GS H9URJ9/1-190       DE Ribonuclease D
#=GS H9URJ9/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS H9URJ9/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS H9URJ9/1-190       DR EC; 3.1.13.5; 
#=GS A0A0E0TZT4/1-190   AC A0A0E0TZT4
#=GS A0A0E0TZT4/1-190   OS Escherichia coli UMNK88
#=GS A0A0E0TZT4/1-190   DE Ribonuclease D
#=GS A0A0E0TZT4/1-190   DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS A0A0E0TZT4/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A0E0TZT4/1-190   DR EC; 3.1.13.5; 
#=GS N3FBT3/1-190       AC N3FBT3
#=GS N3FBT3/1-190       OS Escherichia coli P0301867.11
#=GS N3FBT3/1-190       DE Ribonuclease D
#=GS N3FBT3/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS N3FBT3/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS N3FBT3/1-190       DR EC; 3.1.13.5; 
#=GS H4UK20/1-190       AC H4UK20
#=GS H4UK20/1-190       OS Escherichia coli DEC6A
#=GS H4UK20/1-190       DE Ribonuclease D
#=GS H4UK20/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS H4UK20/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS H4UK20/1-190       DR EC; 3.1.13.5; 
#=GS A0A0E1LY23/1-190   AC A0A0E1LY23
#=GS A0A0E1LY23/1-190   OS Escherichia coli 1303
#=GS A0A0E1LY23/1-190   DE Ribonuclease D
#=GS A0A0E1LY23/1-190   DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS A0A0E1LY23/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A0E1LY23/1-190   DR EC; 3.1.13.5; 
#=GS N4P367/1-190       AC N4P367
#=GS N4P367/1-190       OS Escherichia coli P0301867.5
#=GS N4P367/1-190       DE Ribonuclease D
#=GS N4P367/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS N4P367/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS N4P367/1-190       DR EC; 3.1.13.5; 
#=GS A0A070T6Q1/1-190   AC A0A070T6Q1
#=GS A0A070T6Q1/1-190   OS Escherichia coli 2-210-07_S3_C3
#=GS A0A070T6Q1/1-190   DE Ribonuclease D
#=GS A0A070T6Q1/1-190   DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS A0A070T6Q1/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A070T6Q1/1-190   DR EC; 3.1.13.5; 
#=GS G0F6S0/1-190       AC G0F6S0
#=GS G0F6S0/1-190       OS Escherichia coli UMNF18
#=GS G0F6S0/1-190       DE Ribonuclease D
#=GS G0F6S0/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS G0F6S0/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS G0F6S0/1-190       DR EC; 3.1.13.5; 
#=GS M9EXC5/1-190       AC M9EXC5
#=GS M9EXC5/1-190       OS Escherichia coli P0301867.1
#=GS M9EXC5/1-190       DE Ribonuclease D
#=GS M9EXC5/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS M9EXC5/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS M9EXC5/1-190       DR EC; 3.1.13.5; 
#=GS N4PJ95/1-190       AC N4PJ95
#=GS N4PJ95/1-190       OS Escherichia coli P0301867.7
#=GS N4PJ95/1-190       DE Ribonuclease D
#=GS N4PJ95/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS N4PJ95/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS N4PJ95/1-190       DR EC; 3.1.13.5; 
#=GS A0A1J0HC25/1-190   AC A0A1J0HC25
#=GS A0A1J0HC25/1-190   OS Escherichia coli str. K-12 substr. W3110
#=GS A0A1J0HC25/1-190   DE Ribonuclease D
#=GS A0A1J0HC25/1-190   DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS A0A1J0HC25/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A1J0HC25/1-190   DR EC; 3.1.13.5; 
#=GS N2KFP0/1-190       AC N2KFP0
#=GS N2KFP0/1-190       OS Escherichia coli P0301867.2
#=GS N2KFP0/1-190       DE Ribonuclease D
#=GS N2KFP0/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS N2KFP0/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS N2KFP0/1-190       DR EC; 3.1.13.5; 
#=GS A0A0E2TPK6/1-190   AC A0A0E2TPK6
#=GS A0A0E2TPK6/1-190   OS Escherichia coli O121:H19 str. 2010C-3609
#=GS A0A0E2TPK6/1-190   DE Ribonuclease D
#=GS A0A0E2TPK6/1-190   DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS A0A0E2TPK6/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A0E2TPK6/1-190   DR EC; 3.1.13.5; 
#=GS F4SKV6/1-190       AC F4SKV6
#=GS F4SKV6/1-190       OS Escherichia coli H736
#=GS F4SKV6/1-190       DE Ribonuclease D
#=GS F4SKV6/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS F4SKV6/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS F4SKV6/1-190       DR EC; 3.1.13.5; 
#=GS A0A029PLG9/1-190   AC A0A029PLG9
#=GS A0A029PLG9/1-190   OS Escherichia coli 2-011-08_S1_C2
#=GS A0A029PLG9/1-190   DE Ribonuclease D
#=GS A0A029PLG9/1-190   DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS A0A029PLG9/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A029PLG9/1-190   DR EC; 3.1.13.5; 
#=GS N2JK91/1-190       AC N2JK91
#=GS N2JK91/1-190       OS Escherichia coli P0301867.4
#=GS N2JK91/1-190       DE Ribonuclease D
#=GS N2JK91/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS N2JK91/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS N2JK91/1-190       DR EC; 3.1.13.5; 
#=GS E1HMK0/1-190       AC E1HMK0
#=GS E1HMK0/1-190       OS Escherichia coli MS 146-1
#=GS E1HMK0/1-190       DE Ribonuclease D
#=GS E1HMK0/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS E1HMK0/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS E1HMK0/1-190       DR EC; 3.1.13.5; 
#=GS T9E1E4/1-190       AC T9E1E4
#=GS T9E1E4/1-190       OS Escherichia coli UMEA 3212-1
#=GS T9E1E4/1-190       DE Ribonuclease D
#=GS T9E1E4/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS T9E1E4/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS T9E1E4/1-190       DR EC; 3.1.13.5; 
#=GS I2XD05/1-190       AC I2XD05
#=GS I2XD05/1-190       OS Escherichia coli 2.3916
#=GS I2XD05/1-190       DE Ribonuclease D
#=GS I2XD05/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS I2XD05/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS I2XD05/1-190       DR EC; 3.1.13.5; 
#=GS A0A0M7PP10/1-190   AC A0A0M7PP10
#=GS A0A0M7PP10/1-190   OS Achromobacter sp.
#=GS A0A0M7PP10/1-190   DE Ribonuclease D
#=GS A0A0M7PP10/1-190   DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS A0A0M7PP10/1-190   DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Alcaligenaceae; Achromobacter; Achromobacter sp.; 
#=GS A0A0M7PP10/1-190   DR EC; 3.1.13.5; 
#=GS N4NMC1/1-190       AC N4NMC1
#=GS N4NMC1/1-190       OS Escherichia coli P0301867.3
#=GS N4NMC1/1-190       DE Ribonuclease D
#=GS N4NMC1/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS N4NMC1/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS N4NMC1/1-190       DR EC; 3.1.13.5; 
#=GS L3KMV8/1-190       AC L3KMV8
#=GS L3KMV8/1-190       OS Escherichia coli KTE51
#=GS L3KMV8/1-190       DE Ribonuclease D
#=GS L3KMV8/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS L3KMV8/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS L3KMV8/1-190       DR EC; 3.1.13.5; 
#=GS F4TFD1/1-190       AC F4TFD1
#=GS F4TFD1/1-190       OS Escherichia coli M718
#=GS F4TFD1/1-190       DE Ribonuclease D
#=GS F4TFD1/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS F4TFD1/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS F4TFD1/1-190       DR EC; 3.1.13.5; 
#=GS A0A069XL33/1-190   AC A0A069XL33
#=GS A0A069XL33/1-190   OS Escherichia coli 3-373-03_S4_C2
#=GS A0A069XL33/1-190   DE Ribonuclease D
#=GS A0A069XL33/1-190   DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS A0A069XL33/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A069XL33/1-190   DR EC; 3.1.13.5; 
#=GS A0A142UYF8/1-190   AC A0A142UYF8
#=GS A0A142UYF8/1-190   OS Escherichia coli str. Sanji
#=GS A0A142UYF8/1-190   DE Ribonuclease D
#=GS A0A142UYF8/1-190   DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS A0A142UYF8/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A142UYF8/1-190   DR EC; 3.1.13.5; 
#=GS D6IBB5/1-190       AC D6IBB5
#=GS D6IBB5/1-190       OS Escherichia coli B185
#=GS D6IBB5/1-190       DE Ribonuclease D
#=GS D6IBB5/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS D6IBB5/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS D6IBB5/1-190       DR EC; 3.1.13.5; 
#=GS D8AV71/1-190       AC D8AV71
#=GS D8AV71/1-190       OS Escherichia coli MS 116-1
#=GS D8AV71/1-190       DE Ribonuclease D
#=GS D8AV71/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS D8AV71/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS D8AV71/1-190       DR EC; 3.1.13.5; 
#=GS V1A310/1-190       AC V1A310
#=GS V1A310/1-190       OS Escherichia coli 908658
#=GS V1A310/1-190       DE Ribonuclease D
#=GS V1A310/1-190       DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS V1A310/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS V1A310/1-190       DR EC; 3.1.13.5; 
#=GS A0A037YFM0/1-190   AC A0A037YFM0
#=GS A0A037YFM0/1-190   OS Escherichia coli
#=GS A0A037YFM0/1-190   DE Ribonuclease D
#=GS A0A037YFM0/1-190   DR GENE3D; 08df775ce30a925ec2628824bae2b8a1/1-190; 
#=GS A0A037YFM0/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A037YFM0/1-190   DR EC; 3.1.13.5; 
#=GS A0A0P0DLK4/1-188   AC A0A0P0DLK4
#=GS A0A0P0DLK4/1-188   OS Brevundimonas sp. DS20
#=GS A0A0P0DLK4/1-188   DE Ribonuclease D
#=GS A0A0P0DLK4/1-188   DR GENE3D; 08f2d48dfafba1320090202d10a0f6aa/1-188; 
#=GS A0A0P0DLK4/1-188   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Brevundimonas; Brevundimonas sp. DS20; 
#=GS A0A0P0DLK4/1-188   DR EC; 3.1.13.5; 
#=GS A0A1H6CX32/1-189   AC A0A1H6CX32
#=GS A0A1H6CX32/1-189   OS Bosea lathyri
#=GS A0A1H6CX32/1-189   DE Ribonuclease D
#=GS A0A1H6CX32/1-189   DR GENE3D; 08f75c48b4706ec3f5d26b0fdb6d45ec/1-189; 
#=GS A0A1H6CX32/1-189   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bosea; Bosea lathyri; 
#=GS A0A1H6CX32/1-189   DR EC; 3.1.13.5; 
#=GS A0A1B8SZ41/6-198   AC A0A1B8SZ41
#=GS A0A1B8SZ41/6-198   OS Pseudomonas sp. AU12215
#=GS A0A1B8SZ41/6-198   DE Ribonuclease D
#=GS A0A1B8SZ41/6-198   DR GENE3D; 08fd23b911e4f7a5318dd249b9c52d68/6-198; 
#=GS A0A1B8SZ41/6-198   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. AU12215; 
#=GS A0A1B8SZ41/6-198   DR EC; 3.1.13.5; 
#=GS M1PDD5/1-189       AC M1PDD5
#=GS M1PDD5/1-189       OS Bartonella australis Aust/NH1
#=GS M1PDD5/1-189       DE Ribonuclease D
#=GS M1PDD5/1-189       DR GENE3D; 0904cce09740dbd1dbd081f6d468c1df/1-189; 
#=GS M1PDD5/1-189       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bartonellaceae; Bartonella; Bartonella australis; 
#=GS M1PDD5/1-189       DR EC; 3.1.13.5; 
#=GS A0A0Q6C7L2/1-190   AC A0A0Q6C7L2
#=GS A0A0Q6C7L2/1-190   OS Aureimonas sp. Leaf454
#=GS A0A0Q6C7L2/1-190   DE Ribonuclease D
#=GS A0A0Q6C7L2/1-190   DR GENE3D; 0905fe16b27e65aadb8a689bb867ac21/1-190; 
#=GS A0A0Q6C7L2/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Aurantimonadaceae; Aureimonas; Aureimonas sp. Leaf454; 
#=GS A0A0Q6C7L2/1-190   DR EC; 3.1.13.5; 
#=GS L0NEZ4/1-190       AC L0NEZ4
#=GS L0NEZ4/1-190       OS Rhizobium sp. NT-26
#=GS L0NEZ4/1-190       DE Ribonuclease D
#=GS L0NEZ4/1-190       DR GENE3D; 09183883b608069902d24ea989a99954/1-190; 
#=GS L0NEZ4/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. NT-26; 
#=GS L0NEZ4/1-190       DR EC; 3.1.13.5; 
#=GS A0A0I9PNG7/1-194   AC A0A0I9PNG7
#=GS A0A0I9PNG7/1-194   OS Klebsiella variicola
#=GS A0A0I9PNG7/1-194   DE Ribonuclease D
#=GS A0A0I9PNG7/1-194   DR GENE3D; 093581ea688a6f8b557750ada4a604be/1-194; 
#=GS A0A0I9PNG7/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella variicola; 
#=GS A0A0I9PNG7/1-194   DR EC; 3.1.13.5; 
#=GS A0A1H2EUN6/4-195   AC A0A1H2EUN6
#=GS A0A1H2EUN6/4-195   OS Pseudomonas pohangensis
#=GS A0A1H2EUN6/4-195   DE Ribonuclease D
#=GS A0A1H2EUN6/4-195   DR GENE3D; 09522c7e11de029bcdb1c10206d629ad/4-195; 
#=GS A0A1H2EUN6/4-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas pohangensis; 
#=GS A0A1H2EUN6/4-195   DR EC; 3.1.13.5; 
#=GS I1AX50/1-194       AC I1AX50
#=GS I1AX50/1-194       OS Citreicella sp. 357
#=GS I1AX50/1-194       DE Ribonuclease D
#=GS I1AX50/1-194       DR GENE3D; 095f1eab68be3f482bb2912357da1c47/1-194; 
#=GS I1AX50/1-194       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Citreicella; Citreicella sp. 357; 
#=GS I1AX50/1-194       DR EC; 3.1.13.5; 
#=GS I4JG67/33-224      AC I4JG67
#=GS I4JG67/33-224      OS Pseudomonas stutzeri TS44
#=GS I4JG67/33-224      DE Ribonuclease D
#=GS I4JG67/33-224      DR GENE3D; 0979808e6bda4709522703e956783d24/33-224; 
#=GS I4JG67/33-224      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; 
#=GS I4JG67/33-224      DR EC; 3.1.13.5; 
#=GS A0A1L3RMX3/46-235  AC A0A1L3RMX3
#=GS A0A1L3RMX3/46-235  OS Granulibacter bethesdensis
#=GS A0A1L3RMX3/46-235  DE Ribonuclease D
#=GS A0A1L3RMX3/46-235  DR GENE3D; 09977e6a97ab3860e5338164f84cf3e2/46-235; 
#=GS A0A1L3RMX3/46-235  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Granulibacter; Granulibacter bethesdensis; 
#=GS A0A1L3RMX3/46-235  DR EC; 3.1.13.5; 
#=GS A0A0T5P017/1-197   AC A0A0T5P017
#=GS A0A0T5P017/1-197   OS Roseovarius atlanticus
#=GS A0A0T5P017/1-197   DE Ribonuclease D
#=GS A0A0T5P017/1-197   DR GENE3D; 09a3fa94eca528761600d0386d7c0978/1-197; 
#=GS A0A0T5P017/1-197   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Roseovarius; Roseovarius atlanticus; 
#=GS A0A0T5P017/1-197   DR EC; 3.1.13.5; 
#=GS A0A0Q0SNP4/3-195   AC A0A0Q0SNP4
#=GS A0A0Q0SNP4/3-195   OS Pseudomonas endophytica
#=GS A0A0Q0SNP4/3-195   DE Ribonuclease D
#=GS A0A0Q0SNP4/3-195   DR GENE3D; 09ab4e00f118d74e26831684bc9069f1/3-195; 
#=GS A0A0Q0SNP4/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas endophytica; 
#=GS A0A0Q0SNP4/3-195   DR EC; 3.1.13.5; 
#=GS M1JG70/1-190       AC M1JG70
#=GS M1JG70/1-190       OS Citrobacter amalonaticus Y19
#=GS M1JG70/1-190       DE Ribonuclease D
#=GS M1JG70/1-190       DR GENE3D; 09c6ed7cb510fdfcf6f2f1fff6fb6901/1-190; 
#=GS M1JG70/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Citrobacter; Citrobacter amalonaticus; 
#=GS M1JG70/1-190       DR EC; 3.1.13.5; 
#=GS A0A0C5VS63/8-197   AC A0A0C5VS63
#=GS A0A0C5VS63/8-197   OS Gynuella sunshinyii YC6258
#=GS A0A0C5VS63/8-197   DE Ribonuclease D
#=GS A0A0C5VS63/8-197   DR GENE3D; 09ee7cb3745a2e5f4f2f0c919eb667e3/8-197; 
#=GS A0A0C5VS63/8-197   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Saccharospirillaceae; Gynuella; Gynuella sunshinyii; 
#=GS A0A0C5VS63/8-197   DR EC; 3.1.13.5; 
#=GS A0A0D8CFV6/1-193   AC A0A0D8CFV6
#=GS A0A0D8CFV6/1-193   OS Thalassospira sp. HJ
#=GS A0A0D8CFV6/1-193   DE Ribonuclease D
#=GS A0A0D8CFV6/1-193   DR GENE3D; 09fd94f21c60aa30e19ea0a82041b5fb/1-193; 
#=GS A0A0D8CFV6/1-193   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Thalassospira; Thalassospira sp. HJ; 
#=GS A0A0D8CFV6/1-193   DR EC; 3.1.13.5; 
#=GS B6VL44/1-194       AC B6VL44
#=GS B6VL44/1-194       OS Photorhabdus asymbiotica subsp. asymbiotica ATCC 43949
#=GS B6VL44/1-194       DE Ribonuclease D
#=GS B6VL44/1-194       DR GENE3D; 0a108918fcbc2ea70853f2b8f5ad5993/1-194; 
#=GS B6VL44/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Photorhabdus; Photorhabdus asymbiotica; Photorhabdus asymbiotica subsp. asymbiotica; 
#=GS B6VL44/1-194       DR EC; 3.1.13.5; 
#=GS A0A0A7JMA4/3-195   AC A0A0A7JMA4
#=GS A0A0A7JMA4/3-195   OS Pseudomonas parafulva
#=GS A0A0A7JMA4/3-195   DE Ribonuclease D
#=GS A0A0A7JMA4/3-195   DR GENE3D; 0a2dd23dbdf4dcb132721f3cb03a891a/3-195; 
#=GS A0A0A7JMA4/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas parafulva; 
#=GS A0A0A7JMA4/3-195   DR EC; 3.1.13.5; 
#=GS M2UZB0/3-194       AC M2UZB0
#=GS M2UZB0/3-194       OS Pseudomonas stutzeri NF13
#=GS M2UZB0/3-194       DE Ribonuclease D
#=GS M2UZB0/3-194       DR GENE3D; 0a3edc74d9a097cb077a052635de2359/3-194; 
#=GS M2UZB0/3-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; 
#=GS M2UZB0/3-194       DR EC; 3.1.13.5; 
#=GS G8LG68/10-203      AC G8LG68
#=GS G8LG68/10-203      OS Enterobacter cloacae EcWSU1
#=GS G8LG68/10-203      DE Ribonuclease D
#=GS G8LG68/10-203      DR GENE3D; 0a68f4ac4e7313438a054db529254287/10-203; 
#=GS G8LG68/10-203      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter cloacae; 
#=GS G8LG68/10-203      DR EC; 3.1.13.5; 
#=GS A0A1M6BQJ0/31-223  AC A0A1M6BQJ0
#=GS A0A1M6BQJ0/31-223  OS Vibrio aerogenes CECT 7868
#=GS A0A1M6BQJ0/31-223  DE Ribonuclease D
#=GS A0A1M6BQJ0/31-223  DR GENE3D; 0a81c63d97144745afad73ce473d63d7/31-223; 
#=GS A0A1M6BQJ0/31-223  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio aerogenes; 
#=GS A0A1M6BQJ0/31-223  DR EC; 3.1.13.5; 
#=GS A0A1E3GXX1/1-192   AC A0A1E3GXX1
#=GS A0A1E3GXX1/1-192   OS Methylobrevis pamukkalensis
#=GS A0A1E3GXX1/1-192   DE Ribonuclease D
#=GS A0A1E3GXX1/1-192   DR GENE3D; 0ab405e524ed2393dd9993be2f07f922/1-192; 
#=GS A0A1E3GXX1/1-192   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobrevis; Methylobrevis pamukkalensis; 
#=GS A0A1E3GXX1/1-192   DR EC; 3.1.13.5; 
#=GS A0A1L5Q3G0/1-195   AC A0A1L5Q3G0
#=GS A0A1L5Q3G0/1-195   OS Marivivens sp. JLT3646
#=GS A0A1L5Q3G0/1-195   DE Ribonuclease D
#=GS A0A1L5Q3G0/1-195   DR GENE3D; 0ab78bb43a6ba12a60ae64c481ed6ac7/1-195; 
#=GS A0A1L5Q3G0/1-195   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Marivivens; Marivivens sp. JLT3646; 
#=GS A0A1L5Q3G0/1-195   DR EC; 3.1.13.5; 
#=GS A0A1B7ZA03/1-195   AC A0A1B7ZA03
#=GS A0A1B7ZA03/1-195   OS Donghicola sp. JL3646
#=GS A0A1B7ZA03/1-195   DE Ribonuclease D
#=GS A0A1B7ZA03/1-195   DR GENE3D; 0ab78bb43a6ba12a60ae64c481ed6ac7/1-195; 
#=GS A0A1B7ZA03/1-195   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Donghicola; Donghicola sp. JL3646; 
#=GS A0A1B7ZA03/1-195   DR EC; 3.1.13.5; 
#=GS A0A0P0QFU9/1-194   AC A0A0P0QFU9
#=GS A0A0P0QFU9/1-194   OS Serratia marcescens
#=GS A0A0P0QFU9/1-194   DE Ribonuclease D
#=GS A0A0P0QFU9/1-194   DR GENE3D; 0ac275cc4531ff3f2d6ff422747ba215/1-194; 
#=GS A0A0P0QFU9/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Serratia; Serratia marcescens; 
#=GS A0A0P0QFU9/1-194   DR EC; 3.1.13.5; 
#=GS A0A086GDW2/1-194   AC A0A086GDW2
#=GS A0A086GDW2/1-194   OS Serratia nematodiphila DZ0503SBS1
#=GS A0A086GDW2/1-194   DE Ribonuclease D
#=GS A0A086GDW2/1-194   DR GENE3D; 0ac275cc4531ff3f2d6ff422747ba215/1-194; 
#=GS A0A086GDW2/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Serratia; Serratia nematodiphila; 
#=GS A0A086GDW2/1-194   DR EC; 3.1.13.5; 
#=GS A0A0B2C057/4-194   AC A0A0B2C057
#=GS A0A0B2C057/4-194   OS Porphyrobacter mercurialis
#=GS A0A0B2C057/4-194   DE Ribonuclease D
#=GS A0A0B2C057/4-194   DR GENE3D; 0ad611bb909c904589b0e959e9391960/4-194; 
#=GS A0A0B2C057/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Porphyrobacter; Porphyrobacter mercurialis; 
#=GS A0A0B2C057/4-194   DR EC; 3.1.13.5; 
#=GS A0A0H3PFF1/10-202  AC A0A0H3PFF1
#=GS A0A0H3PFF1/10-202  OS Haemophilus influenzae 3655
#=GS A0A0H3PFF1/10-202  DE Ribonuclease D
#=GS A0A0H3PFF1/10-202  DR GENE3D; 0af7a14e2209f8173a23010165e90ae2/10-202; 
#=GS A0A0H3PFF1/10-202  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; Haemophilus influenzae; 
#=GS A0A0H3PFF1/10-202  DR EC; 3.1.13.5; 
#=GS S5XX28/34-233      AC S5XX28
#=GS S5XX28/34-233      OS Paracoccus aminophilus JCM 7686
#=GS S5XX28/34-233      DE Ribonuclease D
#=GS S5XX28/34-233      DR GENE3D; 0b530d4cdebfb0437ce87b046b503244/34-233; 
#=GS S5XX28/34-233      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Paracoccus; Paracoccus aminophilus; 
#=GS S5XX28/34-233      DR EC; 3.1.13.5; 
#=GS L1K5V3/1-194       AC L1K5V3
#=GS L1K5V3/1-194       OS Rhodobacter sp. AKP1
#=GS L1K5V3/1-194       DE Ribonuclease D
#=GS L1K5V3/1-194       DR GENE3D; 0ba1b272e83296687ea07b2a38f029af/1-194; 
#=GS L1K5V3/1-194       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacter; Rhodobacter sp. AKP1; 
#=GS L1K5V3/1-194       DR EC; 3.1.13.5; 
#=GS A0A080KKV5/1-194   AC A0A080KKV5
#=GS A0A080KKV5/1-194   OS Gilliamella apicola SCGC AB-598-B02
#=GS A0A080KKV5/1-194   DE Ribonuclease D
#=GS A0A080KKV5/1-194   DR GENE3D; 0bb052f82cc7e93480a1d2df979aa342/1-194; 
#=GS A0A080KKV5/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Orbales; Orbaceae; Gilliamella; Gilliamella apicola; 
#=GS A0A080KKV5/1-194   DR EC; 3.1.13.5; 
#=GS A0A1B9V8I6/1-190   AC A0A1B9V8I6
#=GS A0A1B9V8I6/1-190   OS Agrobacterium tumefaciens
#=GS A0A1B9V8I6/1-190   DE Ribonuclease D
#=GS A0A1B9V8I6/1-190   DR GENE3D; 0bd81ecb9e721e9bd60a9db7b0790d78/1-190; 
#=GS A0A1B9V8I6/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium tumefaciens complex; Agrobacterium tumefaciens; 
#=GS A0A1B9V8I6/1-190   DR EC; 3.1.13.5; 
#=GS A0A0F3LGS3/1-188   AC A0A0F3LGS3
#=GS A0A0F3LGS3/1-188   OS Brevundimonas sp. KM4
#=GS A0A0F3LGS3/1-188   DE Ribonuclease D
#=GS A0A0F3LGS3/1-188   DR GENE3D; 0be50035e6bb8addf256e26802d1e37a/1-188; 
#=GS A0A0F3LGS3/1-188   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Brevundimonas; Brevundimonas sp. KM4; 
#=GS A0A0F3LGS3/1-188   DR EC; 3.1.13.5; 
#=GS A0A0B4CI91/1-188   AC A0A0B4CI91
#=GS A0A0B4CI91/1-188   OS Brevundimonas nasdae
#=GS A0A0B4CI91/1-188   DE Ribonuclease D
#=GS A0A0B4CI91/1-188   DR GENE3D; 0be50035e6bb8addf256e26802d1e37a/1-188; 
#=GS A0A0B4CI91/1-188   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Brevundimonas; Brevundimonas nasdae; 
#=GS A0A0B4CI91/1-188   DR EC; 3.1.13.5; 
#=GS A0A0L8ITU4/3-194   AC A0A0L8ITU4
#=GS A0A0L8ITU4/3-194   OS Pseudomonas syringae pv. aceris
#=GS A0A0L8ITU4/3-194   DE Ribonuclease D
#=GS A0A0L8ITU4/3-194   DR GENE3D; 0c1dbb1424be9fa2a1e989c7f3b8ac4f/3-194; 
#=GS A0A0L8ITU4/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 1; Pseudomonas syringae; 
#=GS A0A0L8ITU4/3-194   DR EC; 3.1.13.5; 
#=GS A0A023WVK6/3-194   AC A0A023WVK6
#=GS A0A023WVK6/3-194   OS Pseudomonas stutzeri
#=GS A0A023WVK6/3-194   DE Ribonuclease D
#=GS A0A023WVK6/3-194   DR GENE3D; 0c22816bf1a163467b95d73216bc811c/3-194; 
#=GS A0A023WVK6/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; 
#=GS A0A023WVK6/3-194   DR EC; 3.1.13.5; 
#=GS A0A0T9UAG3/21-214  AC A0A0T9UAG3
#=GS A0A0T9UAG3/21-214  OS Yersinia frederiksenii
#=GS A0A0T9UAG3/21-214  DE Ribonuclease D
#=GS A0A0T9UAG3/21-214  DR GENE3D; 0c39deed492540e447105a14925f22c2/21-214; 
#=GS A0A0T9UAG3/21-214  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Yersinia; Yersinia frederiksenii; 
#=GS A0A0T9UAG3/21-214  DR EC; 3.1.13.5; 
#=GS K7SGH0/12-201      AC K7SGH0
#=GS K7SGH0/12-201      OS Gluconobacter oxydans H24
#=GS K7SGH0/12-201      DE Ribonuclease D
#=GS K7SGH0/12-201      DR GENE3D; 0c503297c83733d0cf4de533970f6930/12-201; 
#=GS K7SGH0/12-201      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Gluconobacter; Gluconobacter oxydans; 
#=GS K7SGH0/12-201      DR EC; 3.1.13.5; 
#=GS M9MA20/12-201      AC M9MA20
#=GS M9MA20/12-201      OS Gluconobacter thailandicus NBRC 3255
#=GS M9MA20/12-201      DE Ribonuclease D
#=GS M9MA20/12-201      DR GENE3D; 0c503297c83733d0cf4de533970f6930/12-201; 
#=GS M9MA20/12-201      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Gluconobacter; Gluconobacter thailandicus; 
#=GS M9MA20/12-201      DR EC; 3.1.13.5; 
#=GS A0A0N1KHJ7/9-202   AC A0A0N1KHJ7
#=GS A0A0N1KHJ7/9-202   OS Moellerella wisconsensis ATCC 35017
#=GS A0A0N1KHJ7/9-202   DE Ribonuclease D
#=GS A0A0N1KHJ7/9-202   DR GENE3D; 0c5a4d1f43db0821ac64753a401c7d10/9-202; 
#=GS A0A0N1KHJ7/9-202   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Moellerella; Moellerella wisconsensis; 
#=GS A0A0N1KHJ7/9-202   DR EC; 3.1.13.5; 
#=GS A0A1L9JUT7/20-213  AC A0A1L9JUT7
#=GS A0A1L9JUT7/20-213  OS Vibrio vulnificus
#=GS A0A1L9JUT7/20-213  DE Ribonuclease D
#=GS A0A1L9JUT7/20-213  DR GENE3D; 0c62a2d352e04c29f93657b6c906f339/20-213; 
#=GS A0A1L9JUT7/20-213  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio vulnificus; 
#=GS A0A1L9JUT7/20-213  DR EC; 3.1.13.5; 
#=GS A0A072GHX7/1-194   AC A0A072GHX7
#=GS A0A072GHX7/1-194   OS Vibrio parahaemolyticus
#=GS A0A072GHX7/1-194   DE Ribonuclease D
#=GS A0A072GHX7/1-194   DR GENE3D; 0c64ddab6e6aad445883ecbc085077f9/1-194; 
#=GS A0A072GHX7/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio parahaemolyticus; 
#=GS A0A072GHX7/1-194   DR EC; 3.1.13.5; 
#=GS A0A154NBS8/4-194   AC A0A154NBS8
#=GS A0A154NBS8/4-194   OS Sphingomonas melonis TY
#=GS A0A154NBS8/4-194   DE Ribonuclease D
#=GS A0A154NBS8/4-194   DR GENE3D; 0c6e4bee3b50a520aae13552222767ca/4-194; 
#=GS A0A154NBS8/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas melonis; 
#=GS A0A154NBS8/4-194   DR EC; 3.1.13.5; 
#=GS H0SIT3/1-191       AC H0SIT3
#=GS H0SIT3/1-191       OS Bradyrhizobium sp. ORS 375
#=GS H0SIT3/1-191       DE Ribonuclease D
#=GS H0SIT3/1-191       DR GENE3D; 0c856f675327983561846167252f7131/1-191; 
#=GS H0SIT3/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium sp. ORS 375; 
#=GS H0SIT3/1-191       DR EC; 3.1.13.5; 
#=GS Q7VLG8/5-198       AC Q7VLG8
#=GS Q7VLG8/5-198       OS Haemophilus ducreyi 35000HP
#=GS Q7VLG8/5-198       DE Ribonuclease D
#=GS Q7VLG8/5-198       DR GENE3D; 0cdb3e5703ca68ce98d666650f41d6bd/5-198; 
#=GS Q7VLG8/5-198       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; [Haemophilus] ducreyi; 
#=GS Q7VLG8/5-198       DR EC; 3.1.13.5; 
#=GS V7F3Z1/1-191       AC V7F3Z1
#=GS V7F3Z1/1-191       OS Mesorhizobium sp. LSJC264A00
#=GS V7F3Z1/1-191       DE Ribonuclease D
#=GS V7F3Z1/1-191       DR GENE3D; 0cf41678358f3d327557d25da339f0aa/1-191; 
#=GS V7F3Z1/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LSJC264A00; 
#=GS V7F3Z1/1-191       DR EC; 3.1.13.5; 
#=GS A0A166HTF1/3-194   AC A0A166HTF1
#=GS A0A166HTF1/3-194   OS Pseudomonas stutzeri
#=GS A0A166HTF1/3-194   DE Ribonuclease D
#=GS A0A166HTF1/3-194   DR GENE3D; 0cfe94e42ba4319523da7ca19c35ed04/3-194; 
#=GS A0A166HTF1/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; 
#=GS A0A166HTF1/3-194   DR EC; 3.1.13.5; 
#=GS J2UAF7/1-194       AC J2UAF7
#=GS J2UAF7/1-194       OS Pantoea sp. YR343
#=GS J2UAF7/1-194       DE Ribonuclease D
#=GS J2UAF7/1-194       DR GENE3D; 0d0f1a81f76f432230cb29c7fd37d529/1-194; 
#=GS J2UAF7/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Pantoea; Pantoea sp. YR343; 
#=GS J2UAF7/1-194       DR EC; 3.1.13.5; 
#=GS A0A0L7ZQ25/17-210  AC A0A0L7ZQ25
#=GS A0A0L7ZQ25/17-210  OS Vibrio parahaemolyticus
#=GS A0A0L7ZQ25/17-210  DE Ribonuclease D
#=GS A0A0L7ZQ25/17-210  DR GENE3D; 0d4e3afd9174300e0d5d78ddb8125cc8/17-210; 
#=GS A0A0L7ZQ25/17-210  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio parahaemolyticus; 
#=GS A0A0L7ZQ25/17-210  DR EC; 3.1.13.5; 
#=GS A0A1E3GPF3/1-193   AC A0A1E3GPF3
#=GS A0A1E3GPF3/1-193   OS Methylophaga muralis
#=GS A0A1E3GPF3/1-193   DE Ribonuclease D
#=GS A0A1E3GPF3/1-193   DR GENE3D; 0d5840f7912dbcac46aab20b590204c1/1-193; 
#=GS A0A1E3GPF3/1-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Piscirickettsiaceae; Methylophaga; Methylophaga muralis; 
#=GS A0A1E3GPF3/1-193   DR EC; 3.1.13.5; 
#=GS U1WPZ1/1-189       AC U1WPZ1
#=GS U1WPZ1/1-189       OS Atopobium sp. oral taxon 810 str. F0209
#=GS U1WPZ1/1-189       DE Ribonuclease D
#=GS U1WPZ1/1-189       DR GENE3D; 0d6ad854180e63adc6d56483733c745b/1-189; 
#=GS U1WPZ1/1-189       DR ORG; Bacteria; Actinobacteria; Coriobacteriia; Coriobacteriales; Atopobiaceae; Atopobium; Atopobium sp. oral taxon 810; 
#=GS U1WPZ1/1-189       DR EC; 3.1.13.5; 
#=GS A8H5D0/2-194       AC A8H5D0
#=GS A8H5D0/2-194       OS Shewanella pealeana ATCC 700345
#=GS A8H5D0/2-194       DE Ribonuclease D
#=GS A8H5D0/2-194       DR GENE3D; 0d89e8b155b6fde3fe8cb799a55211fd/2-194; 
#=GS A8H5D0/2-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella pealeana; 
#=GS A8H5D0/2-194       DR EC; 3.1.13.5; 
#=GS A0A0I9SM77/1-186   AC A0A0I9SM77
#=GS A0A0I9SM77/1-186   OS Pseudomonas sp. BICA1-14
#=GS A0A0I9SM77/1-186   DE Ribonuclease D
#=GS A0A0I9SM77/1-186   DR GENE3D; 0da063db3f8a223095ba989214998f72/1-186; 
#=GS A0A0I9SM77/1-186   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas sp. BICA1-14; 
#=GS A0A0I9SM77/1-186   DR EC; 3.1.13.5; 
#=GS K5UKS5/1-194       AC K5UKS5
#=GS K5UKS5/1-194       OS Vibrio sp. HENC-01
#=GS K5UKS5/1-194       DE Ribonuclease D
#=GS K5UKS5/1-194       DR GENE3D; 0da3a8d15c609429eebeacb0741c0f1a/1-194; 
#=GS K5UKS5/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. HENC-01; 
#=GS K5UKS5/1-194       DR EC; 3.1.13.5; 
#=GS A0A0L6CVS5/1-195   AC A0A0L6CVS5
#=GS A0A0L6CVS5/1-195   OS Roseovarius tolerans
#=GS A0A0L6CVS5/1-195   DE Ribonuclease D
#=GS A0A0L6CVS5/1-195   DR GENE3D; 0dd6982884c7b34945ecd7aa56fac3df/1-195; 
#=GS A0A0L6CVS5/1-195   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Roseovarius; Roseovarius tolerans; 
#=GS A0A0L6CVS5/1-195   DR EC; 3.1.13.5; 
#=GS A0A0F7PN81/1-193   AC A0A0F7PN81
#=GS A0A0F7PN81/1-193   OS Hoeflea sp. IMCC20628
#=GS A0A0F7PN81/1-193   DE Ribonuclease D
#=GS A0A0F7PN81/1-193   DR GENE3D; 0de725081f448925abfe134a9ba7b19e/1-193; 
#=GS A0A0F7PN81/1-193   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Hoeflea; Hoeflea sp. IMCC20628; 
#=GS A0A0F7PN81/1-193   DR EC; 3.1.13.5; 
#=GS A0A1E2TVM2/1-193   AC A0A1E2TVM2
#=GS A0A1E2TVM2/1-193   OS Pseudoalteromonas sp. BMB
#=GS A0A1E2TVM2/1-193   DE Ribonuclease D
#=GS A0A1E2TVM2/1-193   DR GENE3D; 0df2322cd1f80e39ff6cbca77d41f28e/1-193; 
#=GS A0A1E2TVM2/1-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas sp. BMB; 
#=GS A0A1E2TVM2/1-193   DR EC; 3.1.13.5; 
#=GS A0A169WIZ1/1-194   AC A0A169WIZ1
#=GS A0A169WIZ1/1-194   OS Klebsiella oxytoca
#=GS A0A169WIZ1/1-194   DE Ribonuclease D
#=GS A0A169WIZ1/1-194   DR GENE3D; 0df3bed41d1d31a35cceb94037b6a238/1-194; 
#=GS A0A169WIZ1/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella oxytoca; 
#=GS A0A169WIZ1/1-194   DR EC; 3.1.13.5; 
#=GS A0A084TE60/1-193   AC A0A084TE60
#=GS A0A084TE60/1-193   OS Vibrio sp. ER1A
#=GS A0A084TE60/1-193   DE Ribonuclease D
#=GS A0A084TE60/1-193   DR GENE3D; 0e09ec7f1f9312bf2c405d895801b71a/1-193; 
#=GS A0A084TE60/1-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. ER1A; 
#=GS A0A084TE60/1-193   DR EC; 3.1.13.5; 
#=GS S6DB27/12-200      AC S6DB27
#=GS S6DB27/12-200      OS Acetobacter pasteurianus 386B
#=GS S6DB27/12-200      DE Ribonuclease D
#=GS S6DB27/12-200      DR GENE3D; 0e2377820b828d01924db815712d53a7/12-200; 
#=GS S6DB27/12-200      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Acetobacter; Acetobacter pasteurianus; 
#=GS S6DB27/12-200      DR EC; 3.1.13.5; 
#=GS A0A0V0PUB7/1-199   AC A0A0V0PUB7
#=GS A0A0V0PUB7/1-199   OS Paracoccus sp. MKU1
#=GS A0A0V0PUB7/1-199   DE Ribonuclease D
#=GS A0A0V0PUB7/1-199   DR GENE3D; 0e5040d4bdb8e2c9c7b1a67096c6cb49/1-199; 
#=GS A0A0V0PUB7/1-199   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Paracoccus; Paracoccus sp. MKU1; 
#=GS A0A0V0PUB7/1-199   DR EC; 3.1.13.5; 
#=GS A0A169R0U0/1-190   AC A0A169R0U0
#=GS A0A169R0U0/1-190   OS Klebsiella oxytoca
#=GS A0A169R0U0/1-190   DE Ribonuclease D
#=GS A0A169R0U0/1-190   DR GENE3D; 0e65ab5c6181ec0fade5e11424fbc75d/1-190; 
#=GS A0A169R0U0/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella oxytoca; 
#=GS A0A169R0U0/1-190   DR EC; 3.1.13.5; 
#=GS A0A0E0WZL4/1-190   AC A0A0E0WZL4
#=GS A0A0E0WZL4/1-190   OS Klebsiella michiganensis E718
#=GS A0A0E0WZL4/1-190   DE Ribonuclease D
#=GS A0A0E0WZL4/1-190   DR GENE3D; 0e65ab5c6181ec0fade5e11424fbc75d/1-190; 
#=GS A0A0E0WZL4/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella michiganensis; 
#=GS A0A0E0WZL4/1-190   DR EC; 3.1.13.5; 
#=GS U4VG89/1-194       AC U4VG89
#=GS U4VG89/1-194       OS Ochrobactrum intermedium 229E
#=GS U4VG89/1-194       DE Ribonuclease D
#=GS U4VG89/1-194       DR GENE3D; 0e727f2e528c64bc65ff3a0e56748a7d/1-194; 
#=GS U4VG89/1-194       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Ochrobactrum; Ochrobactrum intermedium; 
#=GS U4VG89/1-194       DR EC; 3.1.13.5; 
#=GS A0A1B5DMQ2/3-195   AC A0A1B5DMQ2
#=GS A0A1B5DMQ2/3-195   OS Pseudomonas sp. 44 R 15
#=GS A0A1B5DMQ2/3-195   DE Ribonuclease D
#=GS A0A1B5DMQ2/3-195   DR GENE3D; 0e9f92f6dcafe78070db449bf220ee54/3-195; 
#=GS A0A1B5DMQ2/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. 44 R 15; 
#=GS A0A1B5DMQ2/3-195   DR EC; 3.1.13.5; 
#=GS A0A037UT85/27-215  AC A0A037UT85
#=GS A0A037UT85/27-215  OS Rhodomicrobium udaipurense JA643
#=GS A0A037UT85/27-215  DE Ribonuclease D
#=GS A0A037UT85/27-215  DR GENE3D; 0eba8f3d6deccd7db54080dca7d2eba6/27-215; 
#=GS A0A037UT85/27-215  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Rhodomicrobium; Rhodomicrobium udaipurense; 
#=GS A0A037UT85/27-215  DR EC; 3.1.13.5; 
#=GS A0A0F7Y5T9/3-195   AC A0A0F7Y5T9
#=GS A0A0F7Y5T9/3-195   OS Pseudomonas sp. CCOS 191
#=GS A0A0F7Y5T9/3-195   DE Ribonuclease D
#=GS A0A0F7Y5T9/3-195   DR GENE3D; 0ec3779f8248207240c87a854253b9c2/3-195; 
#=GS A0A0F7Y5T9/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. CCOS 191; 
#=GS A0A0F7Y5T9/3-195   DR EC; 3.1.13.5; 
#=GS A0A173KU17/4-196   AC A0A173KU17
#=GS A0A173KU17/4-196   OS Sphingobium sp. EP60837
#=GS A0A173KU17/4-196   DE Ribonuclease D
#=GS A0A173KU17/4-196   DR GENE3D; 0ed8713ebd5604ad81cdf323448fc3e6/4-196; 
#=GS A0A173KU17/4-196   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium sp. EP60837; 
#=GS A0A173KU17/4-196   DR EC; 3.1.13.5; 
#=GS A0A0W1DG72/4-194   AC A0A0W1DG72
#=GS A0A0W1DG72/4-194   OS Sphingopyxis sp. H115
#=GS A0A0W1DG72/4-194   DE Ribonuclease D
#=GS A0A0W1DG72/4-194   DR GENE3D; 0edd9f74d32b56c577f4703525122a50/4-194; 
#=GS A0A0W1DG72/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis sp. H115; 
#=GS A0A0W1DG72/4-194   DR EC; 3.1.13.5; 
#=GS A0A096KRA8/1-189   AC A0A096KRA8
#=GS A0A096KRA8/1-189   OS Collinsella sp. 4_8_47FAA
#=GS A0A096KRA8/1-189   DE Ribonuclease D
#=GS A0A096KRA8/1-189   DR GENE3D; 0ee115c1fd04470838c81560c19088d2/1-189; 
#=GS A0A096KRA8/1-189   DR ORG; Bacteria; Actinobacteria; Coriobacteriia; Coriobacteriales; Coriobacteriaceae; Collinsella; Collinsella sp. 4_8_47FAA; 
#=GS A0A096KRA8/1-189   DR EC; 3.1.13.5; 
#=GS D7A7J0/1-190       AC D7A7J0
#=GS D7A7J0/1-190       OS Starkeya novella DSM 506
#=GS D7A7J0/1-190       DE Ribonuclease D
#=GS D7A7J0/1-190       DR GENE3D; 0ee782d5377962f8a526a56482cb9def/1-190; 
#=GS D7A7J0/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Xanthobacteraceae; Starkeya; Starkeya novella; 
#=GS D7A7J0/1-190       DR EC; 3.1.13.5; 
#=GS A0A1E4BYD1/2-193   AC A0A1E4BYD1
#=GS A0A1E4BYD1/2-193   OS Kaistia sp. SCN 65-12
#=GS A0A1E4BYD1/2-193   DE Ribonuclease D
#=GS A0A1E4BYD1/2-193   DR GENE3D; 0eecebc6c59384d0cf79d2da4fffbc18/2-193; 
#=GS A0A1E4BYD1/2-193   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Kaistia; Kaistia sp. SCN 65-12; 
#=GS A0A1E4BYD1/2-193   DR EC; 3.1.13.5; 
#=GS A0A1D7R1S4/13-205  AC A0A1D7R1S4
#=GS A0A1D7R1S4/13-205  OS Pasteurella multocida
#=GS A0A1D7R1S4/13-205  DE Ribonuclease D
#=GS A0A1D7R1S4/13-205  DR GENE3D; 0ef5def599ac12013137e9b3c3490fba/13-205; 
#=GS A0A1D7R1S4/13-205  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Pasteurella; Pasteurella multocida; 
#=GS A0A1D7R1S4/13-205  DR EC; 3.1.13.5; 
#=GS A0A022PRS4/1-194   AC A0A022PRS4
#=GS A0A022PRS4/1-194   OS Photorhabdus luminescens BA1
#=GS A0A022PRS4/1-194   DE Ribonuclease D
#=GS A0A022PRS4/1-194   DR GENE3D; 0f15516a7213bd3eeb5171018c536861/1-194; 
#=GS A0A022PRS4/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Photorhabdus; Photorhabdus luminescens; 
#=GS A0A022PRS4/1-194   DR EC; 3.1.13.5; 
#=GS A0A0C9MQE7/11-201  AC A0A0C9MQE7
#=GS A0A0C9MQE7/11-201  OS Sphingomonas paucimobilis NBRC 13935
#=GS A0A0C9MQE7/11-201  DE Ribonuclease D
#=GS A0A0C9MQE7/11-201  DR GENE3D; 0f2eddd950b44e2d4ac37420149e6aaa/11-201; 
#=GS A0A0C9MQE7/11-201  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas paucimobilis; 
#=GS A0A0C9MQE7/11-201  DR EC; 3.1.13.5; 
#=GS A0A1J5KDA0/13-205  AC A0A1J5KDA0
#=GS A0A1J5KDA0/13-205  OS Pasteurella multocida subsp. multocida
#=GS A0A1J5KDA0/13-205  DE Ribonuclease D
#=GS A0A1J5KDA0/13-205  DR GENE3D; 0f49e2ca55bd9793bf633b58e4d112ee/13-205; 
#=GS A0A1J5KDA0/13-205  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Pasteurella; Pasteurella multocida; Pasteurella multocida subsp. multocida; 
#=GS A0A1J5KDA0/13-205  DR EC; 3.1.13.5; 
#=GS A0A126QGX7/13-205  AC A0A126QGX7
#=GS A0A126QGX7/13-205  OS Pasteurella multocida
#=GS A0A126QGX7/13-205  DE Ribonuclease D
#=GS A0A126QGX7/13-205  DR GENE3D; 0f49e2ca55bd9793bf633b58e4d112ee/13-205; 
#=GS A0A126QGX7/13-205  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Pasteurella; Pasteurella multocida; 
#=GS A0A126QGX7/13-205  DR EC; 3.1.13.5; 
#=GS A0A1B2F979/3-195   AC A0A1B2F979
#=GS A0A1B2F979/3-195   OS Pseudomonas putida
#=GS A0A1B2F979/3-195   DE Ribonuclease D
#=GS A0A1B2F979/3-195   DR GENE3D; 0f831870780a793d3dac543fb7c94792/3-195; 
#=GS A0A1B2F979/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; 
#=GS A0A1B2F979/3-195   DR EC; 3.1.13.5; 
#=GS A0A0U5MU24/1-192   AC A0A0U5MU24
#=GS A0A0U5MU24/1-192   OS Brucella vulpis
#=GS A0A0U5MU24/1-192   DE Ribonuclease D
#=GS A0A0U5MU24/1-192   DR GENE3D; 0fe1b33a781dd39e59dd706046ccf5ba/1-192; 
#=GS A0A0U5MU24/1-192   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella vulpis; 
#=GS A0A0U5MU24/1-192   DR EC; 3.1.13.5; 
#=GS G6EXC2/11-198      AC G6EXC2
#=GS G6EXC2/11-198      OS Commensalibacter intestini A911
#=GS G6EXC2/11-198      DE Ribonuclease D
#=GS G6EXC2/11-198      DR GENE3D; 0ff61121b61070d944fbef81a80b67de/11-198; 
#=GS G6EXC2/11-198      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Commensalibacter; Commensalibacter intestini; 
#=GS G6EXC2/11-198      DR EC; 3.1.13.5; 
#=GS W0TK01/1-193       AC W0TK01
#=GS W0TK01/1-193       OS Thiolapillus brandeum
#=GS W0TK01/1-193       DE Ribonuclease D
#=GS W0TK01/1-193       DR GENE3D; 1009e81d89c62aea04e15e53e7d9903b/1-193; 
#=GS W0TK01/1-193       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiolapillus; Thiolapillus brandeum; 
#=GS W0TK01/1-193       DR EC; 3.1.13.5; 
#=GS S5SHL2/1-190       AC S5SHL2
#=GS S5SHL2/1-190       OS Rhizobium etli bv. mimosae str. Mim1
#=GS S5SHL2/1-190       DE Ribonuclease D
#=GS S5SHL2/1-190       DR GENE3D; 1030388ed85cc35899dfe4681f7b7ba3/1-190; 
#=GS S5SHL2/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium etli; 
#=GS S5SHL2/1-190       DR EC; 3.1.13.5; 
#=GS Q2KA38/1-190       AC Q2KA38
#=GS Q2KA38/1-190       OS Rhizobium etli CFN 42
#=GS Q2KA38/1-190       DE Ribonuclease D
#=GS Q2KA38/1-190       DR GENE3D; 1030388ed85cc35899dfe4681f7b7ba3/1-190; 
#=GS Q2KA38/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium etli; 
#=GS Q2KA38/1-190       DR EC; 3.1.13.5; 
#=GS A0A1C0TZ02/1-194   AC A0A1C0TZ02
#=GS A0A1C0TZ02/1-194   OS Photorhabdus asymbiotica subsp. australis
#=GS A0A1C0TZ02/1-194   DE Ribonuclease D
#=GS A0A1C0TZ02/1-194   DR GENE3D; 103eb3efecf78c3e0d2324325f070032/1-194; 
#=GS A0A1C0TZ02/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Photorhabdus; Photorhabdus asymbiotica; Photorhabdus asymbiotica subsp. australis; 
#=GS A0A1C0TZ02/1-194   DR EC; 3.1.13.5; 
#=GS A0A0N1BRG7/1-188   AC A0A0N1BRG7
#=GS A0A0N1BRG7/1-188   OS Brevundimonas sp. AAP58
#=GS A0A0N1BRG7/1-188   DE Ribonuclease D
#=GS A0A0N1BRG7/1-188   DR GENE3D; 1055ea3ae9b973b41a9f0e104fc6ad75/1-188; 
#=GS A0A0N1BRG7/1-188   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Brevundimonas; Brevundimonas sp. AAP58; 
#=GS A0A0N1BRG7/1-188   DR EC; 3.1.13.5; 
#=GS F4HF83/2-195       AC F4HF83
#=GS F4HF83/2-195       OS Gallibacterium anatis UMN179
#=GS F4HF83/2-195       DE Ribonuclease D
#=GS F4HF83/2-195       DR GENE3D; 109fd5181cebe29bb94d8a31b6fee54e/2-195; 
#=GS F4HF83/2-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Gallibacterium; Gallibacterium anatis; 
#=GS F4HF83/2-195       DR EC; 3.1.13.5; 
#=GS A0A1B7I6L8/10-203  AC A0A1B7I6L8
#=GS A0A1B7I6L8/10-203  OS Buttiauxella gaviniae ATCC 51604
#=GS A0A1B7I6L8/10-203  DE Ribonuclease D
#=GS A0A1B7I6L8/10-203  DR GENE3D; 10ccd02786f712bcd0e0388863aa1cc1/10-203; 
#=GS A0A1B7I6L8/10-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Buttiauxella; Buttiauxella gaviniae; 
#=GS A0A1B7I6L8/10-203  DR EC; 3.1.13.5; 
#=GS A0A1H0XCS1/3-195   AC A0A1H0XCS1
#=GS A0A1H0XCS1/3-195   OS Pseudomonas brassicacearum
#=GS A0A1H0XCS1/3-195   DE Ribonuclease D
#=GS A0A1H0XCS1/3-195   DR GENE3D; 10ce344d99f2c741362e2ef09902bfa2/3-195; 
#=GS A0A1H0XCS1/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas brassicacearum; 
#=GS A0A1H0XCS1/3-195   DR EC; 3.1.13.5; 
#=GS I4L0C5/3-195       AC I4L0C5
#=GS I4L0C5/3-195       OS Pseudomonas fluorescens Q8r1-96
#=GS I4L0C5/3-195       DE Ribonuclease D
#=GS I4L0C5/3-195       DR GENE3D; 10ce344d99f2c741362e2ef09902bfa2/3-195; 
#=GS I4L0C5/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; 
#=GS I4L0C5/3-195       DR EC; 3.1.13.5; 
#=GS F2K8T1/3-195       AC F2K8T1
#=GS F2K8T1/3-195       OS Pseudomonas brassicacearum subsp. brassicacearum NFM421
#=GS F2K8T1/3-195       DE Ribonuclease D
#=GS F2K8T1/3-195       DR GENE3D; 10ce344d99f2c741362e2ef09902bfa2/3-195; 
#=GS F2K8T1/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas brassicacearum; Pseudomonas brassicacearum subsp. brassicacearum; 
#=GS F2K8T1/3-195       DR EC; 3.1.13.5; 
#=GS A0A159ZY00/3-195   AC A0A159ZY00
#=GS A0A159ZY00/3-195   OS Pseudomonas fluorescens
#=GS A0A159ZY00/3-195   DE Ribonuclease D
#=GS A0A159ZY00/3-195   DR GENE3D; 10ce344d99f2c741362e2ef09902bfa2/3-195; 
#=GS A0A159ZY00/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; 
#=GS A0A159ZY00/3-195   DR EC; 3.1.13.5; 
#=GS A0A0Q7A886/3-195   AC A0A0Q7A886
#=GS A0A0Q7A886/3-195   OS Pseudomonas sp. Root401
#=GS A0A0Q7A886/3-195   DE Ribonuclease D
#=GS A0A0Q7A886/3-195   DR GENE3D; 10ce344d99f2c741362e2ef09902bfa2/3-195; 
#=GS A0A0Q7A886/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. Root401; 
#=GS A0A0Q7A886/3-195   DR EC; 3.1.13.5; 
#=GS S2KX92/3-195       AC S2KX92
#=GS S2KX92/3-195       OS Pseudomonas plecoglossicida NB2011
#=GS S2KX92/3-195       DE Ribonuclease D
#=GS S2KX92/3-195       DR GENE3D; 10edfa71682d70789d26500ef5321891/3-195; 
#=GS S2KX92/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas plecoglossicida; 
#=GS S2KX92/3-195       DR EC; 3.1.13.5; 
#=GS A0A0B3BZQ5/3-195   AC A0A0B3BZQ5
#=GS A0A0B3BZQ5/3-195   OS Pseudomonas flexibilis
#=GS A0A0B3BZQ5/3-195   DE Ribonuclease D
#=GS A0A0B3BZQ5/3-195   DR GENE3D; 1114c44f0a73b8cbadce207bbb3e29a8/3-195; 
#=GS A0A0B3BZQ5/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas flexibilis; 
#=GS A0A0B3BZQ5/3-195   DR EC; 3.1.13.5; 
#=GS A0A0Q8LT45/1-188   AC A0A0Q8LT45
#=GS A0A0Q8LT45/1-188   OS Phenylobacterium sp. Root700
#=GS A0A0Q8LT45/1-188   DE Ribonuclease D
#=GS A0A0Q8LT45/1-188   DR GENE3D; 11373379b78cfc6e044fd2eafc6d0b4d/1-188; 
#=GS A0A0Q8LT45/1-188   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Phenylobacterium; Phenylobacterium sp. Root700; 
#=GS A0A0Q8LT45/1-188   DR EC; 3.1.13.5; 
#=GS A0A0C5XND9/4-194   AC A0A0C5XND9
#=GS A0A0C5XND9/4-194   OS Sphingobium sp. YBL2
#=GS A0A0C5XND9/4-194   DE Ribonuclease D
#=GS A0A0C5XND9/4-194   DR GENE3D; 113be211ad78d72493fda4159f98503f/4-194; 
#=GS A0A0C5XND9/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium sp. YBL2; 
#=GS A0A0C5XND9/4-194   DR EC; 3.1.13.5; 
#=GS A0A197BW61/4-194   AC A0A197BW61
#=GS A0A197BW61/4-194   OS Sphingomonas paucimobilis
#=GS A0A197BW61/4-194   DE Ribonuclease D
#=GS A0A197BW61/4-194   DR GENE3D; 113be211ad78d72493fda4159f98503f/4-194; 
#=GS A0A197BW61/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas paucimobilis; 
#=GS A0A197BW61/4-194   DR EC; 3.1.13.5; 
#=GS A0A0S3JZX7/14-207  AC A0A0S3JZX7
#=GS A0A0S3JZX7/14-207  OS Vibrio alginolyticus
#=GS A0A0S3JZX7/14-207  DE Ribonuclease D
#=GS A0A0S3JZX7/14-207  DR GENE3D; 113ed76c75881d28239cc2cb2806de38/14-207; 
#=GS A0A0S3JZX7/14-207  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio alginolyticus; 
#=GS A0A0S3JZX7/14-207  DR EC; 3.1.13.5; 
#=GS A0A1C3UIA7/1-190   AC A0A1C3UIA7
#=GS A0A1C3UIA7/1-190   OS Rhizobium hainanense
#=GS A0A1C3UIA7/1-190   DE Ribonuclease D
#=GS A0A1C3UIA7/1-190   DR GENE3D; 113f5723c6b15a3b1d59b6058ad49baa/1-190; 
#=GS A0A1C3UIA7/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium hainanense; 
#=GS A0A1C3UIA7/1-190   DR EC; 3.1.13.5; 
#=GS A0A165ULT6/1-191   AC A0A165ULT6
#=GS A0A165ULT6/1-191   OS Pseudovibrio axinellae
#=GS A0A165ULT6/1-191   DE Ribonuclease D
#=GS A0A165ULT6/1-191   DR GENE3D; 1147117bf13d10d7f60ce8f9b8e23425/1-191; 
#=GS A0A165ULT6/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Pseudovibrio; Pseudovibrio axinellae; 
#=GS A0A165ULT6/1-191   DR EC; 3.1.13.5; 
#=GS A0A0R3KSP9/1-191   AC A0A0R3KSP9
#=GS A0A0R3KSP9/1-191   OS Bradyrhizobium jicamae
#=GS A0A0R3KSP9/1-191   DE Ribonuclease D
#=GS A0A0R3KSP9/1-191   DR GENE3D; 11516ba4516a607f9eec49c81b45120d/1-191; 
#=GS A0A0R3KSP9/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium jicamae; 
#=GS A0A0R3KSP9/1-191   DR EC; 3.1.13.5; 
#=GS E1XA26/10-202      AC E1XA26
#=GS E1XA26/10-202      OS Haemophilus influenzae 10810
#=GS E1XA26/10-202      DE Ribonuclease D
#=GS E1XA26/10-202      DR GENE3D; 115a041705ec97a42d486ecc4572a56e/10-202; 
#=GS E1XA26/10-202      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; Haemophilus influenzae; 
#=GS E1XA26/10-202      DR EC; 3.1.13.5; 
#=GS A0A0X9ZS00/10-202  AC A0A0X9ZS00
#=GS A0A0X9ZS00/10-202  OS Streptococcus pneumoniae
#=GS A0A0X9ZS00/10-202  DE Ribonuclease D
#=GS A0A0X9ZS00/10-202  DR GENE3D; 115a041705ec97a42d486ecc4572a56e/10-202; 
#=GS A0A0X9ZS00/10-202  DR ORG; Bacteria; Firmicutes; Bacilli; Lactobacillales; Streptococcaceae; Streptococcus; Streptococcus pneumoniae; 
#=GS A0A0X9ZS00/10-202  DR EC; 3.1.13.5; 
#=GS S9Q7Z4/1-195       AC S9Q7Z4
#=GS S9Q7Z4/1-195       OS Salipiger mucosus DSM 16094
#=GS S9Q7Z4/1-195       DE Ribonuclease D
#=GS S9Q7Z4/1-195       DR GENE3D; 11636aeaec00849a14680ffebea2dfa2/1-195; 
#=GS S9Q7Z4/1-195       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Salipiger; Salipiger mucosus; 
#=GS S9Q7Z4/1-195       DR EC; 3.1.13.5; 
#=GS A0A0G3XFS6/4-194   AC A0A0G3XFS6
#=GS A0A0G3XFS6/4-194   OS Croceicoccus naphthovorans
#=GS A0A0G3XFS6/4-194   DE Ribonuclease D
#=GS A0A0G3XFS6/4-194   DR GENE3D; 116cfdff0f45b82470fbdb8ab3e73742/4-194; 
#=GS A0A0G3XFS6/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Croceicoccus; Croceicoccus naphthovorans; 
#=GS A0A0G3XFS6/4-194   DR EC; 3.1.13.5; 
#=GS A0A0W0HR43/3-195   AC A0A0W0HR43
#=GS A0A0W0HR43/3-195   OS Pseudomonas fluorescens
#=GS A0A0W0HR43/3-195   DE Ribonuclease D
#=GS A0A0W0HR43/3-195   DR GENE3D; 1195cf5c8dc5fc6eecbaaf5debc5bab8/3-195; 
#=GS A0A0W0HR43/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; 
#=GS A0A0W0HR43/3-195   DR EC; 3.1.13.5; 
#=GS A0A1H0NVU7/3-195   AC A0A1H0NVU7
#=GS A0A1H0NVU7/3-195   OS Pseudomonas azotoformans
#=GS A0A1H0NVU7/3-195   DE Ribonuclease D
#=GS A0A1H0NVU7/3-195   DR GENE3D; 1195cf5c8dc5fc6eecbaaf5debc5bab8/3-195; 
#=GS A0A1H0NVU7/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas azotoformans; 
#=GS A0A1H0NVU7/3-195   DR EC; 3.1.13.5; 
#=GS A0A0N0B9K3/1-191   AC A0A0N0B9K3
#=GS A0A0N0B9K3/1-191   OS Streptomyces purpurogeneiscleroticus
#=GS A0A0N0B9K3/1-191   DE Ribonuclease D
#=GS A0A0N0B9K3/1-191   DR GENE3D; 1199ca09c39846c4ed94a61d0149a5bf/1-191; 
#=GS A0A0N0B9K3/1-191   DR ORG; Bacteria; Actinobacteria; Actinobacteria; Streptomycetales; Streptomycetaceae; Streptomyces; Streptomyces purpurogeneiscleroticus; 
#=GS A0A0N0B9K3/1-191   DR EC; 3.1.13.5; 
#=GS E3I1R1/27-215      AC E3I1R1
#=GS E3I1R1/27-215      OS Rhodomicrobium vannielii ATCC 17100
#=GS E3I1R1/27-215      DE Ribonuclease D
#=GS E3I1R1/27-215      DR GENE3D; 119fb9d07bef4260836c0539b978b6ea/27-215; 
#=GS E3I1R1/27-215      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Rhodomicrobium; Rhodomicrobium vannielii; 
#=GS E3I1R1/27-215      DR EC; 3.1.13.5; 
#=GS A0A0Q6FDJ6/1-190   AC A0A0Q6FDJ6
#=GS A0A0Q6FDJ6/1-190   OS Rhizobium sp. Leaf453
#=GS A0A0Q6FDJ6/1-190   DE Ribonuclease D
#=GS A0A0Q6FDJ6/1-190   DR GENE3D; 11c1c470989f5510b96f5ab7538ce259/1-190; 
#=GS A0A0Q6FDJ6/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. Leaf453; 
#=GS A0A0Q6FDJ6/1-190   DR EC; 3.1.13.5; 
#=GS C2HTR1/9-202       AC C2HTR1
#=GS C2HTR1/9-202       OS Vibrio albensis VL426
#=GS C2HTR1/9-202       DE Ribonuclease D
#=GS C2HTR1/9-202       DR GENE3D; 12346928712f75f90224f06677295c8f/9-202; 
#=GS C2HTR1/9-202       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio albensis; 
#=GS C2HTR1/9-202       DR EC; 3.1.13.5; 
#=GS H3ZHX5/1-192       AC H3ZHX5
#=GS H3ZHX5/1-192       OS Alishewanella jeotgali KCTC 22429
#=GS H3ZHX5/1-192       DE Ribonuclease D
#=GS H3ZHX5/1-192       DR GENE3D; 123a3074fb7f95d020f38c02af2f5988/1-192; 
#=GS H3ZHX5/1-192       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Alishewanella; Alishewanella jeotgali; 
#=GS H3ZHX5/1-192       DR EC; 3.1.13.5; 
#=GS A0A0H1AC01/1-191   AC A0A0H1AC01
#=GS A0A0H1AC01/1-191   OS Mesorhizobium sp. LC103
#=GS A0A0H1AC01/1-191   DE Ribonuclease D
#=GS A0A0H1AC01/1-191   DR GENE3D; 124af5f5f575d7c31ae872eaa4699372/1-191; 
#=GS A0A0H1AC01/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LC103; 
#=GS A0A0H1AC01/1-191   DR EC; 3.1.13.5; 
#=GS A0A1B3MF92/1-192   AC A0A1B3MF92
#=GS A0A1B3MF92/1-192   OS Sinorhizobium sp. RAC02
#=GS A0A1B3MF92/1-192   DE Ribonuclease D
#=GS A0A1B3MF92/1-192   DR GENE3D; 1282a079b55cd4a7d6921c80be59763e/1-192; 
#=GS A0A1B3MF92/1-192   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium sp. RAC02; 
#=GS A0A1B3MF92/1-192   DR EC; 3.1.13.5; 
#=GS A0A176UWB9/1-194   AC A0A176UWB9
#=GS A0A176UWB9/1-194   OS Pantoea sp. OXWO6B1
#=GS A0A176UWB9/1-194   DE Ribonuclease D
#=GS A0A176UWB9/1-194   DR GENE3D; 12a618f275b41885f0ea1875a5dc3046/1-194; 
#=GS A0A176UWB9/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Pantoea; Pantoea sp. OXWO6B1; 
#=GS A0A176UWB9/1-194   DR EC; 3.1.13.5; 
#=GS H4FEK0/1-190       AC H4FEK0
#=GS H4FEK0/1-190       OS Rhizobium sp. PDO1-076
#=GS H4FEK0/1-190       DE Ribonuclease D
#=GS H4FEK0/1-190       DR GENE3D; 12af225093039134b910470d901cd32f/1-190; 
#=GS H4FEK0/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. PDO1-076; 
#=GS H4FEK0/1-190       DR EC; 3.1.13.5; 
#=GS A0A1B8V9T6/6-198   AC A0A1B8V9T6
#=GS A0A1B8V9T6/6-198   OS Pseudomonas sp. AU11447
#=GS A0A1B8V9T6/6-198   DE Ribonuclease D
#=GS A0A1B8V9T6/6-198   DR GENE3D; 12fff671d264e8a4b33fcbdbc29600bc/6-198; 
#=GS A0A1B8V9T6/6-198   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. AU11447; 
#=GS A0A1B8V9T6/6-198   DR EC; 3.1.13.5; 
#=GS A0A0F5L6Z2/1-191   AC A0A0F5L6Z2
#=GS A0A0F5L6Z2/1-191   OS Devosia soli
#=GS A0A0F5L6Z2/1-191   DE Ribonuclease D
#=GS A0A0F5L6Z2/1-191   DR GENE3D; 1322cd708139278ccf4719e8fb0b9529/1-191; 
#=GS A0A0F5L6Z2/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia soli; 
#=GS A0A0F5L6Z2/1-191   DR EC; 3.1.13.5; 
#=GS A0A0Q7WFM7/1-191   AC A0A0Q7WFM7
#=GS A0A0Q7WFM7/1-191   OS Mesorhizobium sp. Root554
#=GS A0A0Q7WFM7/1-191   DE Ribonuclease D
#=GS A0A0Q7WFM7/1-191   DR GENE3D; 1324d9b08f9a1d82986a4c57596f686f/1-191; 
#=GS A0A0Q7WFM7/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. Root554; 
#=GS A0A0Q7WFM7/1-191   DR EC; 3.1.13.5; 
#=GS A0A0Q4K5F2/4-193   AC A0A0Q4K5F2
#=GS A0A0Q4K5F2/4-193   OS Sphingomonas sp. Leaf29
#=GS A0A0Q4K5F2/4-193   DE Ribonuclease D
#=GS A0A0Q4K5F2/4-193   DR GENE3D; 132f800ad7e2880993885dbf60cfe019/4-193; 
#=GS A0A0Q4K5F2/4-193   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf29; 
#=GS A0A0Q4K5F2/4-193   DR EC; 3.1.13.5; 
#=GS A0A0Q4KTH3/4-193   AC A0A0Q4KTH3
#=GS A0A0Q4KTH3/4-193   OS Sphingomonas sp. Leaf32
#=GS A0A0Q4KTH3/4-193   DE Ribonuclease D
#=GS A0A0Q4KTH3/4-193   DR GENE3D; 132f800ad7e2880993885dbf60cfe019/4-193; 
#=GS A0A0Q4KTH3/4-193   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf32; 
#=GS A0A0Q4KTH3/4-193   DR EC; 3.1.13.5; 
#=GS A0A0Q4G1N9/4-193   AC A0A0Q4G1N9
#=GS A0A0Q4G1N9/4-193   OS Sphingomonas sp. Leaf16
#=GS A0A0Q4G1N9/4-193   DE Ribonuclease D
#=GS A0A0Q4G1N9/4-193   DR GENE3D; 132f800ad7e2880993885dbf60cfe019/4-193; 
#=GS A0A0Q4G1N9/4-193   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf16; 
#=GS A0A0Q4G1N9/4-193   DR EC; 3.1.13.5; 
#=GS A0A0L7AEF2/1-190   AC A0A0L7AEF2
#=GS A0A0L7AEF2/1-190   OS Escherichia coli
#=GS A0A0L7AEF2/1-190   DE Ribonuclease D
#=GS A0A0L7AEF2/1-190   DR GENE3D; 138039589a5e04404eefaf5fb059a063/1-190; 
#=GS A0A0L7AEF2/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A0L7AEF2/1-190   DR EC; 3.1.13.5; 
#=GS I2RIP4/1-190       AC I2RIP4
#=GS I2RIP4/1-190       OS Escherichia coli 1.2741
#=GS I2RIP4/1-190       DE Ribonuclease D
#=GS I2RIP4/1-190       DR GENE3D; 138039589a5e04404eefaf5fb059a063/1-190; 
#=GS I2RIP4/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS I2RIP4/1-190       DR EC; 3.1.13.5; 
#=GS E9YNZ6/1-190       AC E9YNZ6
#=GS E9YNZ6/1-190       OS Escherichia coli M863
#=GS E9YNZ6/1-190       DE Ribonuclease D
#=GS E9YNZ6/1-190       DR GENE3D; 138039589a5e04404eefaf5fb059a063/1-190; 
#=GS E9YNZ6/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS E9YNZ6/1-190       DR EC; 3.1.13.5; 
#=GS A0A149QQJ8/12-201  AC A0A149QQJ8
#=GS A0A149QQJ8/12-201  OS Gluconobacter oxydans
#=GS A0A149QQJ8/12-201  DE Ribonuclease D
#=GS A0A149QQJ8/12-201  DR GENE3D; 1393add4b5e367c1515b8a2b2b54c9e0/12-201; 
#=GS A0A149QQJ8/12-201  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Gluconobacter; Gluconobacter oxydans; 
#=GS A0A149QQJ8/12-201  DR EC; 3.1.13.5; 
#=GS Q5NPM2/4-195       AC Q5NPM2
#=GS Q5NPM2/4-195       OS Zymomonas mobilis subsp. mobilis ZM4 = ATCC 31821
#=GS Q5NPM2/4-195       DE Ribonuclease D
#=GS Q5NPM2/4-195       DR GENE3D; 13abb15cb384a43b43bd765c872bae84/4-195; 
#=GS Q5NPM2/4-195       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Zymomonas; Zymomonas mobilis; Zymomonas mobilis subsp. mobilis; 
#=GS Q5NPM2/4-195       DR EC; 3.1.13.5; 
#=GS A0A0H3FXF3/4-195   AC A0A0H3FXF3
#=GS A0A0H3FXF3/4-195   OS Zymomonas mobilis subsp. mobilis ATCC 10988
#=GS A0A0H3FXF3/4-195   DE Ribonuclease D
#=GS A0A0H3FXF3/4-195   DR GENE3D; 13abb15cb384a43b43bd765c872bae84/4-195; 
#=GS A0A0H3FXF3/4-195   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Zymomonas; Zymomonas mobilis; Zymomonas mobilis subsp. mobilis; 
#=GS A0A0H3FXF3/4-195   DR EC; 3.1.13.5; 
#=GS W6UYQ4/3-195       AC W6UYQ4
#=GS W6UYQ4/3-195       OS Pseudomonas sp. GM41(2012)
#=GS W6UYQ4/3-195       DE Ribonuclease D
#=GS W6UYQ4/3-195       DR GENE3D; 13adec2387afeef5139c263edb9f711b/3-195; 
#=GS W6UYQ4/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. GM41(2012); 
#=GS W6UYQ4/3-195       DR EC; 3.1.13.5; 
#=GS Q6N5D4/1-190       AC Q6N5D4
#=GS Q6N5D4/1-190       OS Rhodopseudomonas palustris CGA009
#=GS Q6N5D4/1-190       DE Ribonuclease D
#=GS Q6N5D4/1-190       DR GENE3D; 13de01f7a127e2e34b5063306094e513/1-190; 
#=GS Q6N5D4/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Rhodopseudomonas; Rhodopseudomonas palustris; 
#=GS Q6N5D4/1-190       DR EC; 3.1.13.5; 
#=GS F5NUF6/1-190       AC F5NUF6
#=GS F5NUF6/1-190       OS Shigella flexneri K-227
#=GS F5NUF6/1-190       DE Ribonuclease D
#=GS F5NUF6/1-190       DR GENE3D; 13f242c5a08ec5e72dc2c01e4dbb4136/1-190; 
#=GS F5NUF6/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Shigella; Shigella flexneri; 
#=GS F5NUF6/1-190       DR EC; 3.1.13.5; 
#=GS Z4WYQ3/1-193       AC Z4WYQ3
#=GS Z4WYQ3/1-193       OS Atopobium sp. BS2
#=GS Z4WYQ3/1-193       DE Ribonuclease D
#=GS Z4WYQ3/1-193       DR GENE3D; 13f44c1ccecb423e1cc39a4bfa238cb0/1-193; 
#=GS Z4WYQ3/1-193       DR ORG; Bacteria; Actinobacteria; Coriobacteriia; Coriobacteriales; Atopobiaceae; Atopobium; Atopobium sp. BS2; 
#=GS Z4WYQ3/1-193       DR EC; 3.1.13.5; 
#=GS A0A0G3CK23/1-194   AC A0A0G3CK23
#=GS A0A0G3CK23/1-194   OS Pragia fontium
#=GS A0A0G3CK23/1-194   DE Ribonuclease D
#=GS A0A0G3CK23/1-194   DR GENE3D; 140c56faa71a29491cfc32a9f00b7051/1-194; 
#=GS A0A0G3CK23/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Budviciaceae; Pragia; Pragia fontium; 
#=GS A0A0G3CK23/1-194   DR EC; 3.1.13.5; 
#=GS A0A0B2JE52/1-193   AC A0A0B2JE52
#=GS A0A0B2JE52/1-193   OS Pseudoalteromonas flavipulchra NCIMB 2033 = ATCC BAA-314
#=GS A0A0B2JE52/1-193   DE Ribonuclease D
#=GS A0A0B2JE52/1-193   DR GENE3D; 14535531eb22cf9df49300bb1d4f4d92/1-193; 
#=GS A0A0B2JE52/1-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas flavipulchra; 
#=GS A0A0B2JE52/1-193   DR EC; 3.1.13.5; 
#=GS Q3SS91/1-191       AC Q3SS91
#=GS Q3SS91/1-191       OS Nitrobacter winogradskyi Nb-255
#=GS Q3SS91/1-191       DE Ribonuclease D
#=GS Q3SS91/1-191       DR GENE3D; 1458419c7e17d29f8df6c7c7587547b5/1-191; 
#=GS Q3SS91/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Nitrobacter; Nitrobacter winogradskyi; 
#=GS Q3SS91/1-191       DR EC; 3.1.13.5; 
#=GS A0A0D6NT92/11-200  AC A0A0D6NT92
#=GS A0A0D6NT92/11-200  OS Acetobacter orleanensis JCM 7639
#=GS A0A0D6NT92/11-200  DE Ribonuclease D
#=GS A0A0D6NT92/11-200  DR GENE3D; 14794513450c894e440cb2855a6ca314/11-200; 
#=GS A0A0D6NT92/11-200  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Acetobacter; Acetobacter orleanensis; 
#=GS A0A0D6NT92/11-200  DR EC; 3.1.13.5; 
#=GS A0A099KBP3/1-194   AC A0A099KBP3
#=GS A0A099KBP3/1-194   OS Thalassotalea sp. ND16A
#=GS A0A099KBP3/1-194   DE Ribonuclease D
#=GS A0A099KBP3/1-194   DR GENE3D; 148a02f45a8d75c009be931461901fc0/1-194; 
#=GS A0A099KBP3/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Colwelliaceae; Thalassotalea; Thalassotalea sp. ND16A; 
#=GS A0A099KBP3/1-194   DR EC; 3.1.13.5; 
#=GS A4MY17/29-221      AC A4MY17
#=GS A4MY17/29-221      OS Haemophilus influenzae 22.1-21
#=GS A4MY17/29-221      DE Ribonuclease D
#=GS A4MY17/29-221      DR GENE3D; 148f17cd1ab6fa19d9b9f5cd12e39423/29-221; 
#=GS A4MY17/29-221      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; Haemophilus influenzae; 
#=GS A4MY17/29-221      DR EC; 3.1.13.5; 
#=GS U3B7D2/1-194       AC U3B7D2
#=GS U3B7D2/1-194       OS Vibrio ezurae NBRC 102218
#=GS U3B7D2/1-194       DE Ribonuclease D
#=GS U3B7D2/1-194       DR GENE3D; 1491840203cfe78745583a60d69bf41f/1-194; 
#=GS U3B7D2/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio ezurae; 
#=GS U3B7D2/1-194       DR EC; 3.1.13.5; 
#=GS K2SHH6/3-194       AC K2SHH6
#=GS K2SHH6/3-194       OS Pseudomonas avellanae BPIC 631
#=GS K2SHH6/3-194       DE Ribonuclease D
#=GS K2SHH6/3-194       DR GENE3D; 14ad1c633e3e65d6cb70225e497ec2fb/3-194; 
#=GS K2SHH6/3-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas avellanae; 
#=GS K2SHH6/3-194       DR EC; 3.1.13.5; 
#=GS A0A1H5USX4/1-194   AC A0A1H5USX4
#=GS A0A1H5USX4/1-194   OS Vibrio hangzhouensis
#=GS A0A1H5USX4/1-194   DE Ribonuclease D
#=GS A0A1H5USX4/1-194   DR GENE3D; 14c981d94d962b00255927d954f854ee/1-194; 
#=GS A0A1H5USX4/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio hangzhouensis; 
#=GS A0A1H5USX4/1-194   DR EC; 3.1.13.5; 
#=GS B0UPC6/1-191       AC B0UPC6
#=GS B0UPC6/1-191       OS Methylobacterium sp. 4-46
#=GS B0UPC6/1-191       DE Ribonuclease D
#=GS B0UPC6/1-191       DR GENE3D; 14ec4e5f3e23c948e0fc48d684ec66ae/1-191; 
#=GS B0UPC6/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Methylobacterium; Methylobacterium sp. 4-46; 
#=GS B0UPC6/1-191       DR EC; 3.1.13.5; 
#=GS A0A0M2LJ66/4-194   AC A0A0M2LJ66
#=GS A0A0M2LJ66/4-194   OS Sphingomonas sp. Ag1
#=GS A0A0M2LJ66/4-194   DE Ribonuclease D
#=GS A0A0M2LJ66/4-194   DR GENE3D; 15010c880642c9500c30022ce3544844/4-194; 
#=GS A0A0M2LJ66/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Ag1; 
#=GS A0A0M2LJ66/4-194   DR EC; 3.1.13.5; 
#=GS A0A0D0K8F4/3-194   AC A0A0D0K8F4
#=GS A0A0D0K8F4/3-194   OS Pseudomonas fluorescens
#=GS A0A0D0K8F4/3-194   DE Ribonuclease D
#=GS A0A0D0K8F4/3-194   DR GENE3D; 150292d93609b43738939deae7eff788/3-194; 
#=GS A0A0D0K8F4/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; 
#=GS A0A0D0K8F4/3-194   DR EC; 3.1.13.5; 
#=GS A0A017QHR2/18-211  AC A0A017QHR2
#=GS A0A017QHR2/18-211  OS Haemophilus parasuis str. Nagasaki
#=GS A0A017QHR2/18-211  DE Ribonuclease D
#=GS A0A017QHR2/18-211  DR GENE3D; 152555e4298060d41f247fa6fcd86d94/18-211; 
#=GS A0A017QHR2/18-211  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; [Haemophilus] parasuis; 
#=GS A0A017QHR2/18-211  DR EC; 3.1.13.5; 
#=GS W7QT02/1-192       AC W7QT02
#=GS W7QT02/1-192       OS Catenovulum agarivorans DS-2
#=GS W7QT02/1-192       DE Ribonuclease D
#=GS W7QT02/1-192       DR GENE3D; 153a197d00e37256a2e04676f5ad2cbf/1-192; 
#=GS W7QT02/1-192       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Catenovulum; Catenovulum agarivorans; 
#=GS W7QT02/1-192       DR EC; 3.1.13.5; 
#=GS X6GK61/1-191       AC X6GK61
#=GS X6GK61/1-191       OS Mesorhizobium sp. L48C026A00
#=GS X6GK61/1-191       DE Ribonuclease D
#=GS X6GK61/1-191       DR GENE3D; 15537f99b1dc77a4e06eac9feca2b49a/1-191; 
#=GS X6GK61/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. L48C026A00; 
#=GS X6GK61/1-191       DR EC; 3.1.13.5; 
#=GS A0A1B9M9M8/1-194   AC A0A1B9M9M8
#=GS A0A1B9M9M8/1-194   OS Gilliamella apicola
#=GS A0A1B9M9M8/1-194   DE Ribonuclease D
#=GS A0A1B9M9M8/1-194   DR GENE3D; 15733de4365105113552bad008919443/1-194; 
#=GS A0A1B9M9M8/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Orbales; Orbaceae; Gilliamella; Gilliamella apicola; 
#=GS A0A1B9M9M8/1-194   DR EC; 3.1.13.5; 
#=GS A0A1M3YPX7/1-194   AC A0A1M3YPX7
#=GS A0A1M3YPX7/1-194   OS Salmonella enterica subsp. arizonae serovar 18:z4,z23:- str. CVM N7307
#=GS A0A1M3YPX7/1-194   DE Ribonuclease D
#=GS A0A1M3YPX7/1-194   DR GENE3D; 15808cbe8c6a5a4b132a06fef6bfc8a6/1-194; 
#=GS A0A1M3YPX7/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; 
#=GS A0A1M3YPX7/1-194   DR EC; 3.1.13.5; 
#=GS A0A0H3NCF3/1-194   AC A0A0H3NCF3
#=GS A0A0H3NCF3/1-194   OS Salmonella enterica subsp. enterica serovar Typhimurium str. SL1344
#=GS A0A0H3NCF3/1-194   DE Ribonuclease D
#=GS A0A0H3NCF3/1-194   DR GENE3D; 15808cbe8c6a5a4b132a06fef6bfc8a6/1-194; 
#=GS A0A0H3NCF3/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; 
#=GS A0A0H3NCF3/1-194   DR EC; 3.1.13.5; 
#=GS A0A0F6B2C1/1-194   AC A0A0F6B2C1
#=GS A0A0F6B2C1/1-194   OS Salmonella enterica subsp. enterica serovar Typhimurium str. 14028S
#=GS A0A0F6B2C1/1-194   DE Ribonuclease D
#=GS A0A0F6B2C1/1-194   DR GENE3D; 15808cbe8c6a5a4b132a06fef6bfc8a6/1-194; 
#=GS A0A0F6B2C1/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; 
#=GS A0A0F6B2C1/1-194   DR EC; 3.1.13.5; 
#=GS A0A1D7U403/1-189   AC A0A1D7U403
#=GS A0A1D7U403/1-189   OS Bosea vaviloviae
#=GS A0A1D7U403/1-189   DE Ribonuclease D
#=GS A0A1D7U403/1-189   DR GENE3D; 15865341a53d7b4ae6abe86a1abbf091/1-189; 
#=GS A0A1D7U403/1-189   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bosea; Bosea vaviloviae; 
#=GS A0A1D7U403/1-189   DR EC; 3.1.13.5; 
#=GS V4QFI0/3-194       AC V4QFI0
#=GS V4QFI0/3-194       OS Pseudomonas chloritidismutans AW-1
#=GS V4QFI0/3-194       DE Ribonuclease D
#=GS V4QFI0/3-194       DR GENE3D; 158d1c2bdb07bdff50dadfcc6a6732ea/3-194; 
#=GS V4QFI0/3-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas chloritidismutans; 
#=GS V4QFI0/3-194       DR EC; 3.1.13.5; 
#=GS A0A0J1LZ27/1-190   AC A0A0J1LZ27
#=GS A0A0J1LZ27/1-190   OS Citrobacter sp. MGH106
#=GS A0A0J1LZ27/1-190   DE Ribonuclease D
#=GS A0A0J1LZ27/1-190   DR GENE3D; 15daeb93b9b147a10f90f391ab4c18cc/1-190; 
#=GS A0A0J1LZ27/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Citrobacter; Citrobacter freundii complex; Citrobacter sp. MGH106; 
#=GS A0A0J1LZ27/1-190   DR EC; 3.1.13.5; 
#=GS A0A147FS64/1-191   AC A0A147FS64
#=GS A0A147FS64/1-191   OS Methylobacterium aquaticum
#=GS A0A147FS64/1-191   DE Ribonuclease D
#=GS A0A147FS64/1-191   DR GENE3D; 1617f7b0dcbd5f8c7ef3ff79538aeb2b/1-191; 
#=GS A0A147FS64/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Methylobacterium; Methylobacterium aquaticum; 
#=GS A0A147FS64/1-191   DR EC; 3.1.13.5; 
#=GS A0A0J6QS24/1-191   AC A0A0J6QS24
#=GS A0A0J6QS24/1-191   OS Methylobacterium platani
#=GS A0A0J6QS24/1-191   DE Ribonuclease D
#=GS A0A0J6QS24/1-191   DR GENE3D; 1617f7b0dcbd5f8c7ef3ff79538aeb2b/1-191; 
#=GS A0A0J6QS24/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Methylobacterium; Methylobacterium platani; 
#=GS A0A0J6QS24/1-191   DR EC; 3.1.13.5; 
#=GS A0A0L8C5I9/1-190   AC A0A0L8C5I9
#=GS A0A0L8C5I9/1-190   OS Ensifer adhaerens
#=GS A0A0L8C5I9/1-190   DE Ribonuclease D
#=GS A0A0L8C5I9/1-190   DR GENE3D; 1619977bdf56f0a5f55bdd95420765ea/1-190; 
#=GS A0A0L8C5I9/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Ensifer; Ensifer adhaerens; 
#=GS A0A0L8C5I9/1-190   DR EC; 3.1.13.5; 
#=GS F7QM57/1-192       AC F7QM57
#=GS F7QM57/1-192       OS Bradyrhizobiaceae bacterium SG-6C
#=GS F7QM57/1-192       DE Ribonuclease D
#=GS F7QM57/1-192       DR GENE3D; 161bcb1b24280bd8cebfe3ab0f9e4fee/1-192; 
#=GS F7QM57/1-192       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobiaceae bacterium SG-6C; 
#=GS F7QM57/1-192       DR EC; 3.1.13.5; 
#=GS A0A0W1KVR1/1-193   AC A0A0W1KVR1
#=GS A0A0W1KVR1/1-193   OS Pseudoalteromonas sp. 10-33
#=GS A0A0W1KVR1/1-193   DE Ribonuclease D
#=GS A0A0W1KVR1/1-193   DR GENE3D; 16207a1d8a29e8acefe80fb212e3347a/1-193; 
#=GS A0A0W1KVR1/1-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas sp. 10-33; 
#=GS A0A0W1KVR1/1-193   DR EC; 3.1.13.5; 
#=GS A0A0P1GQ75/1-194   AC A0A0P1GQ75
#=GS A0A0P1GQ75/1-194   OS Tropicibacter naphthalenivorans
#=GS A0A0P1GQ75/1-194   DE Ribonuclease D
#=GS A0A0P1GQ75/1-194   DR GENE3D; 1634afcc76145f3d0294e07721a175d9/1-194; 
#=GS A0A0P1GQ75/1-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Tropicibacter; Tropicibacter naphthalenivorans; 
#=GS A0A0P1GQ75/1-194   DR EC; 3.1.13.5; 
#=GS A0A0W0AAE0/13-201  AC A0A0W0AAE0
#=GS A0A0W0AAE0/13-201  OS Roseomonas mucosa
#=GS A0A0W0AAE0/13-201  DE Ribonuclease D
#=GS A0A0W0AAE0/13-201  DR GENE3D; 1635b0b009f28feadbd877391e969003/13-201; 
#=GS A0A0W0AAE0/13-201  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Roseomonas; Roseomonas mucosa; 
#=GS A0A0W0AAE0/13-201  DR EC; 3.1.13.5; 
#=GS G2GWY5/1-194       AC G2GWY5
#=GS G2GWY5/1-194       OS Candidatus Regiella insecticola 5.15
#=GS G2GWY5/1-194       DE Ribonuclease D
#=GS G2GWY5/1-194       DR GENE3D; 163f99a1d0406712184d560ab2a010a1/1-194; 
#=GS G2GWY5/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Candidatus Regiella; Candidatus Regiella insecticola; 
#=GS G2GWY5/1-194       DR EC; 3.1.13.5; 
#=GS A0A0N1IZ67/1-194   AC A0A0N1IZ67
#=GS A0A0N1IZ67/1-194   OS Photorhabdus heterorhabditis
#=GS A0A0N1IZ67/1-194   DE Ribonuclease D
#=GS A0A0N1IZ67/1-194   DR GENE3D; 1643fd1c165bd8bcecf4bcfb2b6d1007/1-194; 
#=GS A0A0N1IZ67/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Photorhabdus; Photorhabdus heterorhabditis; 
#=GS A0A0N1IZ67/1-194   DR EC; 3.1.13.5; 
#=GS A0A1E5Q5N1/1-190   AC A0A1E5Q5N1
#=GS A0A1E5Q5N1/1-190   OS Magnetovibrio blakemorei
#=GS A0A1E5Q5N1/1-190   DE Ribonuclease D
#=GS A0A1E5Q5N1/1-190   DR GENE3D; 16441746abe829f0e0e1b20447af6614/1-190; 
#=GS A0A1E5Q5N1/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Magnetovibrio; Magnetovibrio blakemorei; 
#=GS A0A1E5Q5N1/1-190   DR EC; 3.1.13.5; 
#=GS W9E313/1-191       AC W9E313
#=GS W9E313/1-191       OS Mesorhizobium loti R7A
#=GS W9E313/1-191       DE Ribonuclease D
#=GS W9E313/1-191       DR GENE3D; 1667d91374952796e66153d53211150d/1-191; 
#=GS W9E313/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium loti; 
#=GS W9E313/1-191       DR EC; 3.1.13.5; 
#=GS A0A1A5IBS0/1-191   AC A0A1A5IBS0
#=GS A0A1A5IBS0/1-191   OS Mesorhizobium loti
#=GS A0A1A5IBS0/1-191   DE Ribonuclease D
#=GS A0A1A5IBS0/1-191   DR GENE3D; 1667d91374952796e66153d53211150d/1-191; 
#=GS A0A1A5IBS0/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium loti; 
#=GS A0A1A5IBS0/1-191   DR EC; 3.1.13.5; 
#=GS E6KX28/13-205      AC E6KX28
#=GS E6KX28/13-205      OS Aggregatibacter segnis ATCC 33393
#=GS E6KX28/13-205      DE Ribonuclease D
#=GS E6KX28/13-205      DR GENE3D; 167136d3821ca9358ee6d90334981689/13-205; 
#=GS E6KX28/13-205      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Aggregatibacter; Aggregatibacter segnis; 
#=GS E6KX28/13-205      DR EC; 3.1.13.5; 
#=GS K8PHG0/1-192       AC K8PHG0
#=GS K8PHG0/1-192       OS Afipia clevelandensis ATCC 49720
#=GS K8PHG0/1-192       DE Ribonuclease D
#=GS K8PHG0/1-192       DR GENE3D; 16772ae12306f9b09ca4de23d4ae1462/1-192; 
#=GS K8PHG0/1-192       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Afipia; Afipia clevelandensis; 
#=GS K8PHG0/1-192       DR EC; 3.1.13.5; 
#=GS A0A1E5F2B4/18-211  AC A0A1E5F2B4
#=GS A0A1E5F2B4/18-211  OS Vibrio tasmaniensis 1F-187
#=GS A0A1E5F2B4/18-211  DE Ribonuclease D
#=GS A0A1E5F2B4/18-211  DR GENE3D; 168c8a48ebe643c03b92fb5db09f7b03/18-211; 
#=GS A0A1E5F2B4/18-211  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio tasmaniensis; 
#=GS A0A1E5F2B4/18-211  DR EC; 3.1.13.5; 
#=GS A0A1C7Z2M0/3-195   AC A0A1C7Z2M0
#=GS A0A1C7Z2M0/3-195   OS Pseudomonas syringae
#=GS A0A1C7Z2M0/3-195   DE Ribonuclease D
#=GS A0A1C7Z2M0/3-195   DR GENE3D; 169b2aa30255cae68a70438a6408f092/3-195; 
#=GS A0A1C7Z2M0/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 1; Pseudomonas syringae; 
#=GS A0A1C7Z2M0/3-195   DR EC; 3.1.13.5; 
#=GS A0A0F5ES59/14-206  AC A0A0F5ES59
#=GS A0A0F5ES59/14-206  OS Avibacterium paragallinarum
#=GS A0A0F5ES59/14-206  DE Ribonuclease D
#=GS A0A0F5ES59/14-206  DR GENE3D; 16a610ec59c9e7b11992ef5cb631fba0/14-206; 
#=GS A0A0F5ES59/14-206  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Avibacterium; Avibacterium paragallinarum; 
#=GS A0A0F5ES59/14-206  DR EC; 3.1.13.5; 
#=GS A0A0E4G2K3/1-194   AC A0A0E4G2K3
#=GS A0A0E4G2K3/1-194   OS Candidatus Hamiltonella defensa (Bemisia tabaci)
#=GS A0A0E4G2K3/1-194   DE Ribonuclease D
#=GS A0A0E4G2K3/1-194   DR GENE3D; 16b296e363a757ea9f03af3aca557e9b/1-194; 
#=GS A0A0E4G2K3/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Candidatus Hamiltonella; Candidatus Hamiltonella defensa; 
#=GS A0A0E4G2K3/1-194   DR EC; 3.1.13.5; 
#=GS L8D8M1/1-194       AC L8D8M1
#=GS L8D8M1/1-194       OS Pseudoalteromonas luteoviolacea B = ATCC 29581
#=GS L8D8M1/1-194       DE Ribonuclease D
#=GS L8D8M1/1-194       DR GENE3D; 16cbb1e1c96f22cfe7d18771fa186b4e/1-194; 
#=GS L8D8M1/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas luteoviolacea; 
#=GS L8D8M1/1-194       DR EC; 3.1.13.5; 
#=GS S7TS48/19-211      AC S7TS48
#=GS S7TS48/19-211      OS Desulfovibrio sp. X2
#=GS S7TS48/19-211      DE Ribonuclease D
#=GS S7TS48/19-211      DR GENE3D; 16d3b6442d121dee2152c04e1c13d7f2/19-211; 
#=GS S7TS48/19-211      DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfovibrionales; Desulfovibrionaceae; Desulfovibrio; Desulfovibrio sp. X2; 
#=GS S7TS48/19-211      DR EC; 3.1.13.5; 
#=GS I3DNB9/5-198       AC I3DNB9
#=GS I3DNB9/5-198       OS Haemophilus parahaemolyticus HK385
#=GS I3DNB9/5-198       DE Ribonuclease D
#=GS I3DNB9/5-198       DR GENE3D; 171d080e137484e858a8063c50f18032/5-198; 
#=GS I3DNB9/5-198       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; Haemophilus parahaemolyticus; 
#=GS I3DNB9/5-198       DR EC; 3.1.13.5; 
#=GS A0A0X3U1Q9/1-195   AC A0A0X3U1Q9
#=GS A0A0X3U1Q9/1-195   OS Ruegeria sp. ZGT108
#=GS A0A0X3U1Q9/1-195   DE Ribonuclease D
#=GS A0A0X3U1Q9/1-195   DR GENE3D; 1730a3721a05d8bfa8aebba4cbc72793/1-195; 
#=GS A0A0X3U1Q9/1-195   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Ruegeria; Ruegeria sp. ZGT108; 
#=GS A0A0X3U1Q9/1-195   DR EC; 3.1.13.5; 
#=GS A0A0P7XY54/1-188   AC A0A0P7XY54
#=GS A0A0P7XY54/1-188   OS Rhizobiales bacterium HL-109
#=GS A0A0P7XY54/1-188   DE Ribonuclease D
#=GS A0A0P7XY54/1-188   DR GENE3D; 17335956c2545fa48a8528925fd36575/1-188; 
#=GS A0A0P7XY54/1-188   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiales bacterium HL-109; 
#=GS A0A0P7XY54/1-188   DR EC; 3.1.13.5; 
#=GS F6ILP1/4-194       AC F6ILP1
#=GS F6ILP1/4-194       OS Novosphingobium sp. PP1Y
#=GS F6ILP1/4-194       DE Ribonuclease D
#=GS F6ILP1/4-194       DR GENE3D; 1789cb6b92f57f2f2cc71a9e622d7408/4-194; 
#=GS F6ILP1/4-194       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium sp. PP1Y; 
#=GS F6ILP1/4-194       DR EC; 3.1.13.5; 
#=GS A0A0A7ME64/5-198   AC A0A0A7ME64
#=GS A0A0A7ME64/5-198   OS Actinobacillus equuli subsp. equuli
#=GS A0A0A7ME64/5-198   DE Ribonuclease D
#=GS A0A0A7ME64/5-198   DR GENE3D; 17a126fa394ee324fe9bc1451764cce9/5-198; 
#=GS A0A0A7ME64/5-198   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Actinobacillus; Actinobacillus equuli; Actinobacillus equuli subsp. equuli; 
#=GS A0A0A7ME64/5-198   DR EC; 3.1.13.5; 
#=GS A0A1B1JPV1/10-203  AC A0A1B1JPV1
#=GS A0A1B1JPV1/10-203  OS Enterobacter hormaechei
#=GS A0A1B1JPV1/10-203  DE Ribonuclease D
#=GS A0A1B1JPV1/10-203  DR GENE3D; 17bd8dca19e91cf8d2e5f8a1906e07e4/10-203; 
#=GS A0A1B1JPV1/10-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter hormaechei; 
#=GS A0A1B1JPV1/10-203  DR EC; 3.1.13.5; 
#=GS A0A0E1JCY7/10-203  AC A0A0E1JCY7
#=GS A0A0E1JCY7/10-203  OS Enterobacter hormaechei subsp. steigerwaltii
#=GS A0A0E1JCY7/10-203  DE Ribonuclease D
#=GS A0A0E1JCY7/10-203  DR GENE3D; 17bd8dca19e91cf8d2e5f8a1906e07e4/10-203; 
#=GS A0A0E1JCY7/10-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter hormaechei; Enterobacter hormaechei subsp. steigerwaltii; 
#=GS A0A0E1JCY7/10-203  DR EC; 3.1.13.5; 
#=GS A0A101VGP7/3-195   AC A0A101VGP7
#=GS A0A101VGP7/3-195   OS Sphingomonadales bacterium BRH_c3
#=GS A0A101VGP7/3-195   DE Ribonuclease D
#=GS A0A101VGP7/3-195   DR GENE3D; 17d3cef976abae1f5986af4930c4a571/3-195; 
#=GS A0A101VGP7/3-195   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadales bacterium BRH_c3; 
#=GS A0A101VGP7/3-195   DR EC; 3.1.13.5; 
#=GS A0A059IT28/1-194   AC A0A059IT28
#=GS A0A059IT28/1-194   OS Defluviimonas sp. 20V17
#=GS A0A059IT28/1-194   DE Ribonuclease D
#=GS A0A059IT28/1-194   DR GENE3D; 17e25323ca8bebfde2b75e1d7c49aaa7/1-194; 
#=GS A0A059IT28/1-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Defluviimonas; Defluviimonas sp. 20V17; 
#=GS A0A059IT28/1-194   DR EC; 3.1.13.5; 
#=GS A0A0P9V512/3-194   AC A0A0P9V512
#=GS A0A0P9V512/3-194   OS Pseudomonas amygdali pv. photiniae
#=GS A0A0P9V512/3-194   DE Ribonuclease D
#=GS A0A0P9V512/3-194   DR GENE3D; 1811cf97fb611d3e542f0f2fd28ccce1/3-194; 
#=GS A0A0P9V512/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 2; Pseudomonas amygdali; 
#=GS A0A0P9V512/3-194   DR EC; 3.1.13.5; 
#=GS A0A147I6Q0/4-194   AC A0A147I6Q0
#=GS A0A147I6Q0/4-194   OS Sphingomonas endophytica
#=GS A0A147I6Q0/4-194   DE Ribonuclease D
#=GS A0A147I6Q0/4-194   DR GENE3D; 1816372f2e270e984fb0704da32c9abe/4-194; 
#=GS A0A147I6Q0/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas endophytica; 
#=GS A0A147I6Q0/4-194   DR EC; 3.1.13.5; 
#=GS A0A0A6YEF7/1-194   AC A0A0A6YEF7
#=GS A0A0A6YEF7/1-194   OS Pantoea stewartii
#=GS A0A0A6YEF7/1-194   DE Ribonuclease D
#=GS A0A0A6YEF7/1-194   DR GENE3D; 1817d4a978e6197aa4af36c97a86b950/1-194; 
#=GS A0A0A6YEF7/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Pantoea; Pantoea stewartii; 
#=GS A0A0A6YEF7/1-194   DR EC; 3.1.13.5; 
#=GS A0A0M2YG91/1-194   AC A0A0M2YG91
#=GS A0A0M2YG91/1-194   OS Pantoea ananatis
#=GS A0A0M2YG91/1-194   DE Ribonuclease D
#=GS A0A0M2YG91/1-194   DR GENE3D; 1817d4a978e6197aa4af36c97a86b950/1-194; 
#=GS A0A0M2YG91/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Pantoea; Pantoea ananatis; 
#=GS A0A0M2YG91/1-194   DR EC; 3.1.13.5; 
#=GS A0A0Q6K7R0/1-190   AC A0A0Q6K7R0
#=GS A0A0Q6K7R0/1-190   OS Bosea sp. Leaf344
#=GS A0A0Q6K7R0/1-190   DE Ribonuclease D
#=GS A0A0Q6K7R0/1-190   DR GENE3D; 1858607c3543d8f70263322c79c76dcf/1-190; 
#=GS A0A0Q6K7R0/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bosea; Bosea sp. Leaf344; 
#=GS A0A0Q6K7R0/1-190   DR EC; 3.1.13.5; 
#=GS S7UKS1/37-227      AC S7UKS1
#=GS S7UKS1/37-227      OS Desulfovibrio alkalitolerans DSM 16529
#=GS S7UKS1/37-227      DE Ribonuclease D
#=GS S7UKS1/37-227      DR GENE3D; 185ca1c55f4696c7ffbe1625c6037d8a/37-227; 
#=GS S7UKS1/37-227      DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfovibrionales; Desulfovibrionaceae; Desulfovibrio; Desulfovibrio alkalitolerans; 
#=GS S7UKS1/37-227      DR EC; 3.1.13.5; 
#=GS S6F493/14-206      AC S6F493
#=GS S6F493/14-206      OS Avibacterium paragallinarum JF4211
#=GS S6F493/14-206      DE Ribonuclease D
#=GS S6F493/14-206      DR GENE3D; 186d5497aaa8f07f912e44ce65d04483/14-206; 
#=GS S6F493/14-206      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Avibacterium; Avibacterium paragallinarum; 
#=GS S6F493/14-206      DR EC; 3.1.13.5; 
#=GS R0DE87/1-190       AC R0DE87
#=GS R0DE87/1-190       OS Salmonella enterica subsp. houtenae serovar 16:z4,z32:-- str. RKS3027
#=GS R0DE87/1-190       DE Ribonuclease D
#=GS R0DE87/1-190       DR GENE3D; 1870360374a5917ed70eeea0e16c56c8/1-190; 
#=GS R0DE87/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. houtenae; 
#=GS R0DE87/1-190       DR EC; 3.1.13.5; 
#=GS A0A0E2QUB6/1-194   AC A0A0E2QUB6
#=GS A0A0E2QUB6/1-194   OS Providencia alcalifaciens R90-1475
#=GS A0A0E2QUB6/1-194   DE Ribonuclease D
#=GS A0A0E2QUB6/1-194   DR GENE3D; 188a8eccc0f00e36236bc6d5e46ca390/1-194; 
#=GS A0A0E2QUB6/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Providencia; Providencia alcalifaciens; 
#=GS A0A0E2QUB6/1-194   DR EC; 3.1.13.5; 
#=GS A0A0X3U5I7/8-197   AC A0A0X3U5I7
#=GS A0A0X3U5I7/8-197   OS Microbulbifer sp. ZGT114
#=GS A0A0X3U5I7/8-197   DE Ribonuclease D
#=GS A0A0X3U5I7/8-197   DR GENE3D; 18be3be0a9d2a67589c0edee59f9d836/8-197; 
#=GS A0A0X3U5I7/8-197   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cellvibrionales; Microbulbiferaceae; Microbulbifer; Microbulbifer sp. ZGT114; 
#=GS A0A0X3U5I7/8-197   DR EC; 3.1.13.5; 
#=GS A0A1E4FNX0/1-190   AC A0A1E4FNX0
#=GS A0A1E4FNX0/1-190   OS Pelagibacterium sp. SCN 63-23
#=GS A0A1E4FNX0/1-190   DE Ribonuclease D
#=GS A0A1E4FNX0/1-190   DR GENE3D; 18beeab2e5f8c0abace1e3af1eebd37e/1-190; 
#=GS A0A1E4FNX0/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Pelagibacterium; Pelagibacterium sp. SCN 63-23; 
#=GS A0A1E4FNX0/1-190   DR EC; 3.1.13.5; 
#=GS A0A1H0VW65/3-195   AC A0A1H0VW65
#=GS A0A1H0VW65/3-195   OS Pseudomonas extremorientalis
#=GS A0A1H0VW65/3-195   DE Ribonuclease D
#=GS A0A1H0VW65/3-195   DR GENE3D; 18d0b3dc22906b57c6a2297250cfb1a4/3-195; 
#=GS A0A1H0VW65/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas extremorientalis; 
#=GS A0A1H0VW65/3-195   DR EC; 3.1.13.5; 
#=GS F7RP01/12-202      AC F7RP01
#=GS F7RP01/12-202      OS Shewanella sp. HN-41
#=GS F7RP01/12-202      DE Ribonuclease D
#=GS F7RP01/12-202      DR GENE3D; 193a7682df5c5da99df5870a3b46e647/12-202; 
#=GS F7RP01/12-202      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella sp. HN-41; 
#=GS F7RP01/12-202      DR EC; 3.1.13.5; 
#=GS A0A1H5W0S0/1-194   AC A0A1H5W0S0
#=GS A0A1H5W0S0/1-194   OS Thalassococcus halodurans
#=GS A0A1H5W0S0/1-194   DE Ribonuclease D
#=GS A0A1H5W0S0/1-194   DR GENE3D; 1953e8507e968432587bc8dacc0e3ff0/1-194; 
#=GS A0A1H5W0S0/1-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Thalassococcus; Thalassococcus halodurans; 
#=GS A0A1H5W0S0/1-194   DR EC; 3.1.13.5; 
#=GS A0A0V2ECX6/1-190   AC A0A0V2ECX6
#=GS A0A0V2ECX6/1-190   OS Salmonella enterica subsp. arizonae serovar 63:g,z51:- str. So 20/20
#=GS A0A0V2ECX6/1-190   DE Ribonuclease D
#=GS A0A0V2ECX6/1-190   DR GENE3D; 19638c597eb64fd99294d5cc66656ed8/1-190; 
#=GS A0A0V2ECX6/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. arizonae; 
#=GS A0A0V2ECX6/1-190   DR EC; 3.1.13.5; 
#=GS W8F7S4/1-190       AC W8F7S4
#=GS W8F7S4/1-190       OS Agrobacterium tumefaciens LBA4213 (Ach5)
#=GS W8F7S4/1-190       DE Ribonuclease D
#=GS W8F7S4/1-190       DR GENE3D; 1980196cbefbb375bb652632b1a8a2c3/1-190; 
#=GS W8F7S4/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium tumefaciens complex; Agrobacterium tumefaciens; 
#=GS W8F7S4/1-190       DR EC; 3.1.13.5; 
#=GS A0A172Y9K9/1-188   AC A0A172Y9K9
#=GS A0A172Y9K9/1-188   OS Brevundimonas naejangsanensis
#=GS A0A172Y9K9/1-188   DE Ribonuclease D
#=GS A0A172Y9K9/1-188   DR GENE3D; 19a03de901d856c213e21d53bb13d148/1-188; 
#=GS A0A172Y9K9/1-188   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Brevundimonas; Brevundimonas naejangsanensis; 
#=GS A0A172Y9K9/1-188   DR EC; 3.1.13.5; 
#=GS D6JA83/1-190       AC D6JA83
#=GS D6JA83/1-190       OS Escherichia coli B354
#=GS D6JA83/1-190       DE Ribonuclease D
#=GS D6JA83/1-190       DR GENE3D; 19aa5b16667d1595951a3cdda424e30e/1-190; 
#=GS D6JA83/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS D6JA83/1-190       DR EC; 3.1.13.5; 
#=GS A0A0M0M2J1/1-192   AC A0A0M0M2J1
#=GS A0A0M0M2J1/1-192   OS Rheinheimera sp. KL1
#=GS A0A0M0M2J1/1-192   DE Ribonuclease D
#=GS A0A0M0M2J1/1-192   DR GENE3D; 19c6232388c8c6a8458cb228d37c3b6b/1-192; 
#=GS A0A0M0M2J1/1-192   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Rheinheimera; Rheinheimera sp. KL1; 
#=GS A0A0M0M2J1/1-192   DR EC; 3.1.13.5; 
#=GS A0A147J3N0/4-194   AC A0A147J3N0
#=GS A0A147J3N0/4-194   OS Sphingomonas sanguinis
#=GS A0A147J3N0/4-194   DE Ribonuclease D
#=GS A0A147J3N0/4-194   DR GENE3D; 19ca4a95b7e6d52918350f487ea68ba8/4-194; 
#=GS A0A147J3N0/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sanguinis; 
#=GS A0A147J3N0/4-194   DR EC; 3.1.13.5; 
#=GS A0A066TG02/1-194   AC A0A066TG02
#=GS A0A066TG02/1-194   OS Gilliamella apicola
#=GS A0A066TG02/1-194   DE Ribonuclease D
#=GS A0A066TG02/1-194   DR GENE3D; 19cd741ade075521315ee5dc573497a8/1-194; 
#=GS A0A066TG02/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Orbales; Orbaceae; Gilliamella; Gilliamella apicola; 
#=GS A0A066TG02/1-194   DR EC; 3.1.13.5; 
#=GS S5MWR1/1-190       AC S5MWR1
#=GS S5MWR1/1-190       OS Salmonella bongori N268-08
#=GS S5MWR1/1-190       DE Ribonuclease D
#=GS S5MWR1/1-190       DR GENE3D; 19d304009cfec0259ea55ea249cf2b40/1-190; 
#=GS S5MWR1/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella bongori; 
#=GS S5MWR1/1-190       DR EC; 3.1.13.5; 
#=GS A0A0F0FDL0/3-195   AC A0A0F0FDL0
#=GS A0A0F0FDL0/3-195   OS Pseudomonas sp. 2(2015)
#=GS A0A0F0FDL0/3-195   DE Ribonuclease D
#=GS A0A0F0FDL0/3-195   DR GENE3D; 19fad89d8f635f5f431ddabfae4b3d00/3-195; 
#=GS A0A0F0FDL0/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. 2(2015); 
#=GS A0A0F0FDL0/3-195   DR EC; 3.1.13.5; 
#=GS A0A0Q0BVR1/3-194   AC A0A0Q0BVR1
#=GS A0A0Q0BVR1/3-194   OS Pseudomonas syringae pv. rhaphiolepidis
#=GS A0A0Q0BVR1/3-194   DE Ribonuclease D
#=GS A0A0Q0BVR1/3-194   DR GENE3D; 19fb8ddcb2902108fc407c3359f9063b/3-194; 
#=GS A0A0Q0BVR1/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 1; Pseudomonas syringae; 
#=GS A0A0Q0BVR1/3-194   DR EC; 3.1.13.5; 
#=GS W5J052/4-195       AC W5J052
#=GS W5J052/4-195       OS Pseudomonas sp. M1
#=GS W5J052/4-195       DE Ribonuclease D
#=GS W5J052/4-195       DR GENE3D; 1a0abb072cb7cb811e772768b7fcf78e/4-195; 
#=GS W5J052/4-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. M1; 
#=GS W5J052/4-195       DR EC; 3.1.13.5; 
#=GS A0A135PDC9/1-190   AC A0A135PDC9
#=GS A0A135PDC9/1-190   OS Atopobium vaginae
#=GS A0A135PDC9/1-190   DE Ribonuclease D
#=GS A0A135PDC9/1-190   DR GENE3D; 1a11af8850ba10240a6e00b8336abdbf/1-190; 
#=GS A0A135PDC9/1-190   DR ORG; Bacteria; Actinobacteria; Coriobacteriia; Coriobacteriales; Atopobiaceae; Atopobium; Atopobium vaginae; 
#=GS A0A135PDC9/1-190   DR EC; 3.1.13.5; 
#=GS A0A0J6MJ51/10-203  AC A0A0J6MJ51
#=GS A0A0J6MJ51/10-203  OS Leclercia sp. LK8
#=GS A0A0J6MJ51/10-203  DE Ribonuclease D
#=GS A0A0J6MJ51/10-203  DR GENE3D; 1a94a3684452710d7190d7421260ed28/10-203; 
#=GS A0A0J6MJ51/10-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Leclercia; Leclercia sp. LK8; 
#=GS A0A0J6MJ51/10-203  DR EC; 3.1.13.5; 
#=GS M8ALM6/1-190       AC M8ALM6
#=GS M8ALM6/1-190       OS Agrobacterium tumefaciens str. Cherry 2E-2-2
#=GS M8ALM6/1-190       DE Ribonuclease D
#=GS M8ALM6/1-190       DR GENE3D; 1a9f2d912a74e7ca0910db6296c7884f/1-190; 
#=GS M8ALM6/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium tumefaciens complex; Agrobacterium tumefaciens; 
#=GS M8ALM6/1-190       DR EC; 3.1.13.5; 
#=GS A0A1D8QYV5/12-200  AC A0A1D8QYV5
#=GS A0A1D8QYV5/12-200  OS Acetobacter pasteurianus subsp. ascendens
#=GS A0A1D8QYV5/12-200  DE Ribonuclease D
#=GS A0A1D8QYV5/12-200  DR GENE3D; 1ac59a43b5c6ee52c5f2e7b194e6c305/12-200; 
#=GS A0A1D8QYV5/12-200  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Acetobacter; Acetobacter pasteurianus; Acetobacter pasteurianus subsp. ascendens; 
#=GS A0A1D8QYV5/12-200  DR EC; 3.1.13.5; 
#=GS I9WBM6/4-195       AC I9WBM6
#=GS I9WBM6/4-195       OS Novosphingobium sp. Rr 2-17
#=GS I9WBM6/4-195       DE Ribonuclease D
#=GS I9WBM6/4-195       DR GENE3D; 1ad6e1692ea019c059ba5f8fab39ef14/4-195; 
#=GS I9WBM6/4-195       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium sp. Rr 2-17; 
#=GS I9WBM6/4-195       DR EC; 3.1.13.5; 
#=GS A0A0C5L370/4-194   AC A0A0C5L370
#=GS A0A0C5L370/4-194   OS Sphingomonas hengshuiensis
#=GS A0A0C5L370/4-194   DE Ribonuclease D
#=GS A0A0C5L370/4-194   DR GENE3D; 1b0dceefbab611464767803b308010fd/4-194; 
#=GS A0A0C5L370/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas hengshuiensis; 
#=GS A0A0C5L370/4-194   DR EC; 3.1.13.5; 
#=GS A0A0J8YKH6/2-195   AC A0A0J8YKH6
#=GS A0A0J8YKH6/2-195   OS bacteria symbiont BFo2 of Frankliniella occidentalis
#=GS A0A0J8YKH6/2-195   DE Ribonuclease D
#=GS A0A0J8YKH6/2-195   DR GENE3D; 1b119f042ddc54901f692552ed8c2723/2-195; 
#=GS A0A0J8YKH6/2-195   DR ORG; Bacteria; bacteria symbiont BFo2 of Frankliniella occidentalis; 
#=GS A0A0J8YKH6/2-195   DR EC; 3.1.13.5; 
#=GS A0A1B9QWE7/20-213  AC A0A1B9QWE7
#=GS A0A1B9QWE7/20-213  OS Vibrio genomosp. F10
#=GS A0A1B9QWE7/20-213  DE Ribonuclease D
#=GS A0A1B9QWE7/20-213  DR GENE3D; 1b3617196bd485522677d2e11a3546c6/20-213; 
#=GS A0A1B9QWE7/20-213  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio genomosp. F10; 
#=GS A0A1B9QWE7/20-213  DR EC; 3.1.13.5; 
#=GS A0A1A5RMB0/1-191   AC A0A1A5RMB0
#=GS A0A1A5RMB0/1-191   OS Mesorhizobium sp. WSM1497
#=GS A0A1A5RMB0/1-191   DE Ribonuclease D
#=GS A0A1A5RMB0/1-191   DR GENE3D; 1b396086a19253d126ff98edf3f693f2/1-191; 
#=GS A0A1A5RMB0/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. WSM1497; 
#=GS A0A1A5RMB0/1-191   DR EC; 3.1.13.5; 
#=GS A0A143N7Y1/1-191   AC A0A143N7Y1
#=GS A0A143N7Y1/1-191   OS Mesorhizobium ciceri
#=GS A0A143N7Y1/1-191   DE Ribonuclease D
#=GS A0A143N7Y1/1-191   DR GENE3D; 1b396086a19253d126ff98edf3f693f2/1-191; 
#=GS A0A143N7Y1/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium ciceri; 
#=GS A0A143N7Y1/1-191   DR EC; 3.1.13.5; 
#=GS A0A1C9W387/8-197   AC A0A1C9W387
#=GS A0A1C9W387/8-197   OS Microbulbifer sp. CCB-MM1
#=GS A0A1C9W387/8-197   DE Ribonuclease D
#=GS A0A1C9W387/8-197   DR GENE3D; 1b3c3f66e49a2a34557d3f87c35a3477/8-197; 
#=GS A0A1C9W387/8-197   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cellvibrionales; Microbulbiferaceae; Microbulbifer; Microbulbifer sp. CCB-MM1; 
#=GS A0A1C9W387/8-197   DR EC; 3.1.13.5; 
#=GS A0A1D8N2V4/2-195   AC A0A1D8N2V4
#=GS A0A1D8N2V4/2-195   OS Edwardsiella hoshinae
#=GS A0A1D8N2V4/2-195   DE Ribonuclease D
#=GS A0A1D8N2V4/2-195   DR GENE3D; 1b428d493a23f236dadb38b5a79d9ae1/2-195; 
#=GS A0A1D8N2V4/2-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Hafniaceae; Edwardsiella; Edwardsiella hoshinae; 
#=GS A0A1D8N2V4/2-195   DR EC; 3.1.13.5; 
#=GS F9RPH1/1-194       AC F9RPH1
#=GS F9RPH1/1-194       OS Vibrio scophthalmi LMG 19158
#=GS F9RPH1/1-194       DE Ribonuclease D
#=GS F9RPH1/1-194       DR GENE3D; 1b4bda411212940a915bc94fc2354a39/1-194; 
#=GS F9RPH1/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio scophthalmi; 
#=GS F9RPH1/1-194       DR EC; 3.1.13.5; 
#=GS F9RHG7/1-194       AC F9RHG7
#=GS F9RHG7/1-194       OS Vibrio sp. N418
#=GS F9RHG7/1-194       DE Ribonuclease D
#=GS F9RHG7/1-194       DR GENE3D; 1b4bda411212940a915bc94fc2354a39/1-194; 
#=GS F9RHG7/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. N418; 
#=GS F9RHG7/1-194       DR EC; 3.1.13.5; 
#=GS A0A1C7F9W6/1-194   AC A0A1C7F9W6
#=GS A0A1C7F9W6/1-194   OS Vibrio scophthalmi
#=GS A0A1C7F9W6/1-194   DE Ribonuclease D
#=GS A0A1C7F9W6/1-194   DR GENE3D; 1b4bda411212940a915bc94fc2354a39/1-194; 
#=GS A0A1C7F9W6/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio scophthalmi; 
#=GS A0A1C7F9W6/1-194   DR EC; 3.1.13.5; 
#=GS X6Q8Y7/1-194       AC X6Q8Y7
#=GS X6Q8Y7/1-194       OS Providencia alcalifaciens F90-2004
#=GS X6Q8Y7/1-194       DE Ribonuclease D
#=GS X6Q8Y7/1-194       DR GENE3D; 1b66d00d7b53cc66fcca92a8fcc3c068/1-194; 
#=GS X6Q8Y7/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Providencia; Providencia alcalifaciens; 
#=GS X6Q8Y7/1-194       DR EC; 3.1.13.5; 
#=GS B6XHZ2/1-194       AC B6XHZ2
#=GS B6XHZ2/1-194       OS Providencia alcalifaciens DSM 30120
#=GS B6XHZ2/1-194       DE Ribonuclease D
#=GS B6XHZ2/1-194       DR GENE3D; 1b66d00d7b53cc66fcca92a8fcc3c068/1-194; 
#=GS B6XHZ2/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Providencia; Providencia alcalifaciens; 
#=GS B6XHZ2/1-194       DR EC; 3.1.13.5; 
#=GS A0A090NYH9/1-194   AC A0A090NYH9
#=GS A0A090NYH9/1-194   OS Shigella dysenteriae WRSd3
#=GS A0A090NYH9/1-194   DE Ribonuclease D
#=GS A0A090NYH9/1-194   DR GENE3D; 1b821b5773885f5a32aa06ed67e4f33d/1-194; 
#=GS A0A090NYH9/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Shigella; Shigella dysenteriae; 
#=GS A0A090NYH9/1-194   DR EC; 3.1.13.5; 
#=GS J1GJI5/1-194       AC J1GJI5
#=GS J1GJI5/1-194       OS Enterobacter sp. Ag1
#=GS J1GJI5/1-194       DE Ribonuclease D
#=GS J1GJI5/1-194       DR GENE3D; 1b95f81d786c56e1f83c638704ed2c8c/1-194; 
#=GS J1GJI5/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter sp. Ag1; 
#=GS J1GJI5/1-194       DR EC; 3.1.13.5; 
#=GS A0A062Y4X3/1-190   AC A0A062Y4X3
#=GS A0A062Y4X3/1-190   OS Escherichia coli 2-011-08_S1_C1
#=GS A0A062Y4X3/1-190   DE Ribonuclease D
#=GS A0A062Y4X3/1-190   DR GENE3D; 1ba434fb4e6c53b7af6b222f1d21d1f3/1-190; 
#=GS A0A062Y4X3/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A062Y4X3/1-190   DR EC; 3.1.13.5; 
#=GS A0A0D8KIZ7/1-190   AC A0A0D8KIZ7
#=GS A0A0D8KIZ7/1-190   OS Rhizobium nepotum 39/7
#=GS A0A0D8KIZ7/1-190   DE Ribonuclease D
#=GS A0A0D8KIZ7/1-190   DR GENE3D; 1ba57b3319c3d5bdcfe4ebbaba0bd244/1-190; 
#=GS A0A0D8KIZ7/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium nepotum; 
#=GS A0A0D8KIZ7/1-190   DR EC; 3.1.13.5; 
#=GS W0HWE3/1-194       AC W0HWE3
#=GS W0HWE3/1-194       OS Sodalis praecaptivus
#=GS W0HWE3/1-194       DE Ribonuclease D
#=GS W0HWE3/1-194       DR GENE3D; 1ba5b2aeb268f0460196017aa1f6adcb/1-194; 
#=GS W0HWE3/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Pectobacteriaceae; Sodalis; Sodalis praecaptivus; 
#=GS W0HWE3/1-194       DR EC; 3.1.13.5; 
#=GS R7CE42/1-191       AC R7CE42
#=GS R7CE42/1-191       OS Cryptobacterium sp. CAG:338
#=GS R7CE42/1-191       DE Ribonuclease D
#=GS R7CE42/1-191       DR GENE3D; 1bc677916d1abb4a27173586323470ff/1-191; 
#=GS R7CE42/1-191       DR ORG; Bacteria; Actinobacteria; Coriobacteriia; Eggerthellales; Eggerthellaceae; Cryptobacterium; Cryptobacterium sp. CAG:338; 
#=GS R7CE42/1-191       DR EC; 3.1.13.5; 
#=GS I1YGM3/1-192       AC I1YGM3
#=GS I1YGM3/1-192       OS Methylophaga frappieri
#=GS I1YGM3/1-192       DE Ribonuclease D
#=GS I1YGM3/1-192       DR GENE3D; 1bc72875d3383ebbf25dfb136faa140f/1-192; 
#=GS I1YGM3/1-192       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Piscirickettsiaceae; Methylophaga; Methylophaga frappieri; 
#=GS I1YGM3/1-192       DR EC; 3.1.13.5; 
#=GS H3MYV2/1-190       AC H3MYV2
#=GS H3MYV2/1-190       OS Klebsiella michiganensis
#=GS H3MYV2/1-190       DE Ribonuclease D
#=GS H3MYV2/1-190       DR GENE3D; 1bf17978f1158bb9eeb21e2b8a4148b2/1-190; 
#=GS H3MYV2/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella michiganensis; 
#=GS H3MYV2/1-190       DR EC; 3.1.13.5; 
#=GS A1UT53/1-190       AC A1UT53
#=GS A1UT53/1-190       OS Bartonella bacilliformis KC583
#=GS A1UT53/1-190       DE Ribonuclease D
#=GS A1UT53/1-190       DR GENE3D; 1bf579c5582491f121996b85ab545e9a/1-190; 
#=GS A1UT53/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bartonellaceae; Bartonella; Bartonella bacilliformis; 
#=GS A1UT53/1-190       DR EC; 3.1.13.5; 
#=GS A0A0M4L788/1-191   AC A0A0M4L788
#=GS A0A0M4L788/1-191   OS Bartonella ancashensis
#=GS A0A0M4L788/1-191   DE Ribonuclease D
#=GS A0A0M4L788/1-191   DR GENE3D; 1bfd3ce572624987d61ae5050f13553e/1-191; 
#=GS A0A0M4L788/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bartonellaceae; Bartonella; Bartonella ancashensis; 
#=GS A0A0M4L788/1-191   DR EC; 3.1.13.5; 
#=GS A0A1C4CDB0/1-190   AC A0A1C4CDB0
#=GS A0A1C4CDB0/1-190   OS Kosakonia oryzendophytica
#=GS A0A1C4CDB0/1-190   DE Ribonuclease D
#=GS A0A1C4CDB0/1-190   DR GENE3D; 1c1094d47260e0cf55aaf48d66b2679c/1-190; 
#=GS A0A1C4CDB0/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Kosakonia; Kosakonia oryzendophytica; 
#=GS A0A1C4CDB0/1-190   DR EC; 3.1.13.5; 
#=GS A0A127MXA3/4-195   AC A0A127MXA3
#=GS A0A127MXA3/4-195   OS Pseudomonas citronellolis
#=GS A0A127MXA3/4-195   DE Ribonuclease D
#=GS A0A127MXA3/4-195   DR GENE3D; 1c197912eeecfbc59a7ca214031b6ec3/4-195; 
#=GS A0A127MXA3/4-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas citronellolis; 
#=GS A0A127MXA3/4-195   DR EC; 3.1.13.5; 
#=GS D4ZL92/2-193       AC D4ZL92
#=GS D4ZL92/2-193       OS Shewanella violacea DSS12
#=GS D4ZL92/2-193       DE Ribonuclease D
#=GS D4ZL92/2-193       DR GENE3D; 1c1ecfea42ffe52b619f7a0f0dd98f4e/2-193; 
#=GS D4ZL92/2-193       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella violacea; 
#=GS D4ZL92/2-193       DR EC; 3.1.13.5; 
#=GS A0A1E3D2G5/1-194   AC A0A1E3D2G5
#=GS A0A1E3D2G5/1-194   OS Rhodobacter johrii
#=GS A0A1E3D2G5/1-194   DE Ribonuclease D
#=GS A0A1E3D2G5/1-194   DR GENE3D; 1c2ad9c5e8a463846ffb5ec7a9e93441/1-194; 
#=GS A0A1E3D2G5/1-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacter; Rhodobacter johrii; 
#=GS A0A1E3D2G5/1-194   DR EC; 3.1.13.5; 
#=GS A0A0P9FW54/1-193   AC A0A0P9FW54
#=GS A0A0P9FW54/1-193   OS Pseudoalteromonas sp. P1-9
#=GS A0A0P9FW54/1-193   DE Ribonuclease D
#=GS A0A0P9FW54/1-193   DR GENE3D; 1c2c752b780f50763f02ebe716955007/1-193; 
#=GS A0A0P9FW54/1-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas sp. P1-9; 
#=GS A0A0P9FW54/1-193   DR EC; 3.1.13.5; 
#=GS A0A0D9AAC2/3-195   AC A0A0D9AAC2
#=GS A0A0D9AAC2/3-195   OS Pseudomonas sp. ES3-33
#=GS A0A0D9AAC2/3-195   DE Ribonuclease D
#=GS A0A0D9AAC2/3-195   DR GENE3D; 1c2cc5757a5bf115dc1130aa4eb87f44/3-195; 
#=GS A0A0D9AAC2/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. ES3-33; 
#=GS A0A0D9AAC2/3-195   DR EC; 3.1.13.5; 
#=GS A0A1B5DDV8/3-195   AC A0A1B5DDV8
#=GS A0A1B5DDV8/3-195   OS Pseudomonas sp. 37 R 15
#=GS A0A1B5DDV8/3-195   DE Ribonuclease D
#=GS A0A1B5DDV8/3-195   DR GENE3D; 1ca2ecd68cf68a20155bbcaf941e7ab8/3-195; 
#=GS A0A1B5DDV8/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. 37 R 15; 
#=GS A0A1B5DDV8/3-195   DR EC; 3.1.13.5; 
#=GS A0A063D0D2/5-198   AC A0A063D0D2
#=GS A0A063D0D2/5-198   OS Haemophilus parasuis HPS10
#=GS A0A063D0D2/5-198   DE Ribonuclease D
#=GS A0A063D0D2/5-198   DR GENE3D; 1d200ee6409a34d5040ae276212ed75e/5-198; 
#=GS A0A063D0D2/5-198   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; [Haemophilus] parasuis; 
#=GS A0A063D0D2/5-198   DR EC; 3.1.13.5; 
#=GS A0A089YNN5/3-195   AC A0A089YNN5
#=GS A0A089YNN5/3-195   OS Pseudomonas rhizosphaerae
#=GS A0A089YNN5/3-195   DE Ribonuclease D
#=GS A0A089YNN5/3-195   DR GENE3D; 1d28d1ca708da90ab33631c5446cccd7/3-195; 
#=GS A0A089YNN5/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas rhizosphaerae; 
#=GS A0A089YNN5/3-195   DR EC; 3.1.13.5; 
#=GS A0A126S8B6/3-195   AC A0A126S8B6
#=GS A0A126S8B6/3-195   OS Pseudomonas putida
#=GS A0A126S8B6/3-195   DE Ribonuclease D
#=GS A0A126S8B6/3-195   DR GENE3D; 1d2d7b278997d539999f2230ca8b1012/3-195; 
#=GS A0A126S8B6/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; 
#=GS A0A126S8B6/3-195   DR EC; 3.1.13.5; 
#=GS A0A1E1FSH6/3-195   AC A0A1E1FSH6
#=GS A0A1E1FSH6/3-195   OS Pseudomonas chlororaphis subsp. aurantiaca
#=GS A0A1E1FSH6/3-195   DE Ribonuclease D
#=GS A0A1E1FSH6/3-195   DR GENE3D; 1d425e5a1a78f0fb4c2483aa246c72d0/3-195; 
#=GS A0A1E1FSH6/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas chlororaphis group; Pseudomonas chlororaphis; Pseudomonas chlororaphis subsp. aurantiaca; 
#=GS A0A1E1FSH6/3-195   DR EC; 3.1.13.5; 
#=GS A0A060QCE8/11-198  AC A0A060QCE8
#=GS A0A060QCE8/11-198  OS Saccharibacter sp. AM169
#=GS A0A060QCE8/11-198  DE Ribonuclease D
#=GS A0A060QCE8/11-198  DR GENE3D; 1d4daeba784ef3b59af5a256d3f87001/11-198; 
#=GS A0A060QCE8/11-198  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Saccharibacter; Saccharibacter sp. AM169; 
#=GS A0A060QCE8/11-198  DR EC; 3.1.13.5; 
#=GS A0A0H2MU09/1-190   AC A0A0H2MU09
#=GS A0A0H2MU09/1-190   OS Kiloniella spongiae
#=GS A0A0H2MU09/1-190   DE Ribonuclease D
#=GS A0A0H2MU09/1-190   DR GENE3D; 1d9b57ea9f14c028a17ca48779b4a103/1-190; 
#=GS A0A0H2MU09/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Kiloniellales; Kiloniellaceae; Kiloniella; Kiloniella spongiae; 
#=GS A0A0H2MU09/1-190   DR EC; 3.1.13.5; 
#=GS A0A0F2QY91/1-186   AC A0A0F2QY91
#=GS A0A0F2QY91/1-186   OS Pseudomonas sp. BRH_c35
#=GS A0A0F2QY91/1-186   DE Ribonuclease D
#=GS A0A0F2QY91/1-186   DR GENE3D; 1dcba6649f175a2bd809b97f3e6facd1/1-186; 
#=GS A0A0F2QY91/1-186   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. BRH_c35; 
#=GS A0A0F2QY91/1-186   DR EC; 3.1.13.5; 
#=GS A0A117UVL5/4-194   AC A0A117UVL5
#=GS A0A117UVL5/4-194   OS Novosphingobium fuchskuhlense
#=GS A0A117UVL5/4-194   DE Ribonuclease D
#=GS A0A117UVL5/4-194   DR GENE3D; 1ded9b5f32a8717d8f80fa0e524f7c06/4-194; 
#=GS A0A117UVL5/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium fuchskuhlense; 
#=GS A0A117UVL5/4-194   DR EC; 3.1.13.5; 
#=GS A0A0Q6W456/1-190   AC A0A0Q6W456
#=GS A0A0Q6W456/1-190   OS Rhizobium sp. Root1220
#=GS A0A0Q6W456/1-190   DE Ribonuclease D
#=GS A0A0Q6W456/1-190   DR GENE3D; 1df925979e859a3360887d4c8e41a583/1-190; 
#=GS A0A0Q6W456/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. Root1220; 
#=GS A0A0Q6W456/1-190   DR EC; 3.1.13.5; 
#=GS A0A0P1EEX8/1-194   AC A0A0P1EEX8
#=GS A0A0P1EEX8/1-194   OS Ruegeria atlantica
#=GS A0A0P1EEX8/1-194   DE Ribonuclease D
#=GS A0A0P1EEX8/1-194   DR GENE3D; 1dfb005419e6dc67bab990297739f788/1-194; 
#=GS A0A0P1EEX8/1-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Ruegeria; Ruegeria atlantica; 
#=GS A0A0P1EEX8/1-194   DR EC; 3.1.13.5; 
#=GS A0A1B9NJU3/1-194   AC A0A1B9NJU3
#=GS A0A1B9NJU3/1-194   OS Gilliamella apicola
#=GS A0A1B9NJU3/1-194   DE Ribonuclease D
#=GS A0A1B9NJU3/1-194   DR GENE3D; 1e06de6da1a2b5f33348c95cab68b8ca/1-194; 
#=GS A0A1B9NJU3/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Orbales; Orbaceae; Gilliamella; Gilliamella apicola; 
#=GS A0A1B9NJU3/1-194   DR EC; 3.1.13.5; 
#=GS A0A0D2W4C4/1-190   AC A0A0D2W4C4
#=GS A0A0D2W4C4/1-190   OS Skermanella aerolata KACC 11604
#=GS A0A0D2W4C4/1-190   DE Ribonuclease D
#=GS A0A0D2W4C4/1-190   DR GENE3D; 1e4f4e1565640536afe659e023693032/1-190; 
#=GS A0A0D2W4C4/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Skermanella; Skermanella aerolata; 
#=GS A0A0D2W4C4/1-190   DR EC; 3.1.13.5; 
#=GS A0A1H1PF18/3-195   AC A0A1H1PF18
#=GS A0A1H1PF18/3-195   OS Pseudomonas cedrina
#=GS A0A1H1PF18/3-195   DE Ribonuclease D
#=GS A0A1H1PF18/3-195   DR GENE3D; 1e6d5fa09e28137eba20cf0a3c31a7f9/3-195; 
#=GS A0A1H1PF18/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas cedrina; 
#=GS A0A1H1PF18/3-195   DR EC; 3.1.13.5; 
#=GS M0Q4I9/2-195       AC M0Q4I9
#=GS M0Q4I9/2-195       OS Edwardsiella tarda ATCC 15947 = NBRC 105688
#=GS M0Q4I9/2-195       DE Ribonuclease D
#=GS M0Q4I9/2-195       DR GENE3D; 1e771a4a38c9acfa66169f853231d821/2-195; 
#=GS M0Q4I9/2-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Hafniaceae; Edwardsiella; Edwardsiella tarda; 
#=GS M0Q4I9/2-195       DR EC; 3.1.13.5; 
#=GS A0A1H6P4J6/3-195   AC A0A1H6P4J6
#=GS A0A1H6P4J6/3-195   OS Pseudomonas fuscovaginae
#=GS A0A1H6P4J6/3-195   DE Ribonuclease D
#=GS A0A1H6P4J6/3-195   DR GENE3D; 1eb51570fbc9990c732af2a8c378775c/3-195; 
#=GS A0A1H6P4J6/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas fuscovaginae; 
#=GS A0A1H6P4J6/3-195   DR EC; 3.1.13.5; 
#=GS A0A090T8B6/1-194   AC A0A090T8B6
#=GS A0A090T8B6/1-194   OS Vibrio maritimus
#=GS A0A090T8B6/1-194   DE Ribonuclease D
#=GS A0A090T8B6/1-194   DR GENE3D; 1ede8aaa2440cf5c323c608b41016bff/1-194; 
#=GS A0A090T8B6/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio maritimus; 
#=GS A0A090T8B6/1-194   DR EC; 3.1.13.5; 
#=GS A0A068D8W6/1-191   AC A0A068D8W6
#=GS A0A068D8W6/1-191   OS Mesorhizobium huakuii 7653R
#=GS A0A068D8W6/1-191   DE Ribonuclease D
#=GS A0A068D8W6/1-191   DR GENE3D; 1eeebf814f0007caa4a616e775421341/1-191; 
#=GS A0A068D8W6/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium huakuii; 
#=GS A0A068D8W6/1-191   DR EC; 3.1.13.5; 
#=GS A0A1E3WBW2/1-190   AC A0A1E3WBW2
#=GS A0A1E3WBW2/1-190   OS Methyloceanibacter marginalis
#=GS A0A1E3WBW2/1-190   DE Ribonuclease D
#=GS A0A1E3WBW2/1-190   DR GENE3D; 1f1f321970b78645d5653e6f9b33ea18/1-190; 
#=GS A0A1E3WBW2/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methyloceanibacter; Methyloceanibacter marginalis; 
#=GS A0A1E3WBW2/1-190   DR EC; 3.1.13.5; 
#=GS J2NY78/3-195       AC J2NY78
#=GS J2NY78/3-195       OS Pseudomonas sp. GM21
#=GS J2NY78/3-195       DE Ribonuclease D
#=GS J2NY78/3-195       DR GENE3D; 1f2d6a36d4f910fd198c26e55393832e/3-195; 
#=GS J2NY78/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. GM21; 
#=GS J2NY78/3-195       DR EC; 3.1.13.5; 
#=GS A0A0J8XM62/1-190   AC A0A0J8XM62
#=GS A0A0J8XM62/1-190   OS Escherichia coli
#=GS A0A0J8XM62/1-190   DE Ribonuclease D
#=GS A0A0J8XM62/1-190   DR GENE3D; 1f87ce05c8ff94f176b30587b2139d64/1-190; 
#=GS A0A0J8XM62/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A0J8XM62/1-190   DR EC; 3.1.13.5; 
#=GS Q28RA7/1-199       AC Q28RA7
#=GS Q28RA7/1-199       OS Jannaschia sp. CCS1
#=GS Q28RA7/1-199       DE Ribonuclease D
#=GS Q28RA7/1-199       DR GENE3D; 1f8b0599250b0e9c81a39442efbc2184/1-199; 
#=GS Q28RA7/1-199       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Jannaschia; Jannaschia sp. CCS1; 
#=GS Q28RA7/1-199       DR EC; 3.1.13.5; 
#=GS A0A133LK58/1-190   AC A0A133LK58
#=GS A0A133LK58/1-190   OS Citrobacter freundii
#=GS A0A133LK58/1-190   DE Ribonuclease D
#=GS A0A133LK58/1-190   DR GENE3D; 1fa14df9dac21b113e4ebf333b2f866b/1-190; 
#=GS A0A133LK58/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Citrobacter; Citrobacter freundii complex; Citrobacter freundii; 
#=GS A0A133LK58/1-190   DR EC; 3.1.13.5; 
#=GS Z5XRH3/1-194       AC Z5XRH3
#=GS Z5XRH3/1-194       OS Pseudoalteromonas lipolytica SCSIO 04301
#=GS Z5XRH3/1-194       DE Ribonuclease D
#=GS Z5XRH3/1-194       DR GENE3D; 1faad9785c3ee5ff53a1f1fac6b74de0/1-194; 
#=GS Z5XRH3/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas lipolytica; 
#=GS Z5XRH3/1-194       DR EC; 3.1.13.5; 
#=GS A0A0Q4PY91/4-192   AC A0A0Q4PY91
#=GS A0A0Q4PY91/4-192   OS Sphingomonas sp. Leaf67
#=GS A0A0Q4PY91/4-192   DE Ribonuclease D
#=GS A0A0Q4PY91/4-192   DR GENE3D; 204b9753f8ce170bbba380d262864aa6/4-192; 
#=GS A0A0Q4PY91/4-192   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf67; 
#=GS A0A0Q4PY91/4-192   DR EC; 3.1.13.5; 
#=GS A0A1E5DG58/18-211  AC A0A1E5DG58
#=GS A0A1E5DG58/18-211  OS Vibrio cyclitrophicus FF160
#=GS A0A1E5DG58/18-211  DE Ribonuclease D
#=GS A0A1E5DG58/18-211  DR GENE3D; 20554fdb55ec2683bda37c796ebeeeaf/18-211; 
#=GS A0A1E5DG58/18-211  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cyclitrophicus; 
#=GS A0A1E5DG58/18-211  DR EC; 3.1.13.5; 
#=GS A0A0L1LE86/18-211  AC A0A0L1LE86
#=GS A0A0L1LE86/18-211  OS Vibrio lentus
#=GS A0A0L1LE86/18-211  DE Ribonuclease D
#=GS A0A0L1LE86/18-211  DR GENE3D; 20554fdb55ec2683bda37c796ebeeeaf/18-211; 
#=GS A0A0L1LE86/18-211  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio lentus; 
#=GS A0A0L1LE86/18-211  DR EC; 3.1.13.5; 
#=GS I3IB12/7-197       AC I3IB12
#=GS I3IB12/7-197       OS Cellvibrio sp. BR
#=GS I3IB12/7-197       DE Ribonuclease D
#=GS I3IB12/7-197       DR GENE3D; 2061935773aea5535fbd34c54f0ebb4b/7-197; 
#=GS I3IB12/7-197       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cellvibrionales; Cellvibrionaceae; Cellvibrio; Cellvibrio sp. BR; 
#=GS I3IB12/7-197       DR EC; 3.1.13.5; 
#=GS A0A0C1ZK23/1-194   AC A0A0C1ZK23
#=GS A0A0C1ZK23/1-194   OS Vibrio owensii CAIM 1854 = LMG 25443
#=GS A0A0C1ZK23/1-194   DE Ribonuclease D
#=GS A0A0C1ZK23/1-194   DR GENE3D; 2070effc3a90c0a0e1b1f26f325dc509/1-194; 
#=GS A0A0C1ZK23/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio owensii; 
#=GS A0A0C1ZK23/1-194   DR EC; 3.1.13.5; 
#=GS A0A0S6UUI5/1-189   AC A0A0S6UUI5
#=GS A0A0S6UUI5/1-189   OS Bradyrhizobium sp. DOA9
#=GS A0A0S6UUI5/1-189   DE Ribonuclease D
#=GS A0A0S6UUI5/1-189   DR GENE3D; 207187fecb610b93db4951e6bcf272f9/1-189; 
#=GS A0A0S6UUI5/1-189   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium sp. DOA9; 
#=GS A0A0S6UUI5/1-189   DR EC; 3.1.13.5; 
#=GS X8HW10/1-187       AC X8HW10
#=GS X8HW10/1-187       OS Olsenella uli MSTE5
#=GS X8HW10/1-187       DE Ribonuclease D
#=GS X8HW10/1-187       DR GENE3D; 2078f3649060a6981e40547041f3d01b/1-187; 
#=GS X8HW10/1-187       DR ORG; Bacteria; Actinobacteria; Coriobacteriia; Coriobacteriales; Atopobiaceae; Olsenella; Olsenella uli; 
#=GS X8HW10/1-187       DR EC; 3.1.13.5; 
#=GS A0A0E9ZKT3/3-195   AC A0A0E9ZKT3
#=GS A0A0E9ZKT3/3-195   OS Pseudomonas sp. 10-1B
#=GS A0A0E9ZKT3/3-195   DE Ribonuclease D
#=GS A0A0E9ZKT3/3-195   DR GENE3D; 2084fe246522a562bffdd06df26d0e7f/3-195; 
#=GS A0A0E9ZKT3/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. 10-1B; 
#=GS A0A0E9ZKT3/3-195   DR EC; 3.1.13.5; 
#=GS U1QMR6/13-204      AC U1QMR6
#=GS U1QMR6/13-204      OS Aggregatibacter sp. oral taxon 458 str. W10330
#=GS U1QMR6/13-204      DE Ribonuclease D
#=GS U1QMR6/13-204      DR GENE3D; 208801e3eafd2ed315fec22bb8674c8c/13-204; 
#=GS U1QMR6/13-204      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Aggregatibacter; Aggregatibacter sp. oral taxon 458; 
#=GS U1QMR6/13-204      DR EC; 3.1.13.5; 
#=GS A0A099FXQ3/4-203   AC A0A099FXQ3
#=GS A0A099FXQ3/4-203   OS Paracoccus sanguinis
#=GS A0A099FXQ3/4-203   DE Ribonuclease D
#=GS A0A099FXQ3/4-203   DR GENE3D; 2089cc197b1afa721a74971f788cae57/4-203; 
#=GS A0A099FXQ3/4-203   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Paracoccus; Paracoccus sanguinis; 
#=GS A0A099FXQ3/4-203   DR EC; 3.1.13.5; 
#=GS A0A0W0PXG1/3-195   AC A0A0W0PXG1
#=GS A0A0W0PXG1/3-195   OS Pseudomonas fluorescens ABAC62
#=GS A0A0W0PXG1/3-195   DE Ribonuclease D
#=GS A0A0W0PXG1/3-195   DR GENE3D; 2091ea0845875b83d2285cf9de8b71ab/3-195; 
#=GS A0A0W0PXG1/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; 
#=GS A0A0W0PXG1/3-195   DR EC; 3.1.13.5; 
#=GS A0A1D3DEJ8/1-194   AC A0A1D3DEJ8
#=GS A0A1D3DEJ8/1-194   OS Shigella sp. FC1655
#=GS A0A1D3DEJ8/1-194   DE Ribonuclease D
#=GS A0A1D3DEJ8/1-194   DR GENE3D; 20a2f1c75525c5914b75c89ef21ef630/1-194; 
#=GS A0A1D3DEJ8/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Shigella; Shigella sp. FC1655; 
#=GS A0A1D3DEJ8/1-194   DR EC; 3.1.13.5; 
#=GS A0A1D2PYY5/1-194   AC A0A1D2PYY5
#=GS A0A1D2PYY5/1-194   OS Shigella sp. FC130
#=GS A0A1D2PYY5/1-194   DE Ribonuclease D
#=GS A0A1D2PYY5/1-194   DR GENE3D; 20a2f1c75525c5914b75c89ef21ef630/1-194; 
#=GS A0A1D2PYY5/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Shigella; Shigella sp. FC130; 
#=GS A0A1D2PYY5/1-194   DR EC; 3.1.13.5; 
#=GS A0A0F4NQX1/1-194   AC A0A0F4NQX1
#=GS A0A0F4NQX1/1-194   OS Vibrio galatheae
#=GS A0A0F4NQX1/1-194   DE Ribonuclease D
#=GS A0A0F4NQX1/1-194   DR GENE3D; 20aa8b44ec578da473f6baa5d81900f1/1-194; 
#=GS A0A0F4NQX1/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio galatheae; 
#=GS A0A0F4NQX1/1-194   DR EC; 3.1.13.5; 
#=GS K8WKM7/1-194       AC K8WKM7
#=GS K8WKM7/1-194       OS Providencia rettgeri Dmel1
#=GS K8WKM7/1-194       DE Ribonuclease D
#=GS K8WKM7/1-194       DR GENE3D; 20c97e18dd34f889a7b94331106a9f95/1-194; 
#=GS K8WKM7/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Providencia; Providencia rettgeri; 
#=GS K8WKM7/1-194       DR EC; 3.1.13.5; 
#=GS A0A1B9MTE9/1-194   AC A0A1B9MTE9
#=GS A0A1B9MTE9/1-194   OS Gilliamella apicola
#=GS A0A1B9MTE9/1-194   DE Ribonuclease D
#=GS A0A1B9MTE9/1-194   DR GENE3D; 20d8354ab088d12bd49f18c4c758e905/1-194; 
#=GS A0A1B9MTE9/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Orbales; Orbaceae; Gilliamella; Gilliamella apicola; 
#=GS A0A1B9MTE9/1-194   DR EC; 3.1.13.5; 
#=GS J7KZ06/1-194       AC J7KZ06
#=GS J7KZ06/1-194       OS Pectobacterium carotovorum subsp. carotovorum PCC21
#=GS J7KZ06/1-194       DE Ribonuclease D
#=GS J7KZ06/1-194       DR GENE3D; 20db65ea2644bbd9a5287f33f0389bf0/1-194; 
#=GS J7KZ06/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Pectobacteriaceae; Pectobacterium; Pectobacterium carotovorum; Pectobacterium carotovorum subsp. carotovorum; 
#=GS J7KZ06/1-194       DR EC; 3.1.13.5; 
#=GS A0A0B3WUZ4/1-194   AC A0A0B3WUZ4
#=GS A0A0B3WUZ4/1-194   OS Pectobacterium carotovorum subsp. brasiliense
#=GS A0A0B3WUZ4/1-194   DE Ribonuclease D
#=GS A0A0B3WUZ4/1-194   DR GENE3D; 20db65ea2644bbd9a5287f33f0389bf0/1-194; 
#=GS A0A0B3WUZ4/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Pectobacteriaceae; Pectobacterium; Pectobacterium carotovorum; Pectobacterium carotovorum subsp. brasiliense; 
#=GS A0A0B3WUZ4/1-194   DR EC; 3.1.13.5; 
#=GS A0A0B3XIB2/1-194   AC A0A0B3XIB2
#=GS A0A0B3XIB2/1-194   OS Pectobacterium carotovorum subsp. carotovorum
#=GS A0A0B3XIB2/1-194   DE Ribonuclease D
#=GS A0A0B3XIB2/1-194   DR GENE3D; 20db65ea2644bbd9a5287f33f0389bf0/1-194; 
#=GS A0A0B3XIB2/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Pectobacteriaceae; Pectobacterium; Pectobacterium carotovorum; Pectobacterium carotovorum subsp. carotovorum; 
#=GS A0A0B3XIB2/1-194   DR EC; 3.1.13.5; 
#=GS A0A081RCT7/4-194   AC A0A081RCT7
#=GS A0A081RCT7/4-194   OS Sphingobium chlorophenolicum
#=GS A0A081RCT7/4-194   DE Ribonuclease D
#=GS A0A081RCT7/4-194   DR GENE3D; 20e0b9a25ed2e912fde873c5b33650c4/4-194; 
#=GS A0A081RCT7/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium chlorophenolicum; 
#=GS A0A081RCT7/4-194   DR EC; 3.1.13.5; 
#=GS A0A099KZV9/1-193   AC A0A099KZV9
#=GS A0A099KZV9/1-193   OS Colwellia psychrerythraea
#=GS A0A099KZV9/1-193   DE Ribonuclease D
#=GS A0A099KZV9/1-193   DR GENE3D; 20e1be1b68ea20c0d27a0ad4e47a8ed2/1-193; 
#=GS A0A099KZV9/1-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Colwelliaceae; Colwellia; Colwellia psychrerythraea; 
#=GS A0A099KZV9/1-193   DR EC; 3.1.13.5; 
#=GS A0A0D1NWQ6/3-195   AC A0A0D1NWQ6
#=GS A0A0D1NWQ6/3-195   OS Pseudomonas putida
#=GS A0A0D1NWQ6/3-195   DE Ribonuclease D
#=GS A0A0D1NWQ6/3-195   DR GENE3D; 21027bfa93bd27b85c9f7ae7c11a1636/3-195; 
#=GS A0A0D1NWQ6/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; 
#=GS A0A0D1NWQ6/3-195   DR EC; 3.1.13.5; 
#=GS A0A0D0NJX6/3-195   AC A0A0D0NJX6
#=GS A0A0D0NJX6/3-195   OS Pseudomonas fluorescens
#=GS A0A0D0NJX6/3-195   DE Ribonuclease D
#=GS A0A0D0NJX6/3-195   DR GENE3D; 21258f3500d24bc9b0d9fd8037fe20df/3-195; 
#=GS A0A0D0NJX6/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; 
#=GS A0A0D0NJX6/3-195   DR EC; 3.1.13.5; 
#=GS A0A1B7J3R4/1-194   AC A0A1B7J3R4
#=GS A0A1B7J3R4/1-194   OS Hafnia paralvei ATCC 29927
#=GS A0A1B7J3R4/1-194   DE Ribonuclease D
#=GS A0A1B7J3R4/1-194   DR GENE3D; 21295c17950077ccb1bf6bcb2bc8e4ac/1-194; 
#=GS A0A1B7J3R4/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Hafniaceae; Hafnia; Hafnia paralvei; 
#=GS A0A1B7J3R4/1-194   DR EC; 3.1.13.5; 
#=GS A0A0A2R7V8/1-194   AC A0A0A2R7V8
#=GS A0A0A2R7V8/1-194   OS Morganella morganii
#=GS A0A0A2R7V8/1-194   DE Ribonuclease D
#=GS A0A0A2R7V8/1-194   DR GENE3D; 214c0e8c032a5eaf694ea39dd506b4b0/1-194; 
#=GS A0A0A2R7V8/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Morganella; Morganella morganii; 
#=GS A0A0A2R7V8/1-194   DR EC; 3.1.13.5; 
#=GS F2N018/3-194       AC F2N018
#=GS F2N018/3-194       OS Pseudomonas stutzeri DSM 4166
#=GS F2N018/3-194       DE Ribonuclease D
#=GS F2N018/3-194       DR GENE3D; 215ce392413f10865445162108e5d791/3-194; 
#=GS F2N018/3-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; 
#=GS F2N018/3-194       DR EC; 3.1.13.5; 
#=GS S6JVL7/3-194       AC S6JVL7
#=GS S6JVL7/3-194       OS Pseudomonas stutzeri B1SMN1
#=GS S6JVL7/3-194       DE Ribonuclease D
#=GS S6JVL7/3-194       DR GENE3D; 215ce392413f10865445162108e5d791/3-194; 
#=GS S6JVL7/3-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; 
#=GS S6JVL7/3-194       DR EC; 3.1.13.5; 
#=GS A0A0W0N7V8/3-195   AC A0A0W0N7V8
#=GS A0A0W0N7V8/3-195   OS Pseudomonas sp. ICMP 19500
#=GS A0A0W0N7V8/3-195   DE Ribonuclease D
#=GS A0A0W0N7V8/3-195   DR GENE3D; 2179cebde4908a696353016c2f81fffa/3-195; 
#=GS A0A0W0N7V8/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. ICMP 19500; 
#=GS A0A0W0N7V8/3-195   DR EC; 3.1.13.5; 
#=GS A0A1H1W479/3-195   AC A0A1H1W479
#=GS A0A1H1W479/3-195   OS Pseudomonas sp. bs2935
#=GS A0A1H1W479/3-195   DE Ribonuclease D
#=GS A0A1H1W479/3-195   DR GENE3D; 2179cebde4908a696353016c2f81fffa/3-195; 
#=GS A0A1H1W479/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. bs2935; 
#=GS A0A1H1W479/3-195   DR EC; 3.1.13.5; 
#=GS A0A1D8C6X9/3-195   AC A0A1D8C6X9
#=GS A0A1D8C6X9/3-195   OS Pseudomonas fluorescens
#=GS A0A1D8C6X9/3-195   DE Ribonuclease D
#=GS A0A1D8C6X9/3-195   DR GENE3D; 2179cebde4908a696353016c2f81fffa/3-195; 
#=GS A0A1D8C6X9/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; 
#=GS A0A1D8C6X9/3-195   DR EC; 3.1.13.5; 
#=GS I2BV63/3-195       AC I2BV63
#=GS I2BV63/3-195       OS Pseudomonas fluorescens A506
#=GS I2BV63/3-195       DE Ribonuclease D
#=GS I2BV63/3-195       DR GENE3D; 2179cebde4908a696353016c2f81fffa/3-195; 
#=GS I2BV63/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; 
#=GS I2BV63/3-195       DR EC; 3.1.13.5; 
#=GS A0A1K1YTE1/3-195   AC A0A1K1YTE1
#=GS A0A1K1YTE1/3-195   OS Pseudomonas sp. NFR02
#=GS A0A1K1YTE1/3-195   DE Ribonuclease D
#=GS A0A1K1YTE1/3-195   DR GENE3D; 2179cebde4908a696353016c2f81fffa/3-195; 
#=GS A0A1K1YTE1/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. NFR02; 
#=GS A0A1K1YTE1/3-195   DR EC; 3.1.13.5; 
#=GS A0A087M6F0/1-191   AC A0A087M6F0
#=GS A0A087M6F0/1-191   OS Devosia riboflavina
#=GS A0A087M6F0/1-191   DE Ribonuclease D
#=GS A0A087M6F0/1-191   DR GENE3D; 217a84e0dcbc2552fada287d05dda07f/1-191; 
#=GS A0A087M6F0/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia riboflavina; 
#=GS A0A087M6F0/1-191   DR EC; 3.1.13.5; 
#=GS U4K7E9/1-193       AC U4K7E9
#=GS U4K7E9/1-193       OS Vibrio nigripulchritudo
#=GS U4K7E9/1-193       DE Ribonuclease D
#=GS U4K7E9/1-193       DR GENE3D; 21a18ca4cfaf6990844439c18b822763/1-193; 
#=GS U4K7E9/1-193       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio nigripulchritudo; 
#=GS U4K7E9/1-193       DR EC; 3.1.13.5; 
#=GS Q12NR6/2-194       AC Q12NR6
#=GS Q12NR6/2-194       OS Shewanella denitrificans OS217
#=GS Q12NR6/2-194       DE Ribonuclease D
#=GS Q12NR6/2-194       DR GENE3D; 21b43a989e23d2a565145c5ea0c89e33/2-194; 
#=GS Q12NR6/2-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella denitrificans; 
#=GS Q12NR6/2-194       DR EC; 3.1.13.5; 
#=GS A0A094L1T6/1-196   AC A0A094L1T6
#=GS A0A094L1T6/1-196   OS Idiomarina atlantica
#=GS A0A094L1T6/1-196   DE Ribonuclease D
#=GS A0A094L1T6/1-196   DR GENE3D; 21ceef549d7f78fa3b1196046b0439b7/1-196; 
#=GS A0A094L1T6/1-196   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Idiomarinaceae; Idiomarina; Idiomarina atlantica; 
#=GS A0A094L1T6/1-196   DR EC; 3.1.13.5; 
#=GS U5VHF6/3-195       AC U5VHF6
#=GS U5VHF6/3-195       OS Pseudomonas sp. VLB120
#=GS U5VHF6/3-195       DE Ribonuclease D
#=GS U5VHF6/3-195       DR GENE3D; 21d6ce30e9eb1bd6e257b9d4227efbc2/3-195; 
#=GS U5VHF6/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. VLB120; 
#=GS U5VHF6/3-195       DR EC; 3.1.13.5; 
#=GS A0A0P9H8N0/3-194   AC A0A0P9H8N0
#=GS A0A0P9H8N0/3-194   OS Pseudomonas syringae pv. alisalensis
#=GS A0A0P9H8N0/3-194   DE Ribonuclease D
#=GS A0A0P9H8N0/3-194   DR GENE3D; 21f23f79ea79bfe4c3612b8d8cf74da5/3-194; 
#=GS A0A0P9H8N0/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 1; Pseudomonas syringae; 
#=GS A0A0P9H8N0/3-194   DR EC; 3.1.13.5; 
#=GS F3HJN4/3-194       AC F3HJN4
#=GS F3HJN4/3-194       OS Pseudomonas syringae pv. maculicola str. ES4326
#=GS F3HJN4/3-194       DE Ribonuclease D
#=GS F3HJN4/3-194       DR GENE3D; 21f23f79ea79bfe4c3612b8d8cf74da5/3-194; 
#=GS F3HJN4/3-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 3; 
#=GS F3HJN4/3-194       DR EC; 3.1.13.5; 
#=GS A0A0N0FGJ1/3-194   AC A0A0N0FGJ1
#=GS A0A0N0FGJ1/3-194   OS Pseudomonas syringae pv. maculicola
#=GS A0A0N0FGJ1/3-194   DE Ribonuclease D
#=GS A0A0N0FGJ1/3-194   DR GENE3D; 21f23f79ea79bfe4c3612b8d8cf74da5/3-194; 
#=GS A0A0N0FGJ1/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 3; 
#=GS A0A0N0FGJ1/3-194   DR EC; 3.1.13.5; 
#=GS A0A178MZM3/1-190   AC A0A178MZM3
#=GS A0A178MZM3/1-190   OS Magnetospirillum moscoviense
#=GS A0A178MZM3/1-190   DE Ribonuclease D
#=GS A0A178MZM3/1-190   DR GENE3D; 222419b65fc10da2594113704412b191/1-190; 
#=GS A0A178MZM3/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Magnetospirillum; Magnetospirillum moscoviense; 
#=GS A0A178MZM3/1-190   DR EC; 3.1.13.5; 
#=GS A0A1D2SZH3/1-191   AC A0A1D2SZH3
#=GS A0A1D2SZH3/1-191   OS Mesorhizobium sp. SCN 65-12
#=GS A0A1D2SZH3/1-191   DE Ribonuclease D
#=GS A0A1D2SZH3/1-191   DR GENE3D; 22246dab77f1887126800fe1fc1979a4/1-191; 
#=GS A0A1D2SZH3/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. SCN 65-12; 
#=GS A0A1D2SZH3/1-191   DR EC; 3.1.13.5; 
#=GS A0A1A0EGT1/1-194   AC A0A1A0EGT1
#=GS A0A1A0EGT1/1-194   OS Raoultella planticola
#=GS A0A1A0EGT1/1-194   DE Ribonuclease D
#=GS A0A1A0EGT1/1-194   DR GENE3D; 222bbf8367635e5c17c1206f538d83da/1-194; 
#=GS A0A1A0EGT1/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Raoultella; Raoultella planticola; 
#=GS A0A1A0EGT1/1-194   DR EC; 3.1.13.5; 
#=GS A0A0F4T2M7/3-195   AC A0A0F4T2M7
#=GS A0A0F4T2M7/3-195   OS Pseudomonas fluorescens
#=GS A0A0F4T2M7/3-195   DE Ribonuclease D
#=GS A0A0F4T2M7/3-195   DR GENE3D; 224a2b03623a8d3570957767ffa5a52f/3-195; 
#=GS A0A0F4T2M7/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; 
#=GS A0A0F4T2M7/3-195   DR EC; 3.1.13.5; 
#=GS A0A109YBE1/1-194   AC A0A109YBE1
#=GS A0A109YBE1/1-194   OS Pantoea agglomerans
#=GS A0A109YBE1/1-194   DE Ribonuclease D
#=GS A0A109YBE1/1-194   DR GENE3D; 22584b5fbaf16b82ae73a3332cdb30ca/1-194; 
#=GS A0A109YBE1/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Pantoea; Pantoea agglomerans group; Pantoea agglomerans; 
#=GS A0A109YBE1/1-194   DR EC; 3.1.13.5; 
#=GS A0A0D0KTG0/1-189   AC A0A0D0KTG0
#=GS A0A0D0KTG0/1-189   OS Agrobacterium tumefaciens
#=GS A0A0D0KTG0/1-189   DE Ribonuclease D
#=GS A0A0D0KTG0/1-189   DR GENE3D; 2266dfa6dfc953d487f8029b94772103/1-189; 
#=GS A0A0D0KTG0/1-189   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium tumefaciens complex; Agrobacterium tumefaciens; 
#=GS A0A0D0KTG0/1-189   DR EC; 3.1.13.5; 
#=GS A5G127/10-198      AC A5G127
#=GS A5G127/10-198      OS Acidiphilium cryptum JF-5
#=GS A5G127/10-198      DE Ribonuclease D
#=GS A5G127/10-198      DR GENE3D; 226d7a29090cdc151ad11d1837b8720f/10-198; 
#=GS A5G127/10-198      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Acidiphilium; Acidiphilium cryptum; 
#=GS A5G127/10-198      DR EC; 3.1.13.5; 
#=GS A0A066PPT1/10-198  AC A0A066PPT1
#=GS A0A066PPT1/10-198  OS Acidiphilium sp. JA12-A1
#=GS A0A066PPT1/10-198  DE Ribonuclease D
#=GS A0A066PPT1/10-198  DR GENE3D; 226d7a29090cdc151ad11d1837b8720f/10-198; 
#=GS A0A066PPT1/10-198  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Acidiphilium; Acidiphilium sp. JA12-A1; 
#=GS A0A066PPT1/10-198  DR EC; 3.1.13.5; 
#=GS A0A165E2P6/4-193   AC A0A165E2P6
#=GS A0A165E2P6/4-193   OS Sphingomonas hankookensis
#=GS A0A165E2P6/4-193   DE Ribonuclease D
#=GS A0A165E2P6/4-193   DR GENE3D; 22746df9abc8b9b6d454ad03ba40885f/4-193; 
#=GS A0A165E2P6/4-193   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas hankookensis; 
#=GS A0A165E2P6/4-193   DR EC; 3.1.13.5; 
#=GS S6ATR4/3-196       AC S6ATR4
#=GS S6ATR4/3-196       OS Pseudomonas resinovorans NBRC 106553
#=GS S6ATR4/3-196       DE Ribonuclease D
#=GS S6ATR4/3-196       DR GENE3D; 228af4e837d4ab29ad6565c4d4336d4a/3-196; 
#=GS S6ATR4/3-196       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas resinovorans; 
#=GS S6ATR4/3-196       DR EC; 3.1.13.5; 
#=GS M2Z2S3/1-187       AC M2Z2S3
#=GS M2Z2S3/1-187       OS Magnetospirillum caucaseum
#=GS M2Z2S3/1-187       DE Ribonuclease D
#=GS M2Z2S3/1-187       DR GENE3D; 229b03745b566783a366c871a389c16c/1-187; 
#=GS M2Z2S3/1-187       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Magnetospirillum; Magnetospirillum caucaseum; 
#=GS M2Z2S3/1-187       DR EC; 3.1.13.5; 
#=GS I8UCA8/1-192       AC I8UCA8
#=GS I8UCA8/1-192       OS Alishewanella agri BL06
#=GS I8UCA8/1-192       DE Ribonuclease D
#=GS I8UCA8/1-192       DR GENE3D; 22d9c4ef91320c2f3ca490bf4f0ef748/1-192; 
#=GS I8UCA8/1-192       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Alishewanella; Alishewanella agri; 
#=GS I8UCA8/1-192       DR EC; 3.1.13.5; 
#=GS I1XHF5/1-193       AC I1XHF5
#=GS I1XHF5/1-193       OS Methylophaga nitratireducenticrescens
#=GS I1XHF5/1-193       DE Ribonuclease D
#=GS I1XHF5/1-193       DR GENE3D; 22dfa08e51b3f33949d26a7833535543/1-193; 
#=GS I1XHF5/1-193       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Piscirickettsiaceae; Methylophaga; Methylophaga nitratireducenticrescens; 
#=GS I1XHF5/1-193       DR EC; 3.1.13.5; 
#=GS D3GVL7/1-194       AC D3GVL7
#=GS D3GVL7/1-194       OS Escherichia coli 042
#=GS D3GVL7/1-194       DE Ribonuclease D
#=GS D3GVL7/1-194       DR GENE3D; 230d336aebc2dd9d0930074ff6da01c4/1-194; 
#=GS D3GVL7/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS D3GVL7/1-194       DR EC; 3.1.13.5; 
#=GS A0A0T6UKI3/3-195   AC A0A0T6UKI3
#=GS A0A0T6UKI3/3-195   OS Pseudomonas sp. TTU2014-080ASC
#=GS A0A0T6UKI3/3-195   DE Ribonuclease D
#=GS A0A0T6UKI3/3-195   DR GENE3D; 232de6b98814730179d5e5be7b8c8f8b/3-195; 
#=GS A0A0T6UKI3/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. TTU2014-080ASC; 
#=GS A0A0T6UKI3/3-195   DR EC; 3.1.13.5; 
#=GS J7QAD7/1-190       AC J7QAD7
#=GS J7QAD7/1-190       OS Methylocystis sp. SC2
#=GS J7QAD7/1-190       DE Ribonuclease D
#=GS J7QAD7/1-190       DR GENE3D; 233868e63ca9c98c7a69e038f0412366/1-190; 
#=GS J7QAD7/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylocystaceae; Methylocystis; Methylocystis sp. SC2; 
#=GS J7QAD7/1-190       DR EC; 3.1.13.5; 
#=GS F0J392/10-198      AC F0J392
#=GS F0J392/10-198      OS Acidiphilium multivorum AIU301
#=GS F0J392/10-198      DE Ribonuclease D
#=GS F0J392/10-198      DR GENE3D; 233ace42a8bc82ed6176ac6f328671f5/10-198; 
#=GS F0J392/10-198      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Acidiphilium; Acidiphilium multivorum; 
#=GS F0J392/10-198      DR EC; 3.1.13.5; 
#=GS A0A0V9S4R0/1-190   AC A0A0V9S4R0
#=GS A0A0V9S4R0/1-190   OS Escherichia coli
#=GS A0A0V9S4R0/1-190   DE Ribonuclease D
#=GS A0A0V9S4R0/1-190   DR GENE3D; 2347299c1efdfc9917a7ab513a8b4e19/1-190; 
#=GS A0A0V9S4R0/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A0V9S4R0/1-190   DR EC; 3.1.13.5; 
#=GS A0A0C2IA09/3-195   AC A0A0C2IA09
#=GS A0A0C2IA09/3-195   OS Pseudomonas batumici
#=GS A0A0C2IA09/3-195   DE Ribonuclease D
#=GS A0A0C2IA09/3-195   DR GENE3D; 2353ee4c4865eaedb50454c3c1f255af/3-195; 
#=GS A0A0C2IA09/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas batumici; 
#=GS A0A0C2IA09/3-195   DR EC; 3.1.13.5; 
#=GS A0A099EV49/1-198   AC A0A099EV49
#=GS A0A099EV49/1-198   OS Paracoccus halophilus
#=GS A0A099EV49/1-198   DE Ribonuclease D
#=GS A0A099EV49/1-198   DR GENE3D; 23b9ac179bd5cbec4bf93c9f90a7ce2b/1-198; 
#=GS A0A099EV49/1-198   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Paracoccus; Paracoccus halophilus; 
#=GS A0A099EV49/1-198   DR EC; 3.1.13.5; 
#=GS A0A0B1Q7R1/1-189   AC A0A0B1Q7R1
#=GS A0A0B1Q7R1/1-189   OS Aureimonas altamirensis
#=GS A0A0B1Q7R1/1-189   DE Ribonuclease D
#=GS A0A0B1Q7R1/1-189   DR GENE3D; 23bc46d411165c1c08611121969ea7fc/1-189; 
#=GS A0A0B1Q7R1/1-189   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Aurantimonadaceae; Aureimonas; Aureimonas altamirensis; 
#=GS A0A0B1Q7R1/1-189   DR EC; 3.1.13.5; 
#=GS A0A0S6V9G2/18-211  AC A0A0S6V9G2
#=GS A0A0S6V9G2/18-211  OS Serratia liquefaciens FK01
#=GS A0A0S6V9G2/18-211  DE Ribonuclease D
#=GS A0A0S6V9G2/18-211  DR GENE3D; 23d5a4729197d633e6ab2348d16e87b0/18-211; 
#=GS A0A0S6V9G2/18-211  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Serratia; Serratia liquefaciens; 
#=GS A0A0S6V9G2/18-211  DR EC; 3.1.13.5; 
#=GS A0A1J5VWL4/10-203  AC A0A1J5VWL4
#=GS A0A1J5VWL4/10-203  OS Lelliottia nimipressuralis
#=GS A0A1J5VWL4/10-203  DE Ribonuclease D
#=GS A0A1J5VWL4/10-203  DR GENE3D; 240e3a7e7695a0a803e98d29952e821f/10-203; 
#=GS A0A1J5VWL4/10-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Lelliottia; Lelliottia nimipressuralis; 
#=GS A0A1J5VWL4/10-203  DR EC; 3.1.13.5; 
#=GS A0A0T7CZ56/1-194   AC A0A0T7CZ56
#=GS A0A0T7CZ56/1-194   OS Vibrio sp. J2-4
#=GS A0A0T7CZ56/1-194   DE Ribonuclease D
#=GS A0A0T7CZ56/1-194   DR GENE3D; 2410a409787b75c45bf5a30f3e4472ed/1-194; 
#=GS A0A0T7CZ56/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. J2-4; 
#=GS A0A0T7CZ56/1-194   DR EC; 3.1.13.5; 
#=GS A0A1C3JEY0/1-194   AC A0A1C3JEY0
#=GS A0A1C3JEY0/1-194   OS Vibrio celticus
#=GS A0A1C3JEY0/1-194   DE Ribonuclease D
#=GS A0A1C3JEY0/1-194   DR GENE3D; 2410a409787b75c45bf5a30f3e4472ed/1-194; 
#=GS A0A1C3JEY0/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio celticus; 
#=GS A0A1C3JEY0/1-194   DR EC; 3.1.13.5; 
#=GS U1HA12/1-191       AC U1HA12
#=GS U1HA12/1-191       OS Bradyrhizobium sp. DFCI-1
#=GS U1HA12/1-191       DE Ribonuclease D
#=GS U1HA12/1-191       DR GENE3D; 2411a38d86b4f860f406718643d2d7bf/1-191; 
#=GS U1HA12/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium sp. DFCI-1; 
#=GS U1HA12/1-191       DR EC; 3.1.13.5; 
#=GS A0A1D7V7T0/2-195   AC A0A1D7V7T0
#=GS A0A1D7V7T0/2-195   OS Edwardsiella piscicida
#=GS A0A1D7V7T0/2-195   DE Ribonuclease D
#=GS A0A1D7V7T0/2-195   DR GENE3D; 24611a0165c3cc2181d575157be45474/2-195; 
#=GS A0A1D7V7T0/2-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Hafniaceae; Edwardsiella; Edwardsiella piscicida; 
#=GS A0A1D7V7T0/2-195   DR EC; 3.1.13.5; 
#=GS D0ZH25/2-195       AC D0ZH25
#=GS D0ZH25/2-195       OS Edwardsiella tarda EIB202
#=GS D0ZH25/2-195       DE Ribonuclease D
#=GS D0ZH25/2-195       DR GENE3D; 24611a0165c3cc2181d575157be45474/2-195; 
#=GS D0ZH25/2-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Hafniaceae; Edwardsiella; Edwardsiella tarda; 
#=GS D0ZH25/2-195       DR EC; 3.1.13.5; 
#=GS A0A0H3DSC7/2-195   AC A0A0H3DSC7
#=GS A0A0H3DSC7/2-195   OS Edwardsiella tarda FL6-60
#=GS A0A0H3DSC7/2-195   DE Ribonuclease D
#=GS A0A0H3DSC7/2-195   DR GENE3D; 24611a0165c3cc2181d575157be45474/2-195; 
#=GS A0A0H3DSC7/2-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Hafniaceae; Edwardsiella; Edwardsiella tarda; 
#=GS A0A0H3DSC7/2-195   DR EC; 3.1.13.5; 
#=GS A0A0N8REG7/3-194   AC A0A0N8REG7
#=GS A0A0N8REG7/3-194   OS Pseudomonas syringae pv. delphinii
#=GS A0A0N8REG7/3-194   DE Ribonuclease D
#=GS A0A0N8REG7/3-194   DR GENE3D; 250fea912437965766186cc9cc99ba7d/3-194; 
#=GS A0A0N8REG7/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 3; 
#=GS A0A0N8REG7/3-194   DR EC; 3.1.13.5; 
#=GS R9VLS6/1-194       AC R9VLS6
#=GS R9VLS6/1-194       OS Enterobacter sp. R4-368
#=GS R9VLS6/1-194       DE Ribonuclease D
#=GS R9VLS6/1-194       DR GENE3D; 2526497746cb2b51d9e7ccbab86b41b6/1-194; 
#=GS R9VLS6/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter sp. R4-368; 
#=GS R9VLS6/1-194       DR EC; 3.1.13.5; 
#=GS M9G6Z2/1-190       AC M9G6Z2
#=GS M9G6Z2/1-190       OS Escherichia coli MP021561.2
#=GS M9G6Z2/1-190       DE Ribonuclease D
#=GS M9G6Z2/1-190       DR GENE3D; 252d9a091e861ac510ef490a2b2fde1d/1-190; 
#=GS M9G6Z2/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS M9G6Z2/1-190       DR EC; 3.1.13.5; 
#=GS A0A073G7Q2/1-190   AC A0A073G7Q2
#=GS A0A073G7Q2/1-190   OS Escherichia coli 2-427-07_S4_C3
#=GS A0A073G7Q2/1-190   DE Ribonuclease D
#=GS A0A073G7Q2/1-190   DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS A0A073G7Q2/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A073G7Q2/1-190   DR EC; 3.1.13.5; 
#=GS A0A080FSL0/1-190   AC A0A080FSL0
#=GS A0A080FSL0/1-190   OS Escherichia coli 1-392-07_S4_C3
#=GS A0A080FSL0/1-190   DE Ribonuclease D
#=GS A0A080FSL0/1-190   DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS A0A080FSL0/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A080FSL0/1-190   DR EC; 3.1.13.5; 
#=GS S1IIY5/1-190       AC S1IIY5
#=GS S1IIY5/1-190       OS Escherichia coli KTE108
#=GS S1IIY5/1-190       DE Ribonuclease D
#=GS S1IIY5/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS S1IIY5/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS S1IIY5/1-190       DR EC; 3.1.13.5; 
#=GS A0A070CIU8/1-190   AC A0A070CIU8
#=GS A0A070CIU8/1-190   OS Escherichia coli O146:H21 str. 2010C-3325
#=GS A0A070CIU8/1-190   DE Ribonuclease D
#=GS A0A070CIU8/1-190   DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS A0A070CIU8/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A070CIU8/1-190   DR EC; 3.1.13.5; 
#=GS D8EJV3/1-190       AC D8EJV3
#=GS D8EJV3/1-190       OS Escherichia coli MS 107-1
#=GS D8EJV3/1-190       DE Ribonuclease D
#=GS D8EJV3/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS D8EJV3/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS D8EJV3/1-190       DR EC; 3.1.13.5; 
#=GS I2WTN1/1-190       AC I2WTN1
#=GS I2WTN1/1-190       OS Escherichia coli 4.0967
#=GS I2WTN1/1-190       DE Ribonuclease D
#=GS I2WTN1/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS I2WTN1/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS I2WTN1/1-190       DR EC; 3.1.13.5; 
#=GS I6CVB6/1-190       AC I6CVB6
#=GS I6CVB6/1-190       OS Shigella flexneri K-315
#=GS I6CVB6/1-190       DE Ribonuclease D
#=GS I6CVB6/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS I6CVB6/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Shigella; Shigella flexneri; 
#=GS I6CVB6/1-190       DR EC; 3.1.13.5; 
#=GS I0VLG2/1-190       AC I0VLG2
#=GS I0VLG2/1-190       OS Escherichia coli W26
#=GS I0VLG2/1-190       DE Ribonuclease D
#=GS I0VLG2/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS I0VLG2/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS I0VLG2/1-190       DR EC; 3.1.13.5; 
#=GS A0A026V3F4/1-190   AC A0A026V3F4
#=GS A0A026V3F4/1-190   OS Escherichia coli O174:H8 str. 04-3038
#=GS A0A026V3F4/1-190   DE Ribonuclease D
#=GS A0A026V3F4/1-190   DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS A0A026V3F4/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A026V3F4/1-190   DR EC; 3.1.13.5; 
#=GS U9ZCA0/1-190       AC U9ZCA0
#=GS U9ZCA0/1-190       OS Escherichia coli 907357
#=GS U9ZCA0/1-190       DE Ribonuclease D
#=GS U9ZCA0/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS U9ZCA0/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS U9ZCA0/1-190       DR EC; 3.1.13.5; 
#=GS U9YAN9/1-190       AC U9YAN9
#=GS U9YAN9/1-190       OS Escherichia coli 113303
#=GS U9YAN9/1-190       DE Ribonuclease D
#=GS U9YAN9/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS U9YAN9/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS U9YAN9/1-190       DR EC; 3.1.13.5; 
#=GS F8X713/1-190       AC F8X713
#=GS F8X713/1-190       OS Escherichia coli MS 79-10
#=GS F8X713/1-190       DE Ribonuclease D
#=GS F8X713/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS F8X713/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS F8X713/1-190       DR EC; 3.1.13.5; 
#=GS E9THJ3/1-190       AC E9THJ3
#=GS E9THJ3/1-190       OS Escherichia coli MS 117-3
#=GS E9THJ3/1-190       DE Ribonuclease D
#=GS E9THJ3/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS E9THJ3/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS E9THJ3/1-190       DR EC; 3.1.13.5; 
#=GS V0YCL6/1-190       AC V0YCL6
#=GS V0YCL6/1-190       OS Escherichia coli 908541
#=GS V0YCL6/1-190       DE Ribonuclease D
#=GS V0YCL6/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS V0YCL6/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS V0YCL6/1-190       DR EC; 3.1.13.5; 
#=GS F4VG50/1-190       AC F4VG50
#=GS F4VG50/1-190       OS Escherichia coli H591
#=GS F4VG50/1-190       DE Ribonuclease D
#=GS F4VG50/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS F4VG50/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS F4VG50/1-190       DR EC; 3.1.13.5; 
#=GS I4SWF9/1-190       AC I4SWF9
#=GS I4SWF9/1-190       OS Escherichia coli 541-15
#=GS I4SWF9/1-190       DE Ribonuclease D
#=GS I4SWF9/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS I4SWF9/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS I4SWF9/1-190       DR EC; 3.1.13.5; 
#=GS W1X0J7/1-190       AC W1X0J7
#=GS W1X0J7/1-190       OS Escherichia coli DORA_A_5_14_21
#=GS W1X0J7/1-190       DE Ribonuclease D
#=GS W1X0J7/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS W1X0J7/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS W1X0J7/1-190       DR EC; 3.1.13.5; 
#=GS A0A023KKF7/1-190   AC A0A023KKF7
#=GS A0A023KKF7/1-190   OS Escherichia coli
#=GS A0A023KKF7/1-190   DE Ribonuclease D
#=GS A0A023KKF7/1-190   DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS A0A023KKF7/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A023KKF7/1-190   DR EC; 3.1.13.5; 
#=GS A0A074I1N0/1-190   AC A0A074I1N0
#=GS A0A074I1N0/1-190   OS Escherichia coli 1-392-07_S4_C1
#=GS A0A074I1N0/1-190   DE Ribonuclease D
#=GS A0A074I1N0/1-190   DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS A0A074I1N0/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A074I1N0/1-190   DR EC; 3.1.13.5; 
#=GS U9Z257/1-190       AC U9Z257
#=GS U9Z257/1-190       OS Escherichia coli 907713
#=GS U9Z257/1-190       DE Ribonuclease D
#=GS U9Z257/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS U9Z257/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS U9Z257/1-190       DR EC; 3.1.13.5; 
#=GS E0J520/1-190       AC E0J520
#=GS E0J520/1-190       OS Escherichia coli W
#=GS E0J520/1-190       DE Ribonuclease D
#=GS E0J520/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS E0J520/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS E0J520/1-190       DR EC; 3.1.13.5; 
#=GS V0TR18/1-190       AC V0TR18
#=GS V0TR18/1-190       OS Escherichia coli 907710
#=GS V0TR18/1-190       DE Ribonuclease D
#=GS V0TR18/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS V0TR18/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS V0TR18/1-190       DR EC; 3.1.13.5; 
#=GS D7Y1M0/1-190       AC D7Y1M0
#=GS D7Y1M0/1-190       OS Escherichia coli MS 115-1
#=GS D7Y1M0/1-190       DE Ribonuclease D
#=GS D7Y1M0/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS D7Y1M0/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS D7Y1M0/1-190       DR EC; 3.1.13.5; 
#=GS D8E918/1-190       AC D8E918
#=GS D8E918/1-190       OS Escherichia coli MS 119-7
#=GS D8E918/1-190       DE Ribonuclease D
#=GS D8E918/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS D8E918/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS D8E918/1-190       DR EC; 3.1.13.5; 
#=GS A0A0G3K3C5/1-190   AC A0A0G3K3C5
#=GS A0A0G3K3C5/1-190   OS Escherichia coli PCN033
#=GS A0A0G3K3C5/1-190   DE Ribonuclease D
#=GS A0A0G3K3C5/1-190   DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS A0A0G3K3C5/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A0G3K3C5/1-190   DR EC; 3.1.13.5; 
#=GS A0A070KHG7/1-190   AC A0A070KHG7
#=GS A0A070KHG7/1-190   OS Escherichia coli 2-156-04_S3_C2
#=GS A0A070KHG7/1-190   DE Ribonuclease D
#=GS A0A070KHG7/1-190   DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS A0A070KHG7/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A070KHG7/1-190   DR EC; 3.1.13.5; 
#=GS V6FJ87/1-190       AC V6FJ87
#=GS V6FJ87/1-190       OS Escherichia coli 97.0259
#=GS V6FJ87/1-190       DE Ribonuclease D
#=GS V6FJ87/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS V6FJ87/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS V6FJ87/1-190       DR EC; 3.1.13.5; 
#=GS V0SXY4/1-190       AC V0SXY4
#=GS V0SXY4/1-190       OS Escherichia coli 113302
#=GS V0SXY4/1-190       DE Ribonuclease D
#=GS V0SXY4/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS V0SXY4/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS V0SXY4/1-190       DR EC; 3.1.13.5; 
#=GS S1GVE4/1-190       AC S1GVE4
#=GS S1GVE4/1-190       OS Escherichia coli KTE100
#=GS S1GVE4/1-190       DE Ribonuclease D
#=GS S1GVE4/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS S1GVE4/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS S1GVE4/1-190       DR EC; 3.1.13.5; 
#=GS D7YK96/1-190       AC D7YK96
#=GS D7YK96/1-190       OS Escherichia coli MS 182-1
#=GS D7YK96/1-190       DE Ribonuclease D
#=GS D7YK96/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS D7YK96/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS D7YK96/1-190       DR EC; 3.1.13.5; 
#=GS D7X947/1-190       AC D7X947
#=GS D7X947/1-190       OS Escherichia coli MS 198-1
#=GS D7X947/1-190       DE Ribonuclease D
#=GS D7X947/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS D7X947/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS D7X947/1-190       DR EC; 3.1.13.5; 
#=GS A0A1N7VRJ3/1-190   AC A0A1N7VRJ3
#=GS A0A1N7VRJ3/1-190   OS Escherichia coli MP021017.9
#=GS A0A1N7VRJ3/1-190   DE Ribonuclease D
#=GS A0A1N7VRJ3/1-190   DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS A0A1N7VRJ3/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A1N7VRJ3/1-190   DR EC; 3.1.13.5; 
#=GS N2H1K1/1-190       AC N2H1K1
#=GS N2H1K1/1-190       OS Escherichia coli P0299917.1
#=GS N2H1K1/1-190       DE Ribonuclease D
#=GS N2H1K1/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS N2H1K1/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS N2H1K1/1-190       DR EC; 3.1.13.5; 
#=GS F4V2V8/1-190       AC F4V2V8
#=GS F4V2V8/1-190       OS Escherichia coli TA280
#=GS F4V2V8/1-190       DE Ribonuclease D
#=GS F4V2V8/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS F4V2V8/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS F4V2V8/1-190       DR EC; 3.1.13.5; 
#=GS A0A0A0FEX7/1-190   AC A0A0A0FEX7
#=GS A0A0A0FEX7/1-190   OS Escherichia coli G3/10
#=GS A0A0A0FEX7/1-190   DE Ribonuclease D
#=GS A0A0A0FEX7/1-190   DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS A0A0A0FEX7/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A0A0FEX7/1-190   DR EC; 3.1.13.5; 
#=GS A0A073GDU1/1-190   AC A0A073GDU1
#=GS A0A073GDU1/1-190   OS Escherichia coli 3-267-03_S4_C1
#=GS A0A073GDU1/1-190   DE Ribonuclease D
#=GS A0A073GDU1/1-190   DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS A0A073GDU1/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A073GDU1/1-190   DR EC; 3.1.13.5; 
#=GS E1IMJ3/1-190       AC E1IMJ3
#=GS E1IMJ3/1-190       OS Escherichia coli MS 145-7
#=GS E1IMJ3/1-190       DE Ribonuclease D
#=GS E1IMJ3/1-190       DR GENE3D; 2597ee8b05c56d13359e5ee6f0e2ddbf/1-190; 
#=GS E1IMJ3/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS E1IMJ3/1-190       DR EC; 3.1.13.5; 
#=GS A0A1C7V6C4/1-194   AC A0A1C7V6C4
#=GS A0A1C7V6C4/1-194   OS Gilliamella apicola
#=GS A0A1C7V6C4/1-194   DE Ribonuclease D
#=GS A0A1C7V6C4/1-194   DR GENE3D; 25b3aeed20c36f079da0d2e2aa3b7d83/1-194; 
#=GS A0A1C7V6C4/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Orbales; Orbaceae; Gilliamella; Gilliamella apicola; 
#=GS A0A1C7V6C4/1-194   DR EC; 3.1.13.5; 
#=GS A0A1B3JJ05/9-202   AC A0A1B3JJ05
#=GS A0A1B3JJ05/9-202   OS Pasteurellaceae bacterium NI1060
#=GS A0A1B3JJ05/9-202   DE Ribonuclease D
#=GS A0A1B3JJ05/9-202   DR GENE3D; 25b54d0fc9362c7d543c692e0bc319ad/9-202; 
#=GS A0A1B3JJ05/9-202   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Pasteurellaceae bacterium NI1060; 
#=GS A0A1B3JJ05/9-202   DR EC; 3.1.13.5; 
#=GS A0A1C3V444/1-190   AC A0A1C3V444
#=GS A0A1C3V444/1-190   OS Rhizobium multihospitium
#=GS A0A1C3V444/1-190   DE Ribonuclease D
#=GS A0A1C3V444/1-190   DR GENE3D; 25b7a8e38fad03bbe95246e716fd6ad1/1-190; 
#=GS A0A1C3V444/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium multihospitium; 
#=GS A0A1C3V444/1-190   DR EC; 3.1.13.5; 
#=GS A0A0R4FMD4/11-204  AC A0A0R4FMD4
#=GS A0A0R4FMD4/11-204  OS Xenorhabdus nematophila AN6/1
#=GS A0A0R4FMD4/11-204  DE Ribonuclease D
#=GS A0A0R4FMD4/11-204  DR GENE3D; 25be5620b8fac26463a9545561ef08ce/11-204; 
#=GS A0A0R4FMD4/11-204  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Xenorhabdus; Xenorhabdus nematophila; 
#=GS A0A0R4FMD4/11-204  DR EC; 3.1.13.5; 
#=GS A0A0H0XL70/4-194   AC A0A0H0XL70
#=GS A0A0H0XL70/4-194   OS Erythrobacter marinus
#=GS A0A0H0XL70/4-194   DE Ribonuclease D
#=GS A0A0H0XL70/4-194   DR GENE3D; 25c6d0f38bc401c6df8f18a1770eca18/4-194; 
#=GS A0A0H0XL70/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter marinus; 
#=GS A0A0H0XL70/4-194   DR EC; 3.1.13.5; 
#=GS K2H8Y0/1-193       AC K2H8Y0
#=GS K2H8Y0/1-193       OS Oceaniovalibus guishaninsula JLT2003
#=GS K2H8Y0/1-193       DE Ribonuclease D
#=GS K2H8Y0/1-193       DR GENE3D; 25db245fe9f33991ec9cc6ac3b8e53f0/1-193; 
#=GS K2H8Y0/1-193       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Oceaniovalibus; Oceaniovalibus guishaninsula; 
#=GS K2H8Y0/1-193       DR EC; 3.1.13.5; 
#=GS A0A0D6PRI0/12-201  AC A0A0D6PRI0
#=GS A0A0D6PRI0/12-201  OS Gluconobacter frateurii M-2
#=GS A0A0D6PRI0/12-201  DE Ribonuclease D
#=GS A0A0D6PRI0/12-201  DR GENE3D; 26064e170fe808e63f5bffa4083ea753/12-201; 
#=GS A0A0D6PRI0/12-201  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Gluconobacter; Gluconobacter frateurii; 
#=GS A0A0D6PRI0/12-201  DR EC; 3.1.13.5; 
#=GS J3E0S5/3-195       AC J3E0S5
#=GS J3E0S5/3-195       OS Pseudomonas sp. GM102
#=GS J3E0S5/3-195       DE Ribonuclease D
#=GS J3E0S5/3-195       DR GENE3D; 2613edf9626163106fa9229f3a67473f/3-195; 
#=GS J3E0S5/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. GM102; 
#=GS J3E0S5/3-195       DR EC; 3.1.13.5; 
#=GS J3GCB4/3-195       AC J3GCB4
#=GS J3GCB4/3-195       OS Pseudomonas sp. GM50
#=GS J3GCB4/3-195       DE Ribonuclease D
#=GS J3GCB4/3-195       DR GENE3D; 2613edf9626163106fa9229f3a67473f/3-195; 
#=GS J3GCB4/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. GM50; 
#=GS J3GCB4/3-195       DR EC; 3.1.13.5; 
#=GS A0A0D8KXN4/1-190   AC A0A0D8KXN4
#=GS A0A0D8KXN4/1-190   OS Agrobacterium arsenijevicii
#=GS A0A0D8KXN4/1-190   DE Ribonuclease D
#=GS A0A0D8KXN4/1-190   DR GENE3D; 2641d3d6ce0e2b0c69d438962096cb40/1-190; 
#=GS A0A0D8KXN4/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium arsenijevicii; 
#=GS A0A0D8KXN4/1-190   DR EC; 3.1.13.5; 
#=GS A0A0M2UHH0/3-195   AC A0A0M2UHH0
#=GS A0A0M2UHH0/3-195   OS Pseudomonas putida KG-4
#=GS A0A0M2UHH0/3-195   DE Ribonuclease D
#=GS A0A0M2UHH0/3-195   DR GENE3D; 2675af24521c71c74d8e04d63a77a740/3-195; 
#=GS A0A0M2UHH0/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; 
#=GS A0A0M2UHH0/3-195   DR EC; 3.1.13.5; 
#=GS A0A177M429/1-190   AC A0A177M429
#=GS A0A177M429/1-190   OS Methylomonas methanica
#=GS A0A177M429/1-190   DE Ribonuclease D
#=GS A0A177M429/1-190   DR GENE3D; 26967ea5d2ec3bddeb42c1ac3fc8551e/1-190; 
#=GS A0A177M429/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Methylococcales; Methylococcaceae; Methylomonas; Methylomonas methanica; 
#=GS A0A177M429/1-190   DR EC; 3.1.13.5; 
#=GS A0A151JJU7/1-193   AC A0A151JJU7
#=GS A0A151JJU7/1-193   OS Vibrio cidicii
#=GS A0A151JJU7/1-193   DE Ribonuclease D
#=GS A0A151JJU7/1-193   DR GENE3D; 269dc412213a09a2e15c8ba101a33367/1-193; 
#=GS A0A151JJU7/1-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cidicii; 
#=GS A0A151JJU7/1-193   DR EC; 3.1.13.5; 
#=GS A0A097EDI8/4-194   AC A0A097EDI8
#=GS A0A097EDI8/4-194   OS Sphingomonas taxi
#=GS A0A097EDI8/4-194   DE Ribonuclease D
#=GS A0A097EDI8/4-194   DR GENE3D; 26a98f68f25dd72a1c557173ada34c68/4-194; 
#=GS A0A097EDI8/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas taxi; 
#=GS A0A097EDI8/4-194   DR EC; 3.1.13.5; 
#=GS H5T8S5/8-199       AC H5T8S5
#=GS H5T8S5/8-199       OS Glaciecola punicea ACAM 611
#=GS H5T8S5/8-199       DE Ribonuclease D
#=GS H5T8S5/8-199       DR GENE3D; 26bbc707672fd6f8794f081f1963eefa/8-199; 
#=GS H5T8S5/8-199       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Glaciecola; Glaciecola punicea; 
#=GS H5T8S5/8-199       DR EC; 3.1.13.5; 
#=GS A0A085GCN1/1-190   AC A0A085GCN1
#=GS A0A085GCN1/1-190   OS Buttiauxella agrestis ATCC 33320
#=GS A0A085GCN1/1-190   DE Ribonuclease D
#=GS A0A085GCN1/1-190   DR GENE3D; 27175de4dc41b21c24fdb42e4e683e19/1-190; 
#=GS A0A085GCN1/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Buttiauxella; Buttiauxella agrestis; 
#=GS A0A085GCN1/1-190   DR EC; 3.1.13.5; 
#=GS A1SVE6/1-192       AC A1SVE6
#=GS A1SVE6/1-192       OS Psychromonas ingrahamii 37
#=GS A1SVE6/1-192       DE Ribonuclease D
#=GS A1SVE6/1-192       DR GENE3D; 275aeff8f789d4d32b85bcc45e9d3d6b/1-192; 
#=GS A1SVE6/1-192       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Psychromonadaceae; Psychromonas; Psychromonas ingrahamii; 
#=GS A1SVE6/1-192       DR EC; 3.1.13.5; 
#=GS A0A1H2G0R2/69-261  AC A0A1H2G0R2
#=GS A0A1H2G0R2/69-261  OS Stappia sp. ES.058
#=GS A0A1H2G0R2/69-261  DE Ribonuclease D
#=GS A0A1H2G0R2/69-261  DR GENE3D; 276322944d36fa4b7b8b6511d48cf2c0/69-261; 
#=GS A0A1H2G0R2/69-261  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Stappia; Stappia sp. ES.058; 
#=GS A0A1H2G0R2/69-261  DR EC; 3.1.13.5; 
#=GS Q3ICG4/1-193       AC Q3ICG4
#=GS Q3ICG4/1-193       OS Pseudoalteromonas haloplanktis TAC125
#=GS Q3ICG4/1-193       DE Ribonuclease D
#=GS Q3ICG4/1-193       DR GENE3D; 279ac1655bfb69ccfeaca2edd14c9090/1-193; 
#=GS Q3ICG4/1-193       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas haloplanktis; 
#=GS Q3ICG4/1-193       DR EC; 3.1.13.5; 
#=GS A4YTC1/8-198       AC A4YTC1
#=GS A4YTC1/8-198       OS Bradyrhizobium sp. ORS 278
#=GS A4YTC1/8-198       DE Ribonuclease D
#=GS A4YTC1/8-198       DR GENE3D; 279dfd40554679b2eb75cbda82dd1b39/8-198; 
#=GS A4YTC1/8-198       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium sp. ORS 278; 
#=GS A4YTC1/8-198       DR EC; 3.1.13.5; 
#=GS A0A0Q4GE78/4-193   AC A0A0Q4GE78
#=GS A0A0Q4GE78/4-193   OS Sphingomonas sp. Leaf20
#=GS A0A0Q4GE78/4-193   DE Ribonuclease D
#=GS A0A0Q4GE78/4-193   DR GENE3D; 27a9fb64ca95b933406a5ada6adfd239/4-193; 
#=GS A0A0Q4GE78/4-193   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf20; 
#=GS A0A0Q4GE78/4-193   DR EC; 3.1.13.5; 
#=GS K2K509/2-195       AC K2K509
#=GS K2K509/2-195       OS Celeribacter baekdonensis B30
#=GS K2K509/2-195       DE Ribonuclease D
#=GS K2K509/2-195       DR GENE3D; 27c7d81f361863ce57649baeef39b305/2-195; 
#=GS K2K509/2-195       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Celeribacter; Celeribacter baekdonensis; 
#=GS K2K509/2-195       DR EC; 3.1.13.5; 
#=GS A0A0G2NMP9/1-194   AC A0A0G2NMP9
#=GS A0A0G2NMP9/1-194   OS Salmonella enterica subsp. enterica serovar Gallinarum str. SG9
#=GS A0A0G2NMP9/1-194   DE Ribonuclease D
#=GS A0A0G2NMP9/1-194   DR GENE3D; 27e8ffed842d80aa71f21853d4cb6b2f/1-194; 
#=GS A0A0G2NMP9/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; 
#=GS A0A0G2NMP9/1-194   DR EC; 3.1.13.5; 
#=GS B5R8Y4/1-194       AC B5R8Y4
#=GS B5R8Y4/1-194       OS Salmonella enterica subsp. enterica serovar Gallinarum str. 287/91
#=GS B5R8Y4/1-194       DE Ribonuclease D
#=GS B5R8Y4/1-194       DR GENE3D; 27e8ffed842d80aa71f21853d4cb6b2f/1-194; 
#=GS B5R8Y4/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; 
#=GS B5R8Y4/1-194       DR EC; 3.1.13.5; 
#=GS A0A074MXS5/3-195   AC A0A074MXS5
#=GS A0A074MXS5/3-195   OS Erythrobacter longus
#=GS A0A074MXS5/3-195   DE Ribonuclease D
#=GS A0A074MXS5/3-195   DR GENE3D; 2807362555515c23790bb0fc25b3d8f2/3-195; 
#=GS A0A074MXS5/3-195   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter longus; 
#=GS A0A074MXS5/3-195   DR EC; 3.1.13.5; 
#=GS A0A1E7ZC00/1-194   AC A0A1E7ZC00
#=GS A0A1E7ZC00/1-194   OS Alteromonas confluentis
#=GS A0A1E7ZC00/1-194   DE Ribonuclease D
#=GS A0A1E7ZC00/1-194   DR GENE3D; 2807853daf8bf1656756312ddce9bd84/1-194; 
#=GS A0A1E7ZC00/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Alteromonas; Alteromonas confluentis; 
#=GS A0A1E7ZC00/1-194   DR EC; 3.1.13.5; 
#=GS A0A0B3XZ26/1-194   AC A0A0B3XZ26
#=GS A0A0B3XZ26/1-194   OS Alteromonas marina
#=GS A0A0B3XZ26/1-194   DE Ribonuclease D
#=GS A0A0B3XZ26/1-194   DR GENE3D; 286bdbc743409306a6039b1f2b43e0d3/1-194; 
#=GS A0A0B3XZ26/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Alteromonas; Alteromonas marina; 
#=GS A0A0B3XZ26/1-194   DR EC; 3.1.13.5; 
#=GS A0A0M2F0K3/1-194   AC A0A0M2F0K3
#=GS A0A0M2F0K3/1-194   OS Pectobacterium carotovorum subsp. brasiliense
#=GS A0A0M2F0K3/1-194   DE Ribonuclease D
#=GS A0A0M2F0K3/1-194   DR GENE3D; 28872a7608876bed0d483c5707b965f4/1-194; 
#=GS A0A0M2F0K3/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Pectobacteriaceae; Pectobacterium; Pectobacterium carotovorum; Pectobacterium carotovorum subsp. brasiliense; 
#=GS A0A0M2F0K3/1-194   DR EC; 3.1.13.5; 
#=GS F9SPN1/19-212      AC F9SPN1
#=GS F9SPN1/19-212      OS Vibrio orientalis CIP 102891 = ATCC 33934
#=GS F9SPN1/19-212      DE Ribonuclease D
#=GS F9SPN1/19-212      DR GENE3D; 28aa17f38d4791b5f8ca7b164233c25d/19-212; 
#=GS F9SPN1/19-212      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio orientalis; 
#=GS F9SPN1/19-212      DR EC; 3.1.13.5; 
#=GS A0A0Q4MRR2/1-190   AC A0A0Q4MRR2
#=GS A0A0Q4MRR2/1-190   OS Erwinia sp. Leaf53
#=GS A0A0Q4MRR2/1-190   DE Ribonuclease D
#=GS A0A0Q4MRR2/1-190   DR GENE3D; 28ac9453365d938a35808033995a831f/1-190; 
#=GS A0A0Q4MRR2/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Erwinia; Erwinia sp. Leaf53; 
#=GS A0A0Q4MRR2/1-190   DR EC; 3.1.13.5; 
#=GS A0A0A6DL30/3-194   AC A0A0A6DL30
#=GS A0A0A6DL30/3-194   OS Pseudomonas chlororaphis
#=GS A0A0A6DL30/3-194   DE Ribonuclease D
#=GS A0A0A6DL30/3-194   DR GENE3D; 28b8fdb1e4fd5e28f7e4e105a8ce4f7a/3-194; 
#=GS A0A0A6DL30/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas chlororaphis group; Pseudomonas chlororaphis; 
#=GS A0A0A6DL30/3-194   DR EC; 3.1.13.5; 
#=GS A0A136HSY9/1-190   AC A0A136HSY9
#=GS A0A136HSY9/1-190   OS Colwellia sp. Phe_37
#=GS A0A136HSY9/1-190   DE Ribonuclease D
#=GS A0A136HSY9/1-190   DR GENE3D; 28d2fe8df905c9369987e4799bb1bf70/1-190; 
#=GS A0A136HSY9/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Colwelliaceae; Colwellia; Colwellia sp. Phe_37; 
#=GS A0A136HSY9/1-190   DR EC; 3.1.13.5; 
#=GS A0A166RRX0/1-195   AC A0A166RRX0
#=GS A0A166RRX0/1-195   OS Oceanibulbus sp. HI0023
#=GS A0A166RRX0/1-195   DE Ribonuclease D
#=GS A0A166RRX0/1-195   DR GENE3D; 28fa90e0a7aee6c41dcdbc32e629615b/1-195; 
#=GS A0A166RRX0/1-195   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Oceanibulbus; Oceanibulbus sp. HI0023; 
#=GS A0A166RRX0/1-195   DR EC; 3.1.13.5; 
#=GS A0A168L833/1-190   AC A0A168L833
#=GS A0A168L833/1-190   OS Klebsiella oxytoca
#=GS A0A168L833/1-190   DE Ribonuclease D
#=GS A0A168L833/1-190   DR GENE3D; 29131a6d2368fe892db25d6e1ec8dc14/1-190; 
#=GS A0A168L833/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella oxytoca; 
#=GS A0A168L833/1-190   DR EC; 3.1.13.5; 
#=GS A0A0S3JCA2/10-203  AC A0A0S3JCA2
#=GS A0A0S3JCA2/10-203  OS 
#=GS A0A0S3JCA2/10-203  DE Ribonuclease D
#=GS A0A0S3JCA2/10-203  DR GENE3D; 29234b6ed0e86f320e48bd08759ec8fc/10-203; 
#=GS A0A0S3JCA2/10-203  DR ORG; 
#=GS A0A0S3JCA2/10-203  DR EC; 3.1.13.5; 
#=GS V4JEB6/1-193       AC V4JEB6
#=GS V4JEB6/1-193       OS Pseudoalteromonas luteoviolacea 2ta16
#=GS V4JEB6/1-193       DE Ribonuclease D
#=GS V4JEB6/1-193       DR GENE3D; 295bbf22de5338750526931b664de6ca/1-193; 
#=GS V4JEB6/1-193       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas luteoviolacea; 
#=GS V4JEB6/1-193       DR EC; 3.1.13.5; 
#=GS H0H6Y7/1-190       AC H0H6Y7
#=GS H0H6Y7/1-190       OS Agrobacterium tumefaciens 5A
#=GS H0H6Y7/1-190       DE Ribonuclease D
#=GS H0H6Y7/1-190       DR GENE3D; 29906989c39bb598d840150f643dd461/1-190; 
#=GS H0H6Y7/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium tumefaciens complex; Agrobacterium tumefaciens; 
#=GS H0H6Y7/1-190       DR EC; 3.1.13.5; 
#=GS F0L1P5/1-190       AC F0L1P5
#=GS F0L1P5/1-190       OS Agrobacterium sp. H13-3
#=GS F0L1P5/1-190       DE Ribonuclease D
#=GS F0L1P5/1-190       DR GENE3D; 29906989c39bb598d840150f643dd461/1-190; 
#=GS F0L1P5/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium sp. H13-3; 
#=GS F0L1P5/1-190       DR EC; 3.1.13.5; 
#=GS A0A0Q7Q256/1-190   AC A0A0Q7Q256
#=GS A0A0Q7Q256/1-190   OS Rhizobium sp. Root491
#=GS A0A0Q7Q256/1-190   DE Ribonuclease D
#=GS A0A0Q7Q256/1-190   DR GENE3D; 29906989c39bb598d840150f643dd461/1-190; 
#=GS A0A0Q7Q256/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. Root491; 
#=GS A0A0Q7Q256/1-190   DR EC; 3.1.13.5; 
#=GS A0A0Q7IF87/1-190   AC A0A0Q7IF87
#=GS A0A0Q7IF87/1-190   OS Devosia sp. Root436
#=GS A0A0Q7IF87/1-190   DE Ribonuclease D
#=GS A0A0Q7IF87/1-190   DR GENE3D; 299f34a9d4f6f8d11d01fae57cd90090/1-190; 
#=GS A0A0Q7IF87/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia sp. Root436; 
#=GS A0A0Q7IF87/1-190   DR EC; 3.1.13.5; 
#=GS H8FNM1/1-190       AC H8FNM1
#=GS H8FNM1/1-190       OS Phaeospirillum molischianum DSM 120
#=GS H8FNM1/1-190       DE Ribonuclease D
#=GS H8FNM1/1-190       DR GENE3D; 29b36ff56f2009e9eef4d520537609fd/1-190; 
#=GS H8FNM1/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Phaeospirillum; Phaeospirillum molischianum; 
#=GS H8FNM1/1-190       DR EC; 3.1.13.5; 
#=GS A0A0N8R0U1/3-194   AC A0A0N8R0U1
#=GS A0A0N8R0U1/3-194   OS Pseudomonas congelans
#=GS A0A0N8R0U1/3-194   DE Ribonuclease D
#=GS A0A0N8R0U1/3-194   DR GENE3D; 29c39605a5420b177525f383499b56a5/3-194; 
#=GS A0A0N8R0U1/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas congelans; 
#=GS A0A0N8R0U1/3-194   DR EC; 3.1.13.5; 
#=GS A0A0P9ILF8/3-194   AC A0A0P9ILF8
#=GS A0A0P9ILF8/3-194   OS Pseudomonas amygdali
#=GS A0A0P9ILF8/3-194   DE Ribonuclease D
#=GS A0A0P9ILF8/3-194   DR GENE3D; 29dd64239970057bd7cc7c10b082c375/3-194; 
#=GS A0A0P9ILF8/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 2; Pseudomonas amygdali; 
#=GS A0A0P9ILF8/3-194   DR EC; 3.1.13.5; 
#=GS A0A162HV53/1-194   AC A0A162HV53
#=GS A0A162HV53/1-194   OS Vibrio sp. HI00D65
#=GS A0A162HV53/1-194   DE Ribonuclease D
#=GS A0A162HV53/1-194   DR GENE3D; 2a068f529b63f30ed8723f05b01fd506/1-194; 
#=GS A0A162HV53/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. HI00D65; 
#=GS A0A162HV53/1-194   DR EC; 3.1.13.5; 
#=GS A0A0K1XFL2/3-193   AC A0A0K1XFL2
#=GS A0A0K1XFL2/3-193   OS Oblitimonas alkaliphila
#=GS A0A0K1XFL2/3-193   DE Ribonuclease D
#=GS A0A0K1XFL2/3-193   DR GENE3D; 2a0e051bf065b8c8fdf8d5fd47beabf3/3-193; 
#=GS A0A0K1XFL2/3-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Oblitimonas; Oblitimonas alkaliphila; 
#=GS A0A0K1XFL2/3-193   DR EC; 3.1.13.5; 
#=GS A7N151/11-204      AC A7N151
#=GS A7N151/11-204      OS Vibrio campbellii ATCC BAA-1116
#=GS A7N151/11-204      DE Ribonuclease D
#=GS A7N151/11-204      DR GENE3D; 2a132660aed27cc704c563f620baafd4/11-204; 
#=GS A7N151/11-204      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio campbellii; 
#=GS A7N151/11-204      DR EC; 3.1.13.5; 
#=GS A0A0D7M2R5/1-190   AC A0A0D7M2R5
#=GS A0A0D7M2R5/1-190   OS Citrobacter freundii
#=GS A0A0D7M2R5/1-190   DE Ribonuclease D
#=GS A0A0D7M2R5/1-190   DR GENE3D; 2a24fd4211320f75869ff424217ee638/1-190; 
#=GS A0A0D7M2R5/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Citrobacter; Citrobacter freundii complex; Citrobacter freundii; 
#=GS A0A0D7M2R5/1-190   DR EC; 3.1.13.5; 
#=GS A0A0J1NF00/1-190   AC A0A0J1NF00
#=GS A0A0J1NF00/1-190   OS Citrobacter sp. MGH109
#=GS A0A0J1NF00/1-190   DE Ribonuclease D
#=GS A0A0J1NF00/1-190   DR GENE3D; 2a24fd4211320f75869ff424217ee638/1-190; 
#=GS A0A0J1NF00/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Citrobacter; Citrobacter freundii complex; Citrobacter sp. MGH109; 
#=GS A0A0J1NF00/1-190   DR EC; 3.1.13.5; 
#=GS A0A0J1L4G9/1-190   AC A0A0J1L4G9
#=GS A0A0J1L4G9/1-190   OS Citrobacter sp. MGH103
#=GS A0A0J1L4G9/1-190   DE Ribonuclease D
#=GS A0A0J1L4G9/1-190   DR GENE3D; 2a24fd4211320f75869ff424217ee638/1-190; 
#=GS A0A0J1L4G9/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Citrobacter; Citrobacter freundii complex; Citrobacter sp. MGH103; 
#=GS A0A0J1L4G9/1-190   DR EC; 3.1.13.5; 
#=GS A0A0W1KNS5/1-193   AC A0A0W1KNS5
#=GS A0A0W1KNS5/1-193   OS Pseudoalteromonas sp. H103
#=GS A0A0W1KNS5/1-193   DE Ribonuclease D
#=GS A0A0W1KNS5/1-193   DR GENE3D; 2a31c6de81d6201b3ab8ccf5b84f2c2d/1-193; 
#=GS A0A0W1KNS5/1-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas sp. H103; 
#=GS A0A0W1KNS5/1-193   DR EC; 3.1.13.5; 
#=GS A0A0J6AMV7/1-194   AC A0A0J6AMV7
#=GS A0A0J6AMV7/1-194   OS Pectobacterium carotovorum subsp. carotovorum UGC32
#=GS A0A0J6AMV7/1-194   DE Ribonuclease D
#=GS A0A0J6AMV7/1-194   DR GENE3D; 2a34581df65b18644b71b6f02e21573d/1-194; 
#=GS A0A0J6AMV7/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Pectobacteriaceae; Pectobacterium; Pectobacterium carotovorum; Pectobacterium carotovorum subsp. carotovorum; 
#=GS A0A0J6AMV7/1-194   DR EC; 3.1.13.5; 
#=GS A0A161JME4/1-191   AC A0A161JME4
#=GS A0A161JME4/1-191   OS Methylobacterium populi
#=GS A0A161JME4/1-191   DE Ribonuclease D
#=GS A0A161JME4/1-191   DR GENE3D; 2a36d8f2060af7d68af7a9d8b1d979d7/1-191; 
#=GS A0A161JME4/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Methylobacterium; Methylobacterium populi; 
#=GS A0A161JME4/1-191   DR EC; 3.1.13.5; 
#=GS A0A0H3HB17/1-194   AC A0A0H3HB17
#=GS A0A0H3HB17/1-194   OS Klebsiella michiganensis KCTC 1686
#=GS A0A0H3HB17/1-194   DE Ribonuclease D
#=GS A0A0H3HB17/1-194   DR GENE3D; 2a58baccc26440a33c9b40200f681b8b/1-194; 
#=GS A0A0H3HB17/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella michiganensis; 
#=GS A0A0H3HB17/1-194   DR EC; 3.1.13.5; 
#=GS N6UQI3/1-189       AC N6UQI3
#=GS N6UQI3/1-189       OS Bartonella bovis 91-4
#=GS N6UQI3/1-189       DE Ribonuclease D
#=GS N6UQI3/1-189       DR GENE3D; 2a83323f7accc6d922efa1e3ddb26d61/1-189; 
#=GS N6UQI3/1-189       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bartonellaceae; Bartonella; Bartonella bovis; 
#=GS N6UQI3/1-189       DR EC; 3.1.13.5; 
#=GS S3HKB0/1-190       AC S3HKB0
#=GS S3HKB0/1-190       OS Rhizobium grahamii CCGE 502
#=GS S3HKB0/1-190       DE Ribonuclease D
#=GS S3HKB0/1-190       DR GENE3D; 2a9afc441845b1f2606288c8e7b448b0/1-190; 
#=GS S3HKB0/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium grahamii; 
#=GS S3HKB0/1-190       DR EC; 3.1.13.5; 
#=GS A0A176NGU6/3-195   AC A0A176NGU6
#=GS A0A176NGU6/3-195   OS Pseudomonas thivervalensis
#=GS A0A176NGU6/3-195   DE Ribonuclease D
#=GS A0A176NGU6/3-195   DR GENE3D; 2aa98ea0bc1ea2a6af5cafe7dca05589/3-195; 
#=GS A0A176NGU6/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas thivervalensis; 
#=GS A0A176NGU6/3-195   DR EC; 3.1.13.5; 
#=GS T0H9R1/4-195       AC T0H9R1
#=GS T0H9R1/4-195       OS Novosphingobium lindaniclasticum LE124
#=GS T0H9R1/4-195       DE Ribonuclease D
#=GS T0H9R1/4-195       DR GENE3D; 2ac01abb96a6bd3f482d7a55abae5d84/4-195; 
#=GS T0H9R1/4-195       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium lindaniclasticum; 
#=GS T0H9R1/4-195       DR EC; 3.1.13.5; 
#=GS F7Y1A3/1-191       AC F7Y1A3
#=GS F7Y1A3/1-191       OS Mesorhizobium opportunistum WSM2075
#=GS F7Y1A3/1-191       DE Ribonuclease D
#=GS F7Y1A3/1-191       DR GENE3D; 2ae54d223b55e1c047fdcc2269d8ea78/1-191; 
#=GS F7Y1A3/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium opportunistum; 
#=GS F7Y1A3/1-191       DR EC; 3.1.13.5; 
#=GS A0A094TG31/1-194   AC A0A094TG31
#=GS A0A094TG31/1-194   OS Proteus vulgaris
#=GS A0A094TG31/1-194   DE Ribonuclease D
#=GS A0A094TG31/1-194   DR GENE3D; 2b0519ba13b01332a5dd4e87c1d58c4e/1-194; 
#=GS A0A094TG31/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Proteus; Proteus vulgaris; 
#=GS A0A094TG31/1-194   DR EC; 3.1.13.5; 
#=GS A0A1C1S9B5/1-194   AC A0A1C1S9B5
#=GS A0A1C1S9B5/1-194   OS Klebsiella pneumoniae
#=GS A0A1C1S9B5/1-194   DE Ribonuclease D
#=GS A0A1C1S9B5/1-194   DR GENE3D; 2b06922b2df01be99761b75ac2d8c01f/1-194; 
#=GS A0A1C1S9B5/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella pneumoniae; 
#=GS A0A1C1S9B5/1-194   DR EC; 3.1.13.5; 
#=GS A4EKU8/1-194       AC A4EKU8
#=GS A4EKU8/1-194       OS Roseobacter sp. CCS2
#=GS A4EKU8/1-194       DE Ribonuclease D
#=GS A4EKU8/1-194       DR GENE3D; 2b2b0a70eb9cd4d4550424375b03abbf/1-194; 
#=GS A4EKU8/1-194       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Roseobacter; Roseobacter sp. CCS2; 
#=GS A4EKU8/1-194       DR EC; 3.1.13.5; 
#=GS A0A0G9MX69/4-194   AC A0A0G9MX69
#=GS A0A0G9MX69/4-194   OS Erythrobacter luteus
#=GS A0A0G9MX69/4-194   DE Ribonuclease D
#=GS A0A0G9MX69/4-194   DR GENE3D; 2b3ff993d3e29cc0d705effece6988ed/4-194; 
#=GS A0A0G9MX69/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter luteus; 
#=GS A0A0G9MX69/4-194   DR EC; 3.1.13.5; 
#=GS A0A0U4HKK0/1-190   AC A0A0U4HKK0
#=GS A0A0U4HKK0/1-190   OS Cronobacter malonaticus LMG 23826
#=GS A0A0U4HKK0/1-190   DE Ribonuclease D
#=GS A0A0U4HKK0/1-190   DR GENE3D; 2b53d05c82f6ecf98c91c052f536ae3e/1-190; 
#=GS A0A0U4HKK0/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Cronobacter; Cronobacter malonaticus; 
#=GS A0A0U4HKK0/1-190   DR EC; 3.1.13.5; 
#=GS A0A0A7PQS8/3-195   AC A0A0A7PQS8
#=GS A0A0A7PQS8/3-195   OS Pseudomonas putida S12
#=GS A0A0A7PQS8/3-195   DE Ribonuclease D
#=GS A0A0A7PQS8/3-195   DR GENE3D; 2b5a3ec6fedc65122ad4c52404ee8607/3-195; 
#=GS A0A0A7PQS8/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; 
#=GS A0A0A7PQS8/3-195   DR EC; 3.1.13.5; 
#=GS D2YGL0/13-206      AC D2YGL0
#=GS D2YGL0/13-206      OS Vibrio mimicus VM603
#=GS D2YGL0/13-206      DE Ribonuclease D
#=GS D2YGL0/13-206      DR GENE3D; 2b803828bb51a0ff8987df36f87595f4/13-206; 
#=GS D2YGL0/13-206      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio mimicus; 
#=GS D2YGL0/13-206      DR EC; 3.1.13.5; 
#=GS A0A196M9D5/4-194   AC A0A196M9D5
#=GS A0A196M9D5/4-194   OS Sphingobium sp. TCM1
#=GS A0A196M9D5/4-194   DE Ribonuclease D
#=GS A0A196M9D5/4-194   DR GENE3D; 2b86f8dda29a771e10382b62cff0eada/4-194; 
#=GS A0A196M9D5/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium sp. TCM1; 
#=GS A0A196M9D5/4-194   DR EC; 3.1.13.5; 
#=GS A0A166X0C1/6-197   AC A0A166X0C1
#=GS A0A166X0C1/6-197   OS Thalassolituus sp. HI0120
#=GS A0A166X0C1/6-197   DE Ribonuclease D
#=GS A0A166X0C1/6-197   DR GENE3D; 2b928c76fee7a92eee7152e784f2f2a2/6-197; 
#=GS A0A166X0C1/6-197   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Thalassolituus; Thalassolituus sp. HI0120; 
#=GS A0A166X0C1/6-197   DR EC; 3.1.13.5; 
#=GS V4PET7/1-186       AC V4PET7
#=GS V4PET7/1-186       OS Asticcacaulis sp. AC460
#=GS V4PET7/1-186       DE Ribonuclease D
#=GS V4PET7/1-186       DR GENE3D; 2b9c0ae4d8b5807644a3fbe57b089f70/1-186; 
#=GS V4PET7/1-186       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Asticcacaulis; Asticcacaulis sp. AC460; 
#=GS V4PET7/1-186       DR EC; 3.1.13.5; 
#=GS A0A1E3E023/1-194   AC A0A1E3E023
#=GS A0A1E3E023/1-194   OS Vibrio harveyi
#=GS A0A1E3E023/1-194   DE Ribonuclease D
#=GS A0A1E3E023/1-194   DR GENE3D; 2ba475aa810eb1170d53ac8d54a6976d/1-194; 
#=GS A0A1E3E023/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio harveyi; 
#=GS A0A1E3E023/1-194   DR EC; 3.1.13.5; 
#=GS A0A1C3RDP4/1-193   AC A0A1C3RDP4
#=GS A0A1C3RDP4/1-193   OS Terasakiella sp. PR1
#=GS A0A1C3RDP4/1-193   DE Ribonuclease D
#=GS A0A1C3RDP4/1-193   DR GENE3D; 2be2ab65b8643969c6189f9a337daa9b/1-193; 
#=GS A0A1C3RDP4/1-193   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylocystaceae; Terasakiella; Terasakiella sp. PR1; 
#=GS A0A1C3RDP4/1-193   DR EC; 3.1.13.5; 
#=GS F3E3D4/3-194       AC F3E3D4
#=GS F3E3D4/3-194       OS Pseudomonas amygdali pv. morsprunorum str. M302280
#=GS F3E3D4/3-194       DE Ribonuclease D
#=GS F3E3D4/3-194       DR GENE3D; 2c17fb3355acb07980c31f91ccb0ea94/3-194; 
#=GS F3E3D4/3-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 2; Pseudomonas amygdali; 
#=GS F3E3D4/3-194       DR EC; 3.1.13.5; 
#=GS A0A0Q8YCC4/3-195   AC A0A0Q8YCC4
#=GS A0A0Q8YCC4/3-195   OS Pseudomonas sp. Root9
#=GS A0A0Q8YCC4/3-195   DE Ribonuclease D
#=GS A0A0Q8YCC4/3-195   DR GENE3D; 2c1ccec226707108410571f9c683f388/3-195; 
#=GS A0A0Q8YCC4/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. Root9; 
#=GS A0A0Q8YCC4/3-195   DR EC; 3.1.13.5; 
#=GS A0A109KPT8/3-195   AC A0A109KPT8
#=GS A0A109KPT8/3-195   OS Pseudomonas fluorescens
#=GS A0A109KPT8/3-195   DE Ribonuclease D
#=GS A0A109KPT8/3-195   DR GENE3D; 2c1ccec226707108410571f9c683f388/3-195; 
#=GS A0A109KPT8/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; 
#=GS A0A109KPT8/3-195   DR EC; 3.1.13.5; 
#=GS A0A167AHW9/3-194   AC A0A167AHW9
#=GS A0A167AHW9/3-194   OS Ectothiorhodospira sp. BSL-9
#=GS A0A167AHW9/3-194   DE Ribonuclease D
#=GS A0A167AHW9/3-194   DR GENE3D; 2c402107abfb17b1146e740f1fa234ae/3-194; 
#=GS A0A167AHW9/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Ectothiorhodospira; Ectothiorhodospira sp. BSL-9; 
#=GS A0A167AHW9/3-194   DR EC; 3.1.13.5; 
#=GS C8S2P6/1-193       AC C8S2P6
#=GS C8S2P6/1-193       OS Rhodobacter sp. SW2
#=GS C8S2P6/1-193       DE Ribonuclease D
#=GS C8S2P6/1-193       DR GENE3D; 2c47a18d93b5d452ac5ed8950c76591a/1-193; 
#=GS C8S2P6/1-193       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacter; Rhodobacter sp. SW2; 
#=GS C8S2P6/1-193       DR EC; 3.1.13.5; 
#=GS A0A1C3GQ32/3-195   AC A0A1C3GQ32
#=GS A0A1C3GQ32/3-195   OS Pseudomonas sp. 1 R 17
#=GS A0A1C3GQ32/3-195   DE Ribonuclease D
#=GS A0A1C3GQ32/3-195   DR GENE3D; 2c4da5d08b764fb33eda50827a18ec02/3-195; 
#=GS A0A1C3GQ32/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. 1 R 17; 
#=GS A0A1C3GQ32/3-195   DR EC; 3.1.13.5; 
#=GS A0A095BKV7/4-194   AC A0A095BKV7
#=GS A0A095BKV7/4-194   OS Sphingopyxis sp. LC81
#=GS A0A095BKV7/4-194   DE Ribonuclease D
#=GS A0A095BKV7/4-194   DR GENE3D; 2c503ed42748a8fcbecbe978ff2ab8d1/4-194; 
#=GS A0A095BKV7/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis sp. LC81; 
#=GS A0A095BKV7/4-194   DR EC; 3.1.13.5; 
#=GS V4NBG7/1-187       AC V4NBG7
#=GS V4NBG7/1-187       OS Asticcacaulis sp. AC402
#=GS V4NBG7/1-187       DE Ribonuclease D
#=GS V4NBG7/1-187       DR GENE3D; 2c776b6a645b63d62efc4eefb1115ee0/1-187; 
#=GS V4NBG7/1-187       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Asticcacaulis; Asticcacaulis sp. AC402; 
#=GS V4NBG7/1-187       DR EC; 3.1.13.5; 
#=GS A0A0Q4XDK2/1-192   AC A0A0Q4XDK2
#=GS A0A0Q4XDK2/1-192   OS Methylobacterium sp. Leaf91
#=GS A0A0Q4XDK2/1-192   DE Ribonuclease D
#=GS A0A0Q4XDK2/1-192   DR GENE3D; 2ca0c35840c1753cfb1aa2a737e74865/1-192; 
#=GS A0A0Q4XDK2/1-192   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Methylobacterium; Methylobacterium sp. Leaf91; 
#=GS A0A0Q4XDK2/1-192   DR EC; 3.1.13.5; 
#=GS A0A0Q4UE00/1-192   AC A0A0Q4UE00
#=GS A0A0Q4UE00/1-192   OS Methylobacterium sp. Leaf86
#=GS A0A0Q4UE00/1-192   DE Ribonuclease D
#=GS A0A0Q4UE00/1-192   DR GENE3D; 2ca0c35840c1753cfb1aa2a737e74865/1-192; 
#=GS A0A0Q4UE00/1-192   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Methylobacterium; Methylobacterium sp. Leaf86; 
#=GS A0A0Q4UE00/1-192   DR EC; 3.1.13.5; 
#=GS A0A0Q5HT21/1-191   AC A0A0Q5HT21
#=GS A0A0Q5HT21/1-191   OS Aureimonas sp. Leaf324
#=GS A0A0Q5HT21/1-191   DE Ribonuclease D
#=GS A0A0Q5HT21/1-191   DR GENE3D; 2cb46f662d1b18d31cf4202d11c4ff82/1-191; 
#=GS A0A0Q5HT21/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Aurantimonadaceae; Aureimonas; Aureimonas sp. Leaf324; 
#=GS A0A0Q5HT21/1-191   DR EC; 3.1.13.5; 
#=GS A0KXU5/22-213      AC A0KXU5
#=GS A0KXU5/22-213      OS Shewanella sp. ANA-3
#=GS A0KXU5/22-213      DE Ribonuclease D
#=GS A0KXU5/22-213      DR GENE3D; 2ce162afaa2e362be9fba2ff1a0cf820/22-213; 
#=GS A0KXU5/22-213      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella sp. ANA-3; 
#=GS A0KXU5/22-213      DR EC; 3.1.13.5; 
#=GS A0A1B6Z6I3/4-194   AC A0A1B6Z6I3
#=GS A0A1B6Z6I3/4-194   OS Sphingomonadales bacterium EhC05
#=GS A0A1B6Z6I3/4-194   DE Ribonuclease D
#=GS A0A1B6Z6I3/4-194   DR GENE3D; 2d6af87964fcef3d0cc7393ef9757051/4-194; 
#=GS A0A1B6Z6I3/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadales bacterium EhC05; 
#=GS A0A1B6Z6I3/4-194   DR EC; 3.1.13.5; 
#=GS A0A0C1KEU3/3-195   AC A0A0C1KEU3
#=GS A0A0C1KEU3/3-195   OS Pseudomonas sp. C5pp
#=GS A0A0C1KEU3/3-195   DE Ribonuclease D
#=GS A0A0C1KEU3/3-195   DR GENE3D; 2d77a38f8d066465ff28f2e6ccb671cf/3-195; 
#=GS A0A0C1KEU3/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. C5pp; 
#=GS A0A0C1KEU3/3-195   DR EC; 3.1.13.5; 
#=GS R5ZRH9/1-189       AC R5ZRH9
#=GS R5ZRH9/1-189       OS Collinsella sp. CAG:166
#=GS R5ZRH9/1-189       DE Ribonuclease D
#=GS R5ZRH9/1-189       DR GENE3D; 2d7850c0cc02227316aff7079e509e37/1-189; 
#=GS R5ZRH9/1-189       DR ORG; Bacteria; Actinobacteria; Coriobacteriia; Coriobacteriales; Coriobacteriaceae; Collinsella; Collinsella sp. CAG:166; 
#=GS R5ZRH9/1-189       DR EC; 3.1.13.5; 
#=GS A0A0N7LSH3/1-197   AC A0A0N7LSH3
#=GS A0A0N7LSH3/1-197   OS Shimia marina
#=GS A0A0N7LSH3/1-197   DE Ribonuclease D
#=GS A0A0N7LSH3/1-197   DR GENE3D; 2dbbc457da28094dabdd352366f98bc9/1-197; 
#=GS A0A0N7LSH3/1-197   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Shimia; Shimia marina; 
#=GS A0A0N7LSH3/1-197   DR EC; 3.1.13.5; 
#=GS A0A0J1HI50/1-194   AC A0A0J1HI50
#=GS A0A0J1HI50/1-194   OS Photobacterium ganghwense
#=GS A0A0J1HI50/1-194   DE Ribonuclease D
#=GS A0A0J1HI50/1-194   DR GENE3D; 2dc7a583a55cb6b84a460df09d84e542/1-194; 
#=GS A0A0J1HI50/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium ganghwense; 
#=GS A0A0J1HI50/1-194   DR EC; 3.1.13.5; 
#=GS A0A0G4Q194/1-194   AC A0A0G4Q194
#=GS A0A0G4Q194/1-194   OS Proteus vulgaris
#=GS A0A0G4Q194/1-194   DE Ribonuclease D
#=GS A0A0G4Q194/1-194   DR GENE3D; 2dc7d24145606aa61d40534c294a3b1e/1-194; 
#=GS A0A0G4Q194/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Proteus; Proteus vulgaris; 
#=GS A0A0G4Q194/1-194   DR EC; 3.1.13.5; 
#=GS R9V5C1/3-195       AC R9V5C1
#=GS R9V5C1/3-195       OS Pseudomonas putida H8234
#=GS R9V5C1/3-195       DE Ribonuclease D
#=GS R9V5C1/3-195       DR GENE3D; 2dc968f96bc7b6cbdbe5c91b7369172b/3-195; 
#=GS R9V5C1/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; 
#=GS R9V5C1/3-195       DR EC; 3.1.13.5; 
#=GS A0A1L7NI12/3-195   AC A0A1L7NI12
#=GS A0A1L7NI12/3-195   OS Pseudomonas putida
#=GS A0A1L7NI12/3-195   DE Ribonuclease D
#=GS A0A1L7NI12/3-195   DR GENE3D; 2dc968f96bc7b6cbdbe5c91b7369172b/3-195; 
#=GS A0A1L7NI12/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; 
#=GS A0A1L7NI12/3-195   DR EC; 3.1.13.5; 
#=GS A0A1H2KXA8/3-195   AC A0A1H2KXA8
#=GS A0A1H2KXA8/3-195   OS Pseudomonas mediterranea
#=GS A0A1H2KXA8/3-195   DE Ribonuclease D
#=GS A0A1H2KXA8/3-195   DR GENE3D; 2e116d0a14dd030cd281968320128415/3-195; 
#=GS A0A1H2KXA8/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas mediterranea; 
#=GS A0A1H2KXA8/3-195   DR EC; 3.1.13.5; 
#=GS A0A0A4GMV8/3-195   AC A0A0A4GMV8
#=GS A0A0A4GMV8/3-195   OS Pseudomonas mediterranea CFBP 5447
#=GS A0A0A4GMV8/3-195   DE Ribonuclease D
#=GS A0A0A4GMV8/3-195   DR GENE3D; 2e116d0a14dd030cd281968320128415/3-195; 
#=GS A0A0A4GMV8/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas mediterranea; 
#=GS A0A0A4GMV8/3-195   DR EC; 3.1.13.5; 
#=GS A0A1B8S2N8/1-194   AC A0A1B8S2N8
#=GS A0A1B8S2N8/1-194   OS Leisingera sp. JC1
#=GS A0A1B8S2N8/1-194   DE Ribonuclease D
#=GS A0A1B8S2N8/1-194   DR GENE3D; 2e151c68fefc843de3725bbf4ef81310/1-194; 
#=GS A0A1B8S2N8/1-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Leisingera; Leisingera sp. JC1; 
#=GS A0A1B8S2N8/1-194   DR EC; 3.1.13.5; 
#=GS A0A0B4EHF9/1-194   AC A0A0B4EHF9
#=GS A0A0B4EHF9/1-194   OS Leisingera sp. ANG1
#=GS A0A0B4EHF9/1-194   DE Ribonuclease D
#=GS A0A0B4EHF9/1-194   DR GENE3D; 2e151c68fefc843de3725bbf4ef81310/1-194; 
#=GS A0A0B4EHF9/1-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Leisingera; Leisingera sp. ANG1; 
#=GS A0A0B4EHF9/1-194   DR EC; 3.1.13.5; 
#=GS M7CGZ8/1-194       AC M7CGZ8
#=GS M7CGZ8/1-194       OS Morganella morganii SC01
#=GS M7CGZ8/1-194       DE Ribonuclease D
#=GS M7CGZ8/1-194       DR GENE3D; 2e26bc22b16e2f0be498290d788e4e4e/1-194; 
#=GS M7CGZ8/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Morganella; Morganella morganii; 
#=GS M7CGZ8/1-194       DR EC; 3.1.13.5; 
#=GS F4QQ82/1-187       AC F4QQ82
#=GS F4QQ82/1-187       OS Asticcacaulis biprosthecum C19
#=GS F4QQ82/1-187       DE Ribonuclease D
#=GS F4QQ82/1-187       DR GENE3D; 2e2fb03804f81083b18a0f3a2183e86a/1-187; 
#=GS F4QQ82/1-187       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Asticcacaulis; Asticcacaulis biprosthecium; 
#=GS F4QQ82/1-187       DR EC; 3.1.13.5; 
#=GS A0A0I9NY97/1-194   AC A0A0I9NY97
#=GS A0A0I9NY97/1-194   OS Klebsiella variicola
#=GS A0A0I9NY97/1-194   DE Ribonuclease D
#=GS A0A0I9NY97/1-194   DR GENE3D; 2e3ec8a54f7171036ac5d2f27a78166d/1-194; 
#=GS A0A0I9NY97/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella variicola; 
#=GS A0A0I9NY97/1-194   DR EC; 3.1.13.5; 
#=GS B8CNR7/2-194       AC B8CNR7
#=GS B8CNR7/2-194       OS Shewanella piezotolerans WP3
#=GS B8CNR7/2-194       DE Ribonuclease D
#=GS B8CNR7/2-194       DR GENE3D; 2e49b313ea97b5556a81a2444a4507a7/2-194; 
#=GS B8CNR7/2-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella piezotolerans; 
#=GS B8CNR7/2-194       DR EC; 3.1.13.5; 
#=GS A0A1B9LI04/1-194   AC A0A1B9LI04
#=GS A0A1B9LI04/1-194   OS Gilliamella apicola
#=GS A0A1B9LI04/1-194   DE Ribonuclease D
#=GS A0A1B9LI04/1-194   DR GENE3D; 2e4c96a3a160078a2f1bde29e276e111/1-194; 
#=GS A0A1B9LI04/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Orbales; Orbaceae; Gilliamella; Gilliamella apicola; 
#=GS A0A1B9LI04/1-194   DR EC; 3.1.13.5; 
#=GS A0A0A0SQ67/1-194   AC A0A0A0SQ67
#=GS A0A0A0SQ67/1-194   OS Vibrio coralliilyticus
#=GS A0A0A0SQ67/1-194   DE Ribonuclease D
#=GS A0A0A0SQ67/1-194   DR GENE3D; 2e58f0ca0968b0713ca74cecfac72ddf/1-194; 
#=GS A0A0A0SQ67/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio coralliilyticus; 
#=GS A0A0A0SQ67/1-194   DR EC; 3.1.13.5; 
#=GS D3VFD0/4-197       AC D3VFD0
#=GS D3VFD0/4-197       OS Xenorhabdus nematophila ATCC 19061
#=GS D3VFD0/4-197       DE Ribonuclease D
#=GS D3VFD0/4-197       DR GENE3D; 2e7791365e27bb2b746aaf3c94c9560f/4-197; 
#=GS D3VFD0/4-197       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Xenorhabdus; Xenorhabdus nematophila; 
#=GS D3VFD0/4-197       DR EC; 3.1.13.5; 
#=GS A5VZZ8/3-195       AC A5VZZ8
#=GS A5VZZ8/3-195       OS Pseudomonas putida F1
#=GS A5VZZ8/3-195       DE Ribonuclease D
#=GS A5VZZ8/3-195       DR GENE3D; 2e7f03cb2aadc7662ac563fc0b7766b3/3-195; 
#=GS A5VZZ8/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; 
#=GS A5VZZ8/3-195       DR EC; 3.1.13.5; 
#=GS A0A173HJ08/3-195   AC A0A173HJ08
#=GS A0A173HJ08/3-195   OS Pseudomonas sp. JY-Q
#=GS A0A173HJ08/3-195   DE Ribonuclease D
#=GS A0A173HJ08/3-195   DR GENE3D; 2e7f03cb2aadc7662ac563fc0b7766b3/3-195; 
#=GS A0A173HJ08/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. JY-Q; 
#=GS A0A173HJ08/3-195   DR EC; 3.1.13.5; 
#=GS U7QUX5/1-194       AC U7QUX5
#=GS U7QUX5/1-194       OS Photorhabdus temperata J3
#=GS U7QUX5/1-194       DE Ribonuclease D
#=GS U7QUX5/1-194       DR GENE3D; 2e81f53900aed3e37dc3cb54ff53955d/1-194; 
#=GS U7QUX5/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Photorhabdus; Photorhabdus temperata; 
#=GS U7QUX5/1-194       DR EC; 3.1.13.5; 
#=GS A0A167PPB8/10-203  AC A0A167PPB8
#=GS A0A167PPB8/10-203  OS Enterobacter cloacae complex 'Hoffmann cluster IV'
#=GS A0A167PPB8/10-203  DE Ribonuclease D
#=GS A0A167PPB8/10-203  DR GENE3D; 2e8504b6026704c1ad14b955d8e1834d/10-203; 
#=GS A0A167PPB8/10-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter cloacae complex 'Hoffmann cluster IV'; 
#=GS A0A167PPB8/10-203  DR EC; 3.1.13.5; 
#=GS A0A0N0KES1/4-194   AC A0A0N0KES1
#=GS A0A0N0KES1/4-194   OS Novosphingobium sp. AAP83
#=GS A0A0N0KES1/4-194   DE Ribonuclease D
#=GS A0A0N0KES1/4-194   DR GENE3D; 2e9678cbe411b5ec9f1dfb7ed722002d/4-194; 
#=GS A0A0N0KES1/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium sp. AAP83; 
#=GS A0A0N0KES1/4-194   DR EC; 3.1.13.5; 
#=GS B3H145/5-198       AC B3H145
#=GS B3H145/5-198       OS Actinobacillus pleuropneumoniae serovar 7 str. AP76
#=GS B3H145/5-198       DE Ribonuclease D
#=GS B3H145/5-198       DR GENE3D; 2ea1c94dbd4e14b0ccb94e44c15bfa38/5-198; 
#=GS B3H145/5-198       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Actinobacillus; Actinobacillus pleuropneumoniae; 
#=GS B3H145/5-198       DR EC; 3.1.13.5; 
#=GS E0FFQ8/5-198       AC E0FFQ8
#=GS E0FFQ8/5-198       OS Actinobacillus pleuropneumoniae serovar 12 str. 1096
#=GS E0FFQ8/5-198       DE Ribonuclease D
#=GS E0FFQ8/5-198       DR GENE3D; 2ea1c94dbd4e14b0ccb94e44c15bfa38/5-198; 
#=GS E0FFQ8/5-198       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Actinobacillus; Actinobacillus pleuropneumoniae; 
#=GS E0FFQ8/5-198       DR EC; 3.1.13.5; 
#=GS E0FLY6/5-198       AC E0FLY6
#=GS E0FLY6/5-198       OS Actinobacillus pleuropneumoniae serovar 13 str. N273
#=GS E0FLY6/5-198       DE Ribonuclease D
#=GS E0FLY6/5-198       DR GENE3D; 2ea1c94dbd4e14b0ccb94e44c15bfa38/5-198; 
#=GS E0FLY6/5-198       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Actinobacillus; Actinobacillus pleuropneumoniae; 
#=GS E0FLY6/5-198       DR EC; 3.1.13.5; 
#=GS E0EJE8/5-198       AC E0EJE8
#=GS E0EJE8/5-198       OS Actinobacillus pleuropneumoniae serovar 4 str. M62
#=GS E0EJE8/5-198       DE Ribonuclease D
#=GS E0EJE8/5-198       DR GENE3D; 2ea1c94dbd4e14b0ccb94e44c15bfa38/5-198; 
#=GS E0EJE8/5-198       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Actinobacillus; Actinobacillus pleuropneumoniae; 
#=GS E0EJE8/5-198       DR EC; 3.1.13.5; 
#=GS A0A1E5MWW6/10-203  AC A0A1E5MWW6
#=GS A0A1E5MWW6/10-203  OS Enterobacter sp. ku-bf2
#=GS A0A1E5MWW6/10-203  DE Ribonuclease D
#=GS A0A1E5MWW6/10-203  DR GENE3D; 2ea1fedb4360504ed75e7ad8849800bd/10-203; 
#=GS A0A1E5MWW6/10-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter sp. ku-bf2; 
#=GS A0A1E5MWW6/10-203  DR EC; 3.1.13.5; 
#=GS A0A0P7WWZ9/6-204   AC A0A0P7WWZ9
#=GS A0A0P7WWZ9/6-204   OS Roseibaca calidilacus
#=GS A0A0P7WWZ9/6-204   DE Ribonuclease D
#=GS A0A0P7WWZ9/6-204   DR GENE3D; 2ea9c50e1b6d8c4a7de1a283bf975efb/6-204; 
#=GS A0A0P7WWZ9/6-204   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Roseibaca; Roseibaca calidilacus; 
#=GS A0A0P7WWZ9/6-204   DR EC; 3.1.13.5; 
#=GS A0A149Q5V6/12-200  AC A0A149Q5V6
#=GS A0A149Q5V6/12-200  OS Acetobacter cerevisiae
#=GS A0A149Q5V6/12-200  DE Ribonuclease D
#=GS A0A149Q5V6/12-200  DR GENE3D; 2ec0be410f4cccdac5622c8e9bd2c9aa/12-200; 
#=GS A0A149Q5V6/12-200  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Acetobacter; Acetobacter cerevisiae; 
#=GS A0A149Q5V6/12-200  DR EC; 3.1.13.5; 
#=GS A0A068T4L3/1-186   AC A0A068T4L3
#=GS A0A068T4L3/1-186   OS Neorhizobium galegae bv. officinalis bv. officinalis str. HAMBI 1141
#=GS A0A068T4L3/1-186   DE Ribonuclease D
#=GS A0A068T4L3/1-186   DR GENE3D; 2edb218189ac4afc2b610fa52d27541a/1-186; 
#=GS A0A068T4L3/1-186   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Neorhizobium; Neorhizobium galegae; 
#=GS A0A068T4L3/1-186   DR EC; 3.1.13.5; 
#=GS A0A142LAI4/1-190   AC A0A142LAI4
#=GS A0A142LAI4/1-190   OS Hyphomonadaceae bacterium UKL13-1
#=GS A0A142LAI4/1-190   DE Ribonuclease D
#=GS A0A142LAI4/1-190   DR GENE3D; 2edc7be922e2c95a2e77627cd128bcd3/1-190; 
#=GS A0A142LAI4/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonadaceae bacterium UKL13-1; 
#=GS A0A142LAI4/1-190   DR EC; 3.1.13.5; 
#=GS A0A0K8N5Y6/12-201  AC A0A0K8N5Y6
#=GS A0A0K8N5Y6/12-201  OS Gluconobacter frateurii NBRC 101659
#=GS A0A0K8N5Y6/12-201  DE Ribonuclease D
#=GS A0A0K8N5Y6/12-201  DR GENE3D; 2ef93e0c8e8693345bfc621f3cce132c/12-201; 
#=GS A0A0K8N5Y6/12-201  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Gluconobacter; Gluconobacter frateurii; 
#=GS A0A0K8N5Y6/12-201  DR EC; 3.1.13.5; 
#=GS A0A0T2QG23/4-194   AC A0A0T2QG23
#=GS A0A0T2QG23/4-194   OS Altererythrobacter sp. Root672
#=GS A0A0T2QG23/4-194   DE Ribonuclease D
#=GS A0A0T2QG23/4-194   DR GENE3D; 2f37de562fca1daef060e7adb6e68417/4-194; 
#=GS A0A0T2QG23/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Altererythrobacter; Altererythrobacter sp. Root672; 
#=GS A0A0T2QG23/4-194   DR EC; 3.1.13.5; 
#=GS A0A1B3ZBV5/4-192   AC A0A1B3ZBV5
#=GS A0A1B3ZBV5/4-192   OS Sphingomonas panacis
#=GS A0A1B3ZBV5/4-192   DE Ribonuclease D
#=GS A0A1B3ZBV5/4-192   DR GENE3D; 2f6db5bd54694f02c4dea71f589b1bb0/4-192; 
#=GS A0A1B3ZBV5/4-192   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas panacis; 
#=GS A0A1B3ZBV5/4-192   DR EC; 3.1.13.5; 
#=GS R6I2Q3/3-195       AC R6I2Q3
#=GS R6I2Q3/3-195       OS Azospirillum sp. CAG:260
#=GS R6I2Q3/3-195       DE Ribonuclease D
#=GS R6I2Q3/3-195       DR GENE3D; 2f7755e0486ea601b7f61844abbfae92/3-195; 
#=GS R6I2Q3/3-195       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Azospirillum; Azospirillum sp. CAG:260; 
#=GS R6I2Q3/3-195       DR EC; 3.1.13.5; 
#=GS W1KPU8/17-207      AC W1KPU8
#=GS W1KPU8/17-207      OS Sphingobium chinhatense IP26
#=GS W1KPU8/17-207      DE Ribonuclease D
#=GS W1KPU8/17-207      DR GENE3D; 2fd5c93775b8c02804d0d458d618a077/17-207; 
#=GS W1KPU8/17-207      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium chinhatense; 
#=GS W1KPU8/17-207      DR EC; 3.1.13.5; 
#=GS T0HJK2/17-207      AC T0HJK2
#=GS T0HJK2/17-207      OS Sphingobium sp. HDIP04
#=GS T0HJK2/17-207      DE Ribonuclease D
#=GS T0HJK2/17-207      DR GENE3D; 2fd5c93775b8c02804d0d458d618a077/17-207; 
#=GS T0HJK2/17-207      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium sp. HDIP04; 
#=GS T0HJK2/17-207      DR EC; 3.1.13.5; 
#=GS U3H586/3-195       AC U3H586
#=GS U3H586/3-195       OS Pseudomonas alcaligenes OT 69
#=GS U3H586/3-195       DE Ribonuclease D
#=GS U3H586/3-195       DR GENE3D; 2fdb33ad2a9c5cd6319ee7b0b0762d6a/3-195; 
#=GS U3H586/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas alcaligenes; 
#=GS U3H586/3-195       DR EC; 3.1.13.5; 
#=GS A0A077FLD3/1-190   AC A0A077FLD3
#=GS A0A077FLD3/1-190   OS Rickettsiales bacterium Ac37b
#=GS A0A077FLD3/1-190   DE Ribonuclease D
#=GS A0A077FLD3/1-190   DR GENE3D; 3001b6b319baf7d3aa8f7815acff03b8/1-190; 
#=GS A0A077FLD3/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rickettsiales; Rickettsiales bacterium Ac37b; 
#=GS A0A077FLD3/1-190   DR EC; 3.1.13.5; 
#=GS A0A163VRR5/1-191   AC A0A163VRR5
#=GS A0A163VRR5/1-191   OS Labrenzia sp. OB1
#=GS A0A163VRR5/1-191   DE Ribonuclease D
#=GS A0A163VRR5/1-191   DR GENE3D; 3012f0f9dc7d1cbf13b41cd22a22cee4/1-191; 
#=GS A0A163VRR5/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Labrenzia; Labrenzia sp. OB1; 
#=GS A0A163VRR5/1-191   DR EC; 3.1.13.5; 
#=GS I9LGZ0/1-191       AC I9LGZ0
#=GS I9LGZ0/1-191       OS Methylobacterium sp. GXF4
#=GS I9LGZ0/1-191       DE Ribonuclease D
#=GS I9LGZ0/1-191       DR GENE3D; 3056039ddaf94fd369a03709909caebf/1-191; 
#=GS I9LGZ0/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Methylobacterium; Methylobacterium sp. GXF4; 
#=GS I9LGZ0/1-191       DR EC; 3.1.13.5; 
#=GS A0A0B2THI1/1-194   AC A0A0B2THI1
#=GS A0A0B2THI1/1-194   OS Pectobacterium carotovorum
#=GS A0A0B2THI1/1-194   DE Ribonuclease D
#=GS A0A0B2THI1/1-194   DR GENE3D; 306e37bdb212eb6675a349d5b560c115/1-194; 
#=GS A0A0B2THI1/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Pectobacteriaceae; Pectobacterium; Pectobacterium carotovorum; 
#=GS A0A0B2THI1/1-194   DR EC; 3.1.13.5; 
#=GS A0A191YYE2/3-195   AC A0A191YYE2
#=GS A0A191YYE2/3-195   OS Pseudomonas sp. A3(2016)
#=GS A0A191YYE2/3-195   DE Ribonuclease D
#=GS A0A191YYE2/3-195   DR GENE3D; 3077d70bb92f50df103f11dbf3f61bf8/3-195; 
#=GS A0A191YYE2/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. A3(2016); 
#=GS A0A191YYE2/3-195   DR EC; 3.1.13.5; 
#=GS I2ND54/5-198       AC I2ND54
#=GS I2ND54/5-198       OS Haemophilus paraphrohaemolyticus HK411
#=GS I2ND54/5-198       DE Ribonuclease D
#=GS I2ND54/5-198       DR GENE3D; 3082e12efe7e0362e61abd9e87d212d0/5-198; 
#=GS I2ND54/5-198       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; Haemophilus paraphrohaemolyticus; 
#=GS I2ND54/5-198       DR EC; 3.1.13.5; 
#=GS L4J7G7/1-190       AC L4J7G7
#=GS L4J7G7/1-190       OS Escherichia coli KTE146
#=GS L4J7G7/1-190       DE Ribonuclease D
#=GS L4J7G7/1-190       DR GENE3D; 30a4cc2c2310bde46655bd4518a627d2/1-190; 
#=GS L4J7G7/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS L4J7G7/1-190       DR EC; 3.1.13.5; 
#=GS A0A0E3MPD8/3-195   AC A0A0E3MPD8
#=GS A0A0E3MPD8/3-195   OS Pseudomonas fluorescens
#=GS A0A0E3MPD8/3-195   DE Ribonuclease D
#=GS A0A0E3MPD8/3-195   DR GENE3D; 30da5379872a9c245775539b6cbe569e/3-195; 
#=GS A0A0E3MPD8/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; 
#=GS A0A0E3MPD8/3-195   DR EC; 3.1.13.5; 
#=GS A0A1C2HTY9/1-196   AC A0A1C2HTY9
#=GS A0A1C2HTY9/1-196   OS Thioclava sp. SK-1
#=GS A0A1C2HTY9/1-196   DE Ribonuclease D
#=GS A0A1C2HTY9/1-196   DR GENE3D; 30ec5c2f285b3300af8360368715246a/1-196; 
#=GS A0A1C2HTY9/1-196   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Thioclava; Thioclava sp. SK-1; 
#=GS A0A1C2HTY9/1-196   DR EC; 3.1.13.5; 
#=GS A0A149RD29/12-200  AC A0A149RD29
#=GS A0A149RD29/12-200  OS Acetobacter malorum
#=GS A0A149RD29/12-200  DE Ribonuclease D
#=GS A0A149RD29/12-200  DR GENE3D; 3103c7d6ac33b55fb69bc6f2cbbf2f80/12-200; 
#=GS A0A149RD29/12-200  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Acetobacter; Acetobacter malorum; 
#=GS A0A149RD29/12-200  DR EC; 3.1.13.5; 
#=GS I3BTN9/1-189       AC I3BTN9
#=GS I3BTN9/1-189       OS Thiothrix nivea DSM 5205
#=GS I3BTN9/1-189       DE Ribonuclease D
#=GS I3BTN9/1-189       DR GENE3D; 31099061cef5157dc21d40b31f50e5ae/1-189; 
#=GS I3BTN9/1-189       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Thiotrichaceae; Thiothrix; Thiothrix nivea; 
#=GS I3BTN9/1-189       DR EC; 3.1.13.5; 
#=GS A0A1G0JJ56/12-200  AC A0A1G0JJ56
#=GS A0A1G0JJ56/12-200  OS Gammaproteobacteria bacterium RIFCSPLOWO2_02_FULL_57_10
#=GS A0A1G0JJ56/12-200  DE Ribonuclease D
#=GS A0A1G0JJ56/12-200  DR GENE3D; 313521e4e3a2bdc27a696854c2c2abdf/12-200; 
#=GS A0A1G0JJ56/12-200  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium RIFCSPLOWO2_02_FULL_57_10; 
#=GS A0A1G0JJ56/12-200  DR EC; 3.1.13.5; 
#=GS A0A1I5I3L4/1-191   AC A0A1I5I3L4
#=GS A0A1I5I3L4/1-191   OS Mesorhizobium sp. NFR06
#=GS A0A1I5I3L4/1-191   DE Ribonuclease D
#=GS A0A1I5I3L4/1-191   DR GENE3D; 3156c264ee7d78b50f999f8ec8262572/1-191; 
#=GS A0A1I5I3L4/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. NFR06; 
#=GS A0A1I5I3L4/1-191   DR EC; 3.1.13.5; 
#=GS A0A0Q6AJJ0/4-193   AC A0A0Q6AJJ0
#=GS A0A0Q6AJJ0/4-193   OS Sphingomonas sp. Leaf407
#=GS A0A0Q6AJJ0/4-193   DE Ribonuclease D
#=GS A0A0Q6AJJ0/4-193   DR GENE3D; 318faacd2a4e64322122f4fbf093c08f/4-193; 
#=GS A0A0Q6AJJ0/4-193   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf407; 
#=GS A0A0Q6AJJ0/4-193   DR EC; 3.1.13.5; 
#=GS A0A0Q4LQE7/4-193   AC A0A0Q4LQE7
#=GS A0A0Q4LQE7/4-193   OS Sphingomonas sp. Leaf42
#=GS A0A0Q4LQE7/4-193   DE Ribonuclease D
#=GS A0A0Q4LQE7/4-193   DR GENE3D; 318faacd2a4e64322122f4fbf093c08f/4-193; 
#=GS A0A0Q4LQE7/4-193   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf42; 
#=GS A0A0Q4LQE7/4-193   DR EC; 3.1.13.5; 
#=GS A0A0H2Q9Q3/1-194   AC A0A0H2Q9Q3
#=GS A0A0H2Q9Q3/1-194   OS Moellerella wisconsensis
#=GS A0A0H2Q9Q3/1-194   DE Ribonuclease D
#=GS A0A0H2Q9Q3/1-194   DR GENE3D; 31bac120fdaabcfcab65677b100b4c48/1-194; 
#=GS A0A0H2Q9Q3/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Moellerella; Moellerella wisconsensis; 
#=GS A0A0H2Q9Q3/1-194   DR EC; 3.1.13.5; 
#=GS A0A017HC43/1-199   AC A0A017HC43
#=GS A0A017HC43/1-199   OS Loktanella hongkongensis DSM 17492
#=GS A0A017HC43/1-199   DE Ribonuclease D
#=GS A0A017HC43/1-199   DR GENE3D; 31c2c1bc126b70d423238b4742531d24/1-199; 
#=GS A0A017HC43/1-199   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Loktanella; Loktanella hongkongensis; 
#=GS A0A017HC43/1-199   DR EC; 3.1.13.5; 
#=GS A0A191W2V0/1-194   AC A0A191W2V0
#=GS A0A191W2V0/1-194   OS Vibrio anguillarum
#=GS A0A191W2V0/1-194   DE Ribonuclease D
#=GS A0A191W2V0/1-194   DR GENE3D; 31d08a9a3380768d6ae79d67e25465b8/1-194; 
#=GS A0A191W2V0/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio anguillarum; 
#=GS A0A191W2V0/1-194   DR EC; 3.1.13.5; 
#=GS A0A1H6AW32/6-193   AC A0A1H6AW32
#=GS A0A1H6AW32/6-193   OS Oleiphilus messinensis
#=GS A0A1H6AW32/6-193   DE Ribonuclease D
#=GS A0A1H6AW32/6-193   DR GENE3D; 31ff31e4d6f0d61b18c6cbbb38da6374/6-193; 
#=GS A0A1H6AW32/6-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oleiphilaceae; Oleiphilus; Oleiphilus messinensis; 
#=GS A0A1H6AW32/6-193   DR EC; 3.1.13.5; 
#=GS W6VQ63/3-194       AC W6VQ63
#=GS W6VQ63/3-194       OS Pseudomonas sp. GM30
#=GS W6VQ63/3-194       DE Ribonuclease D
#=GS W6VQ63/3-194       DR GENE3D; 3212653d416c178f8fc0022d886b4400/3-194; 
#=GS W6VQ63/3-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. GM30; 
#=GS W6VQ63/3-194       DR EC; 3.1.13.5; 
#=GS A0A1H0F960/1-194   AC A0A1H0F960
#=GS A0A1H0F960/1-194   OS Lutimaribacter pacificus
#=GS A0A1H0F960/1-194   DE Ribonuclease D
#=GS A0A1H0F960/1-194   DR GENE3D; 32140596677905dc14134730ca8ec4b0/1-194; 
#=GS A0A1H0F960/1-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Lutimaribacter; Lutimaribacter pacificus; 
#=GS A0A1H0F960/1-194   DR EC; 3.1.13.5; 
#=GS A0A1L9L708/20-212  AC A0A1L9L708
#=GS A0A1L9L708/20-212  OS Vibrio fluvialis
#=GS A0A1L9L708/20-212  DE Ribonuclease D
#=GS A0A1L9L708/20-212  DR GENE3D; 32224b7fe0e9a6fa1bb771f00f2a2240/20-212; 
#=GS A0A1L9L708/20-212  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio fluvialis; 
#=GS A0A1L9L708/20-212  DR EC; 3.1.13.5; 
#=GS A0A1L9KR14/20-212  AC A0A1L9KR14
#=GS A0A1L9KR14/20-212  OS Vibrio vulnificus
#=GS A0A1L9KR14/20-212  DE Ribonuclease D
#=GS A0A1L9KR14/20-212  DR GENE3D; 32224b7fe0e9a6fa1bb771f00f2a2240/20-212; 
#=GS A0A1L9KR14/20-212  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio vulnificus; 
#=GS A0A1L9KR14/20-212  DR EC; 3.1.13.5; 
#=GS A0A1C3IU35/26-219  AC A0A1C3IU35
#=GS A0A1C3IU35/26-219  OS Vibrio atlanticus
#=GS A0A1C3IU35/26-219  DE Ribonuclease D
#=GS A0A1C3IU35/26-219  DR GENE3D; 324597c52da7304b5bb6e19544c74b94/26-219; 
#=GS A0A1C3IU35/26-219  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio atlanticus; 
#=GS A0A1C3IU35/26-219  DR EC; 3.1.13.5; 
#=GS A0A1C3IKF2/26-219  AC A0A1C3IKF2
#=GS A0A1C3IKF2/26-219  OS Vibrio hemicentroti
#=GS A0A1C3IKF2/26-219  DE Ribonuclease D
#=GS A0A1C3IKF2/26-219  DR GENE3D; 324597c52da7304b5bb6e19544c74b94/26-219; 
#=GS A0A1C3IKF2/26-219  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio hemicentroti; 
#=GS A0A1C3IKF2/26-219  DR EC; 3.1.13.5; 
#=GS W4HNI5/1-195       AC W4HNI5
#=GS W4HNI5/1-195       OS Roseivivax atlanticus
#=GS W4HNI5/1-195       DE Ribonuclease D
#=GS W4HNI5/1-195       DR GENE3D; 326087fa9f68b1bfb5068de9438cdb26/1-195; 
#=GS W4HNI5/1-195       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Roseivivax; Roseivivax atlanticus; 
#=GS W4HNI5/1-195       DR EC; 3.1.13.5; 
#=GS A0A0P1HR39/1-194   AC A0A0P1HR39
#=GS A0A0P1HR39/1-194   OS Leisingera aquaemixtae
#=GS A0A0P1HR39/1-194   DE Ribonuclease D
#=GS A0A0P1HR39/1-194   DR GENE3D; 327f8cde5eaf14c6a6fc555462132ae5/1-194; 
#=GS A0A0P1HR39/1-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Leisingera; Leisingera aquaemixtae; 
#=GS A0A0P1HR39/1-194   DR EC; 3.1.13.5; 
#=GS A0A0T7FSF4/1-186   AC A0A0T7FSF4
#=GS A0A0T7FSF4/1-186   OS Neorhizobium galegae bv. officinalis
#=GS A0A0T7FSF4/1-186   DE Ribonuclease D
#=GS A0A0T7FSF4/1-186   DR GENE3D; 328970511d76bb5145c8ed816f8dd626/1-186; 
#=GS A0A0T7FSF4/1-186   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Neorhizobium; Neorhizobium galegae; 
#=GS A0A0T7FSF4/1-186   DR EC; 3.1.13.5; 
#=GS L2V217/1-190       AC L2V217
#=GS L2V217/1-190       OS Escherichia coli KTE10
#=GS L2V217/1-190       DE Ribonuclease D
#=GS L2V217/1-190       DR GENE3D; 328be378c2b1266df625dfcd478653b3/1-190; 
#=GS L2V217/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS L2V217/1-190       DR EC; 3.1.13.5; 
#=GS S1F6Z4/1-190       AC S1F6Z4
#=GS S1F6Z4/1-190       OS Escherichia coli KTE73
#=GS S1F6Z4/1-190       DE Ribonuclease D
#=GS S1F6Z4/1-190       DR GENE3D; 328be378c2b1266df625dfcd478653b3/1-190; 
#=GS S1F6Z4/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS S1F6Z4/1-190       DR EC; 3.1.13.5; 
#=GS W1B6I3/1-190       AC W1B6I3
#=GS W1B6I3/1-190       OS Klebsiella pneumoniae IS22
#=GS W1B6I3/1-190       DE Ribonuclease D
#=GS W1B6I3/1-190       DR GENE3D; 328be378c2b1266df625dfcd478653b3/1-190; 
#=GS W1B6I3/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella pneumoniae; 
#=GS W1B6I3/1-190       DR EC; 3.1.13.5; 
#=GS E9YCR2/1-190       AC E9YCR2
#=GS E9YCR2/1-190       OS Escherichia coli TA007
#=GS E9YCR2/1-190       DE Ribonuclease D
#=GS E9YCR2/1-190       DR GENE3D; 328be378c2b1266df625dfcd478653b3/1-190; 
#=GS E9YCR2/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS E9YCR2/1-190       DR EC; 3.1.13.5; 
#=GS U9ZJJ1/1-190       AC U9ZJJ1
#=GS U9ZJJ1/1-190       OS Escherichia coli 909945-2
#=GS U9ZJJ1/1-190       DE Ribonuclease D
#=GS U9ZJJ1/1-190       DR GENE3D; 328be378c2b1266df625dfcd478653b3/1-190; 
#=GS U9ZJJ1/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS U9ZJJ1/1-190       DR EC; 3.1.13.5; 
#=GS M9FHZ9/1-190       AC M9FHZ9
#=GS M9FHZ9/1-190       OS Escherichia coli 174750
#=GS M9FHZ9/1-190       DE Ribonuclease D
#=GS M9FHZ9/1-190       DR GENE3D; 328be378c2b1266df625dfcd478653b3/1-190; 
#=GS M9FHZ9/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS M9FHZ9/1-190       DR EC; 3.1.13.5; 
#=GS A0A167EU32/1-190   AC A0A167EU32
#=GS A0A167EU32/1-190   OS Escherichia coli
#=GS A0A167EU32/1-190   DE Ribonuclease D
#=GS A0A167EU32/1-190   DR GENE3D; 328be378c2b1266df625dfcd478653b3/1-190; 
#=GS A0A167EU32/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A167EU32/1-190   DR EC; 3.1.13.5; 
#=GS S1I6Y3/1-190       AC S1I6Y3
#=GS S1I6Y3/1-190       OS Escherichia coli KTE107
#=GS S1I6Y3/1-190       DE Ribonuclease D
#=GS S1I6Y3/1-190       DR GENE3D; 328be378c2b1266df625dfcd478653b3/1-190; 
#=GS S1I6Y3/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS S1I6Y3/1-190       DR EC; 3.1.13.5; 
#=GS T9HAG8/1-190       AC T9HAG8
#=GS T9HAG8/1-190       OS Escherichia coli UMEA 3240-1
#=GS T9HAG8/1-190       DE Ribonuclease D
#=GS T9HAG8/1-190       DR GENE3D; 328be378c2b1266df625dfcd478653b3/1-190; 
#=GS T9HAG8/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS T9HAG8/1-190       DR EC; 3.1.13.5; 
#=GS V2R241/1-190       AC V2R241
#=GS V2R241/1-190       OS Escherichia coli HVH 50 (4-2593475)
#=GS V2R241/1-190       DE Ribonuclease D
#=GS V2R241/1-190       DR GENE3D; 328be378c2b1266df625dfcd478653b3/1-190; 
#=GS V2R241/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS V2R241/1-190       DR EC; 3.1.13.5; 
#=GS A0A140NAY0/1-190   AC A0A140NAY0
#=GS A0A140NAY0/1-190   OS Escherichia coli BL21(DE3)
#=GS A0A140NAY0/1-190   DE Ribonuclease D
#=GS A0A140NAY0/1-190   DR GENE3D; 328be378c2b1266df625dfcd478653b3/1-190; 
#=GS A0A140NAY0/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A140NAY0/1-190   DR EC; 3.1.13.5; 
#=GS A0A142H3P5/1-190   AC A0A142H3P5
#=GS A0A142H3P5/1-190   OS Shigella sp. PAMC 28760
#=GS A0A142H3P5/1-190   DE Ribonuclease D
#=GS A0A142H3P5/1-190   DR GENE3D; 328be378c2b1266df625dfcd478653b3/1-190; 
#=GS A0A142H3P5/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Shigella; Shigella sp. PAMC 28760; 
#=GS A0A142H3P5/1-190   DR EC; 3.1.13.5; 
#=GS C0B312/1-194       AC C0B312
#=GS C0B312/1-194       OS Proteus penneri ATCC 35198
#=GS C0B312/1-194       DE Ribonuclease D
#=GS C0B312/1-194       DR GENE3D; 329d3762859368f6ab3254ffd8768172/1-194; 
#=GS C0B312/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Proteus; Proteus penneri; 
#=GS C0B312/1-194       DR EC; 3.1.13.5; 
#=GS A0A1B8RGD0/1-190   AC A0A1B8RGD0
#=GS A0A1B8RGD0/1-190   OS Rhizobium leguminosarum bv. trifolii
#=GS A0A1B8RGD0/1-190   DE Ribonuclease D
#=GS A0A1B8RGD0/1-190   DR GENE3D; 32a67b2ff1030fb196dbcd87701241e7/1-190; 
#=GS A0A1B8RGD0/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium leguminosarum; 
#=GS A0A1B8RGD0/1-190   DR EC; 3.1.13.5; 
#=GS W0Q835/5-198       AC W0Q835
#=GS W0Q835/5-198       OS Mannheimia sp. USDA-ARS-USMARC-1261
#=GS W0Q835/5-198       DE Ribonuclease D
#=GS W0Q835/5-198       DR GENE3D; 32a7f3592c700136048dccd1d7fdab0f/5-198; 
#=GS W0Q835/5-198       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Mannheimia; Mannheimia sp. USDA-ARS-USMARC-1261; 
#=GS W0Q835/5-198       DR EC; 3.1.13.5; 
#=GS A0A0N0L623/3-195   AC A0A0N0L623
#=GS A0A0N0L623/3-195   OS Pseudomonas sp. RIT-PI-q
#=GS A0A0N0L623/3-195   DE Ribonuclease D
#=GS A0A0N0L623/3-195   DR GENE3D; 32b24e6fd4c70a15a9be7fca1682ef53/3-195; 
#=GS A0A0N0L623/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. RIT-PI-q; 
#=GS A0A0N0L623/3-195   DR EC; 3.1.13.5; 
#=GS A9D4E8/1-192       AC A9D4E8
#=GS A9D4E8/1-192       OS Hoeflea phototrophica DFL-43
#=GS A9D4E8/1-192       DE Ribonuclease D
#=GS A9D4E8/1-192       DR GENE3D; 32b3e4fa5e6dc8b6cbd50c740f43c3d9/1-192; 
#=GS A9D4E8/1-192       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Hoeflea; Hoeflea phototrophica; 
#=GS A9D4E8/1-192       DR EC; 3.1.13.5; 
#=GS J3AMS2/4-195       AC J3AMS2
#=GS J3AMS2/4-195       OS Novosphingobium sp. AP12
#=GS J3AMS2/4-195       DE Ribonuclease D
#=GS J3AMS2/4-195       DR GENE3D; 32c0e06192754d29b397c97498770b26/4-195; 
#=GS J3AMS2/4-195       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium sp. AP12; 
#=GS J3AMS2/4-195       DR EC; 3.1.13.5; 
#=GS A0A143HND0/8-197   AC A0A143HND0
#=GS A0A143HND0/8-197   OS Microbulbifer thermotolerans
#=GS A0A143HND0/8-197   DE Ribonuclease D
#=GS A0A143HND0/8-197   DR GENE3D; 32dbae1716d2c2497a74ac75aa02c5cf/8-197; 
#=GS A0A143HND0/8-197   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cellvibrionales; Microbulbiferaceae; Microbulbifer; Microbulbifer thermotolerans; 
#=GS A0A143HND0/8-197   DR EC; 3.1.13.5; 
#=GS A0A081MEK3/1-187   AC A0A081MEK3
#=GS A0A081MEK3/1-187   OS Pseudorhizobium pelagicum
#=GS A0A081MEK3/1-187   DE Ribonuclease D
#=GS A0A081MEK3/1-187   DR GENE3D; 32e08b975db12e7f85074cfc32df96c7/1-187; 
#=GS A0A081MEK3/1-187   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Pseudorhizobium; Pseudorhizobium pelagicum; 
#=GS A0A081MEK3/1-187   DR EC; 3.1.13.5; 
#=GS A0A0J6I3P9/3-195   AC A0A0J6I3P9
#=GS A0A0J6I3P9/3-195   OS Pseudomonas psychrophila
#=GS A0A0J6I3P9/3-195   DE Ribonuclease D
#=GS A0A0J6I3P9/3-195   DR GENE3D; 32f2a8a192b2cbaaa7904577eceeca42/3-195; 
#=GS A0A0J6I3P9/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas psychrophila; 
#=GS A0A0J6I3P9/3-195   DR EC; 3.1.13.5; 
#=GS A0A1F3AIP2/1-189   AC A0A1F3AIP2
#=GS A0A1F3AIP2/1-189   OS Alphaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_63_12
#=GS A0A1F3AIP2/1-189   DE Ribonuclease D
#=GS A0A1F3AIP2/1-189   DR GENE3D; 331f9bb0fda16f132d2a38ea3e0cad5f/1-189; 
#=GS A0A1F3AIP2/1-189   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Alphaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_63_12; 
#=GS A0A1F3AIP2/1-189   DR EC; 3.1.13.5; 
#=GS A0A0A5I8A1/1-194   AC A0A0A5I8A1
#=GS A0A0A5I8A1/1-194   OS Vibrio tubiashii
#=GS A0A0A5I8A1/1-194   DE Ribonuclease D
#=GS A0A0A5I8A1/1-194   DR GENE3D; 335a2e4adba5c274aa4c956130590482/1-194; 
#=GS A0A0A5I8A1/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio tubiashii; 
#=GS A0A0A5I8A1/1-194   DR EC; 3.1.13.5; 
#=GS A0A1H1LLV4/1-189   AC A0A1H1LLV4
#=GS A0A1H1LLV4/1-189   OS Olsenella umbonata
#=GS A0A1H1LLV4/1-189   DE Ribonuclease D
#=GS A0A1H1LLV4/1-189   DR GENE3D; 33a5f6f14a811ac2d75d2b6ef9c9eef5/1-189; 
#=GS A0A1H1LLV4/1-189   DR ORG; Bacteria; Actinobacteria; Coriobacteriia; Coriobacteriales; Atopobiaceae; Olsenella; Olsenella umbonata; 
#=GS A0A1H1LLV4/1-189   DR EC; 3.1.13.5; 
#=GS E6VEE1/1-190       AC E6VEE1
#=GS E6VEE1/1-190       OS Rhodopseudomonas palustris DX-1
#=GS E6VEE1/1-190       DE Ribonuclease D
#=GS E6VEE1/1-190       DR GENE3D; 33bc1f5317ee77a72d7a882b62db08ce/1-190; 
#=GS E6VEE1/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Rhodopseudomonas; Rhodopseudomonas palustris; 
#=GS E6VEE1/1-190       DR EC; 3.1.13.5; 
#=GS A0A086YAW8/9-202   AC A0A086YAW8
#=GS A0A086YAW8/9-202   OS Haematobacter massiliensis
#=GS A0A086YAW8/9-202   DE Ribonuclease D
#=GS A0A086YAW8/9-202   DR GENE3D; 33caca036ca9f040140e7f936841a35a/9-202; 
#=GS A0A086YAW8/9-202   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Haematobacter; Haematobacter massiliensis; 
#=GS A0A086YAW8/9-202   DR EC; 3.1.13.5; 
#=GS A0A085EQZ1/1-190   AC A0A085EQZ1
#=GS A0A085EQZ1/1-190   OS Bosea sp. LC85
#=GS A0A085EQZ1/1-190   DE Ribonuclease D
#=GS A0A085EQZ1/1-190   DR GENE3D; 33f0cad1e205e1857077dfe011d45de0/1-190; 
#=GS A0A085EQZ1/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bosea; Bosea sp. LC85; 
#=GS A0A085EQZ1/1-190   DR EC; 3.1.13.5; 
#=GS A0A0P1IUB1/25-219  AC A0A0P1IUB1
#=GS A0A0P1IUB1/25-219  OS Thalassobius sp. CECT 5114
#=GS A0A0P1IUB1/25-219  DE Ribonuclease D
#=GS A0A0P1IUB1/25-219  DR GENE3D; 33fc75418f3636c97d4e20768074f887/25-219; 
#=GS A0A0P1IUB1/25-219  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Thalassobius; Thalassobius sp. CECT 5114; 
#=GS A0A0P1IUB1/25-219  DR EC; 3.1.13.5; 
#=GS A0A137XZF5/3-194   AC A0A137XZF5
#=GS A0A137XZF5/3-194   OS Pseudomonas stutzeri
#=GS A0A137XZF5/3-194   DE Ribonuclease D
#=GS A0A137XZF5/3-194   DR GENE3D; 3407a705821a86474cfd5fc7432e2d06/3-194; 
#=GS A0A137XZF5/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; 
#=GS A0A137XZF5/3-194   DR EC; 3.1.13.5; 
#=GS A0A179SDV7/1-190   AC A0A179SDV7
#=GS A0A179SDV7/1-190   OS Methylobacterium platani
#=GS A0A179SDV7/1-190   DE Ribonuclease D
#=GS A0A179SDV7/1-190   DR GENE3D; 340de9a2559ed92737d1c576eb607ce7/1-190; 
#=GS A0A179SDV7/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Methylobacterium; Methylobacterium platani; 
#=GS A0A179SDV7/1-190   DR EC; 3.1.13.5; 
#=GS A0A1B9L6P5/1-194   AC A0A1B9L6P5
#=GS A0A1B9L6P5/1-194   OS Gilliamella apicola
#=GS A0A1B9L6P5/1-194   DE Ribonuclease D
#=GS A0A1B9L6P5/1-194   DR GENE3D; 343662c0f69db508b59128f9f5091543/1-194; 
#=GS A0A1B9L6P5/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Orbales; Orbaceae; Gilliamella; Gilliamella apicola; 
#=GS A0A1B9L6P5/1-194   DR EC; 3.1.13.5; 
#=GS A0A1K1P3B0/3-195   AC A0A1K1P3B0
#=GS A0A1K1P3B0/3-195   OS Pseudomonas sp. NFACC16-2
#=GS A0A1K1P3B0/3-195   DE Ribonuclease D
#=GS A0A1K1P3B0/3-195   DR GENE3D; 343fc2b2b2f5584036644a027a0ab8b8/3-195; 
#=GS A0A1K1P3B0/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. NFACC16-2; 
#=GS A0A1K1P3B0/3-195   DR EC; 3.1.13.5; 
#=GS A0A142M9H1/1-191   AC A0A142M9H1
#=GS A0A142M9H1/1-191   OS Aminobacter aminovorans
#=GS A0A142M9H1/1-191   DE Ribonuclease D
#=GS A0A142M9H1/1-191   DR GENE3D; 345506422660890a9ebac1bff615794f/1-191; 
#=GS A0A142M9H1/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Aminobacter; Aminobacter aminovorans; 
#=GS A0A142M9H1/1-191   DR EC; 3.1.13.5; 
#=GS A0A1N6M721/1-190   AC A0A1N6M721
#=GS A0A1N6M721/1-190   OS Vibrio sp. CECT 9026
#=GS A0A1N6M721/1-190   DE Ribonuclease D
#=GS A0A1N6M721/1-190   DR GENE3D; 345667693e4c6a87a285e0179831edcb/1-190; 
#=GS A0A1N6M721/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. CECT 9026; 
#=GS A0A1N6M721/1-190   DR EC; 3.1.13.5; 
#=GS A0A161Q2W0/1-189   AC A0A161Q2W0
#=GS A0A161Q2W0/1-189   OS Tistrella mobilis
#=GS A0A161Q2W0/1-189   DE Ribonuclease D
#=GS A0A161Q2W0/1-189   DR GENE3D; 34566bd5f919354eaf28ebb2f58bc076/1-189; 
#=GS A0A161Q2W0/1-189   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Tistrella; Tistrella mobilis; 
#=GS A0A161Q2W0/1-189   DR EC; 3.1.13.5; 
#=GS A6VND0/10-201      AC A6VND0
#=GS A6VND0/10-201      OS Actinobacillus succinogenes 130Z
#=GS A6VND0/10-201      DE Ribonuclease D
#=GS A6VND0/10-201      DR GENE3D; 349ece73c564757025baacdf17f983bc/10-201; 
#=GS A6VND0/10-201      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Actinobacillus; Actinobacillus succinogenes; 
#=GS A6VND0/10-201      DR EC; 3.1.13.5; 
#=GS L0GQB9/3-194       AC L0GQB9
#=GS L0GQB9/3-194       OS Pseudomonas stutzeri RCH2
#=GS L0GQB9/3-194       DE Ribonuclease D
#=GS L0GQB9/3-194       DR GENE3D; 34d4029ea9daea7cc4629bbfddd984f9/3-194; 
#=GS L0GQB9/3-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; 
#=GS L0GQB9/3-194       DR EC; 3.1.13.5; 
#=GS A0A0Q4DJA9/4-192   AC A0A0Q4DJA9
#=GS A0A0Q4DJA9/4-192   OS Sphingomonas sp. Leaf10
#=GS A0A0Q4DJA9/4-192   DE Ribonuclease D
#=GS A0A0Q4DJA9/4-192   DR GENE3D; 34e8f7c89c0c1e36289f3a14b5fe0f17/4-192; 
#=GS A0A0Q4DJA9/4-192   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf10; 
#=GS A0A0Q4DJA9/4-192   DR EC; 3.1.13.5; 
#=GS C6XKM8/8-198       AC C6XKM8
#=GS C6XKM8/8-198       OS Hirschia baltica ATCC 49814
#=GS C6XKM8/8-198       DE Ribonuclease D
#=GS C6XKM8/8-198       DR GENE3D; 34eb3f781a4eef3e0bca118fcc36239d/8-198; 
#=GS C6XKM8/8-198       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hirschia; Hirschia baltica; 
#=GS C6XKM8/8-198       DR EC; 3.1.13.5; 
#=GS A0A085VIH5/3-195   AC A0A085VIH5
#=GS A0A085VIH5/3-195   OS Pseudomonas syringae
#=GS A0A085VIH5/3-195   DE Ribonuclease D
#=GS A0A085VIH5/3-195   DR GENE3D; 3536a536b38332da7eaec50ea0aa454e/3-195; 
#=GS A0A085VIH5/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 1; Pseudomonas syringae; 
#=GS A0A085VIH5/3-195   DR EC; 3.1.13.5; 
#=GS A0A068SQD2/1-186   AC A0A068SQD2
#=GS A0A068SQD2/1-186   OS Neorhizobium galegae bv. orientalis str. HAMBI 540
#=GS A0A068SQD2/1-186   DE Ribonuclease D
#=GS A0A068SQD2/1-186   DR GENE3D; 3537eebca7b54d12142249bdc108ff19/1-186; 
#=GS A0A068SQD2/1-186   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Neorhizobium; Neorhizobium galegae; 
#=GS A0A068SQD2/1-186   DR EC; 3.1.13.5; 
#=GS A0A1I4DEQ0/1-192   AC A0A1I4DEQ0
#=GS A0A1I4DEQ0/1-192   OS Mesorhizobium albiziae
#=GS A0A1I4DEQ0/1-192   DE Ribonuclease D
#=GS A0A1I4DEQ0/1-192   DR GENE3D; 3542214c19f9c66897d0f7202a6e29af/1-192; 
#=GS A0A1I4DEQ0/1-192   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium albiziae; 
#=GS A0A1I4DEQ0/1-192   DR EC; 3.1.13.5; 
#=GS A0A1H9UTR0/1-192   AC A0A1H9UTR0
#=GS A0A1H9UTR0/1-192   OS Rhizobium sp. NFR03
#=GS A0A1H9UTR0/1-192   DE Ribonuclease D
#=GS A0A1H9UTR0/1-192   DR GENE3D; 355e4a88be47f7ad8904b25611bd8b8c/1-192; 
#=GS A0A1H9UTR0/1-192   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. NFR03; 
#=GS A0A1H9UTR0/1-192   DR EC; 3.1.13.5; 
#=GS A0A0W0PMD2/3-194   AC A0A0W0PMD2
#=GS A0A0W0PMD2/3-194   OS Pseudomonas syringae pv. actinidiae ICMP 19497
#=GS A0A0W0PMD2/3-194   DE Ribonuclease D
#=GS A0A0W0PMD2/3-194   DR GENE3D; 3579c21841aae62c559688a866ad2432/3-194; 
#=GS A0A0W0PMD2/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 1; Pseudomonas syringae; 
#=GS A0A0W0PMD2/3-194   DR EC; 3.1.13.5; 
#=GS Q0BVP4/12-201      AC Q0BVP4
#=GS Q0BVP4/12-201      OS Granulibacter bethesdensis CGDNIH1
#=GS Q0BVP4/12-201      DE Ribonuclease D
#=GS Q0BVP4/12-201      DR GENE3D; 3581d2d648e9cdbd8b8c56a30d21d11c/12-201; 
#=GS Q0BVP4/12-201      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Granulibacter; Granulibacter bethesdensis; 
#=GS Q0BVP4/12-201      DR EC; 3.1.13.5; 
#=GS A0A063X820/12-201  AC A0A063X820
#=GS A0A063X820/12-201  OS Acetobacter aceti 1023
#=GS A0A063X820/12-201  DE Ribonuclease D
#=GS A0A063X820/12-201  DR GENE3D; 35999588096e951dbc4b0931b6bd072e/12-201; 
#=GS A0A063X820/12-201  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Acetobacter; Acetobacter subgen. Acetobacter; Acetobacter aceti; 
#=GS A0A063X820/12-201  DR EC; 3.1.13.5; 
#=GS A0A1J5L7Q3/1-194   AC A0A1J5L7Q3
#=GS A0A1J5L7Q3/1-194   OS Alphaproteobacteria bacterium MedPE-SWcel
#=GS A0A1J5L7Q3/1-194   DE Ribonuclease D
#=GS A0A1J5L7Q3/1-194   DR GENE3D; 35b5e141a09941842ee9c38a2fcbc2fb/1-194; 
#=GS A0A1J5L7Q3/1-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Alphaproteobacteria bacterium MedPE-SWcel; 
#=GS A0A1J5L7Q3/1-194   DR EC; 3.1.13.5; 
#=GS W0DK10/3-193       AC W0DK10
#=GS W0DK10/3-193       OS Thioalkalivibrio paradoxus ARh 1
#=GS W0DK10/3-193       DE Ribonuclease D
#=GS W0DK10/3-193       DR GENE3D; 35c4b305b472c128c6a0fdac921adbd7/3-193; 
#=GS W0DK10/3-193       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Thioalkalivibrio; Thioalkalivibrio paradoxus; 
#=GS W0DK10/3-193       DR EC; 3.1.13.5; 
#=GS X5ZF70/1-191       AC X5ZF70
#=GS X5ZF70/1-191       OS Mesorhizobium sp. LNJC395A00
#=GS X5ZF70/1-191       DE Ribonuclease D
#=GS X5ZF70/1-191       DR GENE3D; 35de09cf05f661a70ef8f210d179377b/1-191; 
#=GS X5ZF70/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LNJC395A00; 
#=GS X5ZF70/1-191       DR EC; 3.1.13.5; 
#=GS A0A066UKW3/1-194   AC A0A066UKW3
#=GS A0A066UKW3/1-194   OS Vibrio fortis
#=GS A0A066UKW3/1-194   DE Ribonuclease D
#=GS A0A066UKW3/1-194   DR GENE3D; 35e21dbe5cf8b71e8a30f29b74c828b5/1-194; 
#=GS A0A066UKW3/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio fortis; 
#=GS A0A066UKW3/1-194   DR EC; 3.1.13.5; 
#=GS E8THH7/1-191       AC E8THH7
#=GS E8THH7/1-191       OS Mesorhizobium ciceri biovar biserrulae WSM1271
#=GS E8THH7/1-191       DE Ribonuclease D
#=GS E8THH7/1-191       DR GENE3D; 35ec335e2dfa0edb02671075fc325ba2/1-191; 
#=GS E8THH7/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium ciceri; 
#=GS E8THH7/1-191       DR EC; 3.1.13.5; 
#=GS A0A0Q4PFM6/1-191   AC A0A0Q4PFM6
#=GS A0A0Q4PFM6/1-191   OS Devosia sp. Leaf64
#=GS A0A0Q4PFM6/1-191   DE Ribonuclease D
#=GS A0A0Q4PFM6/1-191   DR GENE3D; 35f572fc920253b07ab5c3c9757cbb3c/1-191; 
#=GS A0A0Q4PFM6/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Devosia; Devosia sp. Leaf64; 
#=GS A0A0Q4PFM6/1-191   DR EC; 3.1.13.5; 
#=GS A0A098S079/1-190   AC A0A098S079
#=GS A0A098S079/1-190   OS Rhizobium sp. H41
#=GS A0A098S079/1-190   DE Ribonuclease D
#=GS A0A098S079/1-190   DR GENE3D; 36064645a64b7687bf80def19571c885/1-190; 
#=GS A0A098S079/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. H41; 
#=GS A0A098S079/1-190   DR EC; 3.1.13.5; 
#=GS A0A1L9CHG3/1-190   AC A0A1L9CHG3
#=GS A0A1L9CHG3/1-190   OS Rhizobium pusense
#=GS A0A1L9CHG3/1-190   DE Ribonuclease D
#=GS A0A1L9CHG3/1-190   DR GENE3D; 36064645a64b7687bf80def19571c885/1-190; 
#=GS A0A1L9CHG3/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium pusense; 
#=GS A0A1L9CHG3/1-190   DR EC; 3.1.13.5; 
#=GS J2SPN5/3-195       AC J2SPN5
#=GS J2SPN5/3-195       OS Pseudomonas sp. GM49
#=GS J2SPN5/3-195       DE Ribonuclease D
#=GS J2SPN5/3-195       DR GENE3D; 360f2ac3fab0926b23c69a5ac43c4094/3-195; 
#=GS J2SPN5/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. GM49; 
#=GS J2SPN5/3-195       DR EC; 3.1.13.5; 
#=GS S4YPM5/18-211      AC S4YPM5
#=GS S4YPM5/18-211      OS Serratia plymuthica S13
#=GS S4YPM5/18-211      DE Ribonuclease D
#=GS S4YPM5/18-211      DR GENE3D; 360f688b6135d6131d6ac4110c5fb7fa/18-211; 
#=GS S4YPM5/18-211      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Serratia; Serratia plymuthica; 
#=GS S4YPM5/18-211      DR EC; 3.1.13.5; 
#=GS Q0BZZ0/1-195       AC Q0BZZ0
#=GS Q0BZZ0/1-195       OS Hyphomonas neptunium ATCC 15444
#=GS Q0BZZ0/1-195       DE Ribonuclease D
#=GS Q0BZZ0/1-195       DR GENE3D; 3615c4ec9aaff46224de0bca3a3048db/1-195; 
#=GS Q0BZZ0/1-195       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonas; Hyphomonas neptunium; 
#=GS Q0BZZ0/1-195       DR EC; 3.1.13.5; 
#=GS A0A059FBC6/1-195   AC A0A059FBC6
#=GS A0A059FBC6/1-195   OS Hyphomonas hirschiana VP5
#=GS A0A059FBC6/1-195   DE Ribonuclease D
#=GS A0A059FBC6/1-195   DR GENE3D; 3615c4ec9aaff46224de0bca3a3048db/1-195; 
#=GS A0A059FBC6/1-195   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonas; Hyphomonas hirschiana; 
#=GS A0A059FBC6/1-195   DR EC; 3.1.13.5; 
#=GS A0A1B3P3I2/1-190   AC A0A1B3P3I2
#=GS A0A1B3P3I2/1-190   OS Agrobacterium sp. RAC06
#=GS A0A1B3P3I2/1-190   DE Ribonuclease D
#=GS A0A1B3P3I2/1-190   DR GENE3D; 3628482fe8f0c04365948d0da463e618/1-190; 
#=GS A0A1B3P3I2/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium sp. RAC06; 
#=GS A0A1B3P3I2/1-190   DR EC; 3.1.13.5; 
#=GS A0A0N0JJ37/1-190   AC A0A0N0JJ37
#=GS A0A0N0JJ37/1-190   OS Rhizobium sp. AAP116
#=GS A0A0N0JJ37/1-190   DE Ribonuclease D
#=GS A0A0N0JJ37/1-190   DR GENE3D; 3628482fe8f0c04365948d0da463e618/1-190; 
#=GS A0A0N0JJ37/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. AAP116; 
#=GS A0A0N0JJ37/1-190   DR EC; 3.1.13.5; 
#=GS A0A1D2TXG1/4-195   AC A0A1D2TXG1
#=GS A0A1D2TXG1/4-195   OS Sphingobium sp. SCN 64-10
#=GS A0A1D2TXG1/4-195   DE Ribonuclease D
#=GS A0A1D2TXG1/4-195   DR GENE3D; 3631ddb6eb8315c545fc2b5820cc1a5a/4-195; 
#=GS A0A1D2TXG1/4-195   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium sp. SCN 64-10; 
#=GS A0A1D2TXG1/4-195   DR EC; 3.1.13.5; 
#=GS A0A067W452/1-191   AC A0A067W452
#=GS A0A067W452/1-191   OS Bartonella koehlerae C-29
#=GS A0A067W452/1-191   DE Ribonuclease D
#=GS A0A067W452/1-191   DR GENE3D; 36387c3c32c05acc8b1e20c83f1d500c/1-191; 
#=GS A0A067W452/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bartonellaceae; Bartonella; Bartonella koehlerae; Bartonella koehlerae subsp. koehlerae; 
#=GS A0A067W452/1-191   DR EC; 3.1.13.5; 
#=GS A0A0R3AT37/3-195   AC A0A0R3AT37
#=GS A0A0R3AT37/3-195   OS Pseudomonas veronii
#=GS A0A0R3AT37/3-195   DE Ribonuclease D
#=GS A0A0R3AT37/3-195   DR GENE3D; 3651d59feff7193edbc9af77b4352768/3-195; 
#=GS A0A0R3AT37/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas veronii; 
#=GS A0A0R3AT37/3-195   DR EC; 3.1.13.5; 
#=GS U4SKC4/5-198       AC U4SKC4
#=GS U4SKC4/5-198       OS Haemophilus parasuis D74
#=GS U4SKC4/5-198       DE Ribonuclease D
#=GS U4SKC4/5-198       DR GENE3D; 365c6b5236b5a0c3d6528de86c5844be/5-198; 
#=GS U4SKC4/5-198       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; [Haemophilus] parasuis; 
#=GS U4SKC4/5-198       DR EC; 3.1.13.5; 
#=GS A0A0S8ZBD0/3-194   AC A0A0S8ZBD0
#=GS A0A0S8ZBD0/3-194   OS Pseudomonas sp. Leaf48
#=GS A0A0S8ZBD0/3-194   DE Ribonuclease D
#=GS A0A0S8ZBD0/3-194   DR GENE3D; 366f8d541691e4192d8018dd723f4705/3-194; 
#=GS A0A0S8ZBD0/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. Leaf48; 
#=GS A0A0S8ZBD0/3-194   DR EC; 3.1.13.5; 
#=GS A6X201/1-192       AC A6X201
#=GS A6X201/1-192       OS Ochrobactrum anthropi ATCC 49188
#=GS A6X201/1-192       DE Ribonuclease D
#=GS A6X201/1-192       DR GENE3D; 367535268d035864980d4c7421e43d83/1-192; 
#=GS A6X201/1-192       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Ochrobactrum; Ochrobactrum anthropi; 
#=GS A6X201/1-192       DR EC; 3.1.13.5; 
#=GS A0A011SUR8/1-192   AC A0A011SUR8
#=GS A0A011SUR8/1-192   OS Ochrobactrum anthropi
#=GS A0A011SUR8/1-192   DE Ribonuclease D
#=GS A0A011SUR8/1-192   DR GENE3D; 367535268d035864980d4c7421e43d83/1-192; 
#=GS A0A011SUR8/1-192   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Ochrobactrum; Ochrobactrum anthropi; 
#=GS A0A011SUR8/1-192   DR EC; 3.1.13.5; 
#=GS A0A1E5WTC3/1-190   AC A0A1E5WTC3
#=GS A0A1E5WTC3/1-190   OS Escherichia coli
#=GS A0A1E5WTC3/1-190   DE Ribonuclease D
#=GS A0A1E5WTC3/1-190   DR GENE3D; 3693afbcfe8b23813e90d4fcfc25f126/1-190; 
#=GS A0A1E5WTC3/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A1E5WTC3/1-190   DR EC; 3.1.13.5; 
#=GS A0A1C0XU15/1-190   AC A0A1C0XU15
#=GS A0A1C0XU15/1-190   OS Escherichia coli
#=GS A0A1C0XU15/1-190   DE Ribonuclease D
#=GS A0A1C0XU15/1-190   DR GENE3D; 36c4210f0aa43d6f8188fc7e1f33d5e7/1-190; 
#=GS A0A1C0XU15/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A1C0XU15/1-190   DR EC; 3.1.13.5; 
#=GS A0A0F2P559/1-185   AC A0A0F2P559
#=GS A0A0F2P559/1-185   OS Gammaproteobacteria bacterium BRH_c0
#=GS A0A0F2P559/1-185   DE Ribonuclease D
#=GS A0A0F2P559/1-185   DR GENE3D; 36d813c4a49ab3745b379ca21d70412d/1-185; 
#=GS A0A0F2P559/1-185   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium BRH_c0; 
#=GS A0A0F2P559/1-185   DR EC; 3.1.13.5; 
#=GS A0A1C5TWM7/1-191   AC A0A1C5TWM7
#=GS A0A1C5TWM7/1-191   OS uncultured Collinsella sp.
#=GS A0A1C5TWM7/1-191   DE Ribonuclease D
#=GS A0A1C5TWM7/1-191   DR GENE3D; 36ecceb4a91d2fa1679d4e55684ed635/1-191; 
#=GS A0A1C5TWM7/1-191   DR ORG; Bacteria; Actinobacteria; Coriobacteriia; Coriobacteriales; Coriobacteriaceae; Collinsella; uncultured Collinsella sp.; 
#=GS A0A1C5TWM7/1-191   DR EC; 3.1.13.5; 
#=GS A0A0L6K9Q1/1-190   AC A0A0L6K9Q1
#=GS A0A0L6K9Q1/1-190   OS Agrobacterium sp. SUL3
#=GS A0A0L6K9Q1/1-190   DE Ribonuclease D
#=GS A0A0L6K9Q1/1-190   DR GENE3D; 370adde9bf31279c23144cf023567ebf/1-190; 
#=GS A0A0L6K9Q1/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium sp. SUL3; 
#=GS A0A0L6K9Q1/1-190   DR EC; 3.1.13.5; 
#=GS A0A0Q8FSB2/1-190   AC A0A0Q8FSB2
#=GS A0A0Q8FSB2/1-190   OS Rhizobium sp. Root651
#=GS A0A0Q8FSB2/1-190   DE Ribonuclease D
#=GS A0A0Q8FSB2/1-190   DR GENE3D; 370adde9bf31279c23144cf023567ebf/1-190; 
#=GS A0A0Q8FSB2/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. Root651; 
#=GS A0A0Q8FSB2/1-190   DR EC; 3.1.13.5; 
#=GS A0A0U1I028/23-216  AC A0A0U1I028
#=GS A0A0U1I028/23-216  OS Yersinia mollaretii
#=GS A0A0U1I028/23-216  DE Ribonuclease D
#=GS A0A0U1I028/23-216  DR GENE3D; 370f0debe0aab0979aba751c0138f62f/23-216; 
#=GS A0A0U1I028/23-216  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Yersinia; Yersinia mollaretii; 
#=GS A0A0U1I028/23-216  DR EC; 3.1.13.5; 
#=GS A0A1B9L381/1-194   AC A0A1B9L381
#=GS A0A1B9L381/1-194   OS Gilliamella apicola
#=GS A0A1B9L381/1-194   DE Ribonuclease D
#=GS A0A1B9L381/1-194   DR GENE3D; 3716512e45648a3a253f1cb51cae88a2/1-194; 
#=GS A0A1B9L381/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Orbales; Orbaceae; Gilliamella; Gilliamella apicola; 
#=GS A0A1B9L381/1-194   DR EC; 3.1.13.5; 
#=GS A0A177JL07/3-195   AC A0A177JL07
#=GS A0A177JL07/3-195   OS Pseudomonas monteilii
#=GS A0A177JL07/3-195   DE Ribonuclease D
#=GS A0A177JL07/3-195   DR GENE3D; 373d9ba683b3da241f3cba3d1653e86d/3-195; 
#=GS A0A177JL07/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas monteilii; 
#=GS A0A177JL07/3-195   DR EC; 3.1.13.5; 
#=GS A0A0P7C2X5/3-195   AC A0A0P7C2X5
#=GS A0A0P7C2X5/3-195   OS Pseudomonas putida
#=GS A0A0P7C2X5/3-195   DE Ribonuclease D
#=GS A0A0P7C2X5/3-195   DR GENE3D; 373d9ba683b3da241f3cba3d1653e86d/3-195; 
#=GS A0A0P7C2X5/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; 
#=GS A0A0P7C2X5/3-195   DR EC; 3.1.13.5; 
#=GS A0A031JJW9/4-194   AC A0A031JJW9
#=GS A0A031JJW9/4-194   OS Sphingomonas paucimobilis
#=GS A0A031JJW9/4-194   DE Ribonuclease D
#=GS A0A031JJW9/4-194   DR GENE3D; 37650939ae75343faf15191bb1498dbb/4-194; 
#=GS A0A031JJW9/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas paucimobilis; 
#=GS A0A031JJW9/4-194   DR EC; 3.1.13.5; 
#=GS A0A1E3VM60/1-190   AC A0A1E3VM60
#=GS A0A1E3VM60/1-190   OS Methyloceanibacter stevinii
#=GS A0A1E3VM60/1-190   DE Ribonuclease D
#=GS A0A1E3VM60/1-190   DR GENE3D; 3768cba0bdd3b0adb82c05c3f958218e/1-190; 
#=GS A0A1E3VM60/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methyloceanibacter; Methyloceanibacter stevinii; 
#=GS A0A1E3VM60/1-190   DR EC; 3.1.13.5; 
#=GS A0A1H0SIR2/1-191   AC A0A1H0SIR2
#=GS A0A1H0SIR2/1-191   OS Afipia sp. GAS231
#=GS A0A1H0SIR2/1-191   DE Ribonuclease D
#=GS A0A1H0SIR2/1-191   DR GENE3D; 37723f7a277eade35d266b7ede8683d9/1-191; 
#=GS A0A1H0SIR2/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Afipia; Afipia sp. GAS231; 
#=GS A0A1H0SIR2/1-191   DR EC; 3.1.13.5; 
#=GS F2BYP8/29-221      AC F2BYP8
#=GS F2BYP8/29-221      OS Haemophilus aegyptius ATCC 11116
#=GS F2BYP8/29-221      DE Ribonuclease D
#=GS F2BYP8/29-221      DR GENE3D; 37856f2b7c1a84479d5b309b1217a883/29-221; 
#=GS F2BYP8/29-221      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; Haemophilus aegyptius; 
#=GS F2BYP8/29-221      DR EC; 3.1.13.5; 
#=GS A0A0F4PYI8/1-194   AC A0A0F4PYI8
#=GS A0A0F4PYI8/1-194   OS Pseudoalteromonas ruthenica
#=GS A0A0F4PYI8/1-194   DE Ribonuclease D
#=GS A0A0F4PYI8/1-194   DR GENE3D; 37b0a99f5ec10fe93904123d4ef5bd89/1-194; 
#=GS A0A0F4PYI8/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas ruthenica; 
#=GS A0A0F4PYI8/1-194   DR EC; 3.1.13.5; 
#=GS H3RDF3/1-194       AC H3RDF3
#=GS H3RDF3/1-194       OS Pantoea stewartii subsp. stewartii DC283
#=GS H3RDF3/1-194       DE Ribonuclease D
#=GS H3RDF3/1-194       DR GENE3D; 37b3cea3492f354ea0bb70e4262fef56/1-194; 
#=GS H3RDF3/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Pantoea; Pantoea stewartii; Pantoea stewartii subsp. stewartii; 
#=GS H3RDF3/1-194       DR EC; 3.1.13.5; 
#=GS U2YR47/1-187       AC U2YR47
#=GS U2YR47/1-187       OS Brevundimonas abyssalis TAR-001
#=GS U2YR47/1-187       DE Ribonuclease D
#=GS U2YR47/1-187       DR GENE3D; 37c38a09c5e5882b8e36e50f5a4da7ee/1-187; 
#=GS U2YR47/1-187       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Brevundimonas; Brevundimonas abyssalis; 
#=GS U2YR47/1-187       DR EC; 3.1.13.5; 
#=GS A0A0Q4VSF0/1-189   AC A0A0Q4VSF0
#=GS A0A0Q4VSF0/1-189   OS Rhizobium sp. Leaf262
#=GS A0A0Q4VSF0/1-189   DE Ribonuclease D
#=GS A0A0Q4VSF0/1-189   DR GENE3D; 37d1f9cdabb10f9fb6df2422a6e996f0/1-189; 
#=GS A0A0Q4VSF0/1-189   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. Leaf262; 
#=GS A0A0Q4VSF0/1-189   DR EC; 3.1.13.5; 
#=GS A0A1A9G6S5/1-190   AC A0A1A9G6S5
#=GS A0A1A9G6S5/1-190   OS Shinella sp. HZN7
#=GS A0A1A9G6S5/1-190   DE Ribonuclease D
#=GS A0A1A9G6S5/1-190   DR GENE3D; 37f95414634ce1d3be4a4cc663a8e195/1-190; 
#=GS A0A1A9G6S5/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Shinella; Shinella sp. HZN7; 
#=GS A0A1A9G6S5/1-190   DR EC; 3.1.13.5; 
#=GS J0YQE7/37-228      AC J0YQE7
#=GS J0YQE7/37-228      OS Bartonella birtlesii LL-WM9
#=GS J0YQE7/37-228      DE Ribonuclease D
#=GS J0YQE7/37-228      DR GENE3D; 381ec7a6757da0051ec87297a284bf90/37-228; 
#=GS J0YQE7/37-228      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bartonellaceae; Bartonella; Bartonella birtlesii; 
#=GS J0YQE7/37-228      DR EC; 3.1.13.5; 
#=GS A0A0T6ZT61/1-190   AC A0A0T6ZT61
#=GS A0A0T6ZT61/1-190   OS Sinorhizobium fredii USDA 205
#=GS A0A0T6ZT61/1-190   DE Ribonuclease D
#=GS A0A0T6ZT61/1-190   DR GENE3D; 38287ce31eacfc5f96a4bbb1f05fb0a9/1-190; 
#=GS A0A0T6ZT61/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium fredii; 
#=GS A0A0T6ZT61/1-190   DR EC; 3.1.13.5; 
#=GS V7FRJ8/1-191       AC V7FRJ8
#=GS V7FRJ8/1-191       OS Mesorhizobium sp. LSHC420B00
#=GS V7FRJ8/1-191       DE Ribonuclease D
#=GS V7FRJ8/1-191       DR GENE3D; 38427cb10b0eaa34769e8f1a00396ecf/1-191; 
#=GS V7FRJ8/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LSHC420B00; 
#=GS V7FRJ8/1-191       DR EC; 3.1.13.5; 
#=GS I1DTI7/2-192       AC I1DTI7
#=GS I1DTI7/2-192       OS Rheinheimera nanhaiensis E407-8
#=GS I1DTI7/2-192       DE Ribonuclease D
#=GS I1DTI7/2-192       DR GENE3D; 38556ca3d6af8313fab1b153c445e2d6/2-192; 
#=GS I1DTI7/2-192       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Chromatiaceae; Rheinheimera; Rheinheimera nanhaiensis; 
#=GS I1DTI7/2-192       DR EC; 3.1.13.5; 
#=GS E0TC26/1-189       AC E0TC26
#=GS E0TC26/1-189       OS Parvularcula bermudensis HTCC2503
#=GS E0TC26/1-189       DE Ribonuclease D
#=GS E0TC26/1-189       DR GENE3D; 385d8335d393f97c43864258573bf235/1-189; 
#=GS E0TC26/1-189       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Parvularculales; Parvularculaceae; Parvularcula; Parvularcula bermudensis; 
#=GS E0TC26/1-189       DR EC; 3.1.13.5; 
#=GS A0A0D0J347/1-194   AC A0A0D0J347
#=GS A0A0D0J347/1-194   OS Vibrio harveyi
#=GS A0A0D0J347/1-194   DE Ribonuclease D
#=GS A0A0D0J347/1-194   DR GENE3D; 3863db1282272adff9275f31b86bfa37/1-194; 
#=GS A0A0D0J347/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio harveyi; 
#=GS A0A0D0J347/1-194   DR EC; 3.1.13.5; 
#=GS A0A1H2L8I1/4-191   AC A0A1H2L8I1
#=GS A0A1H2L8I1/4-191   OS Pseudomonas sihuiensis
#=GS A0A1H2L8I1/4-191   DE Ribonuclease D
#=GS A0A1H2L8I1/4-191   DR GENE3D; 3875d4d63d3d6bd5cb2207a501c92166/4-191; 
#=GS A0A1H2L8I1/4-191   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sihuiensis; 
#=GS A0A1H2L8I1/4-191   DR EC; 3.1.13.5; 
#=GS A0A0Q4SCH0/4-191   AC A0A0Q4SCH0
#=GS A0A0Q4SCH0/4-191   OS Pseudomonas sp. Leaf83
#=GS A0A0Q4SCH0/4-191   DE Ribonuclease D
#=GS A0A0Q4SCH0/4-191   DR GENE3D; 3875d4d63d3d6bd5cb2207a501c92166/4-191; 
#=GS A0A0Q4SCH0/4-191   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. Leaf83; 
#=GS A0A0Q4SCH0/4-191   DR EC; 3.1.13.5; 
#=GS A0A0P0Z435/1-190   AC A0A0P0Z435
#=GS A0A0P0Z435/1-190   OS Aureimonas frigidaquae
#=GS A0A0P0Z435/1-190   DE Ribonuclease D
#=GS A0A0P0Z435/1-190   DR GENE3D; 389cc6e18b28bc46e9a75b9e92af7a8c/1-190; 
#=GS A0A0P0Z435/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Aurantimonadaceae; Aureimonas; Aureimonas frigidaquae; 
#=GS A0A0P0Z435/1-190   DR EC; 3.1.13.5; 
#=GS B9JV58/1-190       AC B9JV58
#=GS B9JV58/1-190       OS Agrobacterium vitis S4
#=GS B9JV58/1-190       DE Ribonuclease D
#=GS B9JV58/1-190       DR GENE3D; 38b804e703225b5d4840e085f073eb71/1-190; 
#=GS B9JV58/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium vitis; 
#=GS B9JV58/1-190       DR EC; 3.1.13.5; 
#=GS A0A059G773/1-196   AC A0A059G773
#=GS A0A059G773/1-196   OS Hyphomonas oceanitis SCH89
#=GS A0A059G773/1-196   DE Ribonuclease D
#=GS A0A059G773/1-196   DR GENE3D; 38d6c40937cd974f472eca3b10a0f870/1-196; 
#=GS A0A059G773/1-196   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonas; Hyphomonas oceanitis; 
#=GS A0A059G773/1-196   DR EC; 3.1.13.5; 
#=GS A0A0Q9HN88/1-189   AC A0A0Q9HN88
#=GS A0A0Q9HN88/1-189   OS Bosea sp. Root670
#=GS A0A0Q9HN88/1-189   DE Ribonuclease D
#=GS A0A0Q9HN88/1-189   DR GENE3D; 38ed2c97c47da314be4904415b7174d1/1-189; 
#=GS A0A0Q9HN88/1-189   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bosea; Bosea sp. Root670; 
#=GS A0A0Q9HN88/1-189   DR EC; 3.1.13.5; 
#=GS A0A0Q8S0R3/4-194   AC A0A0Q8S0R3
#=GS A0A0Q8S0R3/4-194   OS Sphingopyxis sp. Root214
#=GS A0A0Q8S0R3/4-194   DE Ribonuclease D
#=GS A0A0Q8S0R3/4-194   DR GENE3D; 38f29062acb86f7070880e413c2c754e/4-194; 
#=GS A0A0Q8S0R3/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis sp. Root214; 
#=GS A0A0Q8S0R3/4-194   DR EC; 3.1.13.5; 
#=GS A0A0T9KZ99/1-194   AC A0A0T9KZ99
#=GS A0A0T9KZ99/1-194   OS Yersinia nurmii
#=GS A0A0T9KZ99/1-194   DE Ribonuclease D
#=GS A0A0T9KZ99/1-194   DR GENE3D; 3974fb6fdc0453ac487bf0bbdc20ffbf/1-194; 
#=GS A0A0T9KZ99/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Yersinia; Yersinia nurmii; 
#=GS A0A0T9KZ99/1-194   DR EC; 3.1.13.5; 
#=GS N0BGF6/58-248      AC N0BGF6
#=GS N0BGF6/58-248      OS Hyphomicrobium denitrificans 1NES1
#=GS N0BGF6/58-248      DE Ribonuclease D
#=GS N0BGF6/58-248      DR GENE3D; 3975fd1ab4775f657040eeb00b2d1890/58-248; 
#=GS N0BGF6/58-248      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Hyphomicrobium; Hyphomicrobium denitrificans; 
#=GS N0BGF6/58-248      DR EC; 3.1.13.5; 
#=GS Q0FGF6/1-195       AC Q0FGF6
#=GS Q0FGF6/1-195       OS Rhodobacterales bacterium HTCC2255
#=GS Q0FGF6/1-195       DE Ribonuclease D
#=GS Q0FGF6/1-195       DR GENE3D; 3985dbf90067e76aa8471f90c3155070/1-195; 
#=GS Q0FGF6/1-195       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacterales bacterium HTCC2255; 
#=GS Q0FGF6/1-195       DR EC; 3.1.13.5; 
#=GS C9PQC2/13-204      AC C9PQC2
#=GS C9PQC2/13-204      OS Pasteurella dagmatis ATCC 43325
#=GS C9PQC2/13-204      DE Ribonuclease D
#=GS C9PQC2/13-204      DR GENE3D; 399483518f85342ed65c90d09447d6fb/13-204; 
#=GS C9PQC2/13-204      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Pasteurella; Pasteurella dagmatis; 
#=GS C9PQC2/13-204      DR EC; 3.1.13.5; 
#=GS A0A0Q5VEV9/1-187   AC A0A0Q5VEV9
#=GS A0A0Q5VEV9/1-187   OS Brevundimonas sp. Leaf363
#=GS A0A0Q5VEV9/1-187   DE Ribonuclease D
#=GS A0A0Q5VEV9/1-187   DR GENE3D; 39b02e07d430a6a1ac344270f098b912/1-187; 
#=GS A0A0Q5VEV9/1-187   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Brevundimonas; Brevundimonas sp. Leaf363; 
#=GS A0A0Q5VEV9/1-187   DR EC; 3.1.13.5; 
#=GS I3UZM3/3-195       AC I3UZM3
#=GS I3UZM3/3-195       OS Pseudomonas putida ND6
#=GS I3UZM3/3-195       DE Ribonuclease D
#=GS I3UZM3/3-195       DR GENE3D; 39b297b99695bf8c41eee9b7994a3eaf/3-195; 
#=GS I3UZM3/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; 
#=GS I3UZM3/3-195       DR EC; 3.1.13.5; 
#=GS I7BXW1/3-195       AC I7BXW1
#=GS I7BXW1/3-195       OS Pseudomonas putida DOT-T1E
#=GS I7BXW1/3-195       DE Ribonuclease D
#=GS I7BXW1/3-195       DR GENE3D; 39b297b99695bf8c41eee9b7994a3eaf/3-195; 
#=GS I7BXW1/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; 
#=GS I7BXW1/3-195       DR EC; 3.1.13.5; 
#=GS N9W0S3/3-195       AC N9W0S3
#=GS N9W0S3/3-195       OS Pseudomonas putida TRO1
#=GS N9W0S3/3-195       DE Ribonuclease D
#=GS N9W0S3/3-195       DR GENE3D; 39b297b99695bf8c41eee9b7994a3eaf/3-195; 
#=GS N9W0S3/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; 
#=GS N9W0S3/3-195       DR EC; 3.1.13.5; 
#=GS A0A0T9XGA9/1-190   AC A0A0T9XGA9
#=GS A0A0T9XGA9/1-190   OS Salmonella enterica subsp. enterica serovar Bovismorbificans
#=GS A0A0T9XGA9/1-190   DE Ribonuclease D
#=GS A0A0T9XGA9/1-190   DR GENE3D; 39e06c9796eb66be98e5b7132fbf7087/1-190; 
#=GS A0A0T9XGA9/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; 
#=GS A0A0T9XGA9/1-190   DR EC; 3.1.13.5; 
#=GS G5REQ4/1-190       AC G5REQ4
#=GS G5REQ4/1-190       OS Salmonella enterica subsp. enterica serovar Uganda str. R8-3404
#=GS G5REQ4/1-190       DE Ribonuclease D
#=GS G5REQ4/1-190       DR GENE3D; 39e06c9796eb66be98e5b7132fbf7087/1-190; 
#=GS G5REQ4/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; 
#=GS G5REQ4/1-190       DR EC; 3.1.13.5; 
#=GS A0A0R9MK43/1-190   AC A0A0R9MK43
#=GS A0A0R9MK43/1-190   OS Salmonella enterica subsp. enterica serovar Newport
#=GS A0A0R9MK43/1-190   DE Ribonuclease D
#=GS A0A0R9MK43/1-190   DR GENE3D; 39e06c9796eb66be98e5b7132fbf7087/1-190; 
#=GS A0A0R9MK43/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; 
#=GS A0A0R9MK43/1-190   DR EC; 3.1.13.5; 
#=GS A0A100PNU2/1-190   AC A0A100PNU2
#=GS A0A100PNU2/1-190   OS Salmonella enterica
#=GS A0A100PNU2/1-190   DE Ribonuclease D
#=GS A0A100PNU2/1-190   DR GENE3D; 39e06c9796eb66be98e5b7132fbf7087/1-190; 
#=GS A0A100PNU2/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; 
#=GS A0A100PNU2/1-190   DR EC; 3.1.13.5; 
#=GS G5NC15/1-190       AC G5NC15
#=GS G5NC15/1-190       OS Salmonella enterica subsp. enterica serovar Inverness str. R8-3668
#=GS G5NC15/1-190       DE Ribonuclease D
#=GS G5NC15/1-190       DR GENE3D; 39e06c9796eb66be98e5b7132fbf7087/1-190; 
#=GS G5NC15/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; 
#=GS G5NC15/1-190       DR EC; 3.1.13.5; 
#=GS A0A090RXT0/1-194   AC A0A090RXT0
#=GS A0A090RXT0/1-194   OS Vibrio sp. C7
#=GS A0A090RXT0/1-194   DE Ribonuclease D
#=GS A0A090RXT0/1-194   DR GENE3D; 39f8511e0d43009274d66a9096dfe7ef/1-194; 
#=GS A0A090RXT0/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. C7; 
#=GS A0A090RXT0/1-194   DR EC; 3.1.13.5; 
#=GS L4VIA8/1-190       AC L4VIA8
#=GS L4VIA8/1-190       OS Escherichia coli KTE112
#=GS L4VIA8/1-190       DE Ribonuclease D
#=GS L4VIA8/1-190       DR GENE3D; 3a021355ecf74c5c8a960eeeb926da64/1-190; 
#=GS L4VIA8/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS L4VIA8/1-190       DR EC; 3.1.13.5; 
#=GS L3CCI9/1-190       AC L3CCI9
#=GS L3CCI9/1-190       OS Escherichia coli KTE193
#=GS L3CCI9/1-190       DE Ribonuclease D
#=GS L3CCI9/1-190       DR GENE3D; 3a021355ecf74c5c8a960eeeb926da64/1-190; 
#=GS L3CCI9/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS L3CCI9/1-190       DR EC; 3.1.13.5; 
#=GS A0A1C0SB40/1-189   AC A0A1C0SB40
#=GS A0A1C0SB40/1-189   OS Ensifer sp. LC14
#=GS A0A1C0SB40/1-189   DE Ribonuclease D
#=GS A0A1C0SB40/1-189   DR GENE3D; 3a143239864f2da050b6730c5fd93240/1-189; 
#=GS A0A1C0SB40/1-189   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Ensifer; Ensifer sp. LC14; 
#=GS A0A1C0SB40/1-189   DR EC; 3.1.13.5; 
#=GS A0A1G7L4J6/3-195   AC A0A1G7L4J6
#=GS A0A1G7L4J6/3-195   OS Pseudomonas extremaustralis
#=GS A0A1G7L4J6/3-195   DE Ribonuclease D
#=GS A0A1G7L4J6/3-195   DR GENE3D; 3a1d6a180cc014b120259d972b4b63d5/3-195; 
#=GS A0A1G7L4J6/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas extremaustralis; 
#=GS A0A1G7L4J6/3-195   DR EC; 3.1.13.5; 
#=GS A0A023CF76/3-195   AC A0A023CF76
#=GS A0A023CF76/3-195   OS Pseudomonas extremaustralis 14-3 substr. 14-3b
#=GS A0A023CF76/3-195   DE Ribonuclease D
#=GS A0A023CF76/3-195   DR GENE3D; 3a1d6a180cc014b120259d972b4b63d5/3-195; 
#=GS A0A023CF76/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas extremaustralis; 
#=GS A0A023CF76/3-195   DR EC; 3.1.13.5; 
#=GS A0A0A0BDQ8/1-193   AC A0A0A0BDQ8
#=GS A0A0A0BDQ8/1-193   OS Methylophaga thiooxydans
#=GS A0A0A0BDQ8/1-193   DE Ribonuclease D
#=GS A0A0A0BDQ8/1-193   DR GENE3D; 3a57d65eac0d8fba5c086a2ae2dbd05e/1-193; 
#=GS A0A0A0BDQ8/1-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Piscirickettsiaceae; Methylophaga; Methylophaga thiooxydans; 
#=GS A0A0A0BDQ8/1-193   DR EC; 3.1.13.5; 
#=GS A0A1G0JSE2/9-198   AC A0A1G0JSE2
#=GS A0A1G0JSE2/9-198   OS Gammaproteobacteria bacterium RIFCSPLOWO2_02_FULL_56_15
#=GS A0A1G0JSE2/9-198   DE Ribonuclease D
#=GS A0A1G0JSE2/9-198   DR GENE3D; 3a66a3491748cfe06de2b5eff57534a4/9-198; 
#=GS A0A1G0JSE2/9-198   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Gammaproteobacteria bacterium RIFCSPLOWO2_02_FULL_56_15; 
#=GS A0A1G0JSE2/9-198   DR EC; 3.1.13.5; 
#=GS I4KFE5/3-195       AC I4KFE5
#=GS I4KFE5/3-195       OS Pseudomonas fluorescens SS101
#=GS I4KFE5/3-195       DE Ribonuclease D
#=GS I4KFE5/3-195       DR GENE3D; 3a6733d34d8a8b9686fc4e4100b9a9a5/3-195; 
#=GS I4KFE5/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; 
#=GS I4KFE5/3-195       DR EC; 3.1.13.5; 
#=GS A0A0T6Z2J6/1-190   AC A0A0T6Z2J6
#=GS A0A0T6Z2J6/1-190   OS Sinorhizobium sp. GL2
#=GS A0A0T6Z2J6/1-190   DE Ribonuclease D
#=GS A0A0T6Z2J6/1-190   DR GENE3D; 3a8a6d9c603161cc23d9384830243c55/1-190; 
#=GS A0A0T6Z2J6/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium sp. GL2; 
#=GS A0A0T6Z2J6/1-190   DR EC; 3.1.13.5; 
#=GS A0A0Q7KCG9/1-190   AC A0A0Q7KCG9
#=GS A0A0Q7KCG9/1-190   OS Ensifer sp. Root1312
#=GS A0A0Q7KCG9/1-190   DE Ribonuclease D
#=GS A0A0Q7KCG9/1-190   DR GENE3D; 3a8a6d9c603161cc23d9384830243c55/1-190; 
#=GS A0A0Q7KCG9/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Ensifer; Ensifer sp. Root1312; 
#=GS A0A0Q7KCG9/1-190   DR EC; 3.1.13.5; 
#=GS A0A0T6YFE1/1-190   AC A0A0T6YFE1
#=GS A0A0T6YFE1/1-190   OS Sinorhizobium sp. GW3
#=GS A0A0T6YFE1/1-190   DE Ribonuclease D
#=GS A0A0T6YFE1/1-190   DR GENE3D; 3a8a6d9c603161cc23d9384830243c55/1-190; 
#=GS A0A0T6YFE1/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Sinorhizobium; Sinorhizobium sp. GW3; 
#=GS A0A0T6YFE1/1-190   DR EC; 3.1.13.5; 
#=GS V4NV51/1-189       AC V4NV51
#=GS V4NV51/1-189       OS Asticcacaulis sp. YBE204
#=GS V4NV51/1-189       DE Ribonuclease D
#=GS V4NV51/1-189       DR GENE3D; 3aa476c02faddfb3668620b282a9edbd/1-189; 
#=GS V4NV51/1-189       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Asticcacaulis; Asticcacaulis sp. YBE204; 
#=GS V4NV51/1-189       DR EC; 3.1.13.5; 
#=GS U2LCE1/12-205      AC U2LCE1
#=GS U2LCE1/12-205      OS Serratia fonticola AU-P3(3)
#=GS U2LCE1/12-205      DE Ribonuclease D
#=GS U2LCE1/12-205      DR GENE3D; 3ab3d83405e2c9429bb7050855410624/12-205; 
#=GS U2LCE1/12-205      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Serratia; Serratia fonticola; 
#=GS U2LCE1/12-205      DR EC; 3.1.13.5; 
#=GS C8TSW4/1-194       AC C8TSW4
#=GS C8TSW4/1-194       OS Escherichia coli O26:H11 str. 11368
#=GS C8TSW4/1-194       DE Ribonuclease D
#=GS C8TSW4/1-194       DR GENE3D; 3abdb51cfb89384f63818866298f4415/1-194; 
#=GS C8TSW4/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS C8TSW4/1-194       DR EC; 3.1.13.5; 
#=GS K4UXK4/1-194       AC K4UXK4
#=GS K4UXK4/1-194       OS Escherichia coli O111:H11 str. CVM9455
#=GS K4UXK4/1-194       DE Ribonuclease D
#=GS K4UXK4/1-194       DR GENE3D; 3abdb51cfb89384f63818866298f4415/1-194; 
#=GS K4UXK4/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS K4UXK4/1-194       DR EC; 3.1.13.5; 
#=GS A0A0Q8ATI4/1-190   AC A0A0Q8ATI4
#=GS A0A0Q8ATI4/1-190   OS Rhizobium sp. Root564
#=GS A0A0Q8ATI4/1-190   DE Ribonuclease D
#=GS A0A0Q8ATI4/1-190   DR GENE3D; 3b10abc0e44780ef9eaf6ae597f1b9e6/1-190; 
#=GS A0A0Q8ATI4/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. Root564; 
#=GS A0A0Q8ATI4/1-190   DR EC; 3.1.13.5; 
#=GS A0A148NAS6/7-194   AC A0A148NAS6
#=GS A0A148NAS6/7-194   OS Methylothermaceae bacteria B42
#=GS A0A148NAS6/7-194   DE Ribonuclease D
#=GS A0A148NAS6/7-194   DR GENE3D; 3b17726688848915705c8639d7e320ec/7-194; 
#=GS A0A148NAS6/7-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Methylococcales; Methylothermaceae; Methylothermaceae bacteria B42; 
#=GS A0A148NAS6/7-194   DR EC; 3.1.13.5; 
#=GS A0A163TE47/1-193   AC A0A163TE47
#=GS A0A163TE47/1-193   OS Thalassospira sp. MCCC 1A02491
#=GS A0A163TE47/1-193   DE Ribonuclease D
#=GS A0A163TE47/1-193   DR GENE3D; 3b2004f97dbd05102fe490004a3ae705/1-193; 
#=GS A0A163TE47/1-193   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Thalassospira; Thalassospira sp. MCCC 1A02491; 
#=GS A0A163TE47/1-193   DR EC; 3.1.13.5; 
#=GS E0F3C3/5-198       AC E0F3C3
#=GS E0F3C3/5-198       OS Actinobacillus pleuropneumoniae serovar 10 str. D13039
#=GS E0F3C3/5-198       DE Ribonuclease D
#=GS E0F3C3/5-198       DR GENE3D; 3b4425900c0035e7da0fe2f068809eac/5-198; 
#=GS E0F3C3/5-198       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Actinobacillus; Actinobacillus pleuropneumoniae; 
#=GS E0F3C3/5-198       DR EC; 3.1.13.5; 
#=GS A0A0Q4IUI9/4-194   AC A0A0Q4IUI9
#=GS A0A0Q4IUI9/4-194   OS Sphingomonas sp. Leaf230
#=GS A0A0Q4IUI9/4-194   DE Ribonuclease D
#=GS A0A0Q4IUI9/4-194   DR GENE3D; 3b44ca4f17521e880e72893fcd0ca892/4-194; 
#=GS A0A0Q4IUI9/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf230; 
#=GS A0A0Q4IUI9/4-194   DR EC; 3.1.13.5; 
#=GS A0A142W379/4-194   AC A0A142W379
#=GS A0A142W379/4-194   OS Sphingopyxis terrae NBRC 15098
#=GS A0A142W379/4-194   DE Ribonuclease D
#=GS A0A142W379/4-194   DR GENE3D; 3b732788d3b0d2aa7f3f7d9d717d6094/4-194; 
#=GS A0A142W379/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis terrae; 
#=GS A0A142W379/4-194   DR EC; 3.1.13.5; 
#=GS A0A0C5WLB2/1-190   AC A0A0C5WLB2
#=GS A0A0C5WLB2/1-190   OS Photobacterium gaetbulicola Gung47
#=GS A0A0C5WLB2/1-190   DE Ribonuclease D
#=GS A0A0C5WLB2/1-190   DR GENE3D; 3b7822df6b102dc1dbdc2cf221aa4ffd/1-190; 
#=GS A0A0C5WLB2/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium gaetbulicola; 
#=GS A0A0C5WLB2/1-190   DR EC; 3.1.13.5; 
#=GS A0A0J1HCH1/1-194   AC A0A0J1HCH1
#=GS A0A0J1HCH1/1-194   OS Photobacterium aquae
#=GS A0A0J1HCH1/1-194   DE Ribonuclease D
#=GS A0A0J1HCH1/1-194   DR GENE3D; 3b8028a121f7995d436a72ae523eec98/1-194; 
#=GS A0A0J1HCH1/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium aquae; 
#=GS A0A0J1HCH1/1-194   DR EC; 3.1.13.5; 
#=GS N9UQR4/4-194       AC N9UQR4
#=GS N9UQR4/4-194       OS Sphingopyxis sp. MC1
#=GS N9UQR4/4-194       DE Ribonuclease D
#=GS N9UQR4/4-194       DR GENE3D; 3beb0e07831360bb70be3f83897b2e7e/4-194; 
#=GS N9UQR4/4-194       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis sp. MC1; 
#=GS N9UQR4/4-194       DR EC; 3.1.13.5; 
#=GS W6R884/1-190       AC W6R884
#=GS W6R884/1-190       OS Rhizobium favelukesii
#=GS W6R884/1-190       DE Ribonuclease D
#=GS W6R884/1-190       DR GENE3D; 3bef4874195cf930ccbd5416a94191c2/1-190; 
#=GS W6R884/1-190       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium favelukesii; 
#=GS W6R884/1-190       DR EC; 3.1.13.5; 
#=GS A0A0S8EXL2/1-191   AC A0A0S8EXL2
#=GS A0A0S8EXL2/1-191   OS Thiotrichales bacterium SG8_50
#=GS A0A0S8EXL2/1-191   DE Ribonuclease D
#=GS A0A0S8EXL2/1-191   DR GENE3D; 3c0f04a5276cab6342ea5a67cff0e285/1-191; 
#=GS A0A0S8EXL2/1-191   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Thiotrichales; Thiotrichales bacterium SG8_50; 
#=GS A0A0S8EXL2/1-191   DR EC; 3.1.13.5; 
#=GS A0A0D7Q268/1-191   AC A0A0D7Q268
#=GS A0A0D7Q268/1-191   OS Bradyrhizobium sp. LTSP849
#=GS A0A0D7Q268/1-191   DE Ribonuclease D
#=GS A0A0D7Q268/1-191   DR GENE3D; 3c4bccf8b8056d8931bc266dda5245df/1-191; 
#=GS A0A0D7Q268/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium sp. LTSP849; 
#=GS A0A0D7Q268/1-191   DR EC; 3.1.13.5; 
#=GS A0A073HEV3/1-190   AC A0A073HEV3
#=GS A0A073HEV3/1-190   OS Escherichia coli 5-366-08_S1_C3
#=GS A0A073HEV3/1-190   DE Ribonuclease D
#=GS A0A073HEV3/1-190   DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS A0A073HEV3/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A073HEV3/1-190   DR EC; 3.1.13.5; 
#=GS A0A0H3EJR7/1-190   AC A0A0H3EJR7
#=GS A0A0H3EJR7/1-190   OS Escherichia coli O83:H1 str. NRG 857C
#=GS A0A0H3EJR7/1-190   DE Ribonuclease D
#=GS A0A0H3EJR7/1-190   DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS A0A0H3EJR7/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A0H3EJR7/1-190   DR EC; 3.1.13.5; 
#=GS A0A073URP4/1-190   AC A0A073URP4
#=GS A0A073URP4/1-190   OS Escherichia coli 5-366-08_S1_C1
#=GS A0A073URP4/1-190   DE Ribonuclease D
#=GS A0A073URP4/1-190   DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS A0A073URP4/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A073URP4/1-190   DR EC; 3.1.13.5; 
#=GS A0A0W3CUP1/1-190   AC A0A0W3CUP1
#=GS A0A0W3CUP1/1-190   OS Escherichia fergusonii
#=GS A0A0W3CUP1/1-190   DE Ribonuclease D
#=GS A0A0W3CUP1/1-190   DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS A0A0W3CUP1/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia fergusonii; 
#=GS A0A0W3CUP1/1-190   DR EC; 3.1.13.5; 
#=GS E2QN06/1-190       AC E2QN06
#=GS E2QN06/1-190       OS Escherichia coli
#=GS E2QN06/1-190       DE Ribonuclease D
#=GS E2QN06/1-190       DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS E2QN06/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS E2QN06/1-190       DR EC; 3.1.13.5; 
#=GS A0A029HY42/1-190   AC A0A029HY42
#=GS A0A029HY42/1-190   OS Escherichia coli 2-005-03_S4_C3
#=GS A0A029HY42/1-190   DE Ribonuclease D
#=GS A0A029HY42/1-190   DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS A0A029HY42/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A029HY42/1-190   DR EC; 3.1.13.5; 
#=GS T6I2D8/1-190       AC T6I2D8
#=GS T6I2D8/1-190       OS Escherichia coli HVH 70 (4-2963531)
#=GS T6I2D8/1-190       DE Ribonuclease D
#=GS T6I2D8/1-190       DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS T6I2D8/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS T6I2D8/1-190       DR EC; 3.1.13.5; 
#=GS V0VLL4/1-190       AC V0VLL4
#=GS V0VLL4/1-190       OS Escherichia coli 908519
#=GS V0VLL4/1-190       DE Ribonuclease D
#=GS V0VLL4/1-190       DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS V0VLL4/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS V0VLL4/1-190       DR EC; 3.1.13.5; 
#=GS H4LCN8/1-190       AC H4LCN8
#=GS H4LCN8/1-190       OS Escherichia coli DEC2E
#=GS H4LCN8/1-190       DE Ribonuclease D
#=GS H4LCN8/1-190       DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS H4LCN8/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS H4LCN8/1-190       DR EC; 3.1.13.5; 
#=GS A0A029ISF5/1-190   AC A0A029ISF5
#=GS A0A029ISF5/1-190   OS Escherichia coli 2-005-03_S4_C2
#=GS A0A029ISF5/1-190   DE Ribonuclease D
#=GS A0A029ISF5/1-190   DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS A0A029ISF5/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A029ISF5/1-190   DR EC; 3.1.13.5; 
#=GS E3XP15/1-190       AC E3XP15
#=GS E3XP15/1-190       OS Escherichia coli 2362-75
#=GS E3XP15/1-190       DE Ribonuclease D
#=GS E3XP15/1-190       DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS E3XP15/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS E3XP15/1-190       DR EC; 3.1.13.5; 
#=GS H4KHS4/1-190       AC H4KHS4
#=GS H4KHS4/1-190       OS Escherichia coli DEC2C
#=GS H4KHS4/1-190       DE Ribonuclease D
#=GS H4KHS4/1-190       DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS H4KHS4/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS H4KHS4/1-190       DR EC; 3.1.13.5; 
#=GS A0A0H2YZE2/1-190   AC A0A0H2YZE2
#=GS A0A0H2YZE2/1-190   OS Escherichia coli APEC O1
#=GS A0A0H2YZE2/1-190   DE Ribonuclease D
#=GS A0A0H2YZE2/1-190   DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS A0A0H2YZE2/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A0H2YZE2/1-190   DR EC; 3.1.13.5; 
#=GS E9XJ42/1-190       AC E9XJ42
#=GS E9XJ42/1-190       OS Escherichia coli TW10509
#=GS E9XJ42/1-190       DE Ribonuclease D
#=GS E9XJ42/1-190       DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS E9XJ42/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS E9XJ42/1-190       DR EC; 3.1.13.5; 
#=GS A0A125XJ31/1-190   AC A0A125XJ31
#=GS A0A125XJ31/1-190   OS Escherichia coli 2-460-02_S1_C2
#=GS A0A125XJ31/1-190   DE Ribonuclease D
#=GS A0A125XJ31/1-190   DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS A0A125XJ31/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A125XJ31/1-190   DR EC; 3.1.13.5; 
#=GS A0A1L9A4Z5/1-190   AC A0A1L9A4Z5
#=GS A0A1L9A4Z5/1-190   OS Escherichia coli NA114
#=GS A0A1L9A4Z5/1-190   DE Ribonuclease D
#=GS A0A1L9A4Z5/1-190   DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS A0A1L9A4Z5/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A1L9A4Z5/1-190   DR EC; 3.1.13.5; 
#=GS H4ISP1/1-190       AC H4ISP1
#=GS H4ISP1/1-190       OS Escherichia coli DEC1C
#=GS H4ISP1/1-190       DE Ribonuclease D
#=GS H4ISP1/1-190       DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS H4ISP1/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS H4ISP1/1-190       DR EC; 3.1.13.5; 
#=GS H4J8Y8/1-190       AC H4J8Y8
#=GS H4J8Y8/1-190       OS Escherichia coli DEC1D
#=GS H4J8Y8/1-190       DE Ribonuclease D
#=GS H4J8Y8/1-190       DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS H4J8Y8/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS H4J8Y8/1-190       DR EC; 3.1.13.5; 
#=GS H4IBT2/1-190       AC H4IBT2
#=GS H4IBT2/1-190       OS Escherichia coli DEC1B
#=GS H4IBT2/1-190       DE Ribonuclease D
#=GS H4IBT2/1-190       DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS H4IBT2/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS H4IBT2/1-190       DR EC; 3.1.13.5; 
#=GS A0A0E2L3M7/1-190   AC A0A0E2L3M7
#=GS A0A0E2L3M7/1-190   OS Escherichia coli UMEA 3162-1
#=GS A0A0E2L3M7/1-190   DE Ribonuclease D
#=GS A0A0E2L3M7/1-190   DR GENE3D; 3c65712a4a5bce3d846cfb70b5a1001f/1-190; 
#=GS A0A0E2L3M7/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A0E2L3M7/1-190   DR EC; 3.1.13.5; 
#=GS Q11JA8/1-191       AC Q11JA8
#=GS Q11JA8/1-191       OS Chelativorans sp. BNC1
#=GS Q11JA8/1-191       DE Ribonuclease D
#=GS Q11JA8/1-191       DR GENE3D; 3c7c89e1b12c70069726826a45c8b2cc/1-191; 
#=GS Q11JA8/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Chelativorans; Chelativorans sp. BNC1; 
#=GS Q11JA8/1-191       DR EC; 3.1.13.5; 
#=GS A0A0Q4MZY3/3-195   AC A0A0Q4MZY3
#=GS A0A0Q4MZY3/3-195   OS Pseudomonas sp. Leaf58
#=GS A0A0Q4MZY3/3-195   DE Ribonuclease D
#=GS A0A0Q4MZY3/3-195   DR GENE3D; 3c7c9ddf56005132a58ab616de05706e/3-195; 
#=GS A0A0Q4MZY3/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. Leaf58; 
#=GS A0A0Q4MZY3/3-195   DR EC; 3.1.13.5; 
#=GS A0A0H6S7N2/1-194   AC A0A0H6S7N2
#=GS A0A0H6S7N2/1-194   OS Vibrio cholerae
#=GS A0A0H6S7N2/1-194   DE Ribonuclease D
#=GS A0A0H6S7N2/1-194   DR GENE3D; 3c96c4692d2491fd6488a4aeff85a21a/1-194; 
#=GS A0A0H6S7N2/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A0H6S7N2/1-194   DR EC; 3.1.13.5; 
#=GS A0A1B9M313/1-194   AC A0A1B9M313
#=GS A0A1B9M313/1-194   OS Gilliamella apicola
#=GS A0A1B9M313/1-194   DE Ribonuclease D
#=GS A0A1B9M313/1-194   DR GENE3D; 3ccae473dfa8dd9e33f2c03771d99118/1-194; 
#=GS A0A1B9M313/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Orbales; Orbaceae; Gilliamella; Gilliamella apicola; 
#=GS A0A1B9M313/1-194   DR EC; 3.1.13.5; 
#=GS A0A0N1FCM3/1-189   AC A0A0N1FCM3
#=GS A0A0N1FCM3/1-189   OS Bosea vaviloviae
#=GS A0A0N1FCM3/1-189   DE Ribonuclease D
#=GS A0A0N1FCM3/1-189   DR GENE3D; 3cf914738669ff7ea6d86cc4dcf80d69/1-189; 
#=GS A0A0N1FCM3/1-189   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bosea; Bosea vaviloviae; 
#=GS A0A0N1FCM3/1-189   DR EC; 3.1.13.5; 
#=GS A0A0B8ZGR9/1-194   AC A0A0B8ZGR9
#=GS A0A0B8ZGR9/1-194   OS Hafnia paralvei
#=GS A0A0B8ZGR9/1-194   DE Ribonuclease D
#=GS A0A0B8ZGR9/1-194   DR GENE3D; 3d1823bd90ed42af858f7a58e6f29b90/1-194; 
#=GS A0A0B8ZGR9/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Hafniaceae; Hafnia; Hafnia paralvei; 
#=GS A0A0B8ZGR9/1-194   DR EC; 3.1.13.5; 
#=GS E5YEF9/1-194       AC E5YEF9
#=GS E5YEF9/1-194       OS Enterobacteriaceae bacterium 9_2_54FAA
#=GS E5YEF9/1-194       DE Ribonuclease D
#=GS E5YEF9/1-194       DR GENE3D; 3d1823bd90ed42af858f7a58e6f29b90/1-194; 
#=GS E5YEF9/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacteriaceae bacterium 9_2_54FAA; 
#=GS E5YEF9/1-194       DR EC; 3.1.13.5; 
#=GS A0A0M6YKU6/8-201   AC A0A0M6YKU6
#=GS A0A0M6YKU6/8-201   OS Jannaschia donghaensis
#=GS A0A0M6YKU6/8-201   DE Ribonuclease D
#=GS A0A0M6YKU6/8-201   DR GENE3D; 3d428b68b2398c965228a57a6de91533/8-201; 
#=GS A0A0M6YKU6/8-201   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Jannaschia; Jannaschia donghaensis; 
#=GS A0A0M6YKU6/8-201   DR EC; 3.1.13.5; 
#=GS A0A0H4KTN7/1-195   AC A0A0H4KTN7
#=GS A0A0H4KTN7/1-195   OS Marinovum algicola DG 898
#=GS A0A0H4KTN7/1-195   DE Ribonuclease D
#=GS A0A0H4KTN7/1-195   DR GENE3D; 3d4657909b69c2bd22fb85d6a9b48b04/1-195; 
#=GS A0A0H4KTN7/1-195   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Marinovum; Marinovum algicola; 
#=GS A0A0H4KTN7/1-195   DR EC; 3.1.13.5; 
#=GS A0A067Z4V7/12-201  AC A0A067Z4V7
#=GS A0A067Z4V7/12-201  OS Gluconobacter oxydans DSM 3504
#=GS A0A067Z4V7/12-201  DE Ribonuclease D
#=GS A0A067Z4V7/12-201  DR GENE3D; 3d8661c774cb299c70b78c7c69c301bc/12-201; 
#=GS A0A067Z4V7/12-201  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Gluconobacter; Gluconobacter oxydans; 
#=GS A0A067Z4V7/12-201  DR EC; 3.1.13.5; 
#=GS X6CMQ7/1-191       AC X6CMQ7
#=GS X6CMQ7/1-191       OS Mesorhizobium sp. LNHC252B00
#=GS X6CMQ7/1-191       DE Ribonuclease D
#=GS X6CMQ7/1-191       DR GENE3D; 3d8a7201e898d9312f4108a1d63316a3/1-191; 
#=GS X6CMQ7/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. LNHC252B00; 
#=GS X6CMQ7/1-191       DR EC; 3.1.13.5; 
#=GS A3QF05/1-193       AC A3QF05
#=GS A3QF05/1-193       OS Shewanella loihica PV-4
#=GS A3QF05/1-193       DE Ribonuclease D
#=GS A3QF05/1-193       DR GENE3D; 3d8b62bc31fcd6d7143443a62bc4eadd/1-193; 
#=GS A3QF05/1-193       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella loihica; 
#=GS A3QF05/1-193       DR EC; 3.1.13.5; 
#=GS K6YQG6/1-193       AC K6YQG6
#=GS K6YQG6/1-193       OS Paraglaciecola arctica BSs20135
#=GS K6YQG6/1-193       DE Ribonuclease D
#=GS K6YQG6/1-193       DR GENE3D; 3dd07766a1ea7bad778c2c7153d6f8e7/1-193; 
#=GS K6YQG6/1-193       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Paraglaciecola; Paraglaciecola arctica; 
#=GS K6YQG6/1-193       DR EC; 3.1.13.5; 
#=GS W6KH38/6-194       AC W6KH38
#=GS W6KH38/6-194       OS Magnetospira sp. QH-2
#=GS W6KH38/6-194       DE Ribonuclease D
#=GS W6KH38/6-194       DR GENE3D; 3e1bb6f6025ec0f7b8d233d3ad92f8a5/6-194; 
#=GS W6KH38/6-194       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Magnetospira; Magnetospira sp. QH-2; 
#=GS W6KH38/6-194       DR EC; 3.1.13.5; 
#=GS A0A098TBI0/1-190   AC A0A098TBI0
#=GS A0A098TBI0/1-190   OS Hoeflea sp. BAL378
#=GS A0A098TBI0/1-190   DE Ribonuclease D
#=GS A0A098TBI0/1-190   DR GENE3D; 3e205a38ce51ca364d2a520c0868191e/1-190; 
#=GS A0A098TBI0/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Hoeflea; Hoeflea sp. BAL378; 
#=GS A0A098TBI0/1-190   DR EC; 3.1.13.5; 
#=GS A0A1H1MWC4/9-197   AC A0A1H1MWC4
#=GS A0A1H1MWC4/9-197   OS Pseudomonas sabulinigri
#=GS A0A1H1MWC4/9-197   DE Ribonuclease D
#=GS A0A1H1MWC4/9-197   DR GENE3D; 3e2ce0d4c4c09c3e4bec9cb656e420dc/9-197; 
#=GS A0A1H1MWC4/9-197   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sabulinigri; 
#=GS A0A1H1MWC4/9-197   DR EC; 3.1.13.5; 
#=GS A0A1B9T4S8/1-190   AC A0A1B9T4S8
#=GS A0A1B9T4S8/1-190   OS Agrobacterium tumefaciens
#=GS A0A1B9T4S8/1-190   DE Ribonuclease D
#=GS A0A1B9T4S8/1-190   DR GENE3D; 3e578f8664758e4d6abe084b3e7fc0e0/1-190; 
#=GS A0A1B9T4S8/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium tumefaciens complex; Agrobacterium tumefaciens; 
#=GS A0A1B9T4S8/1-190   DR EC; 3.1.13.5; 
#=GS A0A094YKL0/49-237  AC A0A094YKL0
#=GS A0A094YKL0/49-237  OS Acetobacter tropicalis
#=GS A0A094YKL0/49-237  DE Ribonuclease D
#=GS A0A094YKL0/49-237  DR GENE3D; 3e6ddeecf1e570e8bf5cdf11c5824baf/49-237; 
#=GS A0A094YKL0/49-237  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Acetobacter; Acetobacter tropicalis; 
#=GS A0A094YKL0/49-237  DR EC; 3.1.13.5; 
#=GS F7VAL2/49-237      AC F7VAL2
#=GS F7VAL2/49-237      OS Acetobacter tropicalis NBRC 101654
#=GS F7VAL2/49-237      DE Ribonuclease D
#=GS F7VAL2/49-237      DR GENE3D; 3e6ddeecf1e570e8bf5cdf11c5824baf/49-237; 
#=GS F7VAL2/49-237      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Acetobacter; Acetobacter tropicalis; 
#=GS F7VAL2/49-237      DR EC; 3.1.13.5; 
#=GS A0A1B6YYB7/3-198   AC A0A1B6YYB7
#=GS A0A1B6YYB7/3-198   OS Jannaschia sp. EhC01
#=GS A0A1B6YYB7/3-198   DE Ribonuclease D
#=GS A0A1B6YYB7/3-198   DR GENE3D; 3e85d6e3014cb45e427fac45c516a1d4/3-198; 
#=GS A0A1B6YYB7/3-198   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Jannaschia; Jannaschia sp. EhC01; 
#=GS A0A1B6YYB7/3-198   DR EC; 3.1.13.5; 
#=GS A1S6Y2/2-194       AC A1S6Y2
#=GS A1S6Y2/2-194       OS Shewanella amazonensis SB2B
#=GS A1S6Y2/2-194       DE Ribonuclease D
#=GS A1S6Y2/2-194       DR GENE3D; 3e88305bc872bf4f054162fb7ae5ff87/2-194; 
#=GS A1S6Y2/2-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella amazonensis; 
#=GS A1S6Y2/2-194       DR EC; 3.1.13.5; 
#=GS A0A134A3K6/39-228  AC A0A134A3K6
#=GS A0A134A3K6/39-228  OS Olsenella sp. DNF00959
#=GS A0A134A3K6/39-228  DE Ribonuclease D
#=GS A0A134A3K6/39-228  DR GENE3D; 3ebeb1809c4f114102d0da9912b0a9d4/39-228; 
#=GS A0A134A3K6/39-228  DR ORG; Bacteria; Actinobacteria; Coriobacteriia; Coriobacteriales; Atopobiaceae; Olsenella; Olsenella sp. DNF00959; 
#=GS A0A134A3K6/39-228  DR EC; 3.1.13.5; 
#=GS A0A0M5M1H2/3-195   AC A0A0M5M1H2
#=GS A0A0M5M1H2/3-195   OS Pseudomonas versuta
#=GS A0A0M5M1H2/3-195   DE Ribonuclease D
#=GS A0A0M5M1H2/3-195   DR GENE3D; 3ecb9d8ad529f270dd43177d022ac16e/3-195; 
#=GS A0A0M5M1H2/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas versuta; 
#=GS A0A0M5M1H2/3-195   DR EC; 3.1.13.5; 
#=GS A0A109BK09/8-198   AC A0A109BK09
#=GS A0A109BK09/8-198   OS Hyphomicrobium sulfonivorans
#=GS A0A109BK09/8-198   DE Ribonuclease D
#=GS A0A109BK09/8-198   DR GENE3D; 3ecc5c7f45709547b3248186eb24b43d/8-198; 
#=GS A0A109BK09/8-198   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Hyphomicrobium; Hyphomicrobium sulfonivorans; 
#=GS A0A109BK09/8-198   DR EC; 3.1.13.5; 
#=GS J2WTN6/1-191       AC J2WTN6
#=GS J2WTN6/1-191       OS Bradyrhizobium sp. YR681
#=GS J2WTN6/1-191       DE Ribonuclease D
#=GS J2WTN6/1-191       DR GENE3D; 3eea7486f9ab305f75b3e8f5e7773f49/1-191; 
#=GS J2WTN6/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium sp. YR681; 
#=GS J2WTN6/1-191       DR EC; 3.1.13.5; 
#=GS Q1GSA7/4-194       AC Q1GSA7
#=GS Q1GSA7/4-194       OS Sphingopyxis alaskensis RB2256
#=GS Q1GSA7/4-194       DE Ribonuclease D
#=GS Q1GSA7/4-194       DR GENE3D; 3ef5f00ec0fc99a2a35b84009439d510/4-194; 
#=GS Q1GSA7/4-194       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingopyxis; Sphingopyxis alaskensis; 
#=GS Q1GSA7/4-194       DR EC; 3.1.13.5; 
#=GS A0A181YB23/1-190   AC A0A181YB23
#=GS A0A181YB23/1-190   OS Klebsiella variicola
#=GS A0A181YB23/1-190   DE Ribonuclease D
#=GS A0A181YB23/1-190   DR GENE3D; 3ef94421348598612ffb6ea060c30d8c/1-190; 
#=GS A0A181YB23/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella variicola; 
#=GS A0A181YB23/1-190   DR EC; 3.1.13.5; 
#=GS A0A1D3BKC5/10-203  AC A0A1D3BKC5
#=GS A0A1D3BKC5/10-203  OS Enterobacter kobei
#=GS A0A1D3BKC5/10-203  DE Ribonuclease D
#=GS A0A1D3BKC5/10-203  DR GENE3D; 3efa972a321a81abd17e8bb426f30280/10-203; 
#=GS A0A1D3BKC5/10-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter kobei; 
#=GS A0A1D3BKC5/10-203  DR EC; 3.1.13.5; 
#=GS A0A1B9NL48/1-194   AC A0A1B9NL48
#=GS A0A1B9NL48/1-194   OS Gilliamella apicola
#=GS A0A1B9NL48/1-194   DE Ribonuclease D
#=GS A0A1B9NL48/1-194   DR GENE3D; 3f138412df0bd194270a3d70c5160368/1-194; 
#=GS A0A1B9NL48/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Orbales; Orbaceae; Gilliamella; Gilliamella apicola; 
#=GS A0A1B9NL48/1-194   DR EC; 3.1.13.5; 
#=GS A0A0T9TCL1/1-194   AC A0A0T9TCL1
#=GS A0A0T9TCL1/1-194   OS Yersinia aldovae
#=GS A0A0T9TCL1/1-194   DE Ribonuclease D
#=GS A0A0T9TCL1/1-194   DR GENE3D; 3f1b72b29d20087a6cc181631add8f4c/1-194; 
#=GS A0A0T9TCL1/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Yersinia; Yersinia aldovae; 
#=GS A0A0T9TCL1/1-194   DR EC; 3.1.13.5; 
#=GS A0A1B3NEQ0/1-190   AC A0A1B3NEQ0
#=GS A0A1B3NEQ0/1-190   OS Bosea sp. RAC05
#=GS A0A1B3NEQ0/1-190   DE Ribonuclease D
#=GS A0A1B3NEQ0/1-190   DR GENE3D; 3f23a6cf06f0f5d4a0032251bd89a130/1-190; 
#=GS A0A1B3NEQ0/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bosea; Bosea sp. RAC05; 
#=GS A0A1B3NEQ0/1-190   DR EC; 3.1.13.5; 
#=GS D6LMU9/1-192       AC D6LMU9
#=GS D6LMU9/1-192       OS Brucella sp. NVSL 07-0026
#=GS D6LMU9/1-192       DE Ribonuclease D
#=GS D6LMU9/1-192       DR GENE3D; 3f44f36f5082b3acffef75c8e05aec58/1-192; 
#=GS D6LMU9/1-192       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Brucellaceae; Brucella; Brucella sp. NVSL 07-0026; 
#=GS D6LMU9/1-192       DR EC; 3.1.13.5; 
#=GS A0A085HJ71/1-194   AC A0A085HJ71
#=GS A0A085HJ71/1-194   OS Leminorella grimontii ATCC 33999 = DSM 5078
#=GS A0A085HJ71/1-194   DE Ribonuclease D
#=GS A0A085HJ71/1-194   DR GENE3D; 3f4d8482ea7a0add8957249b91fad577/1-194; 
#=GS A0A085HJ71/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Budviciaceae; Leminorella; Leminorella grimontii; 
#=GS A0A085HJ71/1-194   DR EC; 3.1.13.5; 
#=GS A0A1B8QTQ0/10-202  AC A0A1B8QTQ0
#=GS A0A1B8QTQ0/10-202  OS Haemophilus sp. CCUG 66565
#=GS A0A1B8QTQ0/10-202  DE Ribonuclease D
#=GS A0A1B8QTQ0/10-202  DR GENE3D; 3f70d52ba14440de12a291e663e4895b/10-202; 
#=GS A0A1B8QTQ0/10-202  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; Haemophilus sp. CCUG 66565; 
#=GS A0A1B8QTQ0/10-202  DR EC; 3.1.13.5; 
#=GS A0A0Q6CVG7/1-191   AC A0A0Q6CVG7
#=GS A0A0Q6CVG7/1-191   OS Methylobacterium sp. Leaf456
#=GS A0A0Q6CVG7/1-191   DE Ribonuclease D
#=GS A0A0Q6CVG7/1-191   DR GENE3D; 3f8be181c36f17324fba0530c3b977d8/1-191; 
#=GS A0A0Q6CVG7/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Methylobacterium; Methylobacterium sp. Leaf456; 
#=GS A0A0Q6CVG7/1-191   DR EC; 3.1.13.5; 
#=GS A0A0K1DLS1/3-194   AC A0A0K1DLS1
#=GS A0A0K1DLS1/3-194   OS Pseudomonas syringae pv. actinidiae ICMP 18884
#=GS A0A0K1DLS1/3-194   DE Ribonuclease D
#=GS A0A0K1DLS1/3-194   DR GENE3D; 3f99410958b341860bdbb308dfcc76bc/3-194; 
#=GS A0A0K1DLS1/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 1; Pseudomonas syringae; 
#=GS A0A0K1DLS1/3-194   DR EC; 3.1.13.5; 
#=GS A0A0K8M0C5/3-194   AC A0A0K8M0C5
#=GS A0A0K8M0C5/3-194   OS Pseudomonas syringae pv. actinidiae
#=GS A0A0K8M0C5/3-194   DE Ribonuclease D
#=GS A0A0K8M0C5/3-194   DR GENE3D; 3f99410958b341860bdbb308dfcc76bc/3-194; 
#=GS A0A0K8M0C5/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 1; Pseudomonas syringae; 
#=GS A0A0K8M0C5/3-194   DR EC; 3.1.13.5; 
#=GS A0A0E2V0G3/3-194   AC A0A0E2V0G3
#=GS A0A0E2V0G3/3-194   OS Pseudomonas syringae pv. actinidiae ICMP 9617
#=GS A0A0E2V0G3/3-194   DE Ribonuclease D
#=GS A0A0E2V0G3/3-194   DR GENE3D; 3f99410958b341860bdbb308dfcc76bc/3-194; 
#=GS A0A0E2V0G3/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 1; Pseudomonas syringae; 
#=GS A0A0E2V0G3/3-194   DR EC; 3.1.13.5; 
#=GS A0A0Q0E7J5/3-194   AC A0A0Q0E7J5
#=GS A0A0Q0E7J5/3-194   OS Pseudomonas syringae pv. theae
#=GS A0A0Q0E7J5/3-194   DE Ribonuclease D
#=GS A0A0Q0E7J5/3-194   DR GENE3D; 3f99410958b341860bdbb308dfcc76bc/3-194; 
#=GS A0A0Q0E7J5/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas syringae group; Pseudomonas syringae group genomosp. 1; Pseudomonas syringae; 
#=GS A0A0Q0E7J5/3-194   DR EC; 3.1.13.5; 
#=GS A0A1C7P8W3/1-190   AC A0A1C7P8W3
#=GS A0A1C7P8W3/1-190   OS Pararhizobium polonicum
#=GS A0A1C7P8W3/1-190   DE Ribonuclease D
#=GS A0A1C7P8W3/1-190   DR GENE3D; 3fc2d384be7f6438de847b06104f1ca8/1-190; 
#=GS A0A1C7P8W3/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Pararhizobium; Pararhizobium polonicum; 
#=GS A0A1C7P8W3/1-190   DR EC; 3.1.13.5; 
#=GS A0A074NLM5/3-194   AC A0A074NLM5
#=GS A0A074NLM5/3-194   OS Erythrobacter litoralis
#=GS A0A074NLM5/3-194   DE Ribonuclease D
#=GS A0A074NLM5/3-194   DR GENE3D; 3ff4d1c7cdab9f686d26473cb47943e7/3-194; 
#=GS A0A074NLM5/3-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Erythrobacter; Erythrobacter litoralis; 
#=GS A0A074NLM5/3-194   DR EC; 3.1.13.5; 
#=GS A0A0N0JMI2/4-192   AC A0A0N0JMI2
#=GS A0A0N0JMI2/4-192   OS alpha proteobacterium AAP81b
#=GS A0A0N0JMI2/4-192   DE Ribonuclease D
#=GS A0A0N0JMI2/4-192   DR GENE3D; 401162f029d1503fc2d29b0ca5729668/4-192; 
#=GS A0A0N0JMI2/4-192   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; alpha proteobacterium AAP81b; 
#=GS A0A0N0JMI2/4-192   DR EC; 3.1.13.5; 
#=GS A0A1E8MXW9/1-193   AC A0A1E8MXW9
#=GS A0A1E8MXW9/1-193   OS Vibrio cholerae
#=GS A0A1E8MXW9/1-193   DE Ribonuclease D
#=GS A0A1E8MXW9/1-193   DR GENE3D; 403fa4127863e4b3de3240f170bee431/1-193; 
#=GS A0A1E8MXW9/1-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A1E8MXW9/1-193   DR EC; 3.1.13.5; 
#=GS A0A0P1DEM6/5-193   AC A0A0P1DEM6
#=GS A0A0P1DEM6/5-193   OS Pseudomonas aeruginosa DK1
#=GS A0A0P1DEM6/5-193   DE Ribonuclease D
#=GS A0A0P1DEM6/5-193   DR GENE3D; 405c9b4e7993a88abca7e0aa9b443c9d/5-193; 
#=GS A0A0P1DEM6/5-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; 
#=GS A0A0P1DEM6/5-193   DR EC; 3.1.13.5; 
#=GS A0A1G5KG68/5-193   AC A0A1G5KG68
#=GS A0A1G5KG68/5-193   OS Acinetobacter baumannii
#=GS A0A1G5KG68/5-193   DE Ribonuclease D
#=GS A0A1G5KG68/5-193   DR GENE3D; 405c9b4e7993a88abca7e0aa9b443c9d/5-193; 
#=GS A0A1G5KG68/5-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Moraxellaceae; Acinetobacter; Acinetobacter calcoaceticus/baumannii complex; Acinetobacter baumannii; 
#=GS A0A1G5KG68/5-193   DR EC; 3.1.13.5; 
#=GS A0A1C7BS50/5-193   AC A0A1C7BS50
#=GS A0A1C7BS50/5-193   OS Pseudomonas aeruginosa BL04
#=GS A0A1C7BS50/5-193   DE Ribonuclease D
#=GS A0A1C7BS50/5-193   DR GENE3D; 405c9b4e7993a88abca7e0aa9b443c9d/5-193; 
#=GS A0A1C7BS50/5-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; 
#=GS A0A1C7BS50/5-193   DR EC; 3.1.13.5; 
#=GS A0A1J0IYZ3/5-193   AC A0A1J0IYZ3
#=GS A0A1J0IYZ3/5-193   OS Pseudomonas aeruginosa
#=GS A0A1J0IYZ3/5-193   DE Ribonuclease D
#=GS A0A1J0IYZ3/5-193   DR GENE3D; 405c9b4e7993a88abca7e0aa9b443c9d/5-193; 
#=GS A0A1J0IYZ3/5-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas aeruginosa; 
#=GS A0A1J0IYZ3/5-193   DR EC; 3.1.13.5; 
#=GS B0KSS5/3-195       AC B0KSS5
#=GS B0KSS5/3-195       OS Pseudomonas putida GB-1
#=GS B0KSS5/3-195       DE Ribonuclease D
#=GS B0KSS5/3-195       DR GENE3D; 4061f3a44b0c522d81b9393dd4c147c3/3-195; 
#=GS B0KSS5/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; 
#=GS B0KSS5/3-195       DR EC; 3.1.13.5; 
#=GS G4E3E8/3-194       AC G4E3E8
#=GS G4E3E8/3-194       OS Thiorhodospira sibirica ATCC 700588
#=GS G4E3E8/3-194       DE Ribonuclease D
#=GS G4E3E8/3-194       DR GENE3D; 407d29c10750e8a388b4d7284d306147/3-194; 
#=GS G4E3E8/3-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Chromatiales; Ectothiorhodospiraceae; Thiorhodospira; Thiorhodospira sibirica; 
#=GS G4E3E8/3-194       DR EC; 3.1.13.5; 
#=GS A0A0J6JAA0/3-195   AC A0A0J6JAA0
#=GS A0A0J6JAA0/3-195   OS Pseudomonas helleri
#=GS A0A0J6JAA0/3-195   DE Ribonuclease D
#=GS A0A0J6JAA0/3-195   DR GENE3D; 40854451997f37f62d5b5f43c7fd10e5/3-195; 
#=GS A0A0J6JAA0/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas helleri; 
#=GS A0A0J6JAA0/3-195   DR EC; 3.1.13.5; 
#=GS A0A199Y7X0/1-193   AC A0A199Y7X0
#=GS A0A199Y7X0/1-193   OS Thalassospira tepidiphila MCCC 1A03514
#=GS A0A199Y7X0/1-193   DE Ribonuclease D
#=GS A0A199Y7X0/1-193   DR GENE3D; 4090171d9539bad44faf7b2037115498/1-193; 
#=GS A0A199Y7X0/1-193   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Thalassospira; Thalassospira tepidiphila; 
#=GS A0A199Y7X0/1-193   DR EC; 3.1.13.5; 
#=GS A0A0G3GJD2/3-195   AC A0A0G3GJD2
#=GS A0A0G3GJD2/3-195   OS Pseudomonas chlororaphis
#=GS A0A0G3GJD2/3-195   DE Ribonuclease D
#=GS A0A0G3GJD2/3-195   DR GENE3D; 409371ce9acb63fa7d81f3e760caf38d/3-195; 
#=GS A0A0G3GJD2/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas chlororaphis group; Pseudomonas chlororaphis; 
#=GS A0A0G3GJD2/3-195   DR EC; 3.1.13.5; 
#=GS A0A0W2HHK8/10-203  AC A0A0W2HHK8
#=GS A0A0W2HHK8/10-203  OS Enterobacter cloacae complex sp. SMART_763
#=GS A0A0W2HHK8/10-203  DE Ribonuclease D
#=GS A0A0W2HHK8/10-203  DR GENE3D; 40a603d448a79819da53ff5dd0b5c0bb/10-203; 
#=GS A0A0W2HHK8/10-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter cloacae complex sp. SMART_763; 
#=GS A0A0W2HHK8/10-203  DR EC; 3.1.13.5; 
#=GS A0A0B4X2J9/1-190   AC A0A0B4X2J9
#=GS A0A0B4X2J9/1-190   OS Rhizobium gallicum bv. gallicum R602
#=GS A0A0B4X2J9/1-190   DE Ribonuclease D
#=GS A0A0B4X2J9/1-190   DR GENE3D; 40b20edbc287892476056e6e52c56fe3/1-190; 
#=GS A0A0B4X2J9/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium gallicum; 
#=GS A0A0B4X2J9/1-190   DR EC; 3.1.13.5; 
#=GS E6YQU8/1-189       AC E6YQU8
#=GS E6YQU8/1-189       OS Bartonella sp. AR 15-3
#=GS E6YQU8/1-189       DE Ribonuclease D
#=GS E6YQU8/1-189       DR GENE3D; 40d97f6df3e06e0d0e363d47eeb42b9d/1-189; 
#=GS E6YQU8/1-189       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bartonellaceae; Bartonella; Bartonella sp. AR 15-3; 
#=GS E6YQU8/1-189       DR EC; 3.1.13.5; 
#=GS A0A0M2QZ89/1-194   AC A0A0M2QZ89
#=GS A0A0M2QZ89/1-194   OS Klebsiella pneumoniae MRSN 3852
#=GS A0A0M2QZ89/1-194   DE Ribonuclease D
#=GS A0A0M2QZ89/1-194   DR GENE3D; 41087dcf4b896ce0ea88d92e07f2727a/1-194; 
#=GS A0A0M2QZ89/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella pneumoniae; 
#=GS A0A0M2QZ89/1-194   DR EC; 3.1.13.5; 
#=GS A0A099FPA4/1-199   AC A0A099FPA4
#=GS A0A099FPA4/1-199   OS Paracoccus versutus
#=GS A0A099FPA4/1-199   DE Ribonuclease D
#=GS A0A099FPA4/1-199   DR GENE3D; 4127bfacef4ec6c7c60bcbd0cbf6b757/1-199; 
#=GS A0A099FPA4/1-199   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Paracoccus; Paracoccus versutus; 
#=GS A0A099FPA4/1-199   DR EC; 3.1.13.5; 
#=GS W0AUW3/1-190       AC W0AUW3
#=GS W0AUW3/1-190       OS Escherichia albertii KF1
#=GS W0AUW3/1-190       DE Ribonuclease D
#=GS W0AUW3/1-190       DR GENE3D; 4129a9aa3a4396cd1beaaac7606b8724/1-190; 
#=GS W0AUW3/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia albertii; 
#=GS W0AUW3/1-190       DR EC; 3.1.13.5; 
#=GS A0A0M1R5I4/1-194   AC A0A0M1R5I4
#=GS A0A0M1R5I4/1-194   OS Enterobacter cloacae subsp. dissolvens SDM
#=GS A0A0M1R5I4/1-194   DE Ribonuclease D
#=GS A0A0M1R5I4/1-194   DR GENE3D; 41383fc86c289d921659fd9120fe2399/1-194; 
#=GS A0A0M1R5I4/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Enterobacter; Enterobacter cloacae complex; Enterobacter cloacae; Enterobacter cloacae subsp. dissolvens; 
#=GS A0A0M1R5I4/1-194   DR EC; 3.1.13.5; 
#=GS A0A196R2E8/1-194   AC A0A196R2E8
#=GS A0A196R2E8/1-194   OS Sulfitobacter geojensis
#=GS A0A196R2E8/1-194   DE Ribonuclease D
#=GS A0A196R2E8/1-194   DR GENE3D; 413baf6c56f15fb4d3a6a5ff1eb460e1/1-194; 
#=GS A0A196R2E8/1-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Sulfitobacter; Sulfitobacter geojensis; 
#=GS A0A196R2E8/1-194   DR EC; 3.1.13.5; 
#=GS A0A062UMM4/1-196   AC A0A062UMM4
#=GS A0A062UMM4/1-196   OS Hyphomonas chukchiensis
#=GS A0A062UMM4/1-196   DE Ribonuclease D
#=GS A0A062UMM4/1-196   DR GENE3D; 41bef443647d5e3388b4f0435a9cf49c/1-196; 
#=GS A0A062UMM4/1-196   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonas; Hyphomonas chukchiensis; 
#=GS A0A062UMM4/1-196   DR EC; 3.1.13.5; 
#=GS A0A1F3AAZ5/1-190   AC A0A1F3AAZ5
#=GS A0A1F3AAZ5/1-190   OS Alphaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_66_14
#=GS A0A1F3AAZ5/1-190   DE Ribonuclease D
#=GS A0A1F3AAZ5/1-190   DR GENE3D; 41cb95502044589467ca434689533746/1-190; 
#=GS A0A1F3AAZ5/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Alphaproteobacteria bacterium RIFCSPHIGHO2_12_FULL_66_14; 
#=GS A0A1F3AAZ5/1-190   DR EC; 3.1.13.5; 
#=GS A0A127EXC5/1-190   AC A0A127EXC5
#=GS A0A127EXC5/1-190   OS Rhodoplanes sp. Z2-YC6860
#=GS A0A127EXC5/1-190   DE Ribonuclease D
#=GS A0A127EXC5/1-190   DR GENE3D; 41de9cb05fc7a05bfc0a1551ff1359b1/1-190; 
#=GS A0A127EXC5/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Hyphomicrobiaceae; Rhodoplanes; Rhodoplanes sp. Z2-YC6860; 
#=GS A0A127EXC5/1-190   DR EC; 3.1.13.5; 
#=GS A0A0D6NDD0/12-200  AC A0A0D6NDD0
#=GS A0A0D6NDD0/12-200  OS Acetobacter indonesiensis 5H-1
#=GS A0A0D6NDD0/12-200  DE Ribonuclease D
#=GS A0A0D6NDD0/12-200  DR GENE3D; 41fb02fa030fdb9a811a4272116ce891/12-200; 
#=GS A0A0D6NDD0/12-200  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Acetobacter; Acetobacter indonesiensis; 
#=GS A0A0D6NDD0/12-200  DR EC; 3.1.13.5; 
#=GS A0A1E4DMD8/1-189   AC A0A1E4DMD8
#=GS A0A1E4DMD8/1-189   OS Methylobacterium sp. SCN 67-24
#=GS A0A1E4DMD8/1-189   DE Ribonuclease D
#=GS A0A1E4DMD8/1-189   DR GENE3D; 42065d1c12d5a3a7ded5d2a80c539fd0/1-189; 
#=GS A0A1E4DMD8/1-189   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Methylobacterium; Methylobacterium sp. SCN 67-24; 
#=GS A0A1E4DMD8/1-189   DR EC; 3.1.13.5; 
#=GS A0A1H1ZSC0/3-195   AC A0A1H1ZSC0
#=GS A0A1H1ZSC0/3-195   OS Pseudomonas chlororaphis
#=GS A0A1H1ZSC0/3-195   DE Ribonuclease D
#=GS A0A1H1ZSC0/3-195   DR GENE3D; 422fcd45074931f1f0a5e7206ad5d087/3-195; 
#=GS A0A1H1ZSC0/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas chlororaphis group; Pseudomonas chlororaphis; 
#=GS A0A1H1ZSC0/3-195   DR EC; 3.1.13.5; 
#=GS A0A0F3U0W1/1-190   AC A0A0F3U0W1
#=GS A0A0F3U0W1/1-190   OS Escherichia coli
#=GS A0A0F3U0W1/1-190   DE Ribonuclease D
#=GS A0A0F3U0W1/1-190   DR GENE3D; 4253f3e233997a8985952e4a7eabfb0c/1-190; 
#=GS A0A0F3U0W1/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A0F3U0W1/1-190   DR EC; 3.1.13.5; 
#=GS A0A023YY35/1-190   AC A0A023YY35
#=GS A0A023YY35/1-190   OS Escherichia coli O145:H28 str. RM12581
#=GS A0A023YY35/1-190   DE Ribonuclease D
#=GS A0A023YY35/1-190   DR GENE3D; 4253f3e233997a8985952e4a7eabfb0c/1-190; 
#=GS A0A023YY35/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A023YY35/1-190   DR EC; 3.1.13.5; 
#=GS A0A025CPC1/1-190   AC A0A025CPC1
#=GS A0A025CPC1/1-190   OS Escherichia coli O145:NM str. 2010C-3526
#=GS A0A025CPC1/1-190   DE Ribonuclease D
#=GS A0A025CPC1/1-190   DR GENE3D; 4253f3e233997a8985952e4a7eabfb0c/1-190; 
#=GS A0A025CPC1/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A025CPC1/1-190   DR EC; 3.1.13.5; 
#=GS A0A0C5SIB7/3-195   AC A0A0C5SIB7
#=GS A0A0C5SIB7/3-195   OS Pseudomonas putida S13.1.2
#=GS A0A0C5SIB7/3-195   DE Ribonuclease D
#=GS A0A0C5SIB7/3-195   DR GENE3D; 4258317d598b7b9db2164fb43b793101/3-195; 
#=GS A0A0C5SIB7/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; 
#=GS A0A0C5SIB7/3-195   DR EC; 3.1.13.5; 
#=GS A0A059DNM0/1-197   AC A0A059DNM0
#=GS A0A059DNM0/1-197   OS Hyphomonas sp. CY54-11-8
#=GS A0A059DNM0/1-197   DE Ribonuclease D
#=GS A0A059DNM0/1-197   DR GENE3D; 426b7c00a32c5165f3fdcb29864987d9/1-197; 
#=GS A0A059DNM0/1-197   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Hyphomonadaceae; Hyphomonas; Hyphomonas sp. CY54-11-8; 
#=GS A0A059DNM0/1-197   DR EC; 3.1.13.5; 
#=GS A0A0R3MJ86/1-191   AC A0A0R3MJ86
#=GS A0A0R3MJ86/1-191   OS Bradyrhizobium retamae
#=GS A0A0R3MJ86/1-191   DE Ribonuclease D
#=GS A0A0R3MJ86/1-191   DR GENE3D; 427409ee469f94a86ff738d9d02df72f/1-191; 
#=GS A0A0R3MJ86/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium retamae; 
#=GS A0A0R3MJ86/1-191   DR EC; 3.1.13.5; 
#=GS I4YWZ8/1-192       AC I4YWZ8
#=GS I4YWZ8/1-192       OS Microvirga lotononidis
#=GS I4YWZ8/1-192       DE Ribonuclease D
#=GS I4YWZ8/1-192       DR GENE3D; 429d9ff81bb8e49aeb52e4c1c13e42bf/1-192; 
#=GS I4YWZ8/1-192       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Microvirga; Microvirga lotononidis; 
#=GS I4YWZ8/1-192       DR EC; 3.1.13.5; 
#=GS R8WUC8/1-190       AC R8WUC8
#=GS R8WUC8/1-190       OS Citrobacter sp. KTE151
#=GS R8WUC8/1-190       DE Ribonuclease D
#=GS R8WUC8/1-190       DR GENE3D; 42aedd8d5b8a99b10bd73746b34cc5a3/1-190; 
#=GS R8WUC8/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Citrobacter; Citrobacter sp. KTE151; 
#=GS R8WUC8/1-190       DR EC; 3.1.13.5; 
#=GS A0A1E7DCR1/1-194   AC A0A1E7DCR1
#=GS A0A1E7DCR1/1-194   OS Alteromonas macleodii
#=GS A0A1E7DCR1/1-194   DE Ribonuclease D
#=GS A0A1E7DCR1/1-194   DR GENE3D; 42c4979584f732b84bb25d39b5ae337b/1-194; 
#=GS A0A1E7DCR1/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Alteromonadaceae; Alteromonas; Alteromonas macleodii; 
#=GS A0A1E7DCR1/1-194   DR EC; 3.1.13.5; 
#=GS B7KS94/1-191       AC B7KS94
#=GS B7KS94/1-191       OS Methylobacterium extorquens CM4
#=GS B7KS94/1-191       DE Ribonuclease D
#=GS B7KS94/1-191       DR GENE3D; 42c87f5bdda5ec15db7178b1749daf3b/1-191; 
#=GS B7KS94/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Methylobacterium; Methylobacterium extorquens group; Methylobacterium extorquens; 
#=GS B7KS94/1-191       DR EC; 3.1.13.5; 
#=GS A0A0Q4WS21/1-191   AC A0A0Q4WS21
#=GS A0A0Q4WS21/1-191   OS Methylobacterium sp. Leaf90
#=GS A0A0Q4WS21/1-191   DE Ribonuclease D
#=GS A0A0Q4WS21/1-191   DR GENE3D; 42c87f5bdda5ec15db7178b1749daf3b/1-191; 
#=GS A0A0Q4WS21/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Methylobacterium; Methylobacterium sp. Leaf90; 
#=GS A0A0Q4WS21/1-191   DR EC; 3.1.13.5; 
#=GS A0A0S9K845/1-191   AC A0A0S9K845
#=GS A0A0S9K845/1-191   OS Methylobacterium sp. Leaf92
#=GS A0A0S9K845/1-191   DE Ribonuclease D
#=GS A0A0S9K845/1-191   DR GENE3D; 42c87f5bdda5ec15db7178b1749daf3b/1-191; 
#=GS A0A0S9K845/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Methylobacterium; Methylobacterium sp. Leaf92; 
#=GS A0A0S9K845/1-191   DR EC; 3.1.13.5; 
#=GS A0YC02/13-203      AC A0YC02
#=GS A0YC02/13-203      OS marine gamma proteobacterium HTCC2143
#=GS A0YC02/13-203      DE Ribonuclease D
#=GS A0YC02/13-203      DR GENE3D; 42ce09b42fb5b0dad680a8451560c288/13-203; 
#=GS A0YC02/13-203      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cellvibrionales; Spongiibacteraceae; marine gamma proteobacterium HTCC2143; 
#=GS A0YC02/13-203      DR EC; 3.1.13.5; 
#=GS A0A0N1RV29/1-194   AC A0A0N1RV29
#=GS A0A0N1RV29/1-194   OS Pantoea ananatis PA13
#=GS A0A0N1RV29/1-194   DE Ribonuclease D
#=GS A0A0N1RV29/1-194   DR GENE3D; 42e543ceb495975dd4f8e0b1817a0a8e/1-194; 
#=GS A0A0N1RV29/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Erwiniaceae; Pantoea; Pantoea ananatis; 
#=GS A0A0N1RV29/1-194   DR EC; 3.1.13.5; 
#=GS D1NZ56/1-194       AC D1NZ56
#=GS D1NZ56/1-194       OS Providencia rustigianii DSM 4541
#=GS D1NZ56/1-194       DE Ribonuclease D
#=GS D1NZ56/1-194       DR GENE3D; 437085b70bbcbf7623db4ee6a2e907b5/1-194; 
#=GS D1NZ56/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Morganellaceae; Providencia; Providencia rustigianii; 
#=GS D1NZ56/1-194       DR EC; 3.1.13.5; 
#=GS A0A0Q6KVB7/4-194   AC A0A0Q6KVB7
#=GS A0A0Q6KVB7/4-194   OS Sphingomonas sp. Leaf339
#=GS A0A0Q6KVB7/4-194   DE Ribonuclease D
#=GS A0A0Q6KVB7/4-194   DR GENE3D; 439db12c184484ef32705a3a6b7eccc9/4-194; 
#=GS A0A0Q6KVB7/4-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingomonas; Sphingomonas sp. Leaf339; 
#=GS A0A0Q6KVB7/4-194   DR EC; 3.1.13.5; 
#=GS N2BPA9/1-187       AC N2BPA9
#=GS N2BPA9/1-187       OS Atopobium minutum 10063974
#=GS N2BPA9/1-187       DE Ribonuclease D
#=GS N2BPA9/1-187       DR GENE3D; 43a3a9d0ec4e42deb01d1e1607d5913e/1-187; 
#=GS N2BPA9/1-187       DR ORG; Bacteria; Actinobacteria; Coriobacteriia; Coriobacteriales; Atopobiaceae; Atopobium; Atopobium minutum; 
#=GS N2BPA9/1-187       DR EC; 3.1.13.5; 
#=GS G8PYH7/3-195       AC G8PYH7
#=GS G8PYH7/3-195       OS Pseudomonas fluorescens F113
#=GS G8PYH7/3-195       DE Ribonuclease D
#=GS G8PYH7/3-195       DR GENE3D; 43c85d7297950587dd1c79daa48129fe/3-195; 
#=GS G8PYH7/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; 
#=GS G8PYH7/3-195       DR EC; 3.1.13.5; 
#=GS A0A0F5ZWY9/1-193   AC A0A0F5ZWY9
#=GS A0A0F5ZWY9/1-193   OS Grimontia sp. AD028
#=GS A0A0F5ZWY9/1-193   DE Ribonuclease D
#=GS A0A0F5ZWY9/1-193   DR GENE3D; 43de2e06cc73d5b94a14e2605673b3a4/1-193; 
#=GS A0A0F5ZWY9/1-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Grimontia; Grimontia sp. AD028; 
#=GS A0A0F5ZWY9/1-193   DR EC; 3.1.13.5; 
#=GS A0A0F5EYH2/14-206  AC A0A0F5EYH2
#=GS A0A0F5EYH2/14-206  OS Avibacterium paragallinarum
#=GS A0A0F5EYH2/14-206  DE Ribonuclease D
#=GS A0A0F5EYH2/14-206  DR GENE3D; 43ea4e4cc35142b0f588334237c6a2fa/14-206; 
#=GS A0A0F5EYH2/14-206  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Avibacterium; Avibacterium paragallinarum; 
#=GS A0A0F5EYH2/14-206  DR EC; 3.1.13.5; 
#=GS A0A0M7AJ14/1-191   AC A0A0M7AJ14
#=GS A0A0M7AJ14/1-191   OS Labrenzia alexandrii
#=GS A0A0M7AJ14/1-191   DE Ribonuclease D
#=GS A0A0M7AJ14/1-191   DR GENE3D; 43f50191db2256f37bd85fa0dde8ebc8/1-191; 
#=GS A0A0M7AJ14/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Labrenzia; Labrenzia alexandrii; 
#=GS A0A0M7AJ14/1-191   DR EC; 3.1.13.5; 
#=GS G6XF32/14-202      AC G6XF32
#=GS G6XF32/14-202      OS Gluconobacter morbifer G707
#=GS G6XF32/14-202      DE Ribonuclease D
#=GS G6XF32/14-202      DR GENE3D; 441fc70b6ba59c1669d0044ba327f1c7/14-202; 
#=GS G6XF32/14-202      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Acetobacteraceae; Gluconobacter; Gluconobacter morbifer; 
#=GS G6XF32/14-202      DR EC; 3.1.13.5; 
#=GS A0A147EBU1/4-195   AC A0A147EBU1
#=GS A0A147EBU1/4-195   OS Novosphingobium barchaimii
#=GS A0A147EBU1/4-195   DE Ribonuclease D
#=GS A0A147EBU1/4-195   DR GENE3D; 44386ead30d16387dfb67c6155df2bb3/4-195; 
#=GS A0A147EBU1/4-195   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Novosphingobium; Novosphingobium barchaimii; 
#=GS A0A147EBU1/4-195   DR EC; 3.1.13.5; 
#=GS A0A0W0NIC9/3-195   AC A0A0W0NIC9
#=GS A0A0W0NIC9/3-195   OS Pseudomonas putida
#=GS A0A0W0NIC9/3-195   DE Ribonuclease D
#=GS A0A0W0NIC9/3-195   DR GENE3D; 445ec4f7d73819a8086be24f2d935f48/3-195; 
#=GS A0A0W0NIC9/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; 
#=GS A0A0W0NIC9/3-195   DR EC; 3.1.13.5; 
#=GS F0EEB4/3-195       AC F0EEB4
#=GS F0EEB4/3-195       OS Pseudomonas sp. TJI-51
#=GS F0EEB4/3-195       DE Ribonuclease D
#=GS F0EEB4/3-195       DR GENE3D; 4499902a8a28b1f0556b671cc67b6ec0/3-195; 
#=GS F0EEB4/3-195       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. TJI-51; 
#=GS F0EEB4/3-195       DR EC; 3.1.13.5; 
#=GS A0A177YY38/3-195   AC A0A177YY38
#=GS A0A177YY38/3-195   OS Pseudomonas putida
#=GS A0A177YY38/3-195   DE Ribonuclease D
#=GS A0A177YY38/3-195   DR GENE3D; 4499902a8a28b1f0556b671cc67b6ec0/3-195; 
#=GS A0A177YY38/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; 
#=GS A0A177YY38/3-195   DR EC; 3.1.13.5; 
#=GS A0A0Q8FSU7/1-189   AC A0A0Q8FSU7
#=GS A0A0Q8FSU7/1-189   OS Caulobacter sp. Root656
#=GS A0A0Q8FSU7/1-189   DE Ribonuclease D
#=GS A0A0Q8FSU7/1-189   DR GENE3D; 44b8b9d0b5fffc484de819ac9e3a1fca/1-189; 
#=GS A0A0Q8FSU7/1-189   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Caulobacterales; Caulobacteraceae; Caulobacter; Caulobacter sp. Root656; 
#=GS A0A0Q8FSU7/1-189   DR EC; 3.1.13.5; 
#=GS A0A1B3CHD7/3-195   AC A0A1B3CHD7
#=GS A0A1B3CHD7/3-195   OS Pseudomonas corrugata
#=GS A0A1B3CHD7/3-195   DE Ribonuclease D
#=GS A0A1B3CHD7/3-195   DR GENE3D; 44b8d9f86d07ca244b6b7d1b1da3aaa4/3-195; 
#=GS A0A1B3CHD7/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas corrugata; 
#=GS A0A1B3CHD7/3-195   DR EC; 3.1.13.5; 
#=GS A0A1B1A1D1/1-194   AC A0A1B1A1D1
#=GS A0A1B1A1D1/1-194   OS Ruegeria mobilis F1926
#=GS A0A1B1A1D1/1-194   DE Ribonuclease D
#=GS A0A1B1A1D1/1-194   DR GENE3D; 44bcdbe3731c1e502a8f8a569c089cb9/1-194; 
#=GS A0A1B1A1D1/1-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Ruegeria; Ruegeria mobilis; 
#=GS A0A1B1A1D1/1-194   DR EC; 3.1.13.5; 
#=GS Q1Z5L6/1-194       AC Q1Z5L6
#=GS Q1Z5L6/1-194       OS Photobacterium profundum 3TCK
#=GS Q1Z5L6/1-194       DE Ribonuclease D
#=GS Q1Z5L6/1-194       DR GENE3D; 44c4ce2f98fb561f7f18a0a8a1530f5c/1-194; 
#=GS Q1Z5L6/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium profundum; 
#=GS Q1Z5L6/1-194       DR EC; 3.1.13.5; 
#=GS A0A0K2W519/1-191   AC A0A0K2W519
#=GS A0A0K2W519/1-191   OS Mesorhizobium plurifarium
#=GS A0A0K2W519/1-191   DE Ribonuclease D
#=GS A0A0K2W519/1-191   DR GENE3D; 44c694452987c5814f7e867b500fe6f5/1-191; 
#=GS A0A0K2W519/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium plurifarium; 
#=GS A0A0K2W519/1-191   DR EC; 3.1.13.5; 
#=GS I2JMV4/7-197       AC I2JMV4
#=GS I2JMV4/7-197       OS gamma proteobacterium BDW918
#=GS I2JMV4/7-197       DE Ribonuclease D
#=GS I2JMV4/7-197       DR GENE3D; 44e4eba8845e749bb72fb2bef3d4a85e/7-197; 
#=GS I2JMV4/7-197       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cellvibrionales; Spongiibacteraceae; gamma proteobacterium BDW918; 
#=GS I2JMV4/7-197       DR EC; 3.1.13.5; 
#=GS A0A127M4M0/7-197   AC A0A127M4M0
#=GS A0A127M4M0/7-197   OS Zhongshania aliphaticivorans
#=GS A0A127M4M0/7-197   DE Ribonuclease D
#=GS A0A127M4M0/7-197   DR GENE3D; 44e4eba8845e749bb72fb2bef3d4a85e/7-197; 
#=GS A0A127M4M0/7-197   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cellvibrionales; Spongiibacteraceae; Zhongshania; Zhongshania aliphaticivorans; 
#=GS A0A127M4M0/7-197   DR EC; 3.1.13.5; 
#=GS A0A0C2HUY7/1-194   AC A0A0C2HUY7
#=GS A0A0C2HUY7/1-194   OS Phaeobacter sp. S26
#=GS A0A0C2HUY7/1-194   DE Ribonuclease D
#=GS A0A0C2HUY7/1-194   DR GENE3D; 44fb50ebaa564a9369c448f72fe59cab/1-194; 
#=GS A0A0C2HUY7/1-194   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Phaeobacter; Phaeobacter sp. S26; 
#=GS A0A0C2HUY7/1-194   DR EC; 3.1.13.5; 
#=GS T0HT81/4-195       AC T0HT81
#=GS T0HT81/4-195       OS Sphingobium baderi LL03
#=GS T0HT81/4-195       DE Ribonuclease D
#=GS T0HT81/4-195       DR GENE3D; 4513f154c448470c1978e490322102eb/4-195; 
#=GS T0HT81/4-195       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Sphingomonadaceae; Sphingobium; Sphingobium baderi; 
#=GS T0HT81/4-195       DR EC; 3.1.13.5; 
#=GS A0A0Q7W9J3/1-191   AC A0A0Q7W9J3
#=GS A0A0Q7W9J3/1-191   OS Mesorhizobium sp. Root552
#=GS A0A0Q7W9J3/1-191   DE Ribonuclease D
#=GS A0A0Q7W9J3/1-191   DR GENE3D; 453056915587f11718676d07f6368999/1-191; 
#=GS A0A0Q7W9J3/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Phyllobacteriaceae; Mesorhizobium; Mesorhizobium sp. Root552; 
#=GS A0A0Q7W9J3/1-191   DR EC; 3.1.13.5; 
#=GS A3X1L0/39-229      AC A3X1L0
#=GS A3X1L0/39-229      OS Nitrobacter sp. Nb-311A
#=GS A3X1L0/39-229      DE Ribonuclease D
#=GS A3X1L0/39-229      DR GENE3D; 45528b6d2cd63b49cb9e68bbca204b22/39-229; 
#=GS A3X1L0/39-229      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Nitrobacter; Nitrobacter sp. Nb-311A; 
#=GS A3X1L0/39-229      DR EC; 3.1.13.5; 
#=GS U1JGU3/1-193       AC U1JGU3
#=GS U1JGU3/1-193       OS Pseudoalteromonas arctica A 37-1-2
#=GS U1JGU3/1-193       DE Ribonuclease D
#=GS U1JGU3/1-193       DR GENE3D; 455fa8f469a40e5b12daeaa82d492a67/1-193; 
#=GS U1JGU3/1-193       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas arctica; 
#=GS U1JGU3/1-193       DR EC; 3.1.13.5; 
#=GS A0A1B3A1L7/1-194   AC A0A1B3A1L7
#=GS A0A1B3A1L7/1-194   OS Klebsiella pneumoniae
#=GS A0A1B3A1L7/1-194   DE Ribonuclease D
#=GS A0A1B3A1L7/1-194   DR GENE3D; 45b08fae09ca3805e6961cf58e106e79/1-194; 
#=GS A0A1B3A1L7/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella pneumoniae; 
#=GS A0A1B3A1L7/1-194   DR EC; 3.1.13.5; 
#=GS A3D3Q8/3-193       AC A3D3Q8
#=GS A3D3Q8/3-193       OS Shewanella baltica OS155
#=GS A3D3Q8/3-193       DE Ribonuclease D
#=GS A3D3Q8/3-193       DR GENE3D; 45ca540cb265525d823e602a51235c7d/3-193; 
#=GS A3D3Q8/3-193       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella baltica; 
#=GS A3D3Q8/3-193       DR EC; 3.1.13.5; 
#=GS A0A0P7D6W8/1-193   AC A0A0P7D6W8
#=GS A0A0P7D6W8/1-193   OS Pseudoalteromonas lipolytica
#=GS A0A0P7D6W8/1-193   DE Ribonuclease D
#=GS A0A0P7D6W8/1-193   DR GENE3D; 46885d50d2580137fd7b37cd4cdfb893/1-193; 
#=GS A0A0P7D6W8/1-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas lipolytica; 
#=GS A0A0P7D6W8/1-193   DR EC; 3.1.13.5; 
#=GS A0A1B8QZL8/10-201  AC A0A1B8QZL8
#=GS A0A1B8QZL8/10-201  OS Haemophilus sp. CCUG 60358
#=GS A0A1B8QZL8/10-201  DE Ribonuclease D
#=GS A0A1B8QZL8/10-201  DR GENE3D; 468a19244e8a3a31cfe76ad85afea52c/10-201; 
#=GS A0A1B8QZL8/10-201  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pasteurellales; Pasteurellaceae; Haemophilus; Haemophilus sp. CCUG 60358; 
#=GS A0A1B8QZL8/10-201  DR EC; 3.1.13.5; 
#=GS A0A0M0HPF6/1-194   AC A0A0M0HPF6
#=GS A0A0M0HPF6/1-194   OS Vibrio nereis
#=GS A0A0M0HPF6/1-194   DE Ribonuclease D
#=GS A0A0M0HPF6/1-194   DR GENE3D; 468deb6b4f80f7ed0d7265b3a2bec021/1-194; 
#=GS A0A0M0HPF6/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio nereis; 
#=GS A0A0M0HPF6/1-194   DR EC; 3.1.13.5; 
#=GS A0A0H6VMX2/1-194   AC A0A0H6VMX2
#=GS A0A0H6VMX2/1-194   OS Vibrio cholerae
#=GS A0A0H6VMX2/1-194   DE Ribonuclease D
#=GS A0A0H6VMX2/1-194   DR GENE3D; 46ccf35f57a1ef9ddef0ebea65029ec5/1-194; 
#=GS A0A0H6VMX2/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A0H6VMX2/1-194   DR EC; 3.1.13.5; 
#=GS Q1ZP15/1-194       AC Q1ZP15
#=GS Q1ZP15/1-194       OS Photobacterium angustum S14
#=GS Q1ZP15/1-194       DE Ribonuclease D
#=GS Q1ZP15/1-194       DR GENE3D; 470366a60799111cfe60b698acdef72c/1-194; 
#=GS Q1ZP15/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium angustum; 
#=GS Q1ZP15/1-194       DR EC; 3.1.13.5; 
#=GS G5PM70/1-190       AC G5PM70
#=GS G5PM70/1-190       OS Salmonella enterica subsp. enterica serovar Mississippi str. A4-633
#=GS G5PM70/1-190       DE Ribonuclease D
#=GS G5PM70/1-190       DR GENE3D; 470a9b5764b644924d472591c367d320/1-190; 
#=GS G5PM70/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Salmonella; Salmonella enterica; Salmonella enterica subsp. enterica; 
#=GS G5PM70/1-190       DR EC; 3.1.13.5; 
#=GS J3F4D3/3-194       AC J3F4D3
#=GS J3F4D3/3-194       OS Pseudomonas sp. GM25
#=GS J3F4D3/3-194       DE Ribonuclease D
#=GS J3F4D3/3-194       DR GENE3D; 470cf765b8f92662b4b87e0ef2577892/3-194; 
#=GS J3F4D3/3-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. GM25; 
#=GS J3F4D3/3-194       DR EC; 3.1.13.5; 
#=GS Q3KGH5/3-194       AC Q3KGH5
#=GS Q3KGH5/3-194       OS Pseudomonas fluorescens Pf0-1
#=GS Q3KGH5/3-194       DE Ribonuclease D
#=GS Q3KGH5/3-194       DR GENE3D; 470cf765b8f92662b4b87e0ef2577892/3-194; 
#=GS Q3KGH5/3-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas fluorescens group; Pseudomonas fluorescens; 
#=GS Q3KGH5/3-194       DR EC; 3.1.13.5; 
#=GS A0A173IXU1/3-194   AC A0A173IXU1
#=GS A0A173IXU1/3-194   OS Pseudomonas sp. DR 5-09
#=GS A0A173IXU1/3-194   DE Ribonuclease D
#=GS A0A173IXU1/3-194   DR GENE3D; 470cf765b8f92662b4b87e0ef2577892/3-194; 
#=GS A0A173IXU1/3-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. DR 5-09; 
#=GS A0A173IXU1/3-194   DR EC; 3.1.13.5; 
#=GS A0A0M3BU54/1-188   AC A0A0M3BU54
#=GS A0A0M3BU54/1-188   OS Rhizobium sp. LC145
#=GS A0A0M3BU54/1-188   DE Ribonuclease D
#=GS A0A0M3BU54/1-188   DR GENE3D; 47287871617271ae813f2ce156de4784/1-188; 
#=GS A0A0M3BU54/1-188   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. LC145; 
#=GS A0A0M3BU54/1-188   DR EC; 3.1.13.5; 
#=GS A0A1B5EY77/3-195   AC A0A1B5EY77
#=GS A0A1B5EY77/3-195   OS Pseudomonas sp. 22 E 5
#=GS A0A1B5EY77/3-195   DE Ribonuclease D
#=GS A0A1B5EY77/3-195   DR GENE3D; 473cb4bbf83bfb727699dc7ae3499aad/3-195; 
#=GS A0A1B5EY77/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. 22 E 5; 
#=GS A0A1B5EY77/3-195   DR EC; 3.1.13.5; 
#=GS A0A1B2ELD1/1-193   AC A0A1B2ELD1
#=GS A0A1B2ELD1/1-193   OS Microvirga ossetica
#=GS A0A1B2ELD1/1-193   DE Ribonuclease D
#=GS A0A1B2ELD1/1-193   DR GENE3D; 473de02dbcd10d839b9061e1ed32bc10/1-193; 
#=GS A0A1B2ELD1/1-193   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Methylobacteriaceae; Microvirga; Microvirga ossetica; 
#=GS A0A1B2ELD1/1-193   DR EC; 3.1.13.5; 
#=GS A0A0D8D0X2/1-183   AC A0A0D8D0X2
#=GS A0A0D8D0X2/1-183   OS Thalassomonas actiniarum
#=GS A0A0D8D0X2/1-183   DE Ribonuclease D
#=GS A0A0D8D0X2/1-183   DR GENE3D; 4742082e087cfab12f11df4a39dd30ce/1-183; 
#=GS A0A0D8D0X2/1-183   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Colwelliaceae; Thalassomonas; Thalassomonas actiniarum; 
#=GS A0A0D8D0X2/1-183   DR EC; 3.1.13.5; 
#=GS A0A0D7PLD5/1-191   AC A0A0D7PLD5
#=GS A0A0D7PLD5/1-191   OS Bradyrhizobium sp. LTSP885
#=GS A0A0D7PLD5/1-191   DE Ribonuclease D
#=GS A0A0D7PLD5/1-191   DR GENE3D; 47657dc106c9d3f5f6de743c309063cb/1-191; 
#=GS A0A0D7PLD5/1-191   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium sp. LTSP885; 
#=GS A0A0D7PLD5/1-191   DR EC; 3.1.13.5; 
#=GS K2LE44/1-177       AC K2LE44
#=GS K2LE44/1-177       OS Thalassospira profundimaris WP0211
#=GS K2LE44/1-177       DE Ribonuclease D
#=GS K2LE44/1-177       DR GENE3D; 476ade90425d0bcdccc08649876f0e42/1-177; 
#=GS K2LE44/1-177       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Thalassospira; Thalassospira profundimaris; 
#=GS K2LE44/1-177       DR EC; 3.1.13.5; 
#=GS A0A1E3YI13/1-190   AC A0A1E3YI13
#=GS A0A1E3YI13/1-190   OS Agrobacterium sp. SCN 61-19
#=GS A0A1E3YI13/1-190   DE Ribonuclease D
#=GS A0A1E3YI13/1-190   DR GENE3D; 4771294922c42819acc7b1b1f582dda9/1-190; 
#=GS A0A1E3YI13/1-190   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Agrobacterium; Agrobacterium sp. SCN 61-19; 
#=GS A0A1E3YI13/1-190   DR EC; 3.1.13.5; 
#=GS A0A1E4ENK0/2-199   AC A0A1E4ENK0
#=GS A0A1E4ENK0/2-199   OS Paracoccus sp. SCN 68-21
#=GS A0A1E4ENK0/2-199   DE Ribonuclease D
#=GS A0A1E4ENK0/2-199   DR GENE3D; 47782a0ab98a417177dd32ea1b82ac49/2-199; 
#=GS A0A1E4ENK0/2-199   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Paracoccus; Paracoccus sp. SCN 68-21; 
#=GS A0A1E4ENK0/2-199   DR EC; 3.1.13.5; 
#=GS A0A0D5WUZ2/1-190   AC A0A0D5WUZ2
#=GS A0A0D5WUZ2/1-190   OS Klebsiella michiganensis
#=GS A0A0D5WUZ2/1-190   DE Ribonuclease D
#=GS A0A0D5WUZ2/1-190   DR GENE3D; 4797d7ab5af7ad684b73d4c93bb01767/1-190; 
#=GS A0A0D5WUZ2/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Klebsiella; Klebsiella michiganensis; 
#=GS A0A0D5WUZ2/1-190   DR EC; 3.1.13.5; 
#=GS U3HQF0/3-194       AC U3HQF0
#=GS U3HQF0/3-194       OS Pseudomonas stutzeri MF28
#=GS U3HQF0/3-194       DE Ribonuclease D
#=GS U3HQF0/3-194       DR GENE3D; 4797f6edc9e2c21db745bc60d2f4b2e0/3-194; 
#=GS U3HQF0/3-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; 
#=GS U3HQF0/3-194       DR EC; 3.1.13.5; 
#=GS A0A0M4M381/3-195   AC A0A0M4M381
#=GS A0A0M4M381/3-195   OS Altererythrobacter epoxidivorans
#=GS A0A0M4M381/3-195   DE Ribonuclease D
#=GS A0A0M4M381/3-195   DR GENE3D; 47d0b9f4b9fa84e9b14b9975fbec108b/3-195; 
#=GS A0A0M4M381/3-195   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Sphingomonadales; Erythrobacteraceae; Altererythrobacter; Altererythrobacter epoxidivorans; 
#=GS A0A0M4M381/3-195   DR EC; 3.1.13.5; 
#=GS A8GFH0/1-194       AC A8GFH0
#=GS A8GFH0/1-194       OS Serratia proteamaculans 568
#=GS A8GFH0/1-194       DE Ribonuclease D
#=GS A8GFH0/1-194       DR GENE3D; 47d195547d514feb4136f5277161b0c6/1-194; 
#=GS A8GFH0/1-194       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Yersiniaceae; Serratia; Serratia proteamaculans; 
#=GS A8GFH0/1-194       DR EC; 3.1.13.5; 
#=GS A0A0P7BZP3/3-195   AC A0A0P7BZP3
#=GS A0A0P7BZP3/3-195   OS Pseudomonas putida
#=GS A0A0P7BZP3/3-195   DE Ribonuclease D
#=GS A0A0P7BZP3/3-195   DR GENE3D; 47ea4f5656a39376ff5775ac2537e985/3-195; 
#=GS A0A0P7BZP3/3-195   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas putida; 
#=GS A0A0P7BZP3/3-195   DR EC; 3.1.13.5; 
#=GS I2S3W8/1-190       AC I2S3W8
#=GS I2S3W8/1-190       OS Escherichia coli 97.0246
#=GS I2S3W8/1-190       DE Ribonuclease D
#=GS I2S3W8/1-190       DR GENE3D; 47fa103466b1392eada98c9b9726a874/1-190; 
#=GS I2S3W8/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS I2S3W8/1-190       DR EC; 3.1.13.5; 
#=GS A0A070D339/1-190   AC A0A070D339
#=GS A0A070D339/1-190   OS Escherichia coli O145:H25 str. 07-3858
#=GS A0A070D339/1-190   DE Ribonuclease D
#=GS A0A070D339/1-190   DR GENE3D; 47fa103466b1392eada98c9b9726a874/1-190; 
#=GS A0A070D339/1-190   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS A0A070D339/1-190   DR EC; 3.1.13.5; 
#=GS A0A0Q2UYQ2/1-194   AC A0A0Q2UYQ2
#=GS A0A0Q2UYQ2/1-194   OS Vibrio furnissii
#=GS A0A0Q2UYQ2/1-194   DE Ribonuclease D
#=GS A0A0Q2UYQ2/1-194   DR GENE3D; 48090c92ebeeeec50223bdc47503964c/1-194; 
#=GS A0A0Q2UYQ2/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio furnissii; 
#=GS A0A0Q2UYQ2/1-194   DR EC; 3.1.13.5; 
#=GS Q07LH3/1-191       AC Q07LH3
#=GS Q07LH3/1-191       OS Rhodopseudomonas palustris BisA53
#=GS Q07LH3/1-191       DE Ribonuclease D
#=GS Q07LH3/1-191       DR GENE3D; 48770244f18be9682c6769e136093274/1-191; 
#=GS Q07LH3/1-191       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Rhodopseudomonas; Rhodopseudomonas palustris; 
#=GS Q07LH3/1-191       DR EC; 3.1.13.5; 
#=GS A0A174LYZ6/1-189   AC A0A174LYZ6
#=GS A0A174LYZ6/1-189   OS Collinsella aerofaciens
#=GS A0A174LYZ6/1-189   DE Ribonuclease D
#=GS A0A174LYZ6/1-189   DR GENE3D; 4898e2bea48479b05ce4078c6c04295c/1-189; 
#=GS A0A174LYZ6/1-189   DR ORG; Bacteria; Actinobacteria; Coriobacteriia; Coriobacteriales; Coriobacteriaceae; Collinsella; Collinsella aerofaciens; 
#=GS A0A174LYZ6/1-189   DR EC; 3.1.13.5; 
#=GS Q47YC8/1-193       AC Q47YC8
#=GS Q47YC8/1-193       OS Colwellia psychrerythraea 34H
#=GS Q47YC8/1-193       DE Ribonuclease D
#=GS Q47YC8/1-193       DR GENE3D; 48e2e8861cadaacb5a62e71cd71226d9/1-193; 
#=GS Q47YC8/1-193       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Colwelliaceae; Colwellia; Colwellia psychrerythraea; 
#=GS Q47YC8/1-193       DR EC; 3.1.13.5; 
#=GS F4SZ32/1-190       AC F4SZ32
#=GS F4SZ32/1-190       OS Escherichia coli M605
#=GS F4SZ32/1-190       DE Ribonuclease D
#=GS F4SZ32/1-190       DR GENE3D; 4909b64a9fb490d0e6f896afe3748b9d/1-190; 
#=GS F4SZ32/1-190       DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Enterobacterales; Enterobacteriaceae; Escherichia; Escherichia coli; 
#=GS F4SZ32/1-190       DR EC; 3.1.13.5; 
#=GS A0A095VD45/1-188   AC A0A095VD45
#=GS A0A095VD45/1-188   OS Rhizobium sp. YS-1r
#=GS A0A095VD45/1-188   DE Ribonuclease D
#=GS A0A095VD45/1-188   DR GENE3D; 4932bf5dc7643ec1903d3e9a19151d04/1-188; 
#=GS A0A095VD45/1-188   DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Rhizobiaceae; Rhizobium; Rhizobium sp. YS-1r; 
#=GS A0A095VD45/1-188   DR EC; 3.1.13.5; 
#=GS A0A0A5HUV0/1-194   AC A0A0A5HUV0
#=GS A0A0A5HUV0/1-194   OS Vibrio sinaloensis
#=GS A0A0A5HUV0/1-194   DE Ribonuclease D
#=GS A0A0A5HUV0/1-194   DR GENE3D; 494dcd8a5aecf369cd4284b3bbd82ccf/1-194; 
#=GS A0A0A5HUV0/1-194   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio sinaloensis; 
#=GS A0A0A5HUV0/1-194   DR EC; 3.1.13.5; 
#=GS A0A063KQD1/1-193   AC A0A063KQD1
#=GS A0A063KQD1/1-193   OS Pseudoalteromonas fuliginea
#=GS A0A063KQD1/1-193   DE Ribonuclease D
#=GS A0A063KQD1/1-193   DR GENE3D; 4995add1be00cccaca2731ef6b3df12d/1-193; 
#=GS A0A063KQD1/1-193   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Pseudoalteromonadaceae; Pseudoalteromonas; Pseudoalteromonas fuliginea; 
#=GS A0A063KQD1/1-193   DR EC; 3.1.13.5; 
#=GS A3JPA5/1-194       AC A3JPA5
#=GS A3JPA5/1-194       OS Rhodobacteraceae bacterium HTCC2150
#=GS A3JPA5/1-194       DE Ribonuclease D
#=GS A3JPA5/1-194       DR GENE3D; 499efe46612b409ab8608a8257d7ffb5/1-194; 
#=GS A3JPA5/1-194       DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodobacterales; Rhodobacteraceae; Rhodobacteraceae bacterium HTCC2150; 
#=GS A3JPA5/1-194       DR EC; 3.1.13.5; 
#=GF TC 203.7 1.4E-61
#=GF SQ 1000
1yt3A01/1-194              --------MNYQMITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
#=GR 1yt3A01/1-194     CSA --------___________________________0_0_________________-___-----------____________--__________-____________0_______-____-______________________________________________-________0___0_______________________________________-
A0A1L9EXR4/1-194           --------MNYQLITTDAGLQQVCEQARKHAQVALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLPIKH--WQPFVELLAD-TAVMKFLHAGSEDLEVFLNA-FKTL-PTPMIDTQILAAFTGRPLSCGFATLVAEYMKVELDKSESRTDWLAR-PLTERQCVYAAADVFYLLPMAKQLVQETEEAGWTAAASNECLLLCQRRSEAL-
A0A090SQW6/1-193           --------MEFQIVTEFAELESVCSKARESDVVMLDTEFVRIRTYYPKLGLIQLY-DGE-----------QLSLIDPLTISD--FTPFIELLKD-TSVLKVLHACGEDLEVFANS-FDCM-PYPMVDTQIMAAFLGHGLSTGFATLVQEYLDVELDKSESRADWVAR-PLTDKQLDYAAADVYYLWPLYFKLFAKVEAKEWWEAAQQESDLLMQKRGKT--
U2XR06/1-191               ----------MRLLTTTSELNQACAQFQTSRYVTIDTEFLREKTFWPKLCLIQIA-MPG-----------FEALIDPLA-EGIDMSGFFEILKN-PNILKVMHGCRQDIEIFHKE-AGII-PSPMMDTQVMAMVCGYGDSISYEALVKRIAQGTIDKGSRFTDWSRR-PLNNDQLTYALADVTYLRDIFENLENDLKKTGRLAWLSEEMDMLTNPETY---
P09155/1-194               --------MNYQMITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
Q8EE10/1-191               ---------MFQYVSDEASLNALVAQYQQSPLLVLDTEFVRTRTYYAKLGLIQAY-DGK-----------TLALIDPIALPD--LSAFWALLDN-PNIIKLVHSCSEDLEVFAHY-GQRQ-PTPLFDSQIAASLCGMGHGLGYAKLVETCLGEVIDKGESRTDWMRR-PLTDAQLSYAANDVLYLYQLYPQLAEKLQTQDRLDWLYEEGERMTEGRLA---
Q9KQL4/9-202               --------VNYQIISQVGDLQRVCLAARDADVVMLDTEFVRTRTFFPQLGLIQMF-DGE-----------NLSLIDPTVLDE--MTPFVELLQD-TSVLKVLHACGEDLEVFQNA-FGCT-PFPMVDTQIMAAFLGYGLSTGFAALVQDQLQVELDKSESRTDWLAR-PLSDKQLEYAAADVFYLLPMYEKLVEQVTQAGWWDAALQESELQVAKRTKVS-
Q8ZP09/1-194               --------MNYQMIETDDALASLCEAVRACPAIALDTEFVRTRTYYPQLGLIQLF-DGA-----------NVALIDPLGISD--WSPLKAVLRD-TGITKFLHAGSEDLEVFLNA-FGEL-PEPLIDTQILAAFCGRPLSWGFASMVEEYTGVALDKSESRTDWLAR-PLSERQCEYAAADVWYLLPIAKKLMIETEAAGWLPAALDECRLMQQRRQEIQ-
Q32FS7/1-194               --------MHYQMITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A3MZY2/5-198               --------IHYHWIDTDEKLKTVCENACRKSAVALDTEFIRTRSYYPKLGLIQLF-DGD-----------TVSLIDPNSISD--FSPFIGLLTC-QNVVKVLHACSEDLEVFQHL-FKQL-PTPLADTQIMAGFAGGGISLGFAKLVAHYLNVELDKGASRTDWLAR-PLTEEQLQYAAADVWYLLPVYQRLVSDLDATRWQNAVEQECRYLLSKRESVA-
Q2RSM2/1-190               ----------MPLISTTKDLADFCARLSTESFVTVDTEFMREKTYWPKLCLIQLA-GTT-----------EAHCVDPLA-PDIDMAPLFALMAN-ESVLKVFHAARQDLEIFLHE-SGHL-PKPIFDTQVAAMVCGFGDSVGYETLVAKLAKARIDKSMRFTDWARR-PLNDRQLVYAAGDVTHLRVVYERLAETLAANGRTAWLDQEMAILTDPAH----
Q7CZV4/1-190               ------------MIETTAALAEACTELAKSEFITIDTEFLRETTFWPELCLVQMA-SPT-----------LEVLVDPLA-KGIDLTPMFELMAN-PNVVKVFHAARQDIEIIYHL-GGLI-PHPIFDTQVAAMVCGFGDSISYDQLVQKIKNVQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDVYLSLKAQLEREGRSLWLTEEMNILESRDTYD--
B4EVV4/1-194               --------MNYQFITTNTALEDVCKAASEVSQIALDTEFVRIRTYYPHLGLIQMY-DGK-----------QISLIDPLTITE--WTPFVELLTN-PAVLKYLHAGSEDLEVFSHQ-FGCV-PTPMIDTQVVAAFLGYPISCGFATLVEKYEHIALDKSESRTDWLAR-PLTEKQCQYASGDVFYLLPLAKKLIAQAQEAGYMDAIVDECEMIAERRQETV-
A6TAX6/1-190               ------------MITTDDGLRAVCEAASTASAVALDTEFVRTRTYYPQLGLLQLF-DGQ-----------QVSLIDPLTIND--WAPMRDLLLN-QDVTKYLHAGSEDLEVFLNA-FNLM-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVALDKSESRTDWLAR-PLTERQCEYAAADVWYLLPIASQLMAETDRAGWLPAALDECRVMQQRRQEVV-
Q5E444/1-193               --------MEFEIVTQSQRLAEICQQASTKPFLMLDTEFVRTRTLYARLGLIQMF-DGE-----------TLALVDPVEIDD--LTPLWDLLKN-ESVTKVLHACGEDLEVFQHY-AGCM-PTPMIDTQIMAAFLGYGLSTGFAKLVSDYLGIELDKGEARTDWMAR-PLSDKQLHYAAADVHYLLPLFEKLQAELSQTQWEDAAYQESALAVKKREKQ--
Q9A7L8/1-188               ----------MKLITTTAELAAFCNGLAGEPFVAVDTEFMRETTYWPKLCLIQVA-SPT-----------QEAVIDPLA-DNIDLEPLLVVMRD-ERILKVFHAARQDVEIFNNL--KAM-PKPLFDTQVAGMAAGFGEQIAYDALVRQMLRIEIDKSSRFTDWARR-PLTDAQLSYALADVTHLAKLFPILRERLETSGRLAWVEEEMTAISDPA-----
Q89MQ7/1-191               ----------MDLITTTADLAAACSRLAKHPVITVDTEFLRETTYYPLLCVVQMA-SPE-----------EAIVIDTLA-VGIDLKPFFELMGN-EAVLKVFHAARQDIEIIWHQ-ANII-PHPVFDTQVAAMVLGYGDSIAYDQLVEKVTGHRPDKTHRFTDWSRR-PLTKEQMHYAVSDVTHLRDVFAALDADLKKRRRSEWVSIEMEVLTSPRTY---
A0A0H3CGR4/10-203          --------LNYQMITTNDELASLCEVTRDFPAIALDTEFVRTRTYYPQLGLIQMY-DGK-----------HVSLIDPLGITD--WTPMRDLLLD-TAVTKYLHAGSEDLEVFLNT-FGIM-PQPLIDTQILAAFSNRPLSWGFAAMVEEYTGLTLDKSESRTDWLAR-PLTERQLDYAAADVFYLLPIAGQLMKEAEASGWLPAALDECRMTQQRRQEIA-
C1DPN2/3-196               --------IDIHWIRDDASLASHCARWRQLPFVALDTEFVRVDTFYPQTGLVQVG-DGR-----------SAYLIDPLDIGD--WRPLAALLED-PAVVKVLHACSEDLEVLLRL-TGSL-PLPLFDTQLAAAYLNLGFSMGYSRLVQAVLGIELPKGETRSDWLQR-PLSELQIRYAAEDAVHLAELYVALGARLAED-KRAWTLEDGAELVANLRREVL
Q6G329/23-214              ---------MMKLITQTTDLEIALATLRNSDFVTIDTEFIRETTFWPQLCLIQLA-SPD-----------TTVLIDPIS-QDIDLKPFFDLMVN-KKIVKVFHAARQDIETIYHL-GGVI-PSPLFDTQIAGSICGFGDSISYDQIVQRCTGYQLDKSSRFTDWSFR-PLSEKQLLYALADVTYLRDVYLLLKKQLEKNKRTHWMDDEIAVLLEPKTY---
A1B391/12-211              ---------EIRTLSTTAELAEFCELAKAEPYVTLDTEFLRERTYYSKLCLIQAA-LPPASATK--AAGGLSVLIDPLV-EGLSLEPLYDLFRH-KPTVKVFHAARQDLEIFFHD-AGVM-PDPLFDTQIAAMVCGFGEQVGYETLVKKIARQPLDKSSRFTDWSHR-PLSDAQAAYALADVTHLRAIYEFLSAQLDKTGRAPWLAEEVAVLLNPET----
P44442/29-221              ---------HFRVVTDNTALLEVCNLAQQKSAVALDTEFMRVSTYFPKLGLIQLY-DGE-----------HVSLIDPLAITD--FSPFVALLAN-PKVLKILHSCSEDLLVFLQE-FDQL-PRPMIDTQIMARFLGLGTSAGLAKLAQQYLNVEIDKGATRTNWIKR-PLSDIQLQYAAGDVWYLLPLYHILEKELAKTPWEQAVRDDCELVLAKTHKLQ-
Q92QV7/1-190               ------------MIQTTADLEAACRELARSSYITIDTEFLRETTFWPVLCLIQMA-SPE-----------MAVIVDPMA-PGIDLAPFFALMSN-PDVVKVFHAARQDIEIIHHL-GNLI-PHPIFDTQVAAMVCGFGDSVSYDQLVNRIKNEQIDKSSRFTDWSRR-PLTDKQLDYALADVTHLRDIYQYLTKELDREGRSSWLAEEMAILESRETYD--
Q9CMV0/13-205              ---------HFQVITSDLALAEICYSAQQKAVIALDTEFVRIKTLYPQLGLIQLY-DGE-----------RVSLIDPTTIQD--FSPFIALLAN-TAVLKVLHACSEDLEVFQHS-FNQL-PTPMLDTQIMANFLGFPNSTGLATLVQHYFQLEIDKGASRTDWLAR-PLSDNQLIYAAADVWYLLPLYQRMQEALAQTRWQEAAQQDCEALLLKREQHK-
Q1MIW2/1-190               ------------MIQTTADLAAACKELAKSDFITIDTEFLRETTFWPELCLIQMA-SPT-----------TEVLVDPLA-KGIDLAPFFELMAD-TKVLKVFHAARQDIEIIFNR-GNLI-PHPIFDTQVAAMVCGFGDSVSYDQLVSRIKNVHIDKSSRFTDWSRR-PLSDKQLDYALADVTHLRDVYLSLKAELDREGRSSWLSEEMDILESRETYD--
C9R5F4/13-205              ---------HFSVVTDDAELARVCQAARQQSAVALDTEFVRVRTLYPKLGLIQMY-FGD-----------RVALIDPLPIQD--FSPFIKLLAD-TNLVKILHACSEDLDVFQHY-FQQL-PRPMCDTQVMAHFLGFAGSTGFATLVQHYFQIEIDKGASRTDWLAR-PLSDTQLQYAAADVWYLLPLYEQMQQQLTQTEWQSVVENECEFLLNKRAQTT-
Q57DZ9/1-192               ----------MQLITTTEALEEAVSALAKSDFVTVDTEFIRETTFWPELCLIQMA-SPD-----------HTALVDALA-PGLDLAPFFRLMAD-EEIVKVFHAARQDIEIVFHL-GNLI-PSPVFDTQVAAMVCGFGDAISYDQLVQKVTGKHLDKSSRFTDWRRR-PLSDKQLDYALADVTYLRDIYLYLKEELQKEGRSEWVNEEMAVLTARQTYD--
Q3J515/1-194               ----------MQTITTTEALAAFCEAAKAEPYVTIDTEFLRERTYWSKLCLIQMA-LPG--------KTGEAVLVDPIEGPDMSLEPLYDLFRH-EATVKVFHAARQDLEIFFVE-GRAF-PVPLFDTQVAAMVCGFGEQVGYETLVKKIAREQLDKTSRFTDWSRR-PLSDAQKTYAIADVTHLRVIYEWLSAQIEKNGRQKWVEEELAILTDPET----
A0A059E838/1-196           -----MTDNTLTPITEQSALEDLCGKLAESDFICVDTEFHRETTYWPELCLVQAS-APG-----------VEGLIDPLA-EDLDIGPFLDLIAA-DNRVKVFHAARQDLEIFNRL-IGHP-PGPIFDTQVAAMALGLGDSISYDNLVQRVLKRQIDKSSQFTDWTRR-PLSQKQLVYALGDVTHLRDAYLKMRDELEQLGRLGWVREEMADLEDPAKY---
A0A160U280/1-196           -----MTDNTLTPITEQSALEDLCGKLAESDFICVDTEFHRETTYWPELCLVQAS-APG-----------VEGLIDPLA-EDLDIGPFLDLIAA-DNRVKVFHAARQDLEIFNRL-IGHP-PGPIFDTQVAAMALGLGDSISYDNLVQRVLKRQIDKSSQFTDWTRR-PLSQKQLVYALGDVTHLRDAYLKMRDELEQLGRLGWVREEMADLEDPAKY---
A0A178YKJ2/1-190           ------------MIQTTAELEAACNELARSSYITIDTEFLRETTFWPELCLIQMA-SPD-----------TAVIVDPMA-PGIDLAPFFALMAN-ADIVKVFHAARQDIEIIHHL-GNLI-PHPLFDTQVAAMVCGFGDSVSYDQLVSRIKNVQIDKSSRFTDWSRR-PLTDKQLEYALADVTHLRDIYHYLKAELEREGRSSWLAEEMAILENRETYD--
A0A1L3L1P9/1-190           ------------MIQTTAELEAACNELARSSYITIDTEFLRETTFWPELCLIQMA-SPD-----------TAVIVDPMA-PGIDLAPFFALMAN-ADIVKVFHAARQDIEIIHHL-GNLI-PHPLFDTQVAAMVCGFGDSVSYDQLVSRIKNVQIDKSSRFTDWSRR-PLTDKQLEYALADVTHLRDIYHYLKAELEREGRSSWLAEEMAILENRETYD--
B3X6C1/1-194               --------MNYQMITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKSILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0F5FL34/1-191           ----------MDLIVSTDVLAAFCERAAQYEFVTVDTEFLRETTYWPRLCLIQVA-TDD-----------EAVLIDPLA-PDIRLAPFFALLAN-PGVTKVFHAARQDIEIFVKL-TGAV-PNNIFDTQVAASVCGFGDSASYDSLVRSICKIELDKSSRFTDWSAR-PLSEKQLSYALADVTWLRDIYRELRRQVEAARRWDWVEDEMTALRSIDTY---
A0A0D1CFR0/4-195           ----------HPLITKTQELADLCARLAKSDFVAVDTEFMRENTYWPELCLVQIA-NTE-----------EAAAVDPLA-PDLGLKPLWDLLTDNEDVLKVFHAGGQDVEIVFNF-TGRT-PHPIFDTQIAMMAISQSEQIGYSNLVESWQGLTIDKGARFTDWSRR-PLTDRQIEYAIGDVTHLSKIFPKMLKRLIKTGRGEWLDQEMEKLADPEHY---
A0A0Q9IJW3/1-189           ----------MKLISTTEELASACSRLALHPFVTVDTEFLRETTYYPKLCLVQMA-SPD-----------EAVMVDPLA-EGLDLAPLMALMTD-QNVVKVFHAARQDLEIVWML-GRVL-PTPLFDTQVAAMVCGYGDSVGYEQLVNDLAKARVDKSSRFTDWSRR-PLSEAQLVYAESDVTHLRDIYLALQADLAASGRESWVAEEMAVLNSPG-----
A0A0Q6ZEK5/1-190           ----------MELITTTAELAAVCARLAKHPVITVDTEFLRETTYYPLLCVVQLA-SAD-----------EAVVIDALA-EGIDLKPFFELMAD-ENVLKVFHAARQDIEIVWHR-AGIV-PHPVFDTQVAAMVLGYGDSIAYDQLVERITGHRPDKTHRFTDWSRR-PLTQDQTLYALADVTHLRDVFAALDADLKKRGRSDWVSEEMEVLTSPST----
A0A0T8KLP9/3-194           --------IETQWVVDDAHLARLCAEWRQLPFVAVDTEFMRVDTFYPIAGLVQVG-DGR-----------RAYLIDPLAVRD--WHPFATLLDD-AAVVKVLHACSEDLEVLLRL-TGSL-PQPLFDTQLAAGYLNIGFSMGYSRLVQAVLGIELPKGETRSDWLQR-PLSEMQVRYAAEDAQHLAELYEALLPKLSDD-KRAWVLEDGAELVANLQRE--
A0A031K3V5/4-195           ----------HPLITKTEDLAALCERLAKSDFVSVDTEFMRENTYWPELCLVQIA-NTE-----------EAAAIDPLA-DGLDMTPLLDLLTQNEDVLKVFHAGGQDVEIIFNF-TGRT-PHPIFDTQIAMMAISQSEQIGYSNLVESWQGLTIDKGARFTDWSRR-PLTDRQIEYAIGDVTHLSKIFPKILKRLIKTGRGAWLDQEMEKLADPENY---
J8VPA6/4-195               ----------HPLITKTEDLAALCERLAKSDFVSVDTEFMRENTYWPELCLVQIA-NTE-----------EAAAIDPLA-DGLDMTPLLDLLTQNEDVLKVFHAGGQDVEIIFNF-TGRT-PHPIFDTQIAMMAISQSEQIGYSNLVESWQGLTIDKGARFTDWSRR-PLTDRQIEYAIGDVTHLSKIFPKILKRLIKTGRGAWLDQEMEKLADPENY---
A0A142IQ47/3-195           --------IDIQWILDDASLARHCAEWRKLPYVALDTEFMRVDTFYPIAGLLQVG-DGQ-----------RAYLVDPLVVKD--WAPFAELLED-PAVTKVLHSCSEDLEVFLRL-TGAL-PAPLFDTQLAAGYLNIGFSMGYSRLVQTVLGIELPKGETRSDWLQR-PLSETQVSYAAEDAQHLAELYQVLLPKLSAD-KLAWILEDGAELVANLRREI-
A0A1A8TLA0/8-201           --------LDIVWVDTDAALAKWCEHWATLPFVAVDTEFVRRTTFYPVTGLIQIS-EGD-----------QAVLIDPQTITD--WSPLRDLLIN-ENVMKVFHACSEDLDVFDDL-LGVL-PTPFYDTQIGEAFANGEWSLSYVKLVKAYLDIEVAKDETRSDWTLR-PLTDAQKRYAALDVIYLAHVYPMQVARLEEKGMLDWVLEDCESLKWQYQQNN-
A0A084EXC8/19-212          --------IEYQWVDDNPSLAQMCLQVAEQSVIALDTEFVRTRTYYPKLGLIQLF-DGK-----------QVYLIDPLSITD--FSSFTALLAN-ENVLKVLHACSEDLEVFQHY-FKQL-PQPMLDTQVMAGFVGIGISIGFAKLALHYLEVELDKGASRTDWLSR-PLSEIQLQYACADVWYLLPIYHKLAEDLAKTPWQTAVVEECATLLAKRQIVE-
A0A0M0IRE8/1-194           --------MNYQIITQSSQLEEVCQSARSVDVVMLDTEFVRTRTYYPQLGLIQLY-DGD-----------KLSLIDPTVIED--MTAFVELLKD-TSVLKVLHACGEDLEVFHNS-FGCL-PYPMVDTQLMAAFLGHGLSTGFAALVENYLGVELDKSESRTDWLAR-PLSDKQLEYAAADVYYLQPLYEQLFEKITQAGWWEAAQQESDLAASKRIKTV-
A0A0R2YBN1/3-195           --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGI-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAEVYIRLRPQLSDD-KYAWVLEDGAELVANLRREI-
A0A0M2BZD0/10-203          --------LNYQMITTNDELASLCEVTRDFPAIALDTEFVRTRTYYPQLGLIQMY-DGK-----------HVSLIDPLGITD--WAPMRELLLD-TAVTKYLHAGSEDLEVFLNT-FGIM-PQPLIDTQILAAFSGRPLSWGFAAMVEEYTGLTLDKSESRTDWLAR-PLTARQLEYAAADVFYLLPIAGQLMKEAEASGWLSAALDECRMTQQRRQEVV-
C5B9V3/2-195               --------LKYQLITSSSALKEVCERASACPYIALDTEFVRTRTYYPQLGLVQLY-DGE-----------MLSLIDPLTISD--WQPFVDLLRN-PQVVKLLHASSEDLEVFLHD-FQTL-PQPLIDTQILAAFSGRPLSSGFAAMVSAYLQVDLDKSESRTDWLAR-PLSERQCDYAAADVYYLLPMAHKLLAEVEACGWLPSALDECQALCRRRAETA-
A0A1D7NLD1/3-194           ---------IHELITTTEALSDLCDRLAKSEFVTVDTEFMRENTYWPELCLVQIA-NSE-----------EAAAIDPMA-EGIDLTPLLDLMCNNEDVLKVFHAGGQDVEIIVNL-TGKT-PHPIFDTQIAMMAISQSEQIGYANLVETWMGLTIDKGARFTDWSRR-PLTDRQIEYAIGDVTHLATIFPRILKKLIKTGRGVWLNAEMEKLADPSN----
J2QFE5/3-195               --------IDIHWIRDNDSLGRFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQVG-DGK-----------RAYLIDPLTIDN--WQPLAALLEN-PAVLKVVHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIDLPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVFVKLRPKLSDE-KYAWVLEDGAELVANLRREI-
A0A125P5C6/1-194           --------MDYQIITQLKDLERVCQQARQADVVMLDTEFVRTRTYYPQLGLIQLF-DGE-----------TLSLIDPIALDD--MTPFVTLIKD-ASVLKVLHACGEDLEVFQNA-FGCT-PTPMVDTQIMAAFLGHGLSTGFAALVSEFVGVDLDKSESRTDWLAR-PLSQKQLDYAAADVHYLMPMYNKLLEKVMEAGWWEAAQQESDLQVAKRIRKV-
V1MKH6/1-190               ------------MIETDDALASLCEAVRACPAIALDTEFVRTRTYYPQLGLIQLF-DGA-----------NVALIDPLGISD--WSPLKAVLRD-TGITKFLHAGSEDLEVFLNA-FGEL-PEPLIDTQILAAFCGRPLSWGFAAMVEEYTGVALDKSESRTDWLAR-PLSERQCEYAAADVWYLLPIAKKLMIETEAAGWLPAALDECRLMQQRRQEIQ-
G5QYX6/1-190               ------------MIETDDALASLCEAVRACPAIALDTEFVRTRTYYPQLGLIQLF-DGA-----------NVALIDPLGISD--WSPLKAVLRD-TGITKFLHAGSEDLEVFLNA-FGEL-PEPLIDTQILAAFCGRPLSWGFAAMVEEYTGVALDKSESRTDWLAR-PLSERQCEYAAADVWYLLPIAKKLMIETEAAGWLPAALDECRLMQQRRQEIQ-
J3HL76/1-192               ----------MTMITTTDQLEQAVAALSQSDFVTVDTEFIRETTFWPELCVIQLA-SPD-----------HTAIVDALA-PGLDLAAFFKLMAD-ETIVKVFHAARQDIEIIFHL-GNLI-PHPVFDTQVAAMVCGFGDAIAYDQLVQRVVGAQIDKSSRFTDWRRR-PLSEKQLDYALADVTHLRDIYLHLKKSLEAEGRTEWVLDEMKILTARETYD--
A0A0J1KIT5/1-190           ------------MITTDDALATLCEAVREFPAIALDTEFVRTRTYYPQLGLIQLF-DGK-----------HVALIDPQGITD--WSPLRDILRN-TAITKFLHAGSEDLEVFLNT-FGEL-PQPLIDTQILAAFCGRPLSWGFAAMVEEFTGVVLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITTKLMAETDASGWLPAALDECRLMQQRRQEIL-
B8F419/5-198               --------IEYQWVDDNPSLAQMCLQVAEQSVIALDTEFVRTRTYYPKLGLIQLF-DGK-----------QVYLIDPLSITD--FSPFTALLAN-ENVLKVLHACGEDLEVFQHY-FKQL-PQPMLDTQVMAGFVGLGISIGFAKLALHYLEVELDKGASRTDWLSH-PLSEIQLQYACADVWYLLPIYHKLAEDLAKTPWQTAVVEECATLLAKRQIVE-
A0NTK4/1-191               ----------MHVITKTKDLAAACQRLAAHDYVTVDTEFLRETTFWPKLCVIQMA-GPD-----------MAFIVDALS-EGLDLEPFFELMRD-GSVTKVFHAARQDIEIIYHL-GELI-PAPLFDTQVAAMVCGFGDSISYDQLVYKVTGARIDKSSRFTDWARR-PLTAKQLDYALADVTHLRDAYQFLKANLAEQDRIHWVQDEMQVLTSVNTY---
A0A0M6XUJ8/18-221          RKAPIIPPSEIITLTTTEALAAFCAEAAKTAYVTVDTEFLRERTYYSKLCLLQLA-YRG-------DGRTDAVLVDPLA-DGLDLAPLYALFRD-PDTVKVFHAARQDLEIFAIE-GDTI-PTPLFDTQVAAMVAGFGEQAGYETLARRIAKAQIDKSSRFTDWSRR-PLSDAQKAYALDDVTHLRDVYEYLAAELDRSGRTAWVEEELDVLRDPDT----
W8XWL2/1-194               --------MNYQMITTDDGLRAVCEAASAASAVALDTEFVRTRTYYPQLGLLQLF-DGR-----------QVSLIDPLTITD--WAPMRDLLLN-PDVTKYLHAGSEDLEVFLNA-FNLM-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVALDKSESRTDWLAR-PLTERQCEYAAADVWYLLPIASQLMAETDRAGWLSAALDECRLMQQRRQEVV-
A0A1G3KHM7/4-194           ----------HPLIETSAALAEFCDLIRNSDFIAVDTEFMRENTFWPELCLIQVA-DRD-----------HAAAIDPMA-SGIDLKPLLDLLVDNEDMLKVFHAGGQDVEIIFNL-TGKT-PHPIFDTQIGQMAIGQAEQVGYSNLVEAWIGLQLDKGARFTDWSRR-PLDKRQIDYAIGDVTHLARIFPMMLDKLIKTGRGHWLDEEMEKLADPAN----
A0A0N8SPK5/3-195           --------IDIHWIRDDDSLALHCAQWQTLPFVALDTEFMRVDTFYPIAALLQIG-DGS-----------RAWLIDPLLIND--WTPLSALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLNIDLPKGETRSDWLQR-PLSETQISYAAEDAVHLAELFTILRPRLSDE-KFAWLLEDGAELVANLRREI-
A0A0Q0DC91/3-195           --------IDIHWIRDDDSLALHCAQWQTLPFVALDTEFMRVDTFYPIAALLQIG-DGS-----------RAWLIDPLLIND--WTPLSALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLNIDLPKGETRSDWLQR-PLSETQISYAAEDAVHLAELFTILRPRLSDE-KFAWLLEDGAELVANLRREI-
C7C9X0/1-191               ----------MELISATQALSDACTQFAAQPFVTVDTEFMRETTYYPKLCLIQMA-GPD----------GFACLVDPLA-KDLDLKPFFDLMAD-ESTVKVFHSARQDLEIIWLL-GGLL-PQPFFDTQVAAMVCGYGDSVSYEQLVNDVAKARIDKSSRFTDWSRR-PLSEAQLAYALSDVTHLVTIYQVLAAELLSTDRGLWLDEEMAVLTSPET----
A0A1G4E518/1-190           ------------MITTDDALATLCEAVREFPAIALDTEFVRTRTYYPQLGLIQLF-DGK-----------HVALIDPQGITD--WSPLRDILRD-TAITKFLHAGSEDLEVFLNA-FGEL-PQPLIDTQILAAFCGRPLSWGFAAMVEEFTGVALDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITSKLMAETETSGWLPAALDECRLMQQRRQEIL-
A0A1E4B4P0/4-197           ----------HPLITTTEALAELCERLAKSDFVAVDTEFMRENTYWPELCLVQIA-NTQ-----------EAAAIDPLA-EGIDLAPLLDLMCNNEDVLKVFHAGGQDVEIIVNL-TGKT-PHPIFDTQIAMMAISQSEQIGYANLVETWLGLTIDKGARFTDWSRR-PLTDRQIEYAIGDVTHLSAIFPRILKKLMKTGRGVWLDAEMEKLADPSNYLI-
A0A0A1W1P8/26-216          ----------HPLITDSATLANLCARLSQADYVMVDTEFMRESTYWPELCLIQIA-DTQ-----------EAAAIDPKA-PGLDMTPLLDLLVNNDQVLKVFHAGGQDIEIIYNL-TGKT-PHPLFDTQIAAMALGQGEQIGYSNLVDSWLGISVDKGARFTDWSRR-PLDQRQVDYAIGDVTHLAAIFPKMLERLRKTGRGAWLDQEMERLADPAH----
A0A0L6FXF5/3-195           --------IEIHWIRDDQTLAEHCRSWREQPFVALDTEFMRVDTFYPKAGLIQIG-VGQ-----------CAYLIDPLLIRD--WQPLAGLLED-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNIGFSMGYSRLVQEVLGLELPKGETRSDWLQR-PLSDTQVSYAAEDAVHLAELFDALRPRLSDD-KYAWVLEDGAELVAALRREV-
A0A085GT00/1-194           --------MNYQLITTSSELKQVCEQASRHTYIALDTEFVRTRTYYPQLGLIQLF-DGE-----------TLSLIDPLPITD--WQPFVELLKN-PDVTKLLHAGSEDLEVFIHD-FQTL-PTPMIDTQILAAFTGRPLSCGFAAMVNEYLQVELDKSESRTDWLAR-PLTERQCEYAAADVFYLLPLAHKLIAEVAEAGWTDAANDECLALCRRRQEVV-
A0A1M7Z0H0/1-193           --------MEYQIITGSEELAAVCTQAMAHPVVMLDTEFVRIRTFHAKLGLIQLY-DGE-----------TLSLIDPTRIQD--MSPFVRLLQA-PDVLKVLHACGEDLEVFYHE-FDCT-PAPMLDTQIMAAFLGYGLSTGFAALVNDVVGIELDKSESRTDWMAR-PLSPRQLEYAAADVFYLMPVYQHLSERLESTAWREAADEESMLQSQKRIVA--
A0A1D2TV00/1-188           ----------MTPITTTAELQAFCDKIKGQPFVAVDTEFMRETTYWPKLCLIQAA-SPN-----------AEAVIDPLA-DGIDLEPFLAVLRD-PAIDKVFHAARQDVEIFNNL--NAM-PTPLFDTQVAGMAAGFGEQIAYDALVRQMLKVEIDKSSRFTDWARR-PLTEAQIHYAVGDVTHLARLYPMLRARLEKDGRLAWVVDEMQGLTDPA-----
W0MZ20/3-194               --------IDIHWIRDDDSLALHCAQWQSLPFVALDTEFMRVDTFYPIAALLQIG-DGK-----------SAWLIDPLLIND--WRPLSALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLDIDLPKGETRSDWLQR-PLSETQISYAAEDAVHLAELFAILRPRLSDD-KYAWLLDDGAELVANLRRE--
B2U439/1-194               --------MNYQMITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILSAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A1K1U214/12-211          ---------EIRTLTTTAELAEFCALAKTQPYVTLDTEFLRERTYYSRLCLIQAA-LPPASAAK--AAGGSAVLIDPLV-EGLSLEPLYDLFRH-KATVKVFHAARQDLEIFFHD-AGVM-PDPLFDTQIAAMVCGFGEQVGYETLVKKIARQPLDKSSRFTDWSHR-PLSDAQAAYALADVTHLRAIYEFLSTQLDKTGRAPWLAEEVAVLLNPET----
A0A014ND01/1-190           ------------MITTNEALAACCEAAGKVSAVALDTEFVRTRTYYPGAGLIQLY-DGE-----------HISLIDPLPITE--WQPFRELLSN-REIIKFLHAGSEDLELFLHQ-FGML-PTPMIDTQILAAFNGHPLSCGFATLVESFTGIALDKSESRTDWLAR-PLTGKQCQYAAADVYYLLPIAEKLMATARAAGNIAAALNECELLCQRRRMVT-
A0A0M3EUH9/1-194           --------MNYQLITSDTHLAAYCAQVTGKPYLALDTEFVRIRTYYPHLGLVQLY-DGE-----------HLALVDPLGITD--WTPLKTLLTA-PEMTKYLHAGSEDIEVFFNS-MACV-PQPLVDTQVLAAFTGHPLSCGFATLVETYLGVSLDKSESRTDWLAR-PLTEKQCEYAAADVFYLLPLAEKLTEKVRAAGYLASAEEECAMMAQRRIVQT-
A0A0D6MX64/12-201          ----------PRLITSTTDLAETVERLRNETFVTVDTEFMREKTYWPELCLLQIA-GEK-----------EVVLIDAVA-PDIDLTPLTALFDD-QSVVKVFHAARQDLEIFLHL-FDRL-PQPLFDTQVAAMVAGYGDQVGYDNLVGAVTGASIDKSHRFTDWSVR-PLSPAQLTYAAADVTYLRLVYESLLKQLEREGRSAWVSAEQAALSDPDR----
A0A0N0D9F0/1-191           ----------MKTLTTTEDLAQFCKEAREHPYVTIDTEFLRERTYYSKLCLVQLA-MPG-------DTDDNAVLVDPLA-NGLSLEPLYDLFRD-TSVVKVFHAARQDLEIFFVE-AGVF-PDPLFDTQVAAMVCGFGEQVGYETLVRRIAKTGVDKSSRFTDWSRR-PLTDAQKSYALADVTHLRKIYEFLAAQLEKTNRTHWVQEEIGILTY-------
L2XPJ5/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGISD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVRLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
S0W162/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGISD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVRLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0S2K8I6/3-196           --------VQYQVITEQQQLDEFVSAIGGATVLALDTEFMRRRTLYPEVALIQVY-DGE-----------NLALIDPLAALD--YSNFWEVLKS-EDVLKILHSPSEDIEVFNNF-AGFV-PTPMFDTQFALQLLGEGNCVGFANMVKQILEIEIDKSESRTNWLQR-PLTTKQLDYAASDVFYLLPCFNHIYKQISEKGLTEIVLEESQLVIEKRSYEL-
A0A1B9KRX9/1-194           --------MSYQYIVNNKQLIDYCSKIGNSTALALDTEFVRTRTFYPHLGLLQVF-NGE-----------HAALIDPINITD--WHAFLSILNA-PNIEKYFHSCSEDLEVFLHQ-FGSI-PTPIIDSQILASFLDNPLSSGYANLVNKYLQVELDKSETRTDWLKR-PLTDKQCEYAINDVLYLYPLVNILKAQLTSKGYLEAAYQESQMVVTRKCETI-
A0A0A1YGN2/3-194           --------IDIHWILDDASLAQHCADWQRLPFVAVDTEFMRVDTFYPIAGLLQVS-EGE-----------RAYLIDPLLIED--WTPFSALLQN-PAVVKVLHACSEDLEVFLRL-TDSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQTVLNIELPKGETRSDWLQR-PLSETQVSYAAEDVLHLAEVYTALQAQLSPE-KNAWVLEDGAELVLNLRRE--
A0A1L8CMY1/5-196           ---------SFIFIDKQSELEKAAEAMAACKVLCVDTEFHRESTYYPEFALLQIY-GNG-----------QCWIIDPIKLPD--LKPVWDLMGN-PDILKVFHAAHQDVEIILKE-SGNM-PLPLFDTQVAAALLGYGQQVGFGNLVQRVTKKLLPKGESFTDWKAR-PLTPKQLTYAADDVIWLMPVFQHLQERLEATGRTSWLQEEQTRLSDKNTYD--
J3GAW9/3-194               --------IDIHWIRDNDSLGRLCAEWQQLPFVALDTEFMRVDTFYPIAGLLQVG-DGE-----------RAYLIDPLSIDN--WQPFAALLEN-PAVVKVVHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIDLPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVFVKLRPKLSDD-KYAWVLEDGAELVANLRRE--
U2NGT4/12-205              --------LNYQLITTDAGLQQVCEQARNYAQVALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLPIKQ--WQPFIDLLAD-TAVVKFLHAGSEDLEVFLNA-FKTL-PTPMVDTQILAAFSGHTLSCGFAKLVTEYMKVDLDKSESRTDWLAR-PLTERQCVYAAADVFYLLPMAKQLVQETEEAGWTAAADNECRLLCQRRSEAL-
A0A077PU28/1-194           --------MNYQLITSDAQLQSICERAKKHATIALDTEFVRTRTYYPQLGLIQLF-DGE-----------QLSLIDPLDISE--WQPFRELLTD-PDVLKFIHAGSEDLEVFWNS-FQCL-PTPMIDTQVLAAFIGHPMSCGFATLVAQYLHVELDKSESRTDWLAR-PLSGKQCEYAAADVYYLLPLADILVAATKQAGYMDAAQDESYLIAQRRKEIL-
A0A1C7D9X8/4-194           ----------HPLITDSDTLADFCEKMAESEFVCVDTEFMRENTYYPLLCLVQLG-NEE-----------EAAAIDPLA-DGIDLSPLWDLLCDNEEVLKIFHAGGQDVEIVYNF-TGKT-PHPIFDTQIAMMAISQSEQIGYANLVESWLGKTIDKGARFTDWSRR-PLTERQIEYAIGDVTYLAQIFPRMLKKLIKTGRGAWLNAEMEKLADPSN----
A0A0J5FR32/11-204          --------CNYQLITTDDQLQSICERAKKHARIALDTEFVRTRTYYPQLGLIQLF-DGE-----------QLSLIDPLEISQ--WQPFREVLTD-PDVLKFIHAGSEDLEVFGNS-FQCL-PEPMIDTQVLAAFIGHPISCGFATLVAEYLNVELDKSESRTDWLAR-PLSSKQCEYAAADVYYLLPLADILMAKTELVGYLDAAKNESALISQRRKEVL-
A0A0P7LIY3/3-193           ---------VFHYVSDEASLNALVAQYQQSAVLVLDTEFVRTRTYYAKLGLIQAY-DGN-----------TLALIDPVALPN--LDAFWALLDN-PNIIKLVHSCSEDLEVFAHY-GQRQ-PTPLFDSQIAASLCGMGHGLGYAKLVETCLGEVIDKGESRTDWIRR-PLTEAQLSYAANDVLYLYQLYPQLADKLKAQGRLDWLYEEGERMTEGRLA---
A0A1G3ICD2/1-191           ----------MPMITDTATLEGFCRRLSRSPYITVDTEFMREKTFWPILCLVQVA-GPD-----------EGRVIDALA-EGIDLAPLFALLAD-HSILKVFHAARQDLEIFQKL-TGRL-PEPLFDTQVAAMVCGFGDSVGYEALISTLTDNRVDKSSRFTDWSLR-PLSERQISYALEDVTFLREAYEKLHDKLEANSRAAWLEEEMTVLMTHATY---
A0A0F3VWJ1/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A028E2H7/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A027ZLS8/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
K8B9E7/1-194               --------MNYQMITTNDALAALCETARTQRALALDTEFVRTRTYYPQLGLIQLY-DGE-----------NVALIDPLTITD--WAPFQALLQD-QNVTKFLHAGSEDLEVFQNA-FGMM-PDPFIDTQVVASFVGHPLSCGFATLVEHHTGVVLDKSESRTDWLAR-PLTERQCDYAAADVWYLLPIAHKLMEQVRDAGWLTAALNECRLMTQRRGEVL-
A0A0X6Z7H1/10-203          --------LNYQMIATNDELASLCEVTRDFPAIALDTEFVRTRTYYPQLGLIQMY-DGK-----------HVSLIDPLGITD--WTPMRELLLD-TAVTKYLHAGSEDLEVFLNT-FGIM-PQPLIDTQILAAFSGRPLSWGFAAMVEEYTGLVLDKSESRTDWLAR-PLTARQLEYAAADVFYLLPIAGQLMKEAEASGWLPAALDECRMTQQRRQEVV-
A0A0M7ALJ8/1-190           ----------MHVITKTKDLAAACQRLAANDYVTVDTEFLRETTFWPKLCVIQMA-GPD-----------MAFIIDALS-EGLDLAPFFDLMRD-DSVTKVFHAARQDIEIIYHL-GELI-PAPLFDTQVAAMVCGFGDSISYDQLIYKVTGARIDKSSRFTDWARR-PLTNKQLDYALADVTHLRDAYQFLRANLAEQNRSHWVRDEMEVLTSVGT----
A0A1C3HET9/1-194           --------MNYQLITTDAGLQQVCEQARKHAQIALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLPIKQ--WQPFVDLLAD-TAVVKFLHAGSEDLEVFLNA-FKTL-PTPMVDTQILAAFTGRPLSCGFATLVAEYMKVELDKSESRTDWLAR-PLTERQCVYAAADVFYLLPMAKQLVQETEEAGWTAAANNECLLLCQRRSETL-
F6ET19/4-194               ----------HPLITDSKTLASFCARIAKSPYIAIDTEFMRENSYWPDLCLVQVA-DEH-----------EAAAIDPKA-PGLDLSPLLDLMVDNEDVLKVFHAGGQDLEIIYNL-TGKT-PHPLFDTQIAAMALGLGEQIGYGNLVDAWLGVQLDKGARFTDWARR-PLDKRQIDYAIGDVTYLIQIFPKMLEELRRTGRGDWLDQEMERISDPSN----
A0A1D3JU56/3-195           --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIDLPKGETRSDWLQR-PLSETQVSYAAEDAVHLAEVFIRLRPRLSDD-KYAWVLEDGAELVANLRREV-
F3YYY7/25-216              ---------EAILVQSAEALGELCSRLRGCDAVGMDTEFVRSRTYFPTLGLIQLV-ADG-----------GVFLVDPLGVDD--LSPLVEILAD-PRLIKIFHSCQEDLEALYYL-CGFA-PGPVFDTQVAASFLGYGFQPGYGSLVKALFGVELDKDETRSNWIKR-PLSESQLIYAAQDVRYLPAMYSILGQALTEQGRLSWAREECAALEGEARFE--
A0A0N1JQN4/3-194           --------IDIHWIRDDDSLARYCAEWQLLPFVALDTEFMRVDTFYPIAALLQIG-DGQ-----------SAWLIDPLLIND--WRPLSALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLNIDLPKGETRSDWLQR-PLSETQISYAAEDAVHLAELFAILRPRLSDD-KYAWLLDDGAELVANLRRE--
A0A0P9VIB1/3-194           --------IDIHWIRDDDSLARYCAEWQLLPFVALDTEFMRVDTFYPIAALLQIG-DGQ-----------SAWLIDPLLIND--WRPLSALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLNIDLPKGETRSDWLQR-PLSETQISYAAEDAVHLAELFAILRPRLSDD-KYAWLLDDGAELVANLRRE--
A0A090V0D3/1-194           --------MNYQMITTNDALATMSEAARAFPALAIDTEFVRTRTYYPQLGLIQVY-DGQ-----------QVSLIDPLEITD--WTPFRELMMD-RAVTKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFSGRPLSWGFASMVEEYTGLALDKSESRTDWLAR-PLTERQCDYAAADVWYLLPIAHKLMAETEAAGWLPAALDECRLMQVRRQEVL-
A0A1H1PVT7/9-195           -----------LMIAENSELARWCERWQQLPFVAVDTEFVRTETFYPIAGLIQIG-DGE-----------AAYLIDPLAITD--WSPLVALLRN-PRVVKVLHSCSEDLEVFHHL-CGAV-PQPLFDTQLAAAYLGMDFSMGYSRLVNALLGIELSKDETRSDWLQR-PLSETQLQYAADDAIHLAAIYQVLAPRIEEAGFTGWLLSDTAEQSAAV-----
A0A0D6NGW4/12-200          ----------PRLISTTEDLAETLARLRHEPFLTIDTEFMRERTYWPELCLVQIG-GVR-----------EVVLIDAVA-EELDLTPLAELMAD-TAVLKVFHAARQDLEIFLHL-FDAL-PSPVFDTQVAAMVAGYGDQVGYDSLVGSLTGHAIDKSHRFTDWSAR-PLSPAQLTYAAGDVTWLRVVYERLIKKLEQEKRLEWVSAEMAELADPA-----
D4BU81/1-194               --------MNYRLVTTDSELAQVCQEASNAPWLALDTEFVRTRTYYPQLGLLQLY-DGK-----------QVSLIDPLLMTD--FSPFKALLTN-PEQLKFLHAGSEDLEVFMHD-FDCV-PEPMIDTQVVAAFLGYPISCGFASLVAEHLGIELDKSESRTDWLAR-PLSEKQCDYAAADVLYLLPLAEILMEKVTEAGYLEDAKDECQRVVARRQKAL-
A0A0A8B4Z0/1-190           -----------MYIESQDELVSFVQRAANSSLLAIDTEFLREKTYYAKLCLLQIA-TDD-----------EVVIIDPLAVSD--ITALAPLLVD-ERIVKIFHAGHQDLELLYRN-VGVL-PSPVFDTQIAAALLGHTQQIGYGSLVGALCGVRIKKADSFTDWSHR-PLSDSQIQYAGEDVVYLPKIYATMKRRLEEKGRLEWLRNDFAELSDPSRYE--
U1JYB5/1-193               --------MQYQLIQTQVQLNTFVEQIQNKPILAIDTEFMRRRTLYPEVALIQVF-DGE-----------HLALIDPLAELS--LFDFWQVLKD-PAVLKVLHSPSEDIEVFQKY-AGFV-PAPLFDTQFALQLLGEGNCMGFALMVKTLLGIEIDKSESRTNWLQR-PLTTKQLDYAAADTFHLLPCFELIIDRINKADLFEIVLDESELIANKRAFQ--
A0A010P7W1/1-194           --------MQYQLITTFEQLEKVCAAAQRQEAVALDTEFVRTRTLTPHLGLIQLY-DGH-----------QLVLIDPLAIDN--MRPFIELMEN-TEVVKVLHSCSEDIEAFLTA-FNTV-PTPVFDTQLAGSILDMGPSLGYAKLVELLCDISLDKGESRTDWIAR-PLRESQLSYAANDVLYLLPCYQQLASKVQEANKVHWIYQEIALLVDKKRAQM-
C2LFS7/28-221              --------LNYQFITTNTALEDVCKAASEVSQIALDTEFVRIRTYYPHLGLIQMY-DGK-----------QISLIDPLTITE--WTPFVELLTN-PAVLKYLHAGSEDLEVFSHQ-FGCV-PTPMIDTQVVAAFLGYPISCGFATLVEKYEHIALDKSESRTDWLAR-PLTEKQCQYASGDVFYLLPLAKKLIAQAQEAGYMDAIVDECEMIAERRQETV-
A0A0T7DGZ8/1-194           --------MDYQIITQLKDLERVCQQAREADVVMLDTEFVRTRTYYPQLGLIQLF-DGE-----------TLSLIDPIALGE--MTPFVGLLKD-ASVLKVLHACGEDLEVFQNA-FGCT-PTPMVDTQIMAAFLGHGLSTGFAALVSEFVGVDLDKSESRTDWLAR-PLSQKQLDYAAADVHYLMPMYNKLLEKVMEAGWWEAAQQESDLQVAKRIRKV-
K2PBZ9/1-190               ------------MIDTTAALEEACRLLAQSDFITIDTEFLRETTFWPELCLIQMA-SPE-----------HEYIVDPMA-KGLDLKPFFELMAN-SAVVKVFHAARQDIEIIFHL-GDLL-PHPIFDTQVAAMVCGFGDSVSYDQLVQKVKNVHIDKTSRFTDWSRR-PLSEKQLDYALADVTHLRDVYLKLKGQLEAEGRAEWLTEEMAILESRETYD--
Q7N525/1-194               --------MNYQLITTDAQLQQVCEGAKKYSKVALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLNITN--WQPFRELITH-PQILKLLHAGSEDLEVFLNA-FQCL-PEPMIDTQVLAAFIGHPLSCGFAALVAEYIHVELDKSESRTDWLAR-PLSEKQCEYAAADVYYLLPLADILMTATAQAGYMEAATGECRLISRRRKEIL-
A8LNB6/1-193               ----------MDTLTDTAALADFCARAAEHDYVTVDTEFLRERTYYAKLCLVQLA-YPG-------EGEETAVLVDPLA-EGMSLAPMLDLFRN-PDVVKVFHAARQDLEIFFVE-HGVF-PEPLFDTQVAAMVCGFGEQVGYETLVRKIARESLDKTSRFTDWSHR-PLSKAQKKYALADVTHLRVIYEYLAAAIDKTGRRAWVEEELQGLLDPE-----
A0A1D2X5S1/9-196           -----------IWTTSNSELAQHCQQWITLDAVALDTEFIRTDTFYPQPGLIQLG-TGS-----------DVFLIDPLMIDD--WKPFAEFLEN-SHVIKVLHACSEDLEVFKCL-TGAV-PVGLFDTQLAAAYANIGFSMGYQALLKHVLNIDVPKDETRSNWRQR-PLTESQIRYASLDVVHLLEVYEALQQLLDDKPHADWILDDCFQMTQGVL----
A0A1A5CZM0/6-197           --------LDIRWIRDDASLAQQCRDWKQRPYLALDTEFMRVDTFYPEAGLVQVG-DGE-----------RAWLIDPLLIRD--WSPFAEVLEA-SSVVKVFHACGEDLEVFQRL-TGSL-PQPLFDTQLAAAYLGMAHSMGYSKLVLEILGLDLPKDETRSDWLQR-PLTDMQVRYAAEDVQHLAEVYVKLAPRLPEH-KLAWLLADGADLVANQTRV--
A0A0V8T2S8/6-197           --------LDIRWIRDDASLAQQCRDWKQRPYLALDTEFMRVDTFYPEAGLVQVG-DGE-----------RAWLIDPLLIRD--WSPFAEVLEA-SSVVKVFHACGEDLEVFQRL-TGSL-PQPLFDTQLAAAYLGMAHSMGYSKLVLEILGLDLPKDETRSDWLQR-PLTDMQVRYAAEDVQHLAEVYVKLAPRLPEH-KLAWLLADGADLVANQTRV--
A0A1F1QJH1/3-195           --------IEIHWIRDDQTLAEHCRAWRELPFVALDTEFMRVDTFYPKAGLIQVG-EGN-----------RAFLIDPLLIRD--WQPLAELLED-NGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNIGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAELFSALRPRLSDD-KYAWVLEDGAELVAQLRREV-
G6EF03/4-194               ----------HPLITQTEDLAALCERLAKSDFVSVDTEFMRENTYWPELCLVQIA-NTE-----------EAAAIDPMA-EGLDLSPLLDLLTDNEEVLKVFHAGGQDVEIIFNA-TGRT-PHPIFDTQIAMMAISQSEQIGYSNLVESWLGLTIDKGARFTDWSRR-PLTERQIEYAIGDVTHLSKIFPKILKRLIKTGRGAWLNQEMEKLADPDN----
A0A106C1E0/2-194           --------LTFEYISDDASLLSLVEQYQQSTLLVLDTEFVRTRTYYAKLGLIQAY-DGK-----------TLALIDPVAITD--LSPFWQLLTD-QNIVKLVHSCSEDLEVFAHY-GECQ-PSPLFDSQIAASFAGLGHGLGYAKLVDACLQVEIDKGESRTDWMNR-PLSDAQLQYAANDVFYLYQLYPQLQQKLAADNRVEWLFEEGQRMTEGRMSL--
L0MHJ2/1-194               --------MNYTLITTDAGLQQVCEQARTHAQIALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLPITR--WQPFIDLLSD-KAVVKYLHAGSEDLEVFLNA-FQTL-PTPLVDTQILAAFTGRPLSCGFATLVAAYMQVELDKSESRTDWLAR-PLTERQCQYAAADVFYLLPMAGQLVQEVEQAGWTEAASNECLLLCQRRSETL-
Q8Z679/1-194               --------MNYQMIETDDALASLCEAVRACPAIALDTEFVRTRTYYPQLGLIQLF-DGA-----------NVALIDPLGISD--WSPLKAVLRD-TGITKFLHAGSEDLEVFLNA-FGEL-PEPLIDTQILAAFCGRPLSWGFASMVEEYTGVALDKSESRTDWLAR-PLSERQCEYAAADVWYLLPIAKKLMIETEAAGWLPAALDECRLMQQRRQEIQ-
A0A0E9DSK0/1-190           -----------MYIETYEQLASFCERATKSDVLAIDTEFMREKTFYPKLCLIQLA-TRS-----------EIVLVDPLSIPD--LTDLCKLFLD-KKITKIFHACSQDLELIYDI-FSCL-PKPVFDTQVAAAFLGHRFQIGYGPLVDALCHVHLPKAESLTDWTRR-PLAEEQLEYAADDVRYLPRMYDTLLRELKEKERYAWFLEEMHEVCNEHHVI--
A0A0J3VCN0/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPFGISD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0C1W0B0/3-194           --------IDIHWIRDNDSLAQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQVG-DGK-----------RAYLIDPLTINA--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSDTQISYAAEDAVHLAEVFVQLRPKLSDD-KYAWVLEDGAELVANLRRE--
A0A1B9P9N5/1-193           --------MEFEIVTHSQRLAEICQQASHKPFLMLDTEFVRTRTLYARLGLIQMF-DGE-----------TLALVDPVEIDD--LTPLWDILKD-ESVTKVLHACGEDLEVFQHY-AGCM-PTPMIDTQIMAAFLGYGLSTGFAKLVSDYLGVDLDKGESRTDWMAR-PLSDKQLNYAAADVHYLLPLFEKLQAELAQTEWTDAAYQESTLAVRKREKQ--
A0A1B9JYY6/1-194           --------MPYQFIISNEQLTTYCLQIANSTAIALDTEFVRTRTFYPHLGLLQVF-DGN-----------FAALIDPLAITN--WQDFIAILNN-PKIEKYLHSCSEDIEVLQHQ-FNCI-PTPIIDSQILASFLDNPISSGYASLVKKYLNVDLDKSETRTDWLKR-PLTEKQCEYAINDVLYLLPLMEKLKSQLTTNRWLEAAYKECQSVIERKAIIT-
A0A126RAS1/4-196           ----------HPLITDSKTLASFCARIAKSPYIAVDTEFMRENSYWPDLCLVQVA-DDN-----------EAAAIDPKA-PGLDLSPLLDLLVDNEDVLKVFHAGGQDLEIIYNL-TGKT-PHPLFDTQIAAMALGLGEQIGYGNLVDAWLGVQLDKGARFTDWGRR-PLDKRQIDYAIGDVTYLIQIFPKMLEELKRTGRGDWLDQEMERISDAENYV--
A0A058ZJT2/1-193           ----------MRTLTTTQELADFCELAKAGPYVTIDTEFLRERTYYAKLCLVQLA-LPD---------DGEAVLVDPLV-DGMSLQPLYDLFGD-TTVVKVFHAARQDLEIFFIE-GNVL-PDPLFDTQIAAMVCGFGEQVGYETLVRKIAKASLDKTSRFTDWSRR-PLSEAQKTYALADVTHLRVIYEFLQGELEKSGRDKWLREELEVLLTPETY---
A0A0Q4EVG8/4-194           ----------HPLISDSATLANLCARMADADYVCVDTEFMRESTYYPELCLIQIA-DDK-----------EAAAIDPMA-PGIDLKPLLDLLVENHDVLKVVHAGGQDIEIVYNL-TGKT-PFPLFDTQVAAMALGQGEQIGYSNLVDSWLGIAVDKGARFTDWARR-PLDARQIEYAIGDVTHLSKIFPKMLERLRKTGRGVWLDQEMERLGDTAN----
A0A0Q5UTZ6/4-194           ----------HPLISDSATLANLCARMADADYVCVDTEFMRESTYYPELCLIQIA-DDK-----------EAAAIDPMA-PGIDLKPLLDLLVENHDVLKVVHAGGQDIEIVYNL-TGKT-PFPLFDTQVAAMALGQGEQIGYSNLVDSWLGIAVDKGARFTDWARR-PLDARQIEYAIGDVTHLSKIFPKMLERLRKTGRGVWLDQEMERLGDTAN----
A0A090GDB1/1-191           ----------MRVITTQEELESVVAAFEKSEFVTVDTEFIRETTFWPILCLIQIA-APG-----------IEALIDPLA-PGIDLKPFFRLMAN-EAVLKVFHAARQDIEIIVHL-GDLV-PHPVFDTQVAAMVCGFGDSVSYDQLVQKVTGARLDKSSRFTDWRHR-PLSDKQLEYALADVTHLIKVFQHLSAELKREDRAHWLKEEMDILTSRETY---
A0A1B7K121/1-194           --------MNYQMIATNDALRSLCDSVGQTTAVALDTEFVRTRTYYPQLGLIQLF-DGE-----------RTALIDPLDITD--WSPLQAILQD-RNITKFLHAGSEDLEVFMNV-FGAM-PQPLIDTQVLAAFCGRPMSWGFAAMVAEYSGVELDKSESRTDWLAR-PLTSRQCDYAAADVWYLLPIAHKLMAETEQKGRLAWALNECQLMQQRRQEVT-
A0A1A6FS57/1-191           ----------MSLLTSTEDLAAACARLSRHPFVTVDTEFLRETTFWPKVCVIQLA-SPE-----------EAFAVDTLA-EGLDLSPFFELMAD-ASVVKVFHAARQDLEIIWRL-ARLI-PTPLFDTQVAAMVCGFGDQASYVELVKAIAKESLDKSSRFTDWSKR-PLSVAQIDYAIADVTHLRQIYTHLRQRLERSNRLDWLVDEMRTLTSPETY---
A0A0B4BY07/1-195           ----------MRTITTTDALADFCTEARAHPYVTVDTEFLRERTYYSKLCLVQLA-MPG-------TDEDSAVLVDPLA-KDLSLEPLYDLFRD-TSVVKVFHAARQDLEIFYVD-AQVF-PEPLFDTQVAAMVCGFGEQVGYETLVRKIAKQSLDKTSRFTDWSRR-PLTDAQKTYAIADVTHLREIYEFLSTKLNNSGRARWVSEELQTLLSPETY---
A0A1C3P4K5/1-190           ------------MITTDDALATLCEAVREFPAIALDTEFVRTRTYYPQLGLIQLF-DGK-----------HVALIDPQGITD--WSPLRDILRD-TAITKFLHAGSEDLEVFLNA-FGEL-PQPLIDTQILAAFCGRPLSWGFAAMVEEFTGVALDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITSKLMAETETSGWLPAALDECRLMQQRRQEIL-
A0A064E793/1-190           ------------MITTDDALATLCEAVREFPAIALDTEFVRTRTYYPQLGLIQLF-DGK-----------HVALIDPQGITD--WSPLRDILRD-TAITKFLHAGSEDLEVFLNA-FGEL-PQPLIDTQILAAFCGRPLSWGFAAMVEEFTGVALDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITSKLMAETETSGWLPAALDECRLMQQRRQEIL-
A0A1D8JVN1/1-194           --------MNYQMITTNDGLRAVCDAASAVSAIALDTEFVRTRTYYPQLGLLQLF-DGS-----------QVSLIDPLVITD--WEPMRELLLN-KDVTKFLHAGSEDLEVFLNA-FHLM-PQPLIDTQILAAFCGRPMSWGFASMVEEFTGVALDKSESRTDWLAR-PLTERQCIYAAADVWYLLPIAGKLMAETDSAGWLSAALDECQLMQQRRQEIQ-
A0A068HG75/1-194           --------MNYQMITTNDGLRAVCDAASAVSAIALDTEFVRTRTYYPQLGLLQLF-DGS-----------QVSLIDPLVITD--WEPMRELLLN-KDVTKFLHAGSEDLEVFLNA-FHLM-PQPLIDTQILAAFCGRPMSWGFASMVEEFTGVALDKSESRTDWLAR-PLTERQCIYAAADVWYLLPIAGKLMAETDSAGWLSAALDECQLMQQRRQEIQ-
A0A1L5EHZ8/1-194           --------MNYQMITTNDGLRAVCDAASAVSAIALDTEFVRTRTYYPQLGLLQLF-DGS-----------QVSLIDPLVITD--WEPMRELLLN-KDVTKFLHAGSEDLEVFLNA-FHLM-PQPLIDTQILAAFCGRPMSWGFASMVEEFTGVALDKSESRTDWLAR-PLTERQCIYAAADVWYLLPIAGKLMAETDSAGWLSAALDECQLMQQRRQEIQ-
J5Y4X5/1-194               --------MNYQMITTNDGLRAVCDAASAVSAIALDTEFVRTRTYYPQLGLLQLF-DGS-----------QVSLIDPLVITD--WEPMRELLLN-KDVTKFLHAGSEDLEVFLNA-FHLM-PQPLIDTQILAAFCGRPMSWGFASMVEEFTGVALDKSESRTDWLAR-PLTERQCIYAAADVWYLLPIAGKLMAETDSAGWLSAALDECQLMQQRRQEIQ-
A0A1F2HDB8/1-194           --------MNYQMITTNDGLRAVCDAASAVSAIALDTEFVRTRTYYPQLGLLQLF-DGS-----------QVSLIDPLVITD--WEPMRELLLN-KDVTKFLHAGSEDLEVFLNA-FHLM-PQPLIDTQILAAFCGRPMSWGFASMVEEFTGVALDKSESRTDWLAR-PLTERQCIYAAADVWYLLPIAGKLMAETDSAGWLSAALDECQLMQQRRQEIQ-
I4KTZ3/3-195               --------IDIHWICDNDSLGQHCAQWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGA-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVVHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAEVYIRLRPQLSDD-KYAWVLEDGAELVANLRREI-
A0A0M2R862/1-190           ----------MTLITSNKELSDLCLELAKSDVVTVDTEFLRDQTYWPKLCLVQLA-DAN-----------NFAAIDVLA-PDIDLTPLFDLMKN-PDVLKVFHSARQDLEIFCLL-MDEV-PAPLFDTQLAAMVCGFGDSIGYDNLARKLLNVEIDKSARFADWSKR-PLTPKQISYAISDVTHLRDIYAKLRSQIDKSGREHWLAEEMAILEDPET----
K9HGM7/1-191               ----------MTLIADSDALRALCDRLSKAEYITVDTEFMRDRTYWPGLCLIQVA-GPD-----------EAWCIDPLA-PGMDLTPLFDLMRD-ESVLKVFHAARQDLEIFYRA-MGAF-PKPLFDTQIAAMVCGFGDSVGYETLATKLAKARIDKSMRFTDWGRR-PLTEKQLNYALADVTHLRVVYDKLRKRLEKTGRAHWLTEEMDALVAPEKY---
A0A1B9L8U4/1-194           --------MSYQFIISNDQLADYCSKIENSSALALDTEFVRTRTFYPHLGLLQVF-NGE-----------HAALIDPINITD--WQAFLAILNN-PTIEKYFHSCSEDIEVFSYH-FGCV-PTQIVDSQILASFLDNPLSSGYASLVKKYLEVELDKSETRTDWLKR-PLTEKQCEYAINDVLYLFPLTNILKLQLSTNHYLQAAYQECRMAVTRKSELM-
U9YWM1/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
N3NSL4/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
D8B3P8/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
H9URJ9/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0E0TZT4/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
N3FBT3/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
H4UK20/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0E1LY23/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
N4P367/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A070T6Q1/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
G0F6S0/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
M9EXC5/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
N4PJ95/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A1J0HC25/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
N2KFP0/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0E2TPK6/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
F4SKV6/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A029PLG9/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
N2JK91/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
E1HMK0/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
T9E1E4/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
I2XD05/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0M7PP10/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
N4NMC1/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
L3KMV8/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
F4TFD1/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A069XL33/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A142UYF8/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
D6IBB5/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
D8AV71/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
V1A310/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A037YFM0/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0P0DLK4/1-188           ----------MTPITTNEALADFCARLATAPFITVDTEFMRETTYWPRLCLIQAA-SAD-----------HAGIIDPMA-EGLDLEPFLDLLRD-PKIIKVFHACRQDVEIFVRL--GAM-PKPMFDTQVAAMAAGFGEQVAYDSLVRQMLRVELDKGSRFTDWARR-PLSDSQLVYALGDVTHLAALYPKLRDRLKKEGRLDWVMAEMESLVDPA-----
A0A1H6CX32/1-189           ----------MSLITTTQDLAHACARLAMHPFVTVDTEFLRETTYYPKLCLIQLA-SPD-----------EAVLVDPLA-PEIDLAPFLELMAN-EAVVKVFHAARQDLEIVWII-GRLI-PTPLFDTQVAAMVCGYGDSVGYEQLANDLAKARIDKSSRFTDWSRR-PLSEAQLVYAESDVTHLRDIYLALDADIKASGRETWVAEEMSVLNSPG-----
A0A1B8SZ41/6-198           --------LDIQWIRDDTTLERKCQDWKELPYLALDTEFMRVDTFYPEAGLVQVG-DGS-----------GVWLIDPLLIRD--WSPFAALLES-PLVVKVFHACGEDLEVFQRL-TGSL-PQPLFDTQLAAAYLGMPHSMGYSKLVLEILGLDLPKDETRSDWLQR-PLTDMQVRYAAEDVQHLAEVYVKLAPRLSDE-KLQWLLADGADLTQNQSRVS-
M1PDD5/1-189               ----------MKLITQTTDLEIAIAALRNSDFVTVDTEFIRETTFWPRLCLIQLA-SPK-----------ATILIDPIA-PDINLQPFFDLMTD-EKIIKVFHAARQDIETIYHL-GEVI-PSPLFDTQIAGSICGFGDSISYDQIVQRCTGHRLDKSSRFTDWSCR-PLSKKQLLYALADVTHLRDVYISLKKQLKENQRTHWMDDEIAILLAPA-----
A0A0Q6C7L2/1-190           ----------MEPITTTDGLAEACRTLAKAPFVTVDTEFIRETTFWPELCLVQMA-SDD-----------LAVLVDPLA-PGIDLEPFFELMRD-TRVLKVFHAARQDLEIVYKL-GGLI-PAPLYDTQIAAMVCGFGESIAYDQLVAKTTNGRIDKTSRFTDWRRR-PLSEQQLVYALADVTYLRDVYKALDAEIVKEGRARWLDEEMAVLANPET----
L0NEZ4/1-190               ------------MIETTAALEDACAKLAQSDFITIDTEFLRETTFWPQLCLIQMA-SPT-----------MEVLVDPLA-KGLDLKPFFELMAD-RKVIKVFHAARQDIEIIHHL-GNLV-PHPIFDTQVAAMVCGFGDSVSYDQLVQRTTGAHIDKTSRFTDWSRR-PLSDKQLEYALADVTHLRDVYAALKAQLEREGRAGWLTEEMAILESANTYD--
A0A0I9PNG7/1-194           --------MNYQMITTDDGLRAVCEAASAASAVALDTEFVRTRTYYPQLGLLQLF-DGT-----------QVSLIDPLTISD--WAPMRELLLN-EDVTKYLHAGSEDLEVFLNA-FNLM-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVALDKSESRTDWLAR-PLTERQCEYAAADVWYLLPIASQLMAETDRAGWLSAALDECRLMQQRRQEVV-
A0A1H2EUN6/4-195           ---------DIQWIRDNESLARHCTTWRQLPFVVLDTEFMRTETFYPIAGLIQVG-DGA-----------TAFLVDPLLISD--WRPFAALLED-TAVVKVLHACSEDLEVFLRL-TGSL-PAPLFDTQLAAGYLNLGFSMGYSRLVLAVLQIDLPKDATRSDWLQR-PLSEIQVQYAAADVIHLAAVYRQLAAQLDAR-KLAWLLEDGAEQVANLRREV-
I1AX50/1-194               ----------MRTLTTTEELAAFCADAAAAPYVTVDTEFLRERTYYSKLCLVQLA-FPG-------AGDENAVLVDPLA-EGLSLDPLMMLFRD-TNVVKVFHAARQDLEIFYID-HGVI-PTPLFDTQVAAMVCGFGEQVGYETLVKRICKASLDKSSRFTDWSRR-PLTDAQKTYALADVTHLRGIYEYLAAELDRSGRARWVAEEIGLLMDPET----
I4JG67/33-224              --------IETQWVLDDAHLARLCAEWRQLPFVALDTEFMRVDTFYPIAGLVQVG-DGR-----------CAYLIDPLAVKD--WQPFAGLLQD-SAVVKVLHACGEDLEVLSRL-TGQL-PAPLFDTQLAGGYLNLGFSMGYSRLVQAVLGLDLPKDETRSDWLQR-PLSEMQVRYAAQDVQHLAELYAALLPRLSDD-KRRWVMEDGAELVANLQRE--
A0A1L3RMX3/46-235          ----------PTLITKSEDLAALCTTLRREPYVTIDTEFMRERTYWPELCVVQLG-GAD-----------CVAVIDTLA-PELDLAPLGELLAD-PAVIKVFHACRQDIEIFLLR-FGSI-PQPMFDTQVAAMVAGFGDQVGYDTLVSSLTGGHIDKAHRFSDWSRR-PLSQAQIDYAAADVTHLRGVYETLRDRLEKEGRLAWVSEEMAVLNDPAT----
A0A0T5P017/1-197           ----------MHTITTTEDLAAFCTRAAEAEYVTVDTEFLRERTYYSKLCLIQLA-LPS-------RGEDDAVLVDPIEGQDMSLEPLYDLFRD-PSVVKVFHAARQDLEIFYVD-AGLI-PDPLFDTQVAAMVCGFGEQVGYETLVRKIAKQSLDKTSRFTDWSRR-PLTDAQKTYALADVTHLRDIYEFLAAKLAETGRDKWVAEEMQVLTNPETYV--
A0A0Q0SNP4/3-195           --------IDIHWIRDNDSLGQHCAEWQHLPFIALDTEFMRVDTFYPIAGLIQVG-DAE-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVKEVLDLDLPKGETRSDWLQR-PLSETQISYAAEDAQHLAEVYVQLRPRLSDD-KYAWVLEDGAELVANLRREV-
M1JG70/1-190               ------------MITTDDALATLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HVALIDPHGISD--WSPLKAILRD-TAITKFLHAGSEDLEVFLNA-FGEL-PQPLIDTQILAAFCGRPLSWGFASMVEEYTGVALDKSESRTDWLAR-PLTERQCEYAAADVWYLLPIAGKLMAETEAAGWLSAALDECRLMQARRQEIL-
A0A0C5VS63/8-197           ---------QYVWVDSDTQFAECCEYWNLLPFISIDTEFIRTKTFYPKLGLLQVA-DDR-----------NSYLIDPLQITD--FLPFQKVLEN-PAVVKVLHACSEDAEIFHCC-FNAR-ARSVFDTQIAASFLGQGMSIGYANLVKYELGVDLPKDETRSDWLQR-PLTDNQKNYAAMDVAYLHQIFRIQEVALLEQGRFDWVLEDSDRIVESSL----
A0A0D8CFV6/1-193           ----------MEPITTTEELRDLCERLRKFEYVTVDTEFMRDSTYWPQLCLVQLA-SPEP--------SDNGAAVDPLA-EGIDLAPLFELMQD-EAVVKVFHAARQDIEIFVHL-SGKV-PHPVFDTQVAAMVLGYGDQVGYETLVNKVARKSIDKSMRFTDWSRR-PLSTKQISYALSDVTHLRVIYEAFHERLEANGRAVWLFEEMERLTDPSI----
B6VL44/1-194               --------MNYQLITTDAQLQQVCERAKEYAKIALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLNITN--WQPFRELITN-PQILKFLHAGSEDLEVFLNA-FQCL-PEPMIDTQVLAAFIGHPLSCGFAALVAEYIHVELDKSESRTDWLAR-PLSEKQCEYAAADVYYLLPLADILITATTQAGYMEAAIGECELISQRRREIL-
A0A0A7JMA4/3-195           --------IEIHWIRDDQTLAERCRAWRELPFVAVDTEFMRVDTFYPKAGLVQVG-DGQ-----------RAFLIDPLAIRD--WQPLGELLED-STVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAGGYLNIGFSMGYSRLVQDVLGIELPKGETRSDWLQR-PLSDTQVSYAAEDAVHLAELFEALRPRLSDD-KYAWVLEDGAELVAQMRREV-
M2UZB0/3-194               --------IETQWVLDDEHLTRLCAEWRQLPYVAVDTEFMRVDTFYPIAGLIQVG-DGR-----------RAYLIDPLSVRD--WSSFAALLQD-PAVVKVLHACSEDLEVLLRL-TGSL-PQPLFDTQLAAGYLNIGFSMGYSRLVQAVLGIELPKGETRSDWLQR-PLSDMQVRYAAEDAQHLAELYEALLPKLSED-KRAWVLEDGAELVTNLQRE--
G8LG68/10-203              --------LNYQMITTNDELALLCEVTRDFPAIALDTEFVRTRTYYPQLGLIQMY-DGK-----------HVSLIDPLGITD--WTPMRDLLLD-TAVTKYLHAGSEDLEVFLNT-FGVM-PQPLIDTQILAAFSNRPLSWGFAAMVEEYTGLTLDKSESRTDWLAR-PLTERQLEYAAADVFYLLPIAGQLMKEAEASGWLPAALDECRMTQQRRQEVV-
A0A1M6BQJ0/31-223          --------VEYQIITGSEELAEVCRQAMAHPVVMLDTEFVRIRTFHAKLGLIQLY-DGE-----------TLSLIDPTTIED--MSPFVSLLKA-PAVLKVLHACGEDLEVFYHE-FNCV-PEPMLDTQIMAAFLGYGLSTGFAALVSDIVGLELDKSESRTDWMAR-PLSSRQLDYAAADVFYLMPVYQHLSERLETTSWKDAAYEESQLQSQKRVVA--
A0A1E3GXX1/1-192           ----------MQMITTTQGLADACAELAGHDFITVDTEFLRETTFWPKLCVVQMA-SMD-----------AAFLVDALA-PDLDLTPFFELMKN-EAVLKVFHAARQDIEIIWHL-GGFV-PHPVFDTQVAAMVCGYGDSISYDQLVGRISGAQIDKTHRFTDWSRR-PLSDDQLVYAVADVTHLRDVYLSLRKSLDKKQRTDWVREEMDVLTSEETYR--
A0A1L5Q3G0/1-195           ----------MKTITTTEALAAFCAEAAKRPYVTVDTEFLRERTYYSKLCLLQMA-YQD-------DAGSDAVLVDPLV-DGLSLEPVYELFRN-TDVVKVFHAARQDLEIFFVE-GGVI-PEPLFDTQVAAMVCGYGEQVGYETLVRKIANASLDKSSRFTDWSRR-PLTDAQLTYALADVTHLRDIYEVLSKRLAKSGRERWVSEEMAVLKDPDTY---
A0A1B7ZA03/1-195           ----------MKTITTTEALAAFCAEAAKRPYVTVDTEFLRERTYYSKLCLLQMA-YQD-------DAGSDAVLVDPLV-DGLSLEPVYELFRN-TDVVKVFHAARQDLEIFFVE-GGVI-PEPLFDTQVAAMVCGYGEQVGYETLVRKIANASLDKSSRFTDWSRR-PLTDAQLTYALADVTHLRDIYEVLSKRLAKSGRERWVSEEMAVLKDPDTY---
A0A0P0QFU9/1-194           --------MNYQLITTDAGLQQVCEQARKHAQIALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLPIKQ--WQPFVDLLAD-TAVVKFLHAGSEDLEVFLNA-FKTL-PTPMVDTQILAAFTGRPLSCGFATLVAEYMKVELDKSESRTDWLAR-PLTERQCVYAAADVFYLLPMAKQLVQETEEAGWTAAANNECLLLCQRRSETL-
A0A086GDW2/1-194           --------MNYQLITTDAGLQQVCEQARKHAQIALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLPIKQ--WQPFVDLLAD-TAVVKFLHAGSEDLEVFLNA-FKTL-PTPMVDTQILAAFTGRPLSCGFATLVAEYMKVELDKSESRTDWLAR-PLTERQCVYAAADVFYLLPMAKQLVQETEEAGWTAAANNECLLLCQRRSETL-
A0A0B2C057/4-194           ----------HPLITDTQSLAELCTRLAQSDFVAVDTEFMRENTFYPLLCLVQIG-NEE-----------EAAAIDPLA-PGIDLAPLLELLTNNEDVLKVFHAGGQDVEIIYNL-TGKT-PHPIFDTQIAMMAVSQSEQIGYANLVESWMNKVIDKGARFTDWSRR-PLSERQIEYAIGDVTYLAKIFPRLLKKLIKTGRGQWLDAEMERLADPAN----
A0A0H3PFF1/10-202          ---------HFRVIADNATLLEVCNLAQQKSAVALDTEFMRVSTYFPKLGLIQLY-DGE-----------RVSLIDPLAITD--FSPFIALLAN-PKVLKILHSCSEDLLVFLQE-FDQL-PHPMIDTQIMARFIGLGASAGLAKLAQQYLNIEIDKGATRTNWIKR-PLSDIQLQYAAGDVWYLLPLYHILEKELAKTPWEQAVRDDCELALSKTHKLQ-
S5XX28/34-233              ---------AIETITTTEALAAFCAEAKTMPYVTLDTEFLRERTYYSKLCLIQAA-LPPAGIGKGGSGGGRAVLIDPIV-GNMSLEPLYDLFRH-QATVKVFHAARQDLEIFYHD-AGVL-PDPLFDTQIAAMVCGFGEQAGYETLVKKIARQPLDKSSRFTDWSRR-PLTEDQAAYAIADVIHLRAIYEYLSAQLQKTGRGPWVEEEVGVLLDP------
L1K5V3/1-194               ----------MQTITTTEALAAFCEAAKAEPYVTIDTEFLRERTYWSKLCLIQMA-LPG--------KTGEAVLVDPIEGSDMSLEPLYDLFRH-EATVKVFHAARQDLEIFFVE-GRAF-PVPLFDTQVAAMVCGFGEQVGYETLVKKIAREQLDKTSRFTDWSRR-PLSDAQKTYAIADVTHLRVIYEWLSAQIEKNGRQKWVEEELAILTDPET----
A0A080KKV5/1-194           --------MSYQYIVNNEQLIDYCSKIGNSTALALDTEFVRTRTFYPHLGLLQVF-NGE-----------HAALIDPINITD--WHAFLSILSN-PNIEKYFHSCSEDLEVFFHK-FGSI-PTPIIDSQILASFLDNPLSSGYANLVNKYLQVELDKSETRTDWLKR-PLTDKQCEYAINDVLYLYPLVNILKAQLTSKGYLEAAYQESQMVVARKCETI-
A0A1B9V8I6/1-190           ------------MIETTAALAEACTELAKSEFITIDTEFLRETTFWPELCLVQMA-SPT-----------LEVLVDPLA-KGLDLTPLFELMAN-PAVVKVFHAARQDIEIIYHL-GGLI-PHPIFDTQVAAMVCGFGDSISYDQLVQKIKNVQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDVYLSLKAQLEREGRSLWLTEEMDILESRDTYD--
A0A0F3LGS3/1-188           ----------MTPITTTEALADFCARVANAPFITVDTEFMRETTYWPKLCLIQAA-SAD-----------HAAIIDPMA-EGLDLEPFLDLLRD-EKIVKVFHACRQDVEIFVRL--GAM-PKPMFDTQVAAMAAGFGEQVAYDSLVRQMLRIEVDKGSRFTDWARR-PLSENQLVYALGDVTHLAALYPKLRDRLQKEGRLEWVMSEMESLTDPA-----
A0A0B4CI91/1-188           ----------MTPITTTEALADFCARVANAPFITVDTEFMRETTYWPKLCLIQAA-SAD-----------HAAIIDPMA-EGLDLEPFLDLLRD-EKIVKVFHACRQDVEIFVRL--GAM-PKPMFDTQVAAMAAGFGEQVAYDSLVRQMLRIEVDKGSRFTDWARR-PLSENQLVYALGDVTHLAALYPKLRDRLQKEGRLEWVMSEMESLTDPA-----
A0A0L8ITU4/3-194           --------IDIHWIRDDDSLARHCAQWQSLPFVALDTEFMRVDTFYPIAALLQIG-DGQ-----------SAWLIDPLLIND--WRPLSALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLDIDLPKGETRSDWLQR-PLSETQVSYAAEDAVHLAELFTILRPRLSDD-KYAWLLDDGAELVANLRRE--
A0A023WVK6/3-194           --------IETQWVLDDEHLTRLCAEWRQLPYVAVDTEFMRVDTFYPIAGLVQVG-DGR-----------RAYLIDPLAVRD--WSAFAALLQD-PAVVKVLHACSEDLEVLLRL-TGSL-PLPLFDTQLAAGYLNIGFSMGYSRLVQAVLGIELPKGETRSDWLQR-PLNDMQVRYAAEDAQHLAELYEALLPKLSDD-KRAWVLEDGAELVANLQRE--
A0A0T9UAG3/21-214          --------LNYQLITTDSALQQACEQAQKHAHVALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLPITQ--WQPFRELLQD-INVVKYLHAGSEDLEVFLNA-FDQM-PTPMIDTQVLAAFSGRTLSCGFAMLVNEFEGVELDKSESRTDWIAR-PLSEKQCDYAAADVFYLLPLAAKLVEATEAAGWMDAAIDECQLLCRRRSETL-
K7SGH0/12-201              -----------VIVTSSEEVARLCNKLKQEPFVTIDTEFVREKTYWPELCLVQLA-GEE-----------DVAVIDTLA-PGIDLAPLGELLDE-PGCIKVFHAARQDLEIFLHI-FDRL-PQSLFDTQVAAMVAGFGDQVGYDSLVGAITGQAIDKAHRFSDWSAR-PLTKAQIAYAAADVTHLRTVYLALRQQLEDEGRLRWADAEQAVLTSEETF---
M9MA20/12-201              -----------VIVTSSEEVARLCNKLKQEPFVTIDTEFVREKTYWPELCLVQLA-GEE-----------DVAVIDTLA-PGIDLAPLGELLDE-PGCIKVFHAARQDLEIFLHI-FDRL-PQSLFDTQVAAMVAGFGDQVGYDSLVGAITGQAIDKAHRFSDWSAR-PLTKAQIAYAAADVTHLRTVYLALRQQLEDEGRLRWADAEQAVLTSEETF---
A0A0N1KHJ7/9-202           --------LNDQLITTHSALIDVCQQAKNAKWLVLDTEFIRTRTYYPQLGLLQLY-DGE-----------RVSLIDPLLIDD--LSPFKQLLQD-TNIVKFLHAGSEDLEVFLHD-FGCV-PEPLIDTQVLAAFIGHPISCGFAALVAEYLGVVLDKSESRTDWLAR-PLSEKQCEYAAADVLYLLPLAEKLMAQVTEAGYLESAKDECRRIVQRRQEIT-
A0A1L9JUT7/20-213          --------VNYQIITENQDLVRVCSKAREADVVMLDTEFVRTRTYYPQLGLIQLF-DGD-----------TLSLIDPTVLTD--MSAFAELLND-ASVMKVLHACGEDLEVFHNA-FGTI-PAPMVDTQIMAAFLGHGLSTGFAALVEQYLNVELDKSESRTDWLAR-PLSDKQLEYAAADVHYLLPLYDILLEKVMAADWWQAAQQESELQASKRVKTP-
A0A072GHX7/1-194           --------MNYQIITKNKDLEQVCAQARDADVVMLDTEFVRIRTFYPQLGLIQLF-DGK-----------HLSLIDPTELTD--MTSFIELLKD-ASVLKVLHACGEDLEVFQNA-FGCT-PFPMVDTQLMAAFLGHGLSTGFATLVEEYLGVALDKSESRTDWMAR-PLTQKQLDYAAADVHYLLPLYEKLLDKVTEAGWWEAVQQESDLLVSKRIRET-
A0A154NBS8/4-194           ----------HPLITDSATLANLCHRLAQADFITVDTEFMRESTYYPELCLIQIA-DLN-----------EAAAIDPMA-PGLDMTPLLDLLVNNEDVLKVVHAGGQDIEIIHNL-TGKT-PHPLFDTQVAAMALGQGEQIGYSNLVDSWLGIQVDKGARFTDWARR-PLDARQIEYAIGDVTHLARIFPKMLERLRKTGRGVWLDQEMERLADPAN----
H0SIT3/1-191               ----------MDLITTTADLAAACDRLAKHPVITVDTEFLRETTYYPLLCVVQMA-SAD-----------EAVVIDALA-EGIDLKAFFELMGN-EKVLKVFHAARQDIEIIWHR-AGIV-PHPIFDTQVAAMVLGYGDSIAYDQLVERITGHRPDKTHRFTDWSRR-PLTKEQAHYAEADVTHLRDVFAALDADLKKRGRSDWVSEEMEILTSPKTY---
Q7VLG8/5-198               --------IDYKWIDTNEKLATVCQQASDKTAIALDTEFIRTRSYYPKFGLIQLF-DGE-----------QTSLIDPTTISD--FLPFIDLLAN-PNIVKVLHACSEDLEIFQHQ-FNQA-LTPLIDTQIMAAFSGLGLSIGFAKLVNHYLNIELDKGASRTDWLAR-PLTETQLQYAAADVYYLLPIYQKLQAELAQTNWQEAVNQECQLLVNKRNKTL-
V7F3Z1/1-191               ----------MHVITTQNELESVLAAFEKSDFVTVDTEFIRETTFWPILCLIQMA-APG-----------VTALIDPLA-PDINLAPFFRLMAN-EAVVKVFHAARQDIEIIVHL-GDLV-PHPVFDTQVAAMVCGFGDSVSYDQLVQRITGARLDKSSRFTDWRHR-PLSDKQLDYALADVTHLIDVHKHLSAELERENRAHWLNEEMEVLTSRETY---
A0A166HTF1/3-194           --------IETQWVVDDEHLARLCAEWRQLPYVAVDTEFMRVDTFYPIAGLVQVG-DGR-----------RAYLIDPLAVRD--WRPFATLLDD-AAVVKVLHACSEDLEVLLRL-TGSL-PQPLFDTQLAAGYLNIGFSMGYSRLVQAVLGIELPKGETRSDWLQR-PLSDMQVQYAAEDAQHLAELYEALLPKLSED-KRTWVLEDGAELVANLQRE--
J2UAF7/1-194               --------MNYTLIDQNDQLAAVCEKARQHAAVALDTEFVRTRTYYPQLGLIQLF-DGD-----------QLILIDPLNISD--WTPFVALLQD-KQVTKFLHAGGEDLEVFLHR-FKCL-PDPMIDTQILAAFSGQALSWGFASMVMHFNQIELDKSESRTDWLAR-PLTERQCEYAAADVAYLLPIAHKLVAQTEEAGNMAAALSECNLLCQRRLDVM-
A0A0L7ZQ25/17-210          --------VNYQIITKNKDLEQVCAQARDADVVMLDTEFVRIRTFYPQLGLIQLF-DGK-----------HLSLIDPTELTD--MTSFIKLLKD-ASVLKVLHACGEDLEVFQNA-FGCT-PFPMVDTQLMAAFLGHGLSTGFATLVEEYLGVALDKSESRTDWMAR-PLTQKQLDYAAADVHYLLPLYEKLLDKVTEAGWWEAVQQESDLLVSKRIRET-
A0A1E3GPF3/1-193           --------MTVLYIDSDEALSQFCQDIQHSKWLAIDTEFLREKTYYPQLCLIQIA-NDD-----------VIACVDPIAIKD--LSPLLDLLYQ-PQITLVFHAARQDLELLYLL-KNTL-PQNLFDTQLAATILGDGDQIGYGNLVKLRLDVSLDKAHSRADWTQR-PLSAEQLEYAADDVRYLRELYHQMSADLEKQGRTEWLKEDFADLANANNYI--
U1WPZ1/1-189               -----------MYITSKDELESFCEHARTAKMLAVDTEFLREKSYYPKLCLVQLG-TDE-----------EIALIDPLAISD--LSPLAHIMVD-SQIIKVFHACSQDLEVLFDV-LDVV-PQPVFDTQFAAAFLGMRQQISYGDLVNEACRVRLPKAQSLSDWSHR-PLTAEQLEYAADDVRYLPRIYEKMMDELLAKDRLGWVLPEMQQLIDKISL---
A8H5D0/2-194               --------LAFQYIEDDASLAALVEQYQDADLLVLDTEFVRTRTYYARLGLIQAY-DGK-----------TLALIDPLAVSN--LELFWQLLSK-ESSVKLLHSCSEDLEVFARY-GNCQ-PTNLFDSQIAAGLAGMGHGLGYAKLVEQTLEVSLDKGESRTDWLKR-PLTEAQLNYAANDVYYLYKLYPQLVKLLEEQGRLDWVYEEGVRMTQGRLDT--
A0A0I9SM77/1-186           --------------MDDEHLTRLCAEWRQLPYVAVDTEFMRVDTFYPIAGLIQVG-DGR-----------RAYLIDPLSVRD--WSAFAALLQD-PAVVKVLHACSEDLEVLLRL-TGSL-PQPLFDTQLAAGYLNIGFSMGYSRLVQAVLGIELPKGETRSDWLQR-PLSHMQVQYAAEDAQHLAELYEALLPKLSED-KRAWVLEDGAELVANLQRE--
K5UKS5/1-194               --------MNYQIITKNKDLEEVCALAREADVVMLDTEFVRIRTYYPQLGLIQLF-DGK-----------QLSLIDPTELTD--MTSFVELLKD-TSVLKVLHACGEDLEVFQNA-FGCT-PFPMVDTQLMAAFLGHGLSTGFATLVEEYLGVELDKSESRTDWMAR-PLTQKQLDYAAADVHYLMPLYEKLLDKVNEAGWWEAVQQESDLLVSKRIRNL-
A0A0L6CVS5/1-195           ----------MKTITKTDDLAAFCAKAKQHPYVTVDTEFLRERTYYSKLCLVQLA-VPG-------KEDDCAVLVDPLAGEGLSLEPLYALFRD-TSVVKVFHAARQDLEIFQVE-AGVI-PAPLFDTQVAAMVCGFGEQAGYETLVKKIAKQSLDKSSRFTDWSRR-PLTDAQKTYALADVTHLRGIYEFLAKKLASTGRDKWVEEELSVLTDPET----
A0A0F7PN81/1-193           ----------MDMITTTEALAAFCTRLASHDFVTVDTEFLRETTYWPELCLIQMA-GPD-----------DEGIVDPQA-EGIDLKPFFDLMAD-SSVIKVFHAARQDIEIVVKL-GDLV-PHPIFDTQVAAMVCGFGESISYDQLVSRITGAPIDKSSRFTDWSRR-PLSDKQLDYALADVTHLRDVYLELVSRLEAENRAHWLIDEMAILETRATYEV-
A0A1E2TVM2/1-193           --------MQYQVIESQTALDEFVLSISKAKVLAVDTEFMRRRTLYPEIALLQIF-DGN-----------HLALIDPLADMD--FSRLWTLFSD-TSVLKVLHSPSEDIEVFLKF-AGFI-PSPMFDTQFALQLLGEGSCIGFANMVKQLRDVDIDKSESRTDWLRR-PLTQNQLDYAASDVYHLLPCFETIQARVNEKQLFNIVLQESELLAQKRSFR--
A0A169WIZ1/1-194           --------MNYQLITTDAGLQQVCEQARKHAQVALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLPIKQ--WQPFVDLLAD-TAVVKFLHAGSEDLEVFLNA-FKML-PTPMVDTQILAAFTGRPLSCGFATLVAEYMKVELDKSESRTDWLAR-PLTERQCVYAAADVFYLLPMAKQLVQETEEAGWTAAANNECLLLCQRRSEAL-
A0A084TE60/1-193           --------MEYQIVTELAELESVCNKARESDVVMLDTEFVRIRTFYPKLGLIQLY-DGE-----------QLSLIDPLTISD--FTPFIELLQD-ASVLKVLHACGEDLEVFVNS-FGCM-PFPMVDTQIMAAFLGHGLSTGFAALVDEYLGVELDKSESRADWVAR-PLTDKQLDYAAADVYYLWPLYFKLFAQVEAKGWWDAAQQESDLLMQKRGKT--
S6DB27/12-200              ----------ARLISSTQELEAALAPFHNESFVTVDTEFMREQTYWPELCLVQIG-ATN-----------DVVLIDALA-DGIDLTPLKNLFAD-TAVLKVFHAARQDLEIFLHL-FDAL-PTPLFDTQVAAMVAGFGDQVGYDSLVGSLTGHMIDKSHRFTDWSVR-PLSPAQLTYAAGDVTWLRLVYERLVKKLEQEQRLDWVAAEMAELEDPA-----
A0A0V0PUB7/1-199           ----------MRTLTTTAELAEFCALAKTQPYVTLDTEFLRERTYYSRLCLIQAA-LPPASAVK--TAGGSAVLIDPLA-DGLSLEPLYELFRH-KATVKVFHAARQDLEIFFHD-AGVM-PDPLFDTQIAAMVCGFGEQVGYETLVKKIARQPLDKSSRFTDWSHR-PLSDAQAAYALADVTHLRAIYEFLSTQLDKTGRAPWLAEEVAVLLNPET----
A0A169R0U0/1-190           ------------MITTNDGLRAVCDAASAVSAIALDTEFVRTRTYYPQLGLLQLF-DGS-----------QVSLIDPLVITD--WEPMRELLLN-KDVTKFLHAGSEDLEVFLNA-FHLM-PQPLIDTQILAAFCGRPMSWGFASMVEEFTGVALDKSESRTDWLAR-PLTERQCIYAAADVWYLLPIAGKLMAETDSAGWLSAALDECQLMQQRRQEIQ-
A0A0E0WZL4/1-190           ------------MITTNDGLRAVCDAASAVSAIALDTEFVRTRTYYPQLGLLQLF-DGS-----------QVSLIDPLVITD--WEPMRELLLN-KDVTKFLHAGSEDLEVFLNA-FHLM-PQPLIDTQILAAFCGRPMSWGFASMVEEFTGVALDKSESRTDWLAR-PLTERQCIYAAADVWYLLPIAGKLMAETDSAGWLSAALDECQLMQQRRQEIQ-
U4VG89/1-194               ----------MHLITTTEALEEAVSALAKSDFVTVDTEFIRETTFWPELCLIQMA-SPD-----------HTALVDALA-PGLDLAPFFRLMAD-EKVVKVFHAARQDIEIVFHL-GDLIPPSPVFDSQVAAMVCGFGDAISYDQLVQKVTGKHIDKSSRFTDWRRRPPLSEKQLDYALADVTYLRDIYLYLKQELEKEGRSEWVNEEMAVLTSRETYD--
A0A1B5DMQ2/3-195           --------IDIHWICDNDSLGQHCAQWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PGVIKVVHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIDLPKGETRSDWLQR-PLSETQVSYAAEDAVHLAEVYIRLRPRLSDD-KYAWVLEDGAELVANLRREV-
A0A037UT85/27-215          -----------PVITSIKDLKTLCDALAKQPYVTVDTEFMRQTTYRPKLCLIQMA-APG-----------IEAVVDPL--PNLDLSPFYALMAN-TAVVKVFHAARQDIEIVWQE-AGVI-PMPLFDTQIAAMALGHGDAISYGALVKKLLKKNHDKTYQAIDWCQR-PLGPKQLEYALGDVTYLRDVYAKLKQRLEQTGREPWLEEEVAVLTDPKTY---
A0A0F7Y5T9/3-195           --------IEIHWIRDDQTLAQHCQSWRELPFVALDTEFMRVDTFYPKAGLIQIG-DGK-----------RAFLIDPLLIRD--WQPLAELLED-NGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNIGFSMGYSRLVQDVLGLELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAELFSALRPRLSDD-KYAWVLEDGAELVAALRREV-
A0A173KU17/4-196           ----------HPLITDSKTLASFCARIAQSPYIAVDTEFMRENSYWPDLCLVQVA-DEN-----------EAAAIDPKA-PGLDLSPLLDLLVDNEDVLKVFHAGGQDLEIIYNL-TGKT-PHPLFDTQIAAMALGLGEQIGYGNLVDAWLGVQLDKGARFTDWARR-PLDKRQIDYAIGDVTYLIQIFPKMLEELKRTGRGDWLDQEMERISDAENYV--
A0A0W1DG72/4-194           ----------HPLIETNAALVEFCDLIRTSDFIAVDTEFMRENTFWPELCLIQVA-DRE-----------HAAAIDPMA-PGIDLKPLLDLLVDNEEMLKVFHAGGQDVEIIFNL-TGKT-PHPIFDTQIGQMAIGQAEQVGYSNLVEAWIGVQLDKGARFTDWSRR-PLDKRQIDYAIGDVTHLAKIFPMMLAKLIKTGRGHWLDEEMEKLADPAN----
A0A096KRA8/1-189           -----------MYISTHQALVDFCQRAREFDAIAVDTEFLRERTFHPRLCLVQIA-TPA-----------ESVAVDPLVIDD--LSPLAELMAD-EGVVKVFHACSQDMEVMLHT-VGAL-PRPIFDTQVAAAFLGERQQISYGALVQTFCGVSLPKTESLTDWSRR-PLSDKQIEYAIDDVKYLIVAYTEMMSRLRELGRVDWVLDELRPLADESHY---
D7A7J0/1-190               ----------MDMITTTDTLSAACERLARHPFITVDTEFLRETTFWPKLCVVQLA-SVE-----------EAIVVDAVA-DGIDLAPFFALMSD-EKVLKVFHAGRQDIEIVWHL-AGII-PHPVFDTQVAAMVLGHGDSISYDQLVQRITGEVLDKSLRFTDWSRR-PLSAAQIAYAEADVTHLRDVFLKLDADLKKRGRADWVGEEMAVLTSPDT----
A0A1E4BYD1/2-193           ----------TDIITTTEDLAAACDRLSRFEFVTVDTEFMRETTYWPKLCIIQVA-STD-----------EAVIIDAEV-PGLDLAPFFALMAN-EKVVKVFHAARQDIEIVWHL-GGII-PHPIFDTQVAAMVCGFGESISYDQLVGRITGHSIDKSSRFTDWSRR-PLTPQQVDYAIADVTHLRDVYKALKQKLDKGNRHEWVAEEMSVLTSVDTYQ--
A0A1D7R1S4/13-205          ---------HFQVITSDLALAEICYSAQQKAVIALDTEFVRIKTLYPQLGLIQLY-DGE-----------RVSLIDPTTIQD--FSPFIALLAN-TAVLKVLHACSEDLEVFQHS-FNQL-PTPMLDTQVMANFLGFPNSTGLATLVQHYFQLEIDKGASRTDWLAR-PLSDNQLIYAAADVWYLLPLYQRMQEALAQTRWQEAAQQDCEALLLKREQHK-
A0A022PRS4/1-194           --------MNYQLITTDAQLQQVCERAKKYSKVALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLNITN--WQPFRELITH-PQILKLLHAGSEDLEVFLNA-FQCL-PEPMIDTQVLAAFIGRPLSCGFAALVAEYIHVELDKSESRTDWLAR-PLSEKQCEYAAADVYYLLPLADILMTATAQAGYMEAATGECQLISRRRKEIL-
A0A0C9MQE7/11-201          ----------HPLITDSATLANLCARLSQADFITVDTEFMRESTYWPELCLIQIA-DTQ-----------EAAAIDPKA-PGLDMTPLLDLLVNNDEVLKVFHAGGQDIEIIYNL-TGKT-PHPLFDTQIAAMALGQGEQIGYSNLVDSWLGIQVDKGARFTDWSRR-PLDQRQVDYAIGDVTHLSDIFPRMLERLRKTGRGAWLDQEMERLADPEH----
A0A1J5KDA0/13-205          ---------HFQVITSDLALAEICYSAQQKAVIALDTEFVRIKTLYPQLGLIQLY-DGE-----------RVSLIDPTTIQD--FSPFIVLLAN-TAVLKVLHACSEDLEVFQHS-FNQL-PTPMLDTQVMANFLGFPNSTGLATLVQHYFQLEIDKGASRTDWLAR-PLSDNQLIYAAADVWYLLPLYQRMQEALAQTRWQEAAQQDCEALLLKREQHK-
A0A126QGX7/13-205          ---------HFQVITSDLALAEICYSAQQKAVIALDTEFVRIKTLYPQLGLIQLY-DGE-----------RVSLIDPTTIQD--FSPFIVLLAN-TAVLKVLHACSEDLEVFQHS-FNQL-PTPMLDTQVMANFLGFPNSTGLATLVQHYFQLEIDKGASRTDWLAR-PLSDNQLIYAAADVWYLLPLYQRMQEALAQTRWQEAAQQDCEALLLKREQHK-
A0A1B2F979/3-195           --------IEIHWIRDDQTLAEHCRGWRELPFVALDTEFMRVDTFYPKAGLIQVG-EGN-----------RAFLIDPLLIRD--WQPLADLLED-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNIGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAELFSALRPRLSDD-KYAWVLEDGAELVAQLRREV-
A0A0U5MU24/1-192           ----------MQLITTTEALEEAVSALAKSDFVTVDTEFIRETTFWPELCLIQMA-SPD-----------HTALVDALA-PGLDLAPFFRLMAD-EKIVKVFHAARQDIEIVFHL-GNLI-PSPVFDTQVAAMVCGFGDAISYDQLVQKVTGKHLDKSSRFTDWRRR-PLSDKQLDYALADVTYLRDIYLYLKEELQKEERSEWVNEEMAVLTARQTYD--
G6EXC2/11-198              -----------VMIIDNRSLQQMVASLLSEAFVTMDTEFVREKTYWPELCLIQIA-GKG-----------NVYLLDALA-KDIDLSLLLPLLSA-PSVTKIFHAAQQDLEIFLHL-FGKL-PTPVFDTQVAAMVAGFGNQIGYDSLVDSLLGVAIDKSHRFSDWAMR-PLTAAQQHYAAADVTYLWDVYQVLLNKLHQTKRFSWVASEIEVLSDPN-----
W0TK01/1-193               --------MQESFIETQAQLTDFIHEVGDSPWLAVDTEFIRERTYHPRLCLVQVA-NDR-----------IATAIDPLALED--LTPLRDLLLD-PGIEKVFHAARQDQEIFLNE-WGAL-PSPVFDSQPAAALLGYGDQVGYGKLIQQVLKVELAKDHSRTDWSRR-PLDKAQLRYALDDVIYLGQAYQKMKQALEKQGRLEWLKPEFETLTTETTYS--
S5SHL2/1-190               ------------MIETTADLAAACKELAKSDFITIDTEFLRETTFWPELCLIQMA-SPT-----------MEVLVDPLA-KGIDLAPFFELMAD-TKVLKVFHAARQDIEIIFNR-GNLI-PHPIFDTQVAAMVCGFGDSVSYDQLVSRIKNVHIDKSSRFTDWSRR-PLSEKQLEYALADVTHLRDVYLSLSSQLDREGRTSWLREEMDILEARETYD--
Q2KA38/1-190               ------------MIETTADLAAACKELAKSDFITIDTEFLRETTFWPELCLIQMA-SPT-----------MEVLVDPLA-KGIDLAPFFELMAD-TKVLKVFHAARQDIEIIFNR-GNLI-PHPIFDTQVAAMVCGFGDSVSYDQLVSRIKNVHIDKSSRFTDWSRR-PLSEKQLEYALADVTHLRDVYLSLSSQLDREGRTSWLREEMDILEARETYD--
A0A1C0TZ02/1-194           --------MNYQLITTDAQLQQVCERAKEYAKIALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLNITD--WQPFRELITN-PQILKFLHAGSEDLEVFLNA-FQCL-PEPMIDTQVLAAFIGHPLSCGFAALVAEYIHVELDKSESRTDWLAR-PLSEKQCEYAAADVYYLLPLADILMAATGQAGYMEAAFGECELISQRRREIL-
A0A0N1BRG7/1-188           ----------MTPITTNDALAQFCSAVRDAPFIAVDTEFMRETTYWPKLCLIQAA-TAE-----------HEAIIDPQA-EGLDLEPFLEILRD-PAIVKVFHAARQDTEIFVKL--GAM-PVPMFDTQVAAMAAGFGDQVAYDSLVRQMLKIDLDKGSRFTDWSRR-PLSDAQLHYAMGDVTHLAALYPKLRDRLKKEGRLDWVMSEMEDLVDPE-----
F4HF83/2-195               --------ISYQIIQQDAQLKQLCEQARHYSVVALDTEFERVRSYYAKLGLIQLY-FGA-----------DVALIDPLTITD--WQPFIALLAD-ANVLKILHASGEDIEIFHQQ-FQQI-PTPMLDTQIMANFLGFPQSAGFALLAQHYLQVELDKKASRTDWLKR-PLSERQLNYAAADVYYLLPIYQKMAATMASSEWKTAIQQECKLFAQKRCRQI-
A0A1B7I6L8/10-203          --------LTYQMITTDEGLATVCEAARQFPAVALDTEFVRTRTYYPQLGLIQLY-DGE-----------TASLIDPLTISD--WSPFKTLLQD-TAVIKFLHAGSEDLEVFLNA-FGML-PDPFIDTQILAAFSGRPLSCGFATIVESFTGIALDKSESRTDWLAR-PLTERQCDYAAADVLYLLPIAHKLMEETQAAGWMEAALDECNLMASRRQDVL-
A0A1H0XCS1/3-195           --------IDIHWIRDNDSLGQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGK-----------RAYLIDPLTIDN--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVFVLLRPKLSDE-KYRWVLEDGAELVANLRREV-
I4L0C5/3-195               --------IDIHWIRDNDSLGQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGK-----------RAYLIDPLTIDN--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVFVLLRPKLSDE-KYRWVLEDGAELVANLRREV-
F2K8T1/3-195               --------IDIHWIRDNDSLGQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGK-----------RAYLIDPLTIDN--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVFVLLRPKLSDE-KYRWVLEDGAELVANLRREV-
A0A159ZY00/3-195           --------IDIHWIRDNDSLGQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGK-----------RAYLIDPLTIDN--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVFVLLRPKLSDE-KYRWVLEDGAELVANLRREV-
A0A0Q7A886/3-195           --------IDIHWIRDNDSLGQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGK-----------RAYLIDPLTIDN--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVFVLLRPKLSDE-KYRWVLEDGAELVANLRREV-
S2KX92/3-195               --------IEIHWIRDDQTLAECCRKWRELPFVAVDTEFMRVDTFYPKAGLIQIG-DGQ-----------CAFLIDPLLIND--WQPLAELLDD-NGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQEVLAIELPKGETRSDWLQR-PLSDTQVSYAAEDAVHLAELFSALRPRLSDD-KYAWVLDDGAELVAALRREV-
A0A0B3BZQ5/3-195           --------IDIHWIRDDAELAQQCAAWRAQPFVVLDTEFMRVDTFYPIAGLVQVG-DGR-----------QAALIDPLCIRD--WSPFAALLDD-PAVVKVLHACSEDLEVFQRL-TGTL-PQPLFDTQLAAAYLNLGFSMGYSRLVQALLGVELPKGETRSDWLQR-PLSDMQVRYAAEDVQHLVEVYRALDERLSAE-KRGWLLEDGAELVANLRREV-
A0A0Q8LT45/1-188           ----------MTPITTTAELQAFCDKIKGQAFVAVDTEFMRETTYWPKLCLIQAA-APN-----------AEAVIDPLA-DGLDLEPFLEILRD-PSIEKVFHAARQDVEIFNNL--KAM-PVPLFDTQVAGMAAGFGEQIAYDALVRQMLKIEIDKSSRFTDWARR-PLTDAQLVYALGDVTHLAKLYPMLRSRLETEGRLAWVVDEMRGLSDPA-----
A0A0C5XND9/4-194           ----------HPLITDSKTLAQFCARIAKSPYIAVDTEFMRENSYWPDLCLVQVA-DEH-----------EAAAIDPKA-PGLDLSPLLDLMVDNEDVLKVFHAGGQDLEIIYNL-TGKT-PHPMFDTQIAAMALGLGEQIGYGNLVDAWLGVQLDKGARFTDWARR-PLDKRQIDYAIGDVTYLIQIFPKMLEELRRTGRGDWLDQEMERISDPSN----
A0A197BW61/4-194           ----------HPLITDSKTLAQFCARIAKSPYIAVDTEFMRENSYWPDLCLVQVA-DEH-----------EAAAIDPKA-PGLDLSPLLDLMVDNEDVLKVFHAGGQDLEIIYNL-TGKT-PHPMFDTQIAAMALGLGEQIGYGNLVDAWLGVQLDKGARFTDWARR-PLDKRQIDYAIGDVTYLIQIFPKMLEELRRTGRGDWLDQEMERISDPSN----
A0A0S3JZX7/14-207          --------VNYQIITKNKDLEEVCTHAREADVVMLDTEFVRIRTFYPQLGLIQLF-DGN-----------RLSLIDPTELTD--MTPFVALLKD-TSVLKVLHACGEDLEVFQNA-FGCT-PFPMVDTQLMAAFLGHGLSTGFASLVEEYLGVELDKSESRTDWMAR-PLTQKQLDYAAADVHYLLPLYEKLFDKVTQAGWWEAVQQESDLLVSKRIRVT-
A0A1C3UIA7/1-190           ------------MIETTAQLEAACQELAKSEFITIDTEFLRETTFWPELCLIQMA-SPT-----------TEVLVDPLA-KGLDLAPFFELMAN-PSVLKVFHAARQDIEIIFHR-GNLI-PHPIFDTQVAAMVCGFGDSVSYDQLVSRIKNVHIDKSSRFTDWSRR-PLSEKQLDYALADVTHLRDVYLSLKEQLTREGRASWLQEEMAILEARETYD--
A0A165ULT6/1-191           ----------MKMITTTQELAQACAKLANSDFVTVDTEFLRETTFWPKLCLIQIA-NPD-----------YAVLVDALA-EDLDLEPFFALMRN-TDIVKVFHAARQDIEIIYHL-GGFV-PSPLFDSQVAAMVCGFGDSVSYDQLVSKVTGEQIDKSSRFTDWSRR-PLTNKQLAYALADVTFLRDVYLFLKKQLEQKGRDHWVEDEMATLSSVDTY---
A0A0R3KSP9/1-191           ----------MDLITTTPDLAAACARLAQHKVITVDTEFLRETTYYPLLCVVQMA-SPD-----------EAVVIDTLA-PGIDLKPFFELMGN-EAVLKVFHAARQDIEIVWHQ-SGTI-PHPIFDTQVAAMVLGYGDSIAYDQLVERVTGHRPDKTHRFTDWSRR-PLTPEQMHYAVSDVTHLRDVFAALDADLKKRGRNDWVSEEMEILTSPRTY---
E1XA26/10-202              ---------HFRVITDNAALLEVCNLAQQKSAVALDTEFMRVSTYFPKLGLIQLY-DGE-----------RVSLIDPLAITD--FSPFVALLSN-PKVLKVLHSCSEDLLVFLQE-FDQL-PRPMIDTQIMARFLGLGTSAGLAKLAQQYLNVEIDKGATRTNWIKR-PLSDIQLQYAAGDVWYLLPLYHILEKELAKTPWEQAVRDDCELVLAKTHKLQ-
A0A0X9ZS00/10-202          ---------HFRVITDNAALLEVCNLAQQKSAVALDTEFMRVSTYFPKLGLIQLY-DGE-----------RVSLIDPLAITD--FSPFVALLSN-PKVLKVLHSCSEDLLVFLQE-FDQL-PRPMIDTQIMARFLGLGTSAGLAKLAQQYLNVEIDKGATRTNWIKR-PLSDIQLQYAAGDVWYLLPLYHILEKELAKTPWEQAVRDDCELVLAKTHKLQ-
S9Q7Z4/1-195               ----------MKTITTTDDLAAFCAAAAEAPYVTVDTEFLRERTYYSKLCLVQLA-LPG-------TDDDTAVLVDPLA-GDLSLDPLMELFRN-PDVVKVFHAARQDLEIFYID-HGVI-PEPLFDTQVAAMVCGFGEQVGYETLVKRIAKASLDKSSRFTDWSRR-PLTDAQKKYALADVTHLRVIYEHLAAELARTGRDRWVAEEIAVLTDPETY---
A0A0G3XFS6/4-194           ----------HPLISSTDELRDLCDRFATADFVAVDTEFMRESTYWPLLCLVQIS-DGK-----------EAAAIDPLA-QGIDLTPLLDLLCENEDVLKVFHAGGQDVEIIYNL-TGKT-PHPIFDTQIAMMAISQSEQIGYSNLVESWLGHAIDKGARFTDWSRR-PLTERQLEYAVGDVTYLSKIFPKMLKKLIKTGRGIWLDHEMERLADPAN----
A0A0W0HR43/3-195           --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAEVYTRLRPRLTDD-KYAWVLEDGAELVANLRREV-
A0A1H0NVU7/3-195           --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAEVYTRLRPRLTDD-KYAWVLEDGAELVANLRREV-
A0A0N0B9K3/1-191           ----------MDLITTTDALRQICTRLAEQPFVTVDTEFMRETTYYPKLCLIQMA-APD----------GTGVLVDPLA-PGIDLEPFIALMAD-ERTVKVFHSARQDLEIIWLI-GGIL-PHPFFDTQVAAMVCGYGDSVSYEQLVNDVAKAKIDKSSRFTDWSRR-PLSEAQLSYALSDVTHLVRIYEVLVAELLRTDRGAWLDEEMAVLTSPET----
E3I1R1/27-215              -----------PVITSITDLKTLCDALAGQPYVTVDTEFMRQTTYRPKLCLIQMA-APG-----------IEAVVDPL--PNLDLSPFYALMAN-TAVVKVFHAARQDIEIVWQE-AGVI-PMPLFDTQIAAMALGHGDAISYGALVKKLLKKNHDKTYQAIDWCQR-PLGPKQLEYALGDVTYLRDVYAKLKQRLEQTGREPWLEEEVAVLTDPKTY---
A0A0Q6FDJ6/1-190           ------------MIETTAELAAACKSLAEGQYLTIDTEFLRETTFWPQLCLIQMA-GPD-----------IAVIVDPLA-KDIDLTPFFELMAD-TSVIKVFHAARQDIEIIYNL-GKLI-PHPIFDTQVAAMVCGFGDSVSYDQLVSRIKGVHIDKSSRFTDWSRR-PLSDKQLDYALADVTHLRDVYLHLKTELEREGRSLWLTEEMAILEAKETYD--
C2HTR1/9-202               --------VNYQIISQLGDLQRVCLAARDADVVMLDTEFVRTRTFFPQLGLIQML-DGE-----------NLSLIDPTVLDE--MTPFVELLQD-TSVLKVLHACGEDLEVFQNA-FGCT-PFPMVDTQIMAAFLGYGLSTGFAALVQDQLQVELDKSESRTDWLAR-PLSDKQLEYAAADVFYLLPMYEKLVERVTQAGWWDAALQESELQVAKRTKVS-
H3ZHX5/1-192               ----------MSLLSTNQALAEFCQQALQQPLLALDTEFIRQSTLYPKLGLIQLY-DGQ-----------QLALVDPLCITD--WQPLQQLLAA-PDVTKILHSCTEDLEALATI-GIQS-IQPLFDTQLAAEILGWGGSMGYARLVEQLTGAMLDKSESRTDWLAR-PLAQKQLDYAANDVKFLLPVYQKLLQELGAGQKLTLLLAEGQQLLARRQQQL-
A0A0H1AC01/1-191           ----------MHLITRQDELETAIRALEQSAFVTVDTEFIRETTFWPELCLIQMA-APG-----------VTALVDPLS-PGIDLKPFFDLMAN-ENVVKVFHAARQDIEIIFHL-GELI-PHPVFDTQVAAMVCGFGDSVSYDQLVQRVTGTRLDKSSRFTDWRHR-PLSDRQLEYALADVTYLIEVYQYLGAELDRENRAHWLNEEMDVLTARETY---
A0A1B3MF92/1-192           ----------MQIIETTAALTEACETLARSEYLTIDTEFLRETTFWPELCLVQLA-GPE-----------LEVIVDPLA-KGLDLAPFFELMAN-TAVLKVFHAARQDIEIIFNR-GNLI-PHPIFDTQVAAMVCGFGDSVSYDQLVQKIKGVHIDKSSRFTDWSRR-PLTDKQLEYALADVTHLRDVYLTLKEKLEEAGRSLWLTEEMAVLESRETYD--
A0A176UWB9/1-194           --------MNYSLIENDDHLAEVCHKARQHTAVALDTEFVRTRTYYPQLGLIQLF-DGE-----------QLVLIDPLPVRD--WSPFIELLTD-TRVTKFLHAGGEDLEVFLHR-FGVL-PQPMIDTQILAAFSGQPLSWGFASMVAHFTQVELDKSEARTDWLAR-PLTERQCQYAAADVHYLLPIAHQLIQQVEQAGNMAAALSECENLCQRRLDTL-
H4FEK0/1-190               ------------MIDTTAALEEACRQLAKSDFITIDTEFLRETTFWPELCLIQMA-SPD-----------FDAIVDPMA-KGLDLAPFFELMAN-SAVVKVFHAARQDIEIIFHL-GNLI-PHPIFDTQVAAMVCGFGDSVSYDQLVQKVKNVHIDKSSRFTDWSRR-PLSEKQLDYALADVTHLRDCYIKLKADLEREGRAEWLTEEMAILESRDTYD--
A0A1B8V9T6/6-198           --------LDIQWIRDDATLERKCQDWKELPYLALDTEFMRVDTFYPEAGLVQVG-DGS-----------GVWLIDPLLIRD--WSPFAALLES-PLVVKVFHACGEDLEVFQRL-TGSL-PQPLFDTQLAAAYLGMPHSMGYSKLVLEILGLDLPKDETRSDWLQR-PLTDMQVRYAAEDVQHLAEVYVKLAPRLSDE-KLQWLLADGADLTQNQSRVS-
A0A0F5L6Z2/1-191           ----------MDLIVSTDALSAFCERAARFDFVTVDTEFLRETTYWPRLCLIQVA-TDD-----------EAVLIDPLT-ADFDLKPFFALLAN-PSVTKVFHAARQDIEIFVKL-TGSV-PHNIFDTQIAASVCGFGDSASYDSLVRAICKVELDKSSRFTDWSAR-PLSEKQRLYALADVTYLRDIYRELRHQVEQTRRWDWVEDELATLRSIDTY---
A0A0Q7WFM7/1-191           ----------MHVITTQDELETAVTALEKSKFVTVDTEFIRETTFWPVLCLIQLA-APG-----------VTALIDPLA-PGIDLKPFFKLMAN-EAVTKVFHAARQDIEIVVHL-GDLV-PHPVFDTQVAAMVCGFGDSVSYDQLVQKVTGERLDKSSRFTDWRHR-PLSDKQLDYALADVTHLIDVYQYLSAELEREDRAHWLNEEMEVLTSRATY---
A0A0Q4K5F2/4-193           ----------HPLIEDSATLAALCTRLAQSDFVAVDTEFMRENSYWPELCLIQIA-NTE-----------EAAAIDPMA-PGIDLTPLLNLLTDNEDVLKVFHAGGQDIEIVYNL-TGKT-PFPLFDTQVAAMALGQGEQVGYSNLVDAYLGITVDKGARFTDWSRR-PLDDRQIDYAIADVTHLSVIFPKMLGKLRKTGRGLWLDEEMERIADPA-----
A0A0Q4KTH3/4-193           ----------HPLIEDSATLAALCTRLAQSDFVAVDTEFMRENSYWPELCLIQIA-NTE-----------EAAAIDPMA-PGIDLTPLLNLLTDNEDVLKVFHAGGQDIEIVYNL-TGKT-PFPLFDTQVAAMALGQGEQVGYSNLVDAYLGITVDKGARFTDWSRR-PLDDRQIDYAIADVTHLSVIFPKMLGKLRKTGRGLWLDEEMERIADPA-----
A0A0Q4G1N9/4-193           ----------HPLIEDSATLAALCTRLAQSDFVAVDTEFMRENSYWPELCLIQIA-NTE-----------EAAAIDPMA-PGIDLTPLLNLLTDNEDVLKVFHAGGQDIEIVYNL-TGKT-PFPLFDTQVAAMALGQGEQVGYSNLVDAYLGITVDKGARFTDWSRR-PLDDRQIDYAIADVTHLSVIFPKMLGKLRKTGRGLWLDEEMERIADPA-----
A0A0L7AEF2/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLVITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
I2RIP4/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLVITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
E9YNZ6/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLVITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A149QQJ8/12-201          -----------VLLTSSEEVARICEKLQNEPFVTIDTEFVRERTYWPELCLVQLA-GTE-----------DVVLIDTLA-PGIDLAPLGALLAK-PDCTKVFHAARQDLEIFLHI-FDRL-PASVFDTQVAAMVAGFGDQVGYDSLVGAITGRSIDKAHRFSDWSAR-PLTKAQIAYAAADVTHLRTVYDALRKQLAEQDRLHWADAEQAVLTEEKTF---
Q5NPM2/4-195               ----------HPLITDSATLAALCSRLSRADFIAIDTEFIRENSYWPELCLIQIA-DDK-----------EAAAIDPLA-PGLDMTPLTDLLVNNEDILKVFHAGGQDLEIILHH-TGKM-PFPLFDTQIAAMALGVGEQVGYSNLVERYLSIKLDKGARFTDWSHR-PLDRRQLDYAIADVTHLATLFPMLLKELRDKGRGAWLDQEMERLADPSQY---
A0A0H3FXF3/4-195           ----------HPLITDSATLAALCSRLSRADFIAIDTEFIRENSYWPELCLIQIA-DDK-----------EAAAIDPLA-PGLDMTPLTDLLVNNEDILKVFHAGGQDLEIILHH-TGKM-PFPLFDTQIAAMALGVGEQVGYSNLVERYLSIKLDKGARFTDWSHR-PLDRRQLDYAIADVTHLATLFPMLLKELRDKGRGAWLDQEMERLADPSQY---
W6UYQ4/3-195               --------IDIHWIRDNDSLGQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGV-----------RAYLIDPLSIDN--WQPLAALLEN-PAVVKVVHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIDLPKGETRSDWLQR-PLSDTQISYAAEDALHLAEVFVQLRPKLSDD-KYAWVLEDGAELVANLRREV-
Q6N5D4/1-190               ----------MDLISTSEQLADACARLARHPVITVDTEFLRETTFYPLLCVVQMA-SAE-----------EALVIDALA-DGIDLKPFFDLMAN-EQVLKVFHAARQDIEIVWHR-AGIV-PHPIFDTQVAAMVLGYGDSIAYDQLVERITGHRPDKTHRFTDWSRR-PLTQEQVHYAVSDVTHLRDVFAALDADLKKRGRSDWVSEEMEVLTSPST----
F5NUF6/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAVADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
Z4WYQ3/1-193               --------MDALYIATSEELSAFCERAKTSHILAVDTEFLREKTYFPKLCLVQVS-TGS-----------EIAAIDPLLIDD--LTPLKELLEN-PQIVKIFHACSQDLEVLLEK-MDCA-CAPVFDTQVAAAFLGMRQQVSYAGLVENFANVKLAKAESLTDWSKR-PLDKEQLVYAEDDVRYLPAIYHQMIEKLIKLDRLSWVKPEMDQHTNIEQYR--
A0A0G3CK23/1-194           --------MDYQLITTDDQLKLVCERAAQASRIALDTEFVRTRTYYPQLGLIQLY-DGE-----------QVTLIDPLNIND--WSPFTALLIN-PNVIKLLHACSEDLEVFLHE-FGIL-PQPLIDTQILAAFNQRSLSTGFATLVAEYLHVELDKSESRTDWLAR-PLTEKQCIYAAADVYYLLPIADVILKETEQLQWLTAAQNECVMMSKRRSDVV-
A0A0B2JE52/1-193           --------MQYQLIETQNQLNTFVEQIKNKPILAIDTEFMRRRTLYPEVALIQVF-DGE-----------HLALIDPLAELS--LFDFWEILKD-PSVLKVLHSPSEDIEVFQKY-AGFV-PSPLFDTQFALQLLGEGNCMGFALMVKELQGIEIDKSESRTNWLQR-PLTKKQLDYAAADTFYLLPCFELIIERINAAGFFDIVINESELIAKKRAFQ--
Q3SS91/1-191               ----------MDLITTSAELASVCARLARHPVITVDTEFLRETTYYPLLCVIQLA-SPD-----------EAVVVDALA-GGIDLKPFFALMSN-ESVLKVFHAARQDIEIIWHQ-AGLI-PHPVFDTQVAAMVLGHGDSIAYDALVERITGHRPDKTHRFTDWSRR-PLTAEQLEYAVADVTHLRDVFAALDADLSKRGRSDWVSEEMEVLTSPKTY---
A0A0D6NT92/11-200          ---------EPRLISTTDDLATTLTRLRAEPYLTIDTEFMRERTYWPELCLVQIG-GVQ-----------EVVLIDTMA-DGLDLAPLAELMAD-ASVLKVFHAARQDLEIFLHL-FDAL-PTPLFDTQVAAMVAGYGDQVGYDSLVGSITGHAIDKSHRFTDWSVR-PLSAAQLTYAAGDVTWLRRVYEQLMKKLEQEKRLDWVSAEMAVLTDPS-----
A0A099KBP3/1-194           --------MQFTYIQDQQELLRYCQQVSHAEVLAVDTEFVRTRTLYPNLGLIQAY-DGN-----------ELALIDPVAIDD--LEPFWQLLRD-ESLLKVIHSCSEDLEVFLQS-GNCK-PANMIDSQVIMSFLGHGLSMGYAAMIKHYLTLELDKSESRTDWMKR-PLSESQLHYAAADVLHLHQICERLFSDINQVGFYQAAKLETQQQIEKKFTAI-
A4MY17/29-221              ---------HFRVITDNAALLEICNLAQMKSAVALDTEFMRVSTYFPKLGLIQLY-DGE-----------RVSLVDPLAITD--FSPFVALLSN-PKVLKILHSCSEDLLVFLQE-FDQL-PRPMIDTQIMARFLGLGTSAGLAKLAQQYLNVEIDKGATRTNWIKR-PLSDIQLQYAAGDVWYLLPLYHILEKELAKTPWEQAVRDDCELVLAKTHKLQ-
U3B7D2/1-194               --------MNYQIVTDTQTLAQACHQARQKSAVMLDTEFVRTRTFFPQLGLVQMY-DGE-----------LLSLIDTSVIDD--ITPMVELLQD-QDLLKVLHACGEDIEVFQHH-FQTI-PTPMVDTQVMAAFLGHGLSTGFASLVNEYLSVELDKSEARTDWLAR-PLTPKQLDYAAADVFYLQPLFDKLQASLQESGYWGDALQESELQVSKRIRHH-
K2SHH6/3-194               --------IDIHWIRDDDSLARHCAQWQSLPFVALDTEFMRVDTFYPIAALLQIG-DGQ-----------SAWLIDPLLIND--WAPLSALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLNIDLPKGETRSDWLQR-PLSDTQISYAAEDAVHLAELFAILRPRLSDD-KYAWLLDDGAELVANLRRE--
A0A1H5USX4/1-194           --------MEYKIVTEFAELESVCNQARESDVVMLDTEFVRIRTYYPKLGLIQLY-DGE-----------QLSLIDPLSISD--FTPLQELLLD-ASVLKVLHACGEDLEVFQNS-FGCM-PFPMVDTQIMAAFLGHGLSTGFATLVEEYLGIELDKSESRADWVAR-PLTDKQLDYAAADVHYLWPLYFKLFAQVEAKDWWDATQQESELLMQKRIKSV-
B0UPC6/1-191               ----------MKLITSTDDLTSACAHLSTQPFVTVDTEFMRETTYYPKLCLIQIA-APD----------GTTALVDPLA-PGIDLAPFFALMGD-EGVLKVFHSARQDLEIIWLQ-GGLL-PQPFFDTQVAAMVCGYGDSVSYEQLVNDVAKAKVDKSSRFTDWSRR-PLSEAQLTYALSDVTHLIKVYEALARQLLASDRGAWLDEEMAVLTSPET----
A0A0M2LJ66/4-194           ----------HPLITDSATLANLCARLADAPFVCVDTEFMRENTYWPELCLIQIA-DTE-----------EAAAIDPKA-PGLDMQPLLDLLVNNEDVLKVFHAGGQDIEIIYNL-TGKT-PHPMFDTQVAAMALGQGEQIGYSNLVDSWLGIQIDKGARFTDWSRR-PLDQRQVDYAIGDVTHLSKIFPRMLERLKKTGRGAWLDQEMERISDPAN----
A0A0D0K8F4/3-194           --------IDIHWIRDNESLAQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGK-----------RAYLIDPLTINA--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIDLPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVFVELRPKLSDD-KFAWVLEDGAELVANLRRE--
A0A017QHR2/18-211          --------IEYQWVDDNPSLAQMCLQVAEQSVIALDTEFVRTRTYYPKLGLIQLF-DGK-----------QVYLIDPLSITD--FSPFTALLAN-ENVLKVLHACGEDLEVFQHY-FKQL-PQPMLDTQVMAGFVGLGISIGFAKLALHYLEVELDKGASRTDWLSH-PLSEIQLQYACADVWYLLPIYHKLAEDLAKTPWQTAVVEECATLLAKRQIVE-
W7QT02/1-192               ----------MQFITSQTELEQCCSNLLQQPVIALDTEFVRERTYYPALGLVQIA-DRD-----------NVYLIDPLALDD--LTPLKNLVES-PNVIKVIHSCGEDIEVLNVG-LNAT-PTAFFDTQIAHAFISDNASIGLGAMVAQYQGVELDKGHARTNWLKR-PLSPQQLDYAADDVRYLLPIFDIQMQKLLDINMLDYVEQEVTGLISKRTQEV-
X6GK61/1-191               ----------MHVITTQKELETALAAFEKSDFVTVDTEFIRETTFWPILCLIQMA-APG-----------VTALIDPLS-PDIDLKPFFRLMAN-EAVVKVFHAARQDIEIIVHL-GDLV-PHPVFDTQVAAMVCGFGDSVSYDQLVQKVTGARLDKSSRFTDWRHR-PLSEKQLDYALADVTHLIEVYQHLSAELVRENRAHWLNEEMDVLTARETY---
A0A1B9M9M8/1-194           --------MSYQLIVNNHQLAEFCSKIEKSSAIALDTEFVRTCTFYPHLGLLQVF-DGK-----------HAALIDPITISD--WQDFLAILKN-PKIEKYFHSCSEDIEVFLHY-FGMV-PTPIIDSQILASFLDNPLSSGYASLVKKYLEVELDKSETRTDWLKR-PLTEKQCEYAINDVLYLFPLVNILKSQLTENDYLQAAYQECQMAVVRKYTVI-
A0A1M3YPX7/1-194           --------MNYQMIETDDALASLCEAVRACPAIALDTEFVRTRTYYPQLGLIQLF-DGA-----------NVALIDPLGISD--WSPLKAVLRD-TGITKFLHAGSEDLEVFLNA-FGEL-PEPLIDTQILAAFCGRPLSWGFASMVEEYTGVALDKSESRTDWLAR-PLSERQCEYAAADVWYLLPIAKKLMIETEAAGWLPAALDECRLMQQRRQEIQ-
A0A0H3NCF3/1-194           --------MNYQMIETDDALASLCEAVRACPAIALDTEFVRTRTYYPQLGLIQLF-DGA-----------NVALIDPLGISD--WSPLKAVLRD-TGITKFLHAGSEDLEVFLNA-FGEL-PEPLIDTQILAAFCGRPLSWGFASMVEEYTGVALDKSESRTDWLAR-PLSERQCEYAAADVWYLLPIAKKLMIETEAAGWLPAALDECRLMQQRRQEIQ-
A0A0F6B2C1/1-194           --------MNYQMIETDDALASLCEAVRACPAIALDTEFVRTRTYYPQLGLIQLF-DGA-----------NVALIDPLGISD--WSPLKAVLRD-TGITKFLHAGSEDLEVFLNA-FGEL-PEPLIDTQILAAFCGRPLSWGFASMVEEYTGVALDKSESRTDWLAR-PLSERQCEYAAADVWYLLPIAKKLMIETEAAGWLPAALDECRLMQQRRQEIQ-
A0A1D7U403/1-189           ----------MSLITTTQDLADACARLATHPFVTVDTEFLRETTYYPKLCLIQLA-SPD-----------EAVLVDPLA-PGLDLAPFLALMTD-EAVVKVFHAARQDLEIVWII-GKLI-PKPLFDTQVAAMVCGYGDSVGYEQLANDLAKARIDKSSRFTDWSRR-PLSDAQLVYAESDVTHLRDIYLALDADIKTSGRENWVAEEMAVLNSPG-----
V4QFI0/3-194               --------IETQWVLDDEHLTRLCAEWRQLPYVAVDTEFMRVDTFYPIAGLIQVG-DGR-----------RAYLIDPLSVRD--WSAFAALLQD-PAVVKVLHACSEDLEVLLRL-TGSL-PQPLFDTQLAAGYLNIGFSMGYSRLVQAVLGIELPKGETRSDWLQR-PLSDMQVRYAAEDAQHLAELYEALLPKLSED-KRAWVLEDGAELVANLQRE--
A0A0J1LZ27/1-190           ------------MITTNDALARLCEAVREFPAIALDTEFVRTRTYYPQLGLIQLF-DGK-----------HVALIDPLGITD--WSPLKTILQD-TAITKFLHAGSEDLEVFLNA-FGEL-PQPLIDTQILAAFCGRPLSWGFAAMVEEYTGVALDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITQKLMTETDASGWLPAALDECRLMQQRRQEIL-
A0A147FS64/1-191           ----------MKLITSTEELASACSRFATQPFVTVDTEFMRETTYYPKLCLIQIA-APD----------GSTALVDPLA-PDIDLAPFFALMGD-EGVLKVFHSARQDLEIIWLL-GGLL-PQPFFDTQVAAMVCGYGDSVSYEQLVNDVAKAKIDKSSRFTDWSRR-PLSDAQLSYALSDVTHLIKVYEALGKELVATDRGAWLDEEMAVLTSPDT----
A0A0J6QS24/1-191           ----------MKLITSTEELASACSRFATQPFVTVDTEFMRETTYYPKLCLIQIA-APD----------GSTALVDPLA-PDIDLAPFFALMGD-EGVLKVFHSARQDLEIIWLL-GGLL-PQPFFDTQVAAMVCGYGDSVSYEQLVNDVAKAKIDKSSRFTDWSRR-PLSDAQLSYALSDVTHLIKVYEALGKELVATDRGAWLDEEMAVLTSPDT----
A0A0L8C5I9/1-190           ------------MIETTADLEAACQQLARSSYITIDTEFLRETTFWPELCLIQMA-NPD-----------MAVIVDPMA-KGIDLAPFFALMAN-PDVVKVFHAARQDIEIIFHL-GNLI-PHPIFDTQVAAMVCGFGDSVSYDQLVNRIKGEQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDIYQYLNAQLEREGRSLWLSEEMAILEARDTYD--
F7QM57/1-192               ----------MEMITTTDELASVCNRLAKHRVITVDTEFLRETTYYPLLCVVQMA-SAD-----------EAVVIDALA-DGIDLKPFFDLMAN-ESVLKVFHAARQDIEIIFHR-AGII-PHPVFDTQVAAMVLGYGDSIAYDQLVERITGHRPDKTHRFTDWSNR-PLTQDQITYAVADVTHLRDVFAALDADLKKRGRSEWVSEEMEILTSPKTYD--
A0A0W1KVR1/1-193           --------MQYQLIQTQVQLNTFVEQIQSKPILAIDTEFMRRRTLYPEVALIQVF-DGE-----------HLALIDPLAELS--LFDFWQVLKD-PAVLKVLHSPSEDIEVFQKY-AGFV-PAPLFDTQFALQLLGEGNCMGFALMVKTLLGIEIDKSESRTNWLQR-PLTTKQLDYAAADTFHLLPCFELIIGRIKKAGFFEIVLDESELIANKRAFQ--
A0A0P1GQ75/1-194           ----------MQTITTTEELAAFCDRAKGQPYVTVDTEFLRERTYYSKLCLIQIA-LPG-------TDTDDAVLVDPLV-DGLSLEPLLELFRD-ERTVKVFHAARQDLEIFYID-HRCI-PTPLFDTQVAAMVCGFGEQVGYETLVKRIAKQQLDKSSRFTDWSRR-PLTDAQKTYALADVTHLRQIYEFLNRKLQETGRERWVGEEIAVLTDPET----
A0A0W0AAE0/13-201          -----------VLVTDTDALAALCARLREEDFVTVDTEFMREKTYWPELCVVQLA-GER-----------DVAVVDALA-PGLDLAPLGELLAD-ERVVKVFHAARQDVEIFLLR-FGNT-PRPMFDTQIAAMVAGFGDQASYDSLVRALAHAQIDKAHRFSDWAAR-PLSAAQIAYAAADVTHLRRVYRALRDRLQREDRLDWVGEEMAALTDPAN----
G2GWY5/1-194               --------MNYRLITTDHALKNICDRACTHTQVALDTEFIRTRTYYPQLGLIQLY-DGQ-----------NLSLIDPLQIKE--WQPFCALLQN-QNTVKFLHAASEDIEVFLNA-FNQL-PTPMIDSQILAAFVGHPVSSGFATLVAQYCHVELSKSETRTDWLIR-PLSQKQCHYAAADVFYLLPLARQLLKNTAAAGWLDAVKDECALLCQRRSKIL-
A0A0N1IZ67/1-194           --------MNYQLITTDAQLQQVCERAKEHSKIALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLNITN--WQPFRELITN-PQILKFLHAGSEDLEVFLNA-FQCL-PEPMVDTQVLAAFIGHPLSCGFAALVAEYIHVELDKSESRTDWLAR-PLSEKQCEYAAADVYYLLPLADILMTATTQAGYMEAAIGECELISQRRREIL-
A0A1E5Q5N1/1-190           ----------MITITKTNELVEFCQSVKGTPFVTVDTEFMRESTYWPQLCLVQVA-GPD-----------DAVAIDALA-PGIDLAPLFDLMDA-PETLKVFHAARQDVEIFYHL-MGHI-PAPLFDTQVAAMVCGFGDQVGYENLIAKLTKARVDKSSRFTDWSRR-PLSDKQIAYALSDVTHLRDAYRKLSKELQENGRSSWLESEMQILTSVST----
W9E313/1-191               ----------MHVITTQKELETVLAAFEKSDFVTVDTEFIRETTFWPILCLIQMA-APG-----------VTALIDPLS-PDINLAPFFRLMAN-EAVVKVFHAARQDIEIIVHL-GDLV-PHPVFDTQVAAMVCGFGDSVSYDQLVQRITGARLDKSSRFTDWRHR-PLSDKQLDYALADVTHLIEVYQHLSAELARENRAHWLNEEMDVLTSRETY---
A0A1A5IBS0/1-191           ----------MHVITTQKELETVLAAFEKSDFVTVDTEFIRETTFWPILCLIQMA-APG-----------VTALIDPLS-PDINLAPFFRLMAN-EAVVKVFHAARQDIEIIVHL-GDLV-PHPVFDTQVAAMVCGFGDSVSYDQLVQRITGARLDKSSRFTDWRHR-PLSDKQLDYALADVTHLIEVYQHLSAELARENRAHWLNEEMDVLTSRETY---
E6KX28/13-205              ---------RFQLITDDQALFDVCEQARTQSAVALDTEFVRVRTLHPKLGLIQLY-AGD-----------EVALIDPTMIQD--FSPFIALLAD-ESVLKVLHACGEDLEVFQHY-FQQL-PQPMCDTQVMANFLGFAGSAGFATLVQHYFHIEIDKGASRTDWLAR-PLSEIQLRYAAADVWYLLPLYVQMQTQLAQTEWQSAVKNECEFLLHKRAHAV-
K8PHG0/1-192               ----------MEMITTTDELASVCNRLAKHRVITVDTEFLRETTYYPLLCVVQMA-SAD-----------EAVVIDALA-DGIDLKPFFDLMAN-ESVLKVFHAARQDIEIIFHR-AGII-PHPVFDTQVAAMVLGYGDSIAYDQLVERITGHRPDKTHRFTDWSNR-PLTQDQITYAVADVTHLRDVFAALDADLKKRGRSEWVSEEMEILTSPKTYD--
A0A1E5F2B4/18-211          --------VDYQIITQVKDLERVCQQAREADVVMLDTEFVRTRTYYPQLGLIQLF-DGE-----------TLSLIDPIALDE--MTPFVGLLKD-TSVLKVLHACGEDLEVFQNA-FGCT-PTPMVDTQIMAAFLGHGLSTGFAALVSEFVGVDLDKSESRTDWLAR-PLSQKQLDYAAADVHYLMPMYNKLLEKVMEAGWWEAAQQESDLQVAKRIRKA-
A0A1C7Z2M0/3-195           --------IDIHWIRDDASLARHCAQWQALPFVALDTEFMRVDTFYPIAALLQIG-DGS-----------CAWLIDPLLIND--WRPLSALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLNIDLPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVYNILRPRLSDD-KYAWVLDDGAELVANLRREV-
A0A0F5ES59/14-206          ---------HFQIIDSDQALEQVCSQARQCKVVALDTEFIRTRTYYPKLGLIQLY-DGE-----------QVSLIDPLAITD--FSSFIALLAD-QNVLKVLHACKEDLEIFHHY-FKQL-PTPLVDTQVISQFLGFGHSMGFASLIQHYFELELDKGASRTDWLSR-PLSHTQLHYAAADVWYLLPLYEEMQQYLVQTVWQSAVLNECEMLLENCQKAK-
A0A0E4G2K3/1-194           --------MNYRLITTNEDLHHICELAILCTAVALDTEFVRTKTYYAQLGLIQLY-DGH-----------RLSLIDPFLITE--WAPFYYLLQN-KKIVKFLHSAGEDIEIFFHF-FKTL-PEPLIDTQILAAFTGRSVSCGFSILVKEFQGIVLNKAESRTDWLAR-PLSQKQCDYAAEDVFYLLPLANALMKKIETSGWMEAVKEECELLCQRRSQIQ-
L8D8M1/1-194               --------MQYQFIHSQNELDNFIERIAKANVLAIDTEFMRRRTLYPEVALLQIY-DGQ-----------SLGLIDPTLELE--FEGLFELLAN-EDVVKVIHSPSEDIEVFQKF-AGFV-PSPMFDTQFALLLLGYGNCVGFANMVKLLLDVEIDKSESRTNWLQR-PLTQQQLDYAASDVFYLLPCFEILLPKITDKNWFEIVAQESALVARKRAHRL-
S7TS48/19-211              --------MKPRYVADDATLRKACASFKRSGAIGVDTEFVRVRTYFPMLGLIQVS-DKR-----------RTWLIDPLALSD--LSPFAAVLTD-RSVLKVMHSCSEDLEVLSYL-TGDP-PGPIFDTQIAASFLGHGFQSGYQQLSKELFGAEMGKSETRSDWLRR-PLSENQIRYAAMDVACLLPMQRELSKQLRKLGRLSWAEEEFTRMRRDSTRD--
I3DNB9/5-198               --------IHYLWVENEQQLAEVCQSARQVPVVALDTEFIRERTFYPKLGLIQLF-DGK-----------QVSLIDPTTIKD--FSPFVALLAD-QDVAKVLHACSEDLEVFECA-FNQL-PTPLVDTQVMATFLNLGTSVGFAKLVLHYLDVELDKGASRTDWLVR-PLSETQLQYAAADVWYLLPIYQKMQAELAQTNWQNAVNEECSAFLTKRECEE-
A0A0X3U1Q9/1-195           ----------MKTLTTTQELADFCKAAAQYDYVTVDTEFLRERTYYSKLCLVQLA-FPS-------SDEDSAVLLDPLS-EGLSLDPLYALFKN-EDVVKVFHAARQDLEIFWVE-AGIF-PKPLFDTQVAAMVCGFGEQVGYETLVRKICKQGVDKTSRFTDWSRR-PLTDAQKSYALADVTHLRQIYEHLAAQLKKTKRSHWVAEELRTLTQPETY---
A0A0P7XY54/1-188           ----------MKLITDTAELSATCTRLAAHPFVTVDTEFMRETTYYARLCLIQIA-SPE-----------EAVLIDPLA-DGIDLAPFFALMAD-ESTIKVFHSARQDVEIIWTM-GNVI-PTPLFDTQVAAMVCGYGDSVSYEQLANDLAKARIDKSSRFTDWSRR-PLSEAQRAYALSDVTHLIPVYETLASQLAETGRSAWLDEEMAVLIDP------
F6ILP1/4-194               ----------HPLITQTEDLAALCERLAKSDFVSVDTEFMRENTYWPELCLVQIA-NTE-----------EAAAIDPMA-EGLDLSPLLDLLTDNEEVLKVFHAGGQDVEIIFNA-TGRT-PHPIFDTQIAMMAISQSEQIGYSNLVESWLGLTIDKGARFTDWSRR-PLTERQIEYAIGDVTHLSKIFPKILKRLIKTGRGAWLNQEMEKLADPDN----
A0A0A7ME64/5-198           --------IHYIWVDTNQKLAEVCQNAGQKQAVALDTEFIRTRTYYPKLGLIQLF-DGE-----------QVSLIDPTKIDD--FAPFIELLAN-QQVVKVLHACSEDLEVFQHR-FKQL-PTPLVDTQIMAGFAGIGVSMGFAKLVAHYLQIELDKGASRTDWLAR-PLSEEQLQYAAADVWYLLPVYQRLVVDLDVTRWQNAVEEECQTLLEKRQNLP-
A0A1B1JPV1/10-203          --------LNYQMITTNDELASLCEVTREFPAIALDTEFVRTRTYYPQLGLIQMY-DGK-----------HVSLIDPLGITD--WAPMRELLLD-TAVTKYLHAGSEDLEVFLNT-FGIM-PQPLIDTQILAAFSGRPLSWGFAAMVEEYTGLTLDKSESRTDWLAR-PLTARQLEYAAADVFYLLPIAGQLMKEAEASGWLSAALDECRMTQQRRQEVV-
A0A0E1JCY7/10-203          --------LNYQMITTNDELASLCEVTREFPAIALDTEFVRTRTYYPQLGLIQMY-DGK-----------HVSLIDPLGITD--WAPMRELLLD-TAVTKYLHAGSEDLEVFLNT-FGIM-PQPLIDTQILAAFSGRPLSWGFAAMVEEYTGLTLDKSESRTDWLAR-PLTARQLEYAAADVFYLLPIAGQLMKEAEASGWLSAALDECRMTQQRRQEVV-
A0A101VGP7/3-195           ---------IHDLITTTDALTQLCERLSTSEFVTVDTEFMRENTYWPELCLVQIA-NDK-----------EAAAIDPLA-DGIDLAPLLRLLTENEDVLKVFHAGGQDVEIIVNL-AGKT-PHPIFDTQIAMMAISQNDQIGYANLVEAWLDITIDKGARFTDWSRR-PLTDRQIEYAIGDVTHLSKIFPRILNKLIKTGRGDWLDAEMDKLADASNY---
A0A059IT28/1-194           ----------MKTLTTTEELAQFCDAAKQAPYVTLDTEFLRERSYWSKLCLIQMA-LPE-------DHGGEAVLVDPLV-DGLSLEPLYDLFRH-QPTVKVFHAARQDLEIFFVE-GGVF-PDPLFDTQIAAMVCGFGEQVGYETLVRKIARQSLDKTSRFTDWSRR-PLSEAQKTYALADVTHLRVIYEHLAAEIAKSGRGKWVAEELAVLTDPAT----
A0A0P9V512/3-194           --------IDIHWIRDDDSLARHCAEWQLLPFVALDTEFMRVDTFYPIAALLQIG-DGQ-----------SAWLIDPLLIND--WQPLSALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLNIDLPKGETRSDWLQR-PLSETQISYAAEDAVHLAELFAILRPRLSDD-KYAWLLDDGAELVANLRRE--
A0A147I6Q0/4-194           ----------HPLITDSATLANLCARLSQAPFVTVDTEFMRESTYYPELCLIQIA-DTE-----------EAAAIDPMA-PGIDLTPLLTLLTDNDDVLKVVHAGGQDIEIIYNL-TGRT-PHPLFDTQVAAMALGQGEQIGYSNLVDSWLGVQIDKGARFTDWARR-PLDARQIEYAIGDVTHLSKIFPKMLERLRKTGRGAWLDQEMERLADPAN----
A0A0A6YEF7/1-194           --------MNYSLIDNDDHLAEVCQKARQHTAVALDTEFVRTRTYYPQLGLIQLF-DGE-----------QLVLIDPLPVRD--WSPFIALLTD-TRVTKFLHAGGEDLEVFLHR-FGVL-PQPMIDTQILAAFSGQPLSWGFASMVAHFTQVELDKSEARTDWLAR-PLTERQCQYAAADVHYLLPIAHQLMAQVEQVGNVTAALSECENLCQRRLDVL-
A0A0M2YG91/1-194           --------MNYSLIDNDDHLAEVCQKARQHTAVALDTEFVRTRTYYPQLGLIQLF-DGE-----------QLVLIDPLPVRD--WSPFIALLTD-TRVTKFLHAGGEDLEVFLHR-FGVL-PQPMIDTQILAAFSGQPLSWGFASMVAHFTQVELDKSEARTDWLAR-PLTERQCQYAAADVHYLLPIAHQLMAQVEQVGNVTAALSECENLCQRRLDVL-
A0A0Q6K7R0/1-190           ----------MSLITTTQDLADACARLATHPFVTVDTEFLRETTYYPKLCLIQLA-SPD-----------EAVLVDPLS-PDLELSPFMALMAD-PAVVKVFHAARQDLEIIWII-GRII-PTPLFDTQVAAMVCGYGDSVGYEQLANDLAKARIDKSSRFTDWARR-PLTDAQLVYAESDVTHLRDIYLALAADLAQTGRASWVAEEMAVLNSPAT----
S7UKS1/37-227              ----------PRFVATDAALEKACAHFRRAGAIGVDTEFVRVRTYFPMLGLIQVA-DKR-----------NTWLIDPLAVSD--MTPFARVLSD-RAVLKVMHSCSEDLEVLSYL-TGEP-LGPVFDTQIAAAFLGFGFQAGYQQLSKTLFGTQMCKSETRSDWLAR-PLSENQIRYAAMDVVCLLPMHRALTRELRKLGRLEWALEEIERMNREVTRD--
S6F493/14-206              ---------HFQIIDSDQALEKVCSQARQCKVVALDTEFIRTRTYYPKLGLIQLY-DGE-----------QVSLIDPLTITD--FSPFIALLAD-QNVLKVLHACKEDLEIFHHY-FKQL-PTPLVDTQVISQFLGFGHSMGFASLIQHYFELVLDKGASRTDWLSR-PLSHTQLHYAAADVWYLLLLYEEMQQYLVQTVWQSAMLNECEMLLENCQKAK-
R0DE87/1-190               ------------MIETDDALASLCGAVRACPAIALDTEFVRTRTYYPQLGLIQLF-DGA-----------NVALIDPLGISD--WSPLKAVLRD-TGITKFLHAGSEDLEVFLNA-FGEL-PAPLIDTQILAAFCGRPLSWGFASMVEEYTGVALDKSESRTDWLAR-PLSERQCEYAAADVWYLLPIAKKLMIETEAAGWLPAALDECRLMQQRRQEIQ-
A0A0E2QUB6/1-194           --------MNYRLVTTDSELAKVCQEASDAPWLALDTEFVRTRTYYPQLGLLQLY-DGK-----------QVSLIDPLLMTD--FSPFKALLTN-PNQLKFLHAGSEDLEVFMHD-FGCV-PEPMIDTQVLAAFLGYPISCGFATLVAEHLGVELDKSESRTDWLAR-PLSEKQCDYATADVLYLLPLAKILMEKVSEEGLLADAQDECQRIVARRQKTV-
A0A0X3U5I7/8-197           ----------PRWVDSSEELAMLCRKWREQKAVALDTEFMRSRTFYPQPALVQVG-DGE-----------HCYLIDNLAIEN--LEPLRELILD-TGVTKIMHSCSEDLETLDRL-LGAI-PEPIFDTQIAAAMTGLGAGLGYAATVNTLLNIELPKSETRSDWLQR-PLSEAQKTYAALDVAWLPHIYAILLKRLRESGRSEWLREDCSQLVAAARN---
A0A1E4FNX0/1-190           ----------MDVIVSTDALASFCERAAQFDFVTVDTEFLRETTYWPRLCLIQVA-TDD-----------EAVLIDPLA-SDIRLAPFFELLAN-PNVTKVFHAARQDIEIFVKL-TGAV-PHNIFDTQIAASVCGFGDSASYDSLVRAICKVELDKSSRFTDWSAR-PLSEKQLTYALADVTWLRDIYRELRKQVEATRRWDWVEDELGILRSIDT----
A0A1H0VW65/3-195           --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVYTRLRPQLSDD-KYAWVLEDGAELVANLRREV-
F7RP01/12-202              ---------AFHYVSDAASLNALVAQYQQSKILVLDTEFVRTRTYYAKLGLIQAY-DGH-----------TLALIDPVALPD--LSQFWALLDN-PNIIKLVHSCSEDLEVFAHY-GQCQ-PSPLFDSQIAASLCGMGHGVGYAKLVETCLGEVIDKGESRTDWIRR-PLSEAQLTYAANDVLFLYQLYPQLEAKLSAQGRLTWLYEEGLRMTEGRLA---
A0A1H5W0S0/1-194           ----------MKIITRTDDLASFCHRAKNHPYITVDTEFLRERTYYSKLCLVQVA-YPG-------DDDDSAVLIDPLA-DGLSLDPLMELFKD-TDVVKVFHAARQDLEIFYID-HGVI-PEPLFDTQVAAMVCGFGEQVGYETLVKRIAKSSLDKSSRFTDWSRR-PLTDAQQKYALADVTHLRQIYEYLNKKLKSSKRDRWVQEELAILTDPET----
A0A0V2ECX6/1-190           ------------MIETDDALASLCEAVRACPAIALDTEFVRTRTYYPQLGLIQLF-DGA-----------DVALIDPLGITD--WSPLKAVLRD-TGITKFLHAGSEDLEVFLNA-FGEL-PEPLIDTQILAAFCGRPLSWGFASMVEEYTGVALDKSESRTDWLAR-PLSERQCEYAAADVWYLLPIAKKLMIETEAAGWLPAALDECRLMQQRRQEIQ-
W8F7S4/1-190               ------------MIETTAALAEACKELAKSEFITIDTEFLRETTFWPELCLVQMA-SPT-----------LEVLVDPLA-KGLDLTPLFELMAN-PDVVKVFHAARQDIEIIYHL-GGLI-PHPIFDTQVAAMVCGFGDSISYDQLVQRIKNVQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDVYLALKAQLEREGRSLWLTEEMDILESRETYD--
A0A172Y9K9/1-188           ----------MTLITTNDALIAFCDRLAKAPYITVDTEFMRETTYWPKLCLIQAAVSPS-----------DAAIIDPMA-EGLDLEPFLDILRD-ESILKVFHAARQDVEIFNKL--GAM-PRPLFDTQVAAMAAGFGDQVSYEQLVRQMLRQELDKGSRFTDWARR-PLSEAQLTYALGDVTHLSALYPKLRDRLQKEGRLDWVMSEMGAVTDP------
D6JA83/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLSAALDECRLMQMRRQEVV-
A0A0M0M2J1/1-192           --------MMYQLITSSSALAAFCAQAATAEVLAVDTEFVRQTTLSPKLGLIQLF-DGK-----------QLVLVDPLAIDD--WSSLQQLFAD-PAVCKVVHSCNEDLEALATK-DLLP-VLPLIDTQLAAELAGWGGSQGYAKLVQRVCAIELDKSESRTDWIAR-PLSALQLDYAAKDVEHLLDVYQALKTELLAKGQYELLLAEGEHLIARRSF---
A0A147J3N0/4-194           ----------HPLITDSATLANLCARLSQADYVMVDTEFMRESTYWPELCLIQIA-DTE-----------EAAAIDPKA-PGLDMTPLLDLLVNNDDVLKVFHAGGQDIEIIYNL-TGKT-PHPLFDTQIAAMALGQGEQIGYSNLVDSWLGISVDKGARFTDWSRR-PLDQRQVDYAIGDVTHLAAIFPKMLERLRKTGRGAWLDQEMERLADPAH----
A0A066TG02/1-194           --------MSYQLIVNNDQLAEFCSKIEKSSAIALDTEFVRTCTFYPHLGLLQVF-DGK-----------HAALIDPITISD--WQDFLTILKN-PKIEKYFHSCSEDIEVFLYY-FGMV-PIPIIDSQILASFLDNPLSSGYASLVKKYLEVELDKSETRTDWLKR-PLTEKQCEYAINDVLYLFPLVNILKSQLTENDYLQAAYQECQMAVVRKCTVI-
S5MWR1/1-190               ------------MIETDDALASLCAAVRACPAIALDTEFVRTRTYYPQLGLIQLF-DGA-----------HVALIDPIGITD--WSPLKAVLRD-AGITKFLHAGSEDLEVFLKA-FGEL-PEPLIDTQILAAFCGRPLSWGFASMVEEYTGVALDKSESRTDWLAR-PLSERQCEYAAADVWYLLPIAKKLMIETEAAGWLPAALDECRLMQQRRQEIQ-
A0A0F0FDL0/3-195           --------IDIHWICDDRSLAEHCQQWRTLPFVALDTEFMRVDTFYPKAGLIQVG-DGA-----------RAYLIDPLRIGD--WQPLAGLLED-PQVIKVLHACSEDLEVLSRL-TGSL-PAPLFDTQLAAGYLNLGFSMGYSRLVQEVLGIDLPKGETRSDWLQR-PLSDTQVSYAAEDAVHLAELYERLRPQLSDD-KNAWVLEDGAELVAQLRRET-
A0A0Q0BVR1/3-194           --------IDIHWIRDDDSLARHCAEWQLLPFVALDTEFMRVDTFYPIAALLQIG-DGQ-----------SAWLIDPLLIND--WRPLSALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLNIDLPKGETRSDWLQR-PLSETQISYAAEDAVHLAELFSILRPRLSDD-KYAWLLDDGAELVANLRRE--
W5J052/4-195               --------LDIRWIRDDASLAQQCRDWKQRPYLALDTEFMRVDTFYPEAGLVQVG-DGE-----------RAWLIDPLLIRD--WSPFAEVLEA-SSVVKVFHACGEDLEVFQRL-TGSL-PQPLFDTQLAAAYLGMAHSMGYSKLVLEILGLDLPKDETRSDWLQR-PLTDMQVRYAAEDVQHLAEVYVKLAPRLPEH-KLAWLLADGADLVANQTRV--
A0A135PDC9/1-190           -----------MYIETYEQLASFCERATKSDVLAIDTEFMREKTFYPKLCLIQLA-TSS-----------EIALVDPLSIPD--LTDLRKLFLD-KKITKIFHACSQDLELIYDI-FSCL-PKPVFDTQVAAAFLGHRFQIGYGPLVDALCHVHLPKAESLTDWTRR-PLAEEQLEYAADDVRYLPRIYDTLLHELKEKERYAWFLEEMHEVCSEHHVI--
A0A0J6MJ51/10-203          --------LNYQMITTNDELASLCEVTRDFPAIALDTEFVRTRTYYPQLGLIQMY-DGK-----------NVSLIDPLGITD--WTPMRDLLLD-TAVTKYLHAGSEDLEVFLNT-FGIM-PQPLIDTQILAAFSGRPLSWGFAAMVEEYTGLTLDKSESRTDWLAR-PLTARQLEYAAADVFYLLPIAGQLMKEAEASGWLPAALDECRMTQQRRQEVV-
M8ALM6/1-190               ------------MIETTAALAEACTELAKSEFITIDTEFLRETTFWPELCLVQMA-SPT-----------LEVLVDPLA-KGLDLTPLFELMAN-PDVVKVFHAARQDIEIIYHL-GGLI-PHPIFDTQVAAMVCGFGDSISYDQLVQKIKNVQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDVYLSLKAQLEREGRSLWLTEEMDILESRDTYD--
A0A1D8QYV5/12-200          ----------ARLISSTQELEAALAPFHNESFVTVDTEFMREQTYWPELCLVQIG-ATH-----------DIVLIDALA-EGIDLTPLKNLFAD-TSVLKVFHAARQDLEIFLHL-FDAL-PTPLFDTQVAAMVAGFGDQVGYDSLVGSLTGHMIDKSHRFTDWSVR-PLSPAQLTYAAGDVTWLRLVYERLVKKLEQEQRLDWVAAEMAELEDPA-----
I9WBM6/4-195               ----------HPLITTTDELTALCERLAKSDFIAVDTEFMRENTYWPELCLVQIA-NTE-----------EAAAIDPLA-EGIDLTPMFELLTNNEDVLKVFHAGGQDVEIIFNF-TGRT-PHPIFDTQIAMMAVSQSEQIGYSNLVEAWLGLTIDKGARFTDWSRR-PLTERQIEYAIGDVTHLSKIFPKLLKRLIKTGRGEWLDQEMEKLADPEHY---
A0A0C5L370/4-194           ----------HGLIEDSTALANLCSRFATKPYICVDTEFMRENSYWPELCLIQIA-DDE-----------EAAAIDPMG--GIDMKPLLDLLTENEDVLKVFHAGGQDIEIVYNL-TGKT-PHPLFDTQVAAMALGQGEQIGYSNLVDTYLGITVDKGARFTDWARR-PLDKRQIDYAICDVTYLSEIFPRMLDKLRKTGRGAWLDQEMERLADPEHY---
A0A0J8YKH6/2-195           --------LSYRYIETDRQLSDCCEEARKVDAIALDTEFVRTRTYFPLLGLIQLY-DGQ-----------HVSLIDPLQITD--WQPFVEVLTD-KNVTKYLHAGGEDLEVFLNR-FGVV-PTPMLDTQIMAAFLGNPSSWGFAAMVAQYTGIQLDKSESRTDWLAR-PLTEKQCQYAAADVEYLLPIAQQLHQQAVSEGQLAYIESECALQILRRQITV-
A0A1B9QWE7/20-213          --------VNYQIITQPSDLERVCQQAQQSDVVMLDTEFVRVRTFYPLLGLIQLF-DGE-----------QLSLIDPTVFDD--MSPFVALLKD-TSVLKVLHACGEDLEVFQNA-FGCT-PFPMVDTQIMAAFLGHGLSTGFASLVSEYIGVELDKSESRTDWMAR-PLSVKQLEYAAADVFYLFPLYEKLQEKTMHAGWWDAALEESAHLVSKRIKDI-
A0A1A5RMB0/1-191           ----------MHVITTQKELETVLAAFEKSDFVTVDTEFIRETTFWPILCLIQMA-APG-----------VTALIDPLA-PDIDLKPFFRLMAN-EAVVKVFHAARQDIEIIVHL-GDLV-PHPVFDTQVAAMVCGFGDSVSYDQLVQRITGARLDKSSRFTDWRHR-PLSDKQLDYALADVTHLIEVYQHLSAELARENRAHWLNEEMEVLTSRETY---
A0A143N7Y1/1-191           ----------MHVITTQKELETVLAAFEKSDFVTVDTEFIRETTFWPILCLIQMA-APG-----------VTALIDPLA-PDIDLKPFFRLMAN-EAVVKVFHAARQDIEIIVHL-GDLV-PHPVFDTQVAAMVCGFGDSVSYDQLVQRITGARLDKSSRFTDWRHR-PLSDKQLDYALADVTHLIEVYQHLSAELARENRAHWLNEEMEVLTSRETY---
A0A1C9W387/8-197           ----------PRWVDSSEELAELCRKWRGQKAVALDTEFMRSRTFYPLPALVQVG-DGE-----------HCYLIDNLAIEN--LEPLRDLLVD-TSVTKIMHSCSEDLETLDRL-LGVI-PEPIFDTQIAAAMTGLGAGLGYAGTVKALINVELPKSETRSDWLQR-PLSEAQKTYAALDVAWLPHIYAVLLKRLKESGRLDWLQEDCAELVAAARN---
A0A1D8N2V4/2-195           --------LKYQLITSNGALQDVCERASAFPYVALDTEFVRTRTYYPQLGLVQLY-DGE-----------TLSLIDPLPISD--WQPFVDLLRN-PQVVKLLHAGSEDLEVFLHD-FQTL-PQPMIDTQILAAFTGRPLSSGFAAMVNAYLDVELDKSESRTDWLAR-PLSERQCDYAAADVYYLLPMAHKLLAEVEGSGWLPAAQDECQALCRRRSEVV-
F9RPH1/1-194               --------MNYQIITQSTELEVVCKQARTVEAVMLDTEFVRTRTFYPQLGLIQLF-DGQ-----------TLSLIDPLAIDD--MSAFVDLLQD-TSVTKVLHACGEDLEVFNNS-FGCL-PQPMVDTQIMAAFLGNGLSTGFAALVNANLGVELDKSESRTDWMAR-PLTQKQLDYAAADVHYLKPLYEKLLSELEPTGWWPAAKQECALIASKRIKQV-
F9RHG7/1-194               --------MNYQIITQSTELEVVCKQARTVEAVMLDTEFVRTRTFYPQLGLIQLF-DGQ-----------TLSLIDPLAIDD--MSAFVDLLQD-TSVTKVLHACGEDLEVFNNS-FGCL-PQPMVDTQIMAAFLGNGLSTGFAALVNANLGVELDKSESRTDWMAR-PLTQKQLDYAAADVHYLKPLYEKLLSELEPTGWWPAAKQECALIASKRIKQV-
A0A1C7F9W6/1-194           --------MNYQIITQSTELEVVCKQARTVEAVMLDTEFVRTRTFYPQLGLIQLF-DGQ-----------TLSLIDPLAIDD--MSAFVDLLQD-TSVTKVLHACGEDLEVFNNS-FGCL-PQPMVDTQIMAAFLGNGLSTGFAALVNANLGVELDKSESRTDWMAR-PLTQKQLDYAAADVHYLKPLYEKLLSELEPTGWWPAAKQECALIASKRIKQV-
X6Q8Y7/1-194               --------MNYRLVTTDSELAKVCQEASDAPWLALDTEFVRTRTYYPQLGLLQLY-DGK-----------QVSLIDPLLMTD--FSPFKALLTN-PNQLKFLHAGSEDLEVFMHD-FGCV-PEPMIDTQVLAAFLGYPISCGFATLVAEHLGIELDKSESRTDWLAR-PLSEKQCDYATADVLYLLPLAKILMEKVSEEGLLADAQDECQRIVARRQKTV-
B6XHZ2/1-194               --------MNYRLVTTDSELAKVCQEASDAPWLALDTEFVRTRTYYPQLGLLQLY-DGK-----------QVSLIDPLLMTD--FSPFKALLTN-PNQLKFLHAGSEDLEVFMHD-FGCV-PEPMIDTQVLAAFLGYPISCGFATLVAEHLGIELDKSESRTDWLAR-PLSEKQCDYATADVLYLLPLAKILMEKVSEEGLLADAQDECQRIVARRQKTV-
A0A090NYH9/1-194           --------MHYQMITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
J1GJI5/1-194               --------MTYQMITTDEGLAAVCQAARQFPALALDTEFVRTRTYYPQLGLIQLY-DGQ-----------QVSLIDPLAIGD--WSPFKALLQD-PDTIKYLHAGSEDLEVFLNA-FGML-PDPFIDTQILASFTGRPLSCGFATIVESYTGIALDKSESRTDWLAR-PLTERQCEYAAADVLYLLPIAEKLMAETEAAGWIGAALDECHLMCSRRRDQL-
A0A062Y4X3/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGISD--WSPLKAILRD-QSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0D8KIZ7/1-190           ------------MIETTAALAEACTELAKSEFITIDTEFLRETTFWPELCLVQMA-SPT-----------LEVLVDPLA-KGLDLTPLFELMAN-PDVVKVFHAARQDIEIIYHL-GGLI-PHPIFDTQVAAMVCGFGDSISYDQLVQKIKNVQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDIYLALKAQLEREGRSLWLTEEMDILESRDTYD--
W0HWE3/1-194               --------MDYQLITTDQALHDRCQQARQPSWVAVDTEFVRTRTYYPQLGLIQLY-DGD-----------ALTLIDPLAITD--WQPFIALLAD-QQVTKLLHASSEDLEVFWHR-FGQM-PEPMIDTQVLAAFTGRALSCGFAALVAETLQVTLDKTESRTDWLAR-PLSDRQCDYAAADVYWLLPMAHKLIAQTQQAGWWSQASQECAALCQRRQDVT-
R7CE42/1-191               -----------MLVETDAQLKEFLTLCKKSSYMAIDTEFLREKTYYAKLCLIQVA-IED-----------CIAIIDPFTISD--LTVMASVLRN-PAIVKIFHASSQDIEILYHE-TGVV-PSPVFDTQVAAALLGKSQQASYAALVQSFCQVTLPKKDSFTDWSRR-PLSDSQVEYAADDVTYLPTIYHDMVKELTERGRLNWLDDAFAEIANPRKYEI-
I1YGM3/1-192               --------MTVLYLDTPVGLLDFCQQIQNSSWLAVDTEFLREKTYYPQLCLIQIA-NDD-----------VIACIDPLAIDD--LTPLFDVLYQ-PKMTLVFHAARQDLELLLMH-RQQL-PDTIFDTQLAASVLGLGEQVGYGNLVKTVLNVDLDKAHSRTDWTAR-PLSTAQLDYAADDVRYLRSLYHQMQQSLTELNRTHWLADDFAALSDPQTY---
H3MYV2/1-190               ------------MITTNDGLRAVCDAASAVSAIALDTEFVRTRTYYPQLGLLQLF-DGN-----------QVSLIDPLVITD--WEPMRELLLN-KDVTKFLHAGSEDLEVFLNA-FHLM-PQPLIDTQILAAFCGRPMSWGFASMVEEFTGVALDKSESRTDWLAR-PLTERQCIYAAADVWYLLPIAEKLMAETDSAGWLSAALDECQLMQQRRQEVQ-
A1UT53/1-190               ----------MELITKTKDLEIAIATLRNSDFVTVDTEFIRETTFWPQLCLIQLA-SPN-----------STALIDPMV-PDIDLQPFFDLMID-KNIVKVFHAARQDIEIIYHL-GRII-PFPLFDTQIAGAICGFGDSISYDQIVYHCTGQHLDKSSRFTDWSCR-PLSEKQILYALADVTYLRDVYLSLKKQLEESKRFHWMDGEMAILSTPTT----
A0A0M4L788/1-191           ----------MKPITQTEDLKIAIATLCDSDFVTVDTEFIRETTFWPQLCLIQIS-SPN-----------LTVLIDPTA-QGIDLQPFFELMTN-KKVVKVFHAARQDIEIIYHL-GRII-PLPLFDTQIAGSICGFGDSISYDQIVQRCTGHCLDKSSRFTDWSYR-PLSEKQLLYALADVTYLRDVYLALKKLLENNKRTHWMDDEMATLLAPQTY---
A0A1C4CDB0/1-190           ------------MITTNDALAALCEAASAFPAIALDTEFVRTRTYYPQLGLIQLY-DGE-----------HVALIDPLSITD--WTPFRNLLIN-TQVTKYLHAGSEDLEVFLNA-FGVQ-PQPMIDTQILAAFCGRPLSWGFAAMVEEFTGLVIDKSESRTDWLAR-PLTERQCDYAAADVWYLLPIASKLMAETEQAGRLDAALDECRLMMQRRQDVL-
A0A127MXA3/4-195           --------LDIRWIRDDASLAQQCRDWKQRPYLALDTEFMRVDTFYPEAGLVQVG-DGE-----------RTWLIDPLLIRD--WSPFAEVLEA-SSVVKVFHACGEDLEVFQRL-TGSL-PQPLFDTQLAAAYLGMAHSMGYSKLVLEILGLDLPKDETRSDWLQR-PLTDMQVRYAAEDVQHLAEVYVKLAPRLPEH-KLAWLLADGADLVANQTRV--
D4ZL92/2-193               --------LAFEYIEDDASLTALVSQYRQSDLLVLDTEFVRTRTYYANLGLIQAY-DGK-----------TLALIDPVAINN--LSEFWSLLTE-PGITTVLHSCSEDLEVFARN-GACQ-PYNLFDSQIAAALCGFGHGLGYAKLVEQTLDISLDKGESRTDWMKR-PLSEAQLNYAANDVYYLYNLYPQLLEKLQEQGRLAWLFEEGERMTSGRLT---
A0A1E3D2G5/1-194           ----------MQTITTTEALAAFCEAAKAEPYVTIDTEFLRERTYWSKLCLIQMA-LPG--------KTGEAVLVDPIEGPDMSLEPLYDLFRH-EATVKVFHAARQDLEIFFVE-GRTF-PVPLFDTQVAAMVCGFGEQVGYETLVKKIAREQLDKTSRFTDWSRR-PLSDAQKTYAIADVTHLRVIYEWLAAQIEKNGRQKWVEEELAILTDPET----
A0A0P9FW54/1-193           --------MQYSFITEQQELDSAVTSYNNKSVLAVDTEFMRRRTLYPELALLQIY-DGN-----------RICLIDPTLDLD--LSAFWQLMEN-PNIIKVLHSPSEDLEVFARH-GNCT-PTPLFDTQFALSLLGERNCVGFANMVEMLLEEQIDKSESRTNWLQR-PLTKAQLDYAAADVFYLMPCFNIIKEKLNDD-KQAIVFGESAVIANKRKYET-
A0A0D9AAC2/3-195           --------IDIHWIRDNDSLGRFCAEWQQLPYVALDTEFMRVDTFYPIAGLLQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVAKVVHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIDLPKGETRSDWLQR-PLSDTQISYAAEDALHLAEVFVRLRPKLSED-KYNWVLEDGAELVANLRREI-
A0A1B5DDV8/3-195           --------IDIHWICDNDSLGQHCAQWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PGVIKVVHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIDLPKGETRSDWLQR-PLSETQVSYAAEDAVHLAEVYIRLRPQLTDD-KYAWVLEDGAELVANLRREV-
A0A063D0D2/5-198           --------IEYQWVDDNPSLAQMCLQVAEQSVIALDTEFVRTRTYYPKLGLIQLF-DGK-----------QMYLIDPLSITD--FSPFTALLTN-ENVLKVLHACSEDLEVFQHY-FKQL-PQPMLDTQVMAGFVGIGISIGFAKLALHYLEVELDKGASRTDWLSR-PLSEIQLQYACADVWYLLPIYHKLAEDLAKTPWQTAVVEECATLLAKRQIVE-
A0A089YNN5/3-195           --------IDIHWIRDDASLAEHCAHWQRLPYVALDTEFMRVDTFYPIAGLLQIG-DGA-----------SAFLIDPLSITQ--WQPLTQLLEN-PAVIKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAEVFEKLRPQLSED-KYAWVLEDGAELVAQLRREV-
A0A126S8B6/3-195           --------IEIHWIRDDQTLAEHCRSWREQPFVALDTEFMRVDTFYPKAGLIQIG-VGQ-----------CAYLIDPLLIRD--WQPLAGLLED-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNIGFSMGYSRLVQEVLGLELPKGETRSDWLQR-PLSDTQVSYAAEDAVHLAELFDALRPRLSDD-KYAWLLEDGAELVAALRREV-
A0A1E1FSH6/3-195           --------IDIHWIRDNDSLGQFCTEWQKLPFVALDTEFMRVDTFYPIAGLLQVG-DGQ-----------RAYLIDPLTIDD--WQPLAALLEN-SAVVKVVHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAEVFTQLRPKLSED-KYNWVLEDGAELVANLRREV-
A0A060QCE8/11-198          -----------VMITTSAGVASLCEKLRHEPFVTVDTEFVRERTYWPRLCLVQLG-GCE-----------DVALIDACV-PGIDLSPLAALLAE-PACVKVFHAARQDLEIFLHL-FDQL-PVNVFDTQVAAMVAGFGEQVGYDNLVSAMTGQGIDKSHRFSDWAAR-PLSKAQIAYASADVTHLRVIYEKLLGQLEEQGRLPWVKDELAALGEVS-----
A0A0H2MU09/1-190           ----------MTLITSSKELSDLCQELAKSDVVTVDTEFLRDQTYWPKLCLVQLA-DAN-----------NFAAIDVLA-PDIDLTPLFDLMKN-QTVLKVFHSARQDLEIFCLL-MDEV-PAPLFDTQLAAMVCGFGDSIGYDNLAKKLLNVDIDKSARFADWSKR-PLTPKQISYAISDVTHLRDIYAKLRSQIDKNGREHWLAEEMAILEDPET----
A0A0F2QY91/1-186           --------------MDDEHLTRLCAEWRQLPYVAVDTEFMRVDTFYPIAGLIQVG-DGR-----------RAYLIDPLSVRD--WSAFAVLLQD-PAVVKVLHACSEDLEVLLRL-TGSL-PQPLFDTQLAAGYLNIGFSMGYSRLVQAVLGIELPKGETRSDWLQR-PLSHMQVQYAAEDAQHLAELYEALLPKLSED-KRAWVLEDGAELVANLQRE--
A0A117UVL5/4-194           ----------HPLITTTPALADLCERLAKADFITVDTEFMRENTYWPELCLVQIA-DDK-----------EAAAIDPLA-PGIDLAPLLELLVDNEDVLKVFHAGGQDVEIIYNL-TGRT-PHPIFDTQIAMMAISQSEQIGYSNLVESWLGFTVDKGARFTDWSRR-PLTERQIEYAIGDVTHLSKIFPRMLKRLIKTGRGEWLDAEMEKLADPEN----
A0A0Q6W456/1-190           ------------MIETTADLEAACKELAKSEFITIDTEFLRETTFWPELCLIQMA-SPT-----------TEVLVDPLA-KGLDLKPFFELMAD-ANVLKVFHAARQDIEIIFNR-GGLI-PHPIFDTQVAAMVCGFGDSVSYDQLVSRTKGVQIDKSSRFTDWSRR-PLSEKQLDYALADVTHLRDVYLYLKAELEREGRSSWLSEEMNVLEAQQTYD--
A0A0P1EEX8/1-194           ----------MKTLTTTQELADFCKAAAEYDYVTVDTEFLRERTYYSKLCLVQLA-VPS-------DDEGSAVLVDPLA-DGLSLDPLYELFRD-ESVVKVFHAARQDLEIFWVE-AFVF-PQPLFDTQVAAMVCGFGEQVGYETLVRKICKEGVDKTSRFTDWSRR-PLTDAQKTYALADVTHLRQIYEYLASQLNKSQRSHWVSEELRTLTQPGT----
A0A1B9NJU3/1-194           --------MSYQLIVTNDQLADYCSKIENSSAIALDTEFVRTRTFYPHLGLLQVF-DGK-----------CAALIDPINITN--WQPFLVMLND-PKIEKYFHSCSEDIEVFLHH-FGIV-PTPIIDSQILASFLDNPLSSGYASLVKKYLEVELDKSETRTDWLKR-PLTEKQCNYAINDVLYLFPLINILKEKLTTNHYLQAAYQECQMTVDRKCEII-
A0A0D2W4C4/1-190           ----------MNLISTTADLEAFCERLKAAEYITVDTEFMREKTFWPKLCLVQIA-GPE-----------EAAAVDPLA-DGIDLAPLFRLMAD-PGVLKVFHAARQDVEIFYNL-TGDV-PKPLFDTQIAAMVCGFGDSVGYETLISRLAGARVDKSSRFTDWSAR-PLTERQLVYALSDVTHLRPAYEKLKRKLARTGREHWLEEEVAVLTDPAT----
A0A1H1PF18/3-195           --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGQ-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSDTQVSYAAEDAVHLAEVYIRLRPRLSDD-KYAWVLEDGAELVANLRREV-
M0Q4I9/2-195               --------LKYQLITSNSALQDVCERASAFPYVALDTEFVRTRTYYPQLGLVQLY-DGE-----------TLSLIDPLPISD--WQPFVDLLRN-PQVVKLLHAGSEDLEVFLHD-FQTL-PQPLIDTQILAAFTGRPLSSGFAAMVNAYLGVELDKSESRTDWLAR-PLSERQCDYAAADVYYLLPMAHQLLAEVEGCGWLPAALDECQALCRRRSEVV-
A0A1H6P4J6/3-195           --------IDIHWIRDNDSLGRHCTEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGS-----------SAYLIDPLTIDN--WQPLAALLDN-SAVVKVVHACSEDLEVLLRL-TGSL-PTPLFDTQLAAGYLNLGFSMGYSRLVQEVLGIDLPKGETRSDWLQR-PLSETQVSYAAEDALHLAEVYSRLRPQLSDD-KYAWVLEDGAELVANLRREV-
A0A090T8B6/1-194           --------MEYQIVTEFAELESVCSKARESDVVMLDTEFVRIRTYYPKLGLIQLY-DGE-----------QLSLIDPLTISD--FTPFIELLKD-TSVLKVLHACGEDLEVFANS-FNCM-PYPMVDTQIMAAFLGHGLSTGFAALVQEYLDVELDKSESRADWVAR-PLTDKQLDYAAADVYYLWPLYFKLFAKVEAKEWWEAAQQESDLLMQKRGRTA-
A0A068D8W6/1-191           ----------MHVITTQKELETVLAAFEKSDFVTVDTEFIRETTFWPILCLIQMA-APG-----------VTALIDPLS-PDINLAPFFRLMAN-EAVVKVFHAARQDIEIIVHL-GDLV-PHPVFDTQVAAMVCGFGDSVSYDQLVQRITGARLDKSSRFTDWRHR-PLSDKQLDYALADVTHLIEVYQHLSAELARENRAHWLNEEMDVLTSRETY---
A0A1E3WBW2/1-190           ----------MELITRTEDLAAACAKLATAPFIAVDTEFMREQTFWPRLCLVQIA-GGE-----------TEVLIDSMA-PDIDLKPLFDLMVD-ETVLKVFHSARQDVEIVHHL-AGVI-PHPIFDTQVAAMVCGFGEAVSYSMLVKRLLGRNLDKSSRFTDWSRR-PLSERQLTYALGDVTYLRDLYPKLRAQLDQSERASWLNEEMAVLTDPAT----
J2NY78/3-195               --------IDIHWIRDNDSLGQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVVKVVHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIDLPKGETRSDWLQR-PLSDTQISYAAEDAVHLAEVFVQLRPKLSDD-KYAWVLEDGAELVANLRREV-
A0A0J8XM62/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGLTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
Q28RA7/1-199               ---------MPHTITTTDELAAYCARAATQPYVTVDTEFLRERTYFAQLCLVQVA-MPG-------TDDTDAVLIDPLA-EGLSLEPLYELFRN-VNVVKVFHAARQDLEIFFVE-GGLV-PTPLFDTQVAAMVCGFGDQVGYETLVRRIAKANLDKSSRFTDWSRR-PLSDAQKVYALADVTYLREIYEYLSAELARTDRTHWLEEELAQLTNADAYVVD
A0A133LK58/1-190           ------------MITTDDALATLCEAVREFPAIALDTEFVRTRTYYPQLGLIQLF-DGK-----------HVALIDPQGITD--WSPLRDILRD-TAITKFLHAGSEDLEVFLNT-FGEL-PQPLIDTQILAAFCGRPLSWGFAAMVEEFTGVALDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITTKLMVETEASGWLPAALDECRLMQQRRQEVL-
Z5XRH3/1-194               --------MQYQVIETQNQLNDFVEQITGKSVLAIDTEFMRRRTLYPEVALIQVF-DGE-----------HLALIDPLAELS--LYDFWQVLKN-PDVLKVLHSPSEDIEVFQKY-AGFV-PTPLFDTQFALQILGHGNCMGFAHMVKELLDIEIDKSESRTNWLQR-PLTKKQLDYAAADTFHLLPCFEIIKKQIDEAGFFDIVISESELVAQKRAYQT-
A0A0Q4PY91/4-192           ----------HPLIADSATLAALCTRLATSDFVAVDTEFMRENSYWPELCLIQIA-NTE-----------EAAAIDPMA-PGIDLTPLLNLLTDNDDVLKVFHAGGQDIEIVYNL-TGKT-PFPMFDTQVAAMALGQGEQVGYSNLVDAYLGITVDKGARFTDWSRR-PLDDRQIDYAIADVTHLSVIFPKMLGKLRKTGRGLWLDEEMERIGDP------
A0A1E5DG58/18-211          --------VDYQIITQLKDLERVCQQAREADVVMLDTEFVRTRTYYPQLGLIQLF-DGE-----------TLSLIDPIALGE--MTPFVGLLKD-ASVLKVLHACGEDLEVFQNA-FGCT-PTPMVDTQIMAAFLGHGLSTGFAALVSEFVGVDLDKSESRTDWLAR-PLSQKQLDYAAADVHYLMPMYNKLLEKVMEAGWWEAAQQESDLQVAKRIRKA-
A0A0L1LE86/18-211          --------VDYQIITQLKDLERVCQQAREADVVMLDTEFVRTRTYYPQLGLIQLF-DGE-----------TLSLIDPIALGE--MTPFVGLLKD-ASVLKVLHACGEDLEVFQNA-FGCT-PTPMVDTQIMAAFLGHGLSTGFAALVSEFVGVDLDKSESRTDWLAR-PLSQKQLDYAAADVHYLMPMYNKLLEKVMEAGWWEAAQQESDLQVAKRIRKA-
I3IB12/7-197               ----------PIWIDQDDQLAELCVRWQQQAALAIDTEFMRSDTFYPIAGLLQIG-DGK-----------GCYLIDPLAIGN--LEPLRELMLN-PAVTKVLHSCSEDLEVFQCW-LGVV-PAPLFDTQVAAAFAGLGFGLGYANLVKNLLTIEIPKEETRSDWLQR-PLSAAQLKYAALDVAHMLIVYGKLLQLLKTTERLEWVKSDCADLISNARKA--
A0A0C1ZK23/1-194           --------MNYQIITKNKDLEEVCALAREADVVMLDTEFVRIRTYYPQLGLIQLF-DGK-----------QLSLIDPTELTD--MTSFVELLKD-TSVLKVLHACGEDLEVFQNA-FGCT-PFPMVDTQLMAAFLGHGLSTGFATLVEEYLGVELDKSESRTDWMAR-PLTQKQLDYAAADVHYLMPLYEKLLDKVNEAGWWEAVQQESDLLVSKRIRNL-
A0A0S6UUI5/1-189           ------------MITTTADLAAACSRLAKHPVITVDTEFLRETTYYPLLCVVQMA-SAE-----------EAVVIDTLA-EGIDLKPFFELMGN-EAVLKVFHAARQDIEIIWHQ-AGII-PHPVFDTQVAAMVLGYGDSIAYDALVEKVTGHRPDKTHRFTDWSRR-PLTKEQMHYAVSDVTHLRDVFAALDADLKKRRRSEWVSIEMEVLTSPRTY---
X8HW10/1-187               -----------MYISDHEGLTTFCKRAATSRVLAIDTEFLRERTYFPRLCLIQAA-TPD-----------ESAAIDPILIDD--LSPLARLLTD-ESITKVFHACSQDLEVIYDA-LHCV-PGPIFDTQLAAAFLGHRQQIGYGALVDACCGVHLPKAESLTDWSRR-PLDAEQLAYAEDDVRYLPGIYDQMMAELIMRDRLPWLAPEMAELVSPA-----
A0A0E9ZKT3/3-195           --------IEIHWIRDDQSLAEHCRAWHELPFVAVDTEFMRVDTFYPKAGLIQVG-DGQ-----------RAFLIDPLLIGN--WQPLAELLED-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQDVLGIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAELFTALRPRLSDD-KYAWVLEDGAELVAQLRREV-
U1QMR6/13-204              ---------HFKLITEDSALAEVCAFARQQSAVALDTEFVRTRTLYPQLGLVQLY-AGD-----------EVALIDPTTIQD--FSPFIALLAD-DYVTKVLHACGEDLEVFQHT-FQQL-PQPMCDTQVMANFLGFANSPGFATLVQHYFQIEIDKGASRTDWLAR-PLSDTQLRYAAADVWYLLPLYQQMQAQLAQTEWQSAVKNECEFLLNKRAHS--
A0A099FXQ3/4-203           ---------EPRIITTTEELADICARAKSQPYVTLDTEFLRERTYYSKLCLVQMA-LPPASGPK--APGGEAVLIDPLA-EGLSLEPLYDLFRH-EATVKVFHAARQDLEIFFHD-AGVF-PTPLFDTQVAAMVCGFGEQAGYETLVKRIAKAPLDKSSRFTDWSRR-PLTAAQADYALADVTHLRAIYEYLRAQLDKTGRAPWVAEEAAVLVDPET----
A0A0W0PXG1/3-195           --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAEVYIRLRPQLSED-KYAWVLEDGAELVANLRREV-
A0A1D3DEJ8/1-194           --------MNYHLITTDTELDTACKAASEALHIALDTEFVRIRTYYPHLGLIQMY-DGK-----------QISLIDPLTIKD--WTPFVELLTN-PSMMKFLHAGSEDLEVFSHQ-FGCV-PTPMIDTQVVAAFLGHPISCGFATLVEKYENIALDKSESRTDWLAR-PLTEKQCQYASGDVFYLLPLAEKLIKEAEEAGYMDAIVDECQMIAERRQETV-
A0A1D2PYY5/1-194           --------MNYHLITTDTELDTACKAASEALHIALDTEFVRIRTYYPHLGLIQMY-DGK-----------QISLIDPLTIKD--WTPFVELLTN-PSMMKFLHAGSEDLEVFSHQ-FGCV-PTPMIDTQVVAAFLGHPISCGFATLVEKYENIALDKSESRTDWLAR-PLTEKQCQYASGDVFYLLPLAEKLIKEAEEAGYMDAIVDECQMIAERRQETV-
A0A0F4NQX1/1-194           --------MNYQIITQSAQLDAVCHNAREADVVMLDTEFVRTRTYYPQLGLIQLF-DGQ-----------NLSLIDPTIIED--MTSFVELLKD-TSVLKVLHACGEDLEVFHNS-FGCL-PYPMVDTQIMAAFLGHGLSTGFAALVENYLGVELDKSESRTDWLAR-PLTEKQLEYAAADVFYLQPLYEQLFEKITQAGWWEAAQQESDLIAAKRIKVV-
K8WKM7/1-194               --------MNYRLVTTDSELAQVCQEASNAPWLALDTEFVRTRTYYPQLGLLQLY-DGK-----------QVSLIDPLLITD--FSPFKALLTN-PEQLKFLHAGSEDLEVFMHD-FDCV-PEPMIDTQVVAAFLGYPISCGFASLVAEHLGIELDKSESRTDWLAR-PLSEKQCDYAAADVLYLLPLAEILMGKVTEAGYLEDAKDECQRVVARRQKTL-
A0A1B9MTE9/1-194           --------MTYQFITNNEQLVNYCLKINNSSAIALDTEFVRTRTFYPHLGLLQIF-NGE-----------FAALIDPISITD--WQAFEAILND-PMIEKYFHSCSEDIEVFLHH-FNCI-PSSIIDSQILASFLDNPLSSGYASLAKKYLGVDLDKSETRTDWLKR-PLTEKQCQYAINDVLYLFPLMEKLKMLLADQNWLDAAYQECQMVIARKSEVM-
J7KZ06/1-194               --------MNYQLITSDIGLQQVCSQARRFPQVALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLTITD--WAPFQALLRD-EQVTKFLHAGSEDLEVFLNA-FGTL-PTPFIDTQILAAFLGKPLSYGFAALVADYMGVTLDKSESRTDWLAR-PLSEKQCDYAAADVFYLLPMAIQLVADTEAAGWMNAALDECLLLCQRKQDIL-
A0A0B3WUZ4/1-194           --------MNYQLITSDIGLQQVCSQARRFPQVALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLTITD--WAPFQALLRD-EQVTKFLHAGSEDLEVFLNA-FGTL-PTPFIDTQILAAFLGKPLSYGFAALVADYMGVTLDKSESRTDWLAR-PLSEKQCDYAAADVFYLLPMAIQLVADTEAAGWMNAALDECLLLCQRKQDIL-
A0A0B3XIB2/1-194           --------MNYQLITSDIGLQQVCSQARRFPQVALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLTITD--WAPFQALLRD-EQVTKFLHAGSEDLEVFLNA-FGTL-PTPFIDTQILAAFLGKPLSYGFAALVADYMGVTLDKSESRTDWLAR-PLSEKQCDYAAADVFYLLPMAIQLVADTEAAGWMNAALDECLLLCQRKQDIL-
A0A081RCT7/4-194           ----------HPLITDSKTLASFCARIAKSPYIAIDTEFMRENSYWPDLCLVQVA-DEH-----------EAAAIDPKA-PGIDLSPLLDLMVDNEDVLKVFHAGGQDLEIIYNL-TGKT-PHPLFDTQIAAMALGLGEQIGYGNLVDAWLGVQLDKGARFTDWARR-PLDKRQIDYAIGDVTYLIQIFPKMLEELRRTGRGDWLDQEMERISDPSN----
A0A099KZV9/1-193           --------MHYQLIEDQLSLNNLCEQLAKAKVLAIDTEFVRTRTLYAKLGLLQVC-DGE-----------LLALIDPLAIDD--LSPFWQLLTN-ANITKVLHACSEDLEVFLTA-GNCQ-PINLIDSQIMMSFLGHGLSLGYAAMVKHFTDIELDKSESRTDWIRR-PLTDKQLAYASADVEHLFFLYPKLLAQLTESGFLAYAKLETQSMIDKKFTP--
A0A0D1NWQ6/3-195           --------IDIHWICDDRSLAEHCRQWRQLPYVALDTEFMRVDTFYPIAGLIQVG-DGQ-----------RAFLIDPLLIGD--WQPLAELLED-SAVTKVLHACSEDLEVLMRL-TGSL-PAPLFDTQLAAGYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAEVYERLRPQLSED-KNAWVLEDGAELVAQLRRET-
A0A0D0NJX6/3-195           --------IDIHWIRDNDSLGQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGK-----------RAYLIDPLTIDN--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQDVLGIDLPKGETRSDWLQR-PLSETQISYAAEDALHLAEVFVQLRPKLSDE-KYAWVLEDGAELVANLRREV-
A0A1B7J3R4/1-194           --------MNYQLITTSSDLKQVCEQASRHAYIALDTEFVRTRTYYPQLGLIQLF-DGE-----------TLTLIDPLPITD--WQPFVALLKN-PEVTKLLHACSEDLEVFLHE-FQTL-PTPMIDTQILAAFTGRALSCGFAAMVNDYLQVELDKSESRTDWLAR-PLTERQCEYAAADVFYLLPLADKLIAEVAEAGWLDAAQDDCLSLCRRRQDVV-
A0A0A2R7V8/1-194           --------MNYQLITSDTHLAAYCGQVTGKPYLALDTEFVRIRTYYPHLGLVQLY-DGE-----------HLALVDPLGITD--WTPLKTLLTA-PDMIKYLHAGSEDIEVFFNC-MGCV-PQPLVDTQVLAAFTGHPLSCGFATLVETYLGVTLDKSESRTDWLAR-PLTEKQCEYAAADVYYLLPLAEKLTEKVRAAGYLASAEEECAMMAQRRITQT-
F2N018/3-194               --------IETQWVVDDAHLARLCAEWRQLPFVAVDTEFMRVDTFYPIAGLVQVG-DGR-----------RAYLIDPLAVRD--WHPFATLLDD-AAVVKVLHACSEDLEVLLRL-TGSL-PQPLFDTQLAAGYLNIGFSMGYSRLVQAVLGIELPKGETRSDWLQR-PLSEMQVRYAAEDAQHLAELYEALLPKLSDD-KRAWVLEDGAELVANLQRE--
S6JVL7/3-194               --------IETQWVVDDAHLARLCAEWRQLPFVAVDTEFMRVDTFYPIAGLVQVG-DGR-----------RAYLIDPLAVRD--WHPFATLLDD-AAVVKVLHACSEDLEVLLRL-TGSL-PQPLFDTQLAAGYLNIGFSMGYSRLVQAVLGIELPKGETRSDWLQR-PLSEMQVRYAAEDAQHLAELYEALLPKLSDD-KRAWVLEDGAELVANLQRE--
A0A0W0N7V8/3-195           --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVVHACSEDLEVLSRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVYTRLRPQLSDD-KYAWVLEDGAELVANLRREI-
A0A1H1W479/3-195           --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVVHACSEDLEVLSRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVYTRLRPQLSDD-KYAWVLEDGAELVANLRREI-
A0A1D8C6X9/3-195           --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVVHACSEDLEVLSRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVYTRLRPQLSDD-KYAWVLEDGAELVANLRREI-
I2BV63/3-195               --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVVHACSEDLEVLSRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVYTRLRPQLSDD-KYAWVLEDGAELVANLRREI-
A0A1K1YTE1/3-195           --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVVHACSEDLEVLSRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVYTRLRPQLSDD-KYAWVLEDGAELVANLRREI-
A0A087M6F0/1-191           ----------MDLIVSTEALSAFCERAAQFDFVTVDTEFLRETTYWPRLCLIQVA-TDD-----------EAVLIDPLA-DHLDLKPFFALLAN-PSVTKVFHAARQDIEIFVKL-TGAV-PHNIFDTQIAASVCGFGDSASYDSLVRAICKVELDKSSRFTDWSAR-PLSEKQRLYALADVTYLRDIYRELRKQVEQTRRWDWVEDELTVLRSIDTY---
U4K7E9/1-193               --------MNYQIVDTKEALEAVCLAARDADTVMLDTEFVRTRTFYPQLGLIQLF-DGN-----------VLSLIDPTVISD--MTSFVGLLKD-TSVLKVLHACGEDLEVFAHV-FGTI-PVPMMDTQIMAAFLGHGLSTGFAALVKEYLGVELDKSEARTDWLAR-PLTNKQLEYAAADVHYLLPMYEKLEAAVKDAGWWEAAQQESDLIASKRVVT--
Q12NR6/2-194               --------LAFEYISDDASLRALVEQYQSSPLLVLDTEFVRTRTYYARLGLIQAF-DGK-----------TLALIDPVAIED--LSPFWQLLTA-PHITKLVHSCSEDLEVFAHY-GHCQ-PAPLFDSQIAASLAGLGHGLGYAKLVQECLSVEIDKGESRTDWMKR-PLTDAQLQYAANDVFYLYKLYPLLLEKLNANGRVEWLLEEGQRMTQDRLSL--
A0A094L1T6/1-196           --------MAYQLVTTAAALADFCQQAQAAKFLAVDTEFVRTRTFYAKLGLIQVQ-AGT-----------QTVLIDPVEVSESALQPLWDLFAD-ENHIMVIHAGGEDYEILHQH-MGCL-PTALFDTQVAAAMLGTGETLGYAALVQARLGVELDKSQSRTDWMQR-PLAEAQLEYAAADVFYLEKIYPELYAEAEQSGKLDLILAESAWQAHKRAQQV-
U5VHF6/3-195               --------IEIHWIRDDQSLAEHCLRWRELPFVALDTEFMRVDTFYPKAGLVQIG-DGQ-----------RAFLIDPLLIGN--WQPLAELLDD-SAVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAELFAALRPRLSDD-KYAWVLEDGAELVAQLRREV-
A0A0P9H8N0/3-194           --------IDIHWIRDDDSLALHCAQWQSLPFVALDTEFMRVDTFYPIAALLQIG-DGK-----------SAWLIDPLLIND--WRPLSALLEN-PAVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLNIDLPKGETRSDWLQR-PLSETQISYAAEDAVHLAELFAILRPRLSDD-KYAWLLDDGAELVANLRRE--
F3HJN4/3-194               --------IDIHWIRDDDSLALHCAQWQSLPFVALDTEFMRVDTFYPIAALLQIG-DGK-----------SAWLIDPLLIND--WRPLSALLEN-PAVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLNIDLPKGETRSDWLQR-PLSETQISYAAEDAVHLAELFAILRPRLSDD-KYAWLLDDGAELVANLRRE--
A0A0N0FGJ1/3-194           --------IDIHWIRDDDSLALHCAQWQSLPFVALDTEFMRVDTFYPIAALLQIG-DGK-----------SAWLIDPLLIND--WRPLSALLEN-PAVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLNIDLPKGETRSDWLQR-PLSETQISYAAEDAVHLAELFAILRPRLSDD-KYAWLLDDGAELVANLRRE--
A0A178MZM3/1-190           ----------MPMITDTAELARFCQRLAEAPFITVDTEFMREKTYYPQLCLVQLA-GPD-----------EARAVDPLA-PGIDLAPMFELLAN-PKVLKVFHAARQDIEIFLNL-AGAV-PTPLFDTQIAAMVCGFGDSVGYETLATQLAKARIDKTQRFTDWSLR-PLTEKQVQYALADVTHLRVAYEKLVRKLEKNGRIEWLSEEMAELADPAT----
A0A1D2SZH3/1-191           ----------MHVITTQKELETAIAAFEKSDFVTVDTEFIRETTFWPILCLIQMA-APG-----------ITALIDPLS-PDLDLRSFFRLMAN-EAVTKVFHAARQDIEIIVHL-GDLV-PHPVFDTQVAAMVCGFGDSVSYDQLVQKVTGARLDKSSRFTDWRHR-PLSDKQLDYALADVTHLIEVYQHLSAELKRENRGHWLNEEMEVLTSRETY---
A0A1A0EGT1/1-194           --------MNYQMITTDDGLRAICEAANAAPAIALDTEFVRTRTYYPQLGLLQLF-DGE-----------QVSLIDPLEITD--WAPMRELLLN-KDVTKYLHAGSEDLEVFLNT-FNLM-PEPLIDTQILAAFCGRPMSWGFASMVEEYTGIALDKSESRTDWLAR-PLTQRQCDYAAADVWYLLPIASKLMAETEAVGWLDAALDECRLMQQRRQEVQ-
A0A0F4T2M7/3-195           --------IDIHWIRDNDSLGQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVVKVVHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIDLPKGETRSDWLQR-PLSDTQISYAAEDALHLAEVFVQLRPKLSDD-KYAWVLEDGAELVANLRREV-
A0A109YBE1/1-194           --------MNYSLIDQDEQLADVCQKARQHAAVALDTEFVRTRTYYPQLGLIQLF-DDH-----------QLVLIDPLNIRD--WSPFIALLTD-TSVTKFLHAGGEDLEVFLHR-FGVL-PTPMIDTQILAAFSGQPLSWGFASMVAHFTQVELDKSESRTDWLAR-PLTQRQCEYAAADVHYLLPIARQLMINTEEAGNVAAALSECDNLCQRRLDSL-
A0A0D0KTG0/1-189           ------------MIETTTALAEACKELAKSDFITIDTEFLRETTFWPQLCLVQMA-SPT-----------LEVLVDPLA-KDIDLTPLFELMAD-PSVIKVFHAARQDIEIVHHL-GGLI-PHPIFDTQVAAMVCGFGDSISYDQLVQRIKNVQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDVYLALKAQLERDGRSSWLKEEMDILESVETY---
A5G127/10-198              ----------PVLIETTEALAALCDRLAAEPFVTVDTEFMREKTYFPELCVVQLG-GAN-----------DVAVIDAQA-EGLDLAPLGALFAN-PAVTKVFHACRQDIEIFLLK-FGAV-PAPLFDTQVAAMVAGFGDQVGYDTLVSSLAGGRIDKAHRFSDWSAR-PLSRAQIAYAAADVTWLRPVYEGLRARLTREGRLDWVAEEAAVLADPA-----
A0A066PPT1/10-198          ----------PVLIETTEALAALCDRLAAEPFVTVDTEFMREKTYFPELCVVQLG-GAN-----------DVAVIDAQA-EGLDLAPLGALFAN-PAVTKVFHACRQDIEIFLLK-FGAV-PAPLFDTQVAAMVAGFGDQVGYDTLVSSLAGGRIDKAHRFSDWSAR-PLSRAQIAYAAADVTWLRPVYEGLRARLTREGRLDWVAEEAAVLADPA-----
A0A165E2P6/4-193           ----------HPLIEDSQTLAALCTRLAQSDFVAVDTEFMRENSYWPELCLIQIA-NTE-----------EAAAIDPMA-PGIDLTPLLHLLTDNEDVLKVFHAGGQDIEIVYNL-TGKT-PFPLFDTQVAAMALGQGEQVGYSNLVDAYLGITVDKGARFTDWSRR-PLDDRQIDYAIADVTHLSVIFPKMLAKLRKTGRGLWLDEEMERIADPA-----
S6ATR4/3-196               --------IDIFWIRDDAALAEHCAVWRRLPFVALDTEFMRVDTFYPKAGLIQVG-DGE-----------RAYLIDPLLIRD--WSPFAELLED-PALLKVLHACSEDLEVFLRL-TGAL-PQPLLDTQLAAGYLGIGYSMGYSRLVQAVLGIDLPKDETRSDWLQR-PLTEMQIRYAAEDAQHLAELYTALEPRLTEP-KRAWVLEDGAELVANLRREVI
M2Z2S3/1-187               ------------MISDTESLAAFCRRLKSAPFVTVDTEFMREKTYWPQLCLVQVA-GPD-----------EARAIDPLA-PGMDLAPLFELMAD-TNVLKVFHAARQDVEIFLHL-ADAI-PTPIFDTQIAAMVCGFGDAVGYETLASQLAKARIDKSMRFTDWAMR-PLSEKQVQYALADVTHLRVAYEKLVRKVEKNGRIEWLAEEMALLTEPG-----
I8UCA8/1-192               ----------MSLVTTNQALADFCRQAIEQPLLALDTEFIRQSTLYPKLGLIQLY-DGS-----------RLALVDPLTITD--WQPLQALLAA-TGVTKILHSCTEDLEALATI-GITN-IAPLFDTQLAAEILGWGGSMGYARLVEQLTGEVLDKSESRTDWLAR-PLAQKQLDYAANDVKFLLPVYQRLLAELSNSTKLALLLAEGQTLMARRQQQL-
I1XHF5/1-193               --------MTVLYIDSDTALTQFCSEIQHSKWLAIDTEFLREKTYYPQLCLIQIA-NDD-----------IIACVDPIAIKD--LTPLLNLLYQ-PDITLVFHAARQDLELLYLL-KNSL-PPNLFDTQLAATILGDGDQIGYGNLVKQRLDVSLDKAHSRADWTQR-PLSPEQLEYAADDVRYLCELYHQMSADLEKQQRTEWLKEDFAALSNADNYV--
D3GVL7/1-194               --------MNYQMITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGISD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0T6UKI3/3-195           --------IEIQWVGDDASLAQHCAAWRALPYVALDTEFMRVDTFYPIAGLVQVS-EGE-----------RAYLIDPLLISD--WTPFAELLQD-PQVVKVLHACSEDLEVFHRL-TGSL-PSPLFDTQLAAGYLNIGFSMGYSRLVQSVLDIELPKGETRSDWLQR-PLSDTQVSYAAEDVVHLAVIYRHLKDKLSAD-KYQWVIEDGAELVCQMRREV-
J7QAD7/1-190               ----------MSLLTTNPELTAVCDRFARHPFVTVDTEFLRETTFWPQVCVIQLA-SPE-----------EAVAIDALA-EDLDLSPFFGLMAN-PDVVKVFHAARQDLEIIWRL-ARLI-PAPIFDTQVAAMVCGFGEQASYLELVKAITRASLDKSSRFTDWSRR-PLSNAQIEYAIADVTHLRDIYTALRARLERSNRLEWLVDEMQTLTSPAT----
F0J392/10-198              ----------PVLIATTEALAALCDRLAAEPFVTVDTEFMREKTYFPELCVVQLG-GAN-----------DVAVIDAQA-EGLDLAPLGALFAN-PAVTKVFHACRQDIEIFLLK-FGAV-PTPLFDTQVAAMVAGFGDQVGYDTLVSSLAGGRIDKAHRFSDWSAR-PLSRAQIAYAAADVTWLRPVYEGLRARLTREGRLDWVAEEAAVLADPA-----
A0A0V9S4R0/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0C2IA09/3-195           --------IDIHWIRDNDSLVRHCAQWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGE-----------RAYLIDPLTIDQ--WQPLAALLED-PAVVKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAEVYTRLRPQLSDD-KYAWVLDDGAELVANLRREV-
A0A099EV49/1-198           ----------MRTITTTADLSAFCEMAKAQPYVTLDTEFLRERTYYSKLCLIQAA-LPPAATSQ--SAGGEAVLIDPLV-EGLSLEPLYDLFRH-KDTIKVFHAARQDLEIFVHD-AGVL-PDPLFDTQIAAMVCGFGEQVGYETLVKKIARQPLDKSSRFTDWSHR-PLSDAQASYALADVTHLRAIYEHLAAQLQKTGRAPWLAEEAAVLLDPE-----
A0A0B1Q7R1/1-189           ----------MEPITTTSALAEACDALARAQFVTVDTEFIRETTFWPELCLIQMA-SDE-----------RAVLVDPLA-EGMDLAPFFALMAD-TAVVKVFHAARQDVEIIYKL-GNII-PAPLFDTQVAAMVCGFGEAIAYDQLVARTTEGRIDKTSRFTDWRAR-PLSPSQLQYALADVTYLRDAYRYLTDMIDRQDRRKWLDGELAVLTAPE-----
A0A0S6V9G2/18-211          --------LNYQLITTDAGLQQVCEQAKKHAQIALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLPIKQ--WQPFIELLSN-TQIVKFLHAGSEDLEVFLNA-FKTL-PTPMVDTQILAAFTGRPLSCGFATLVAEYMQVELDKSEARTDWLAR-PLTEKQCVYAAADVFYLLPMAKRLVQETEEAGWTAAANNECLLLCQRRSETL-
A0A1J5VWL4/10-203          --------LNYQMITTNDELASLCEVTRDFPAIALDTEFVRTRTYYPQLGLIQMY-DGK-----------HVSLIDPLGITD--WTPMRDLLLD-TAVTKYLHAGSEDLEVFLNT-FGIM-PQPLIDTQILAAFSGRPLSWGFAAMVEEYTGLTLDKSESRTDWLAR-PLTERQLEYAAADVFYLLPIAGQLMKEAEASGWLSAALDECRMTQLRRQEVV-
A0A0T7CZ56/1-194           --------MDYQIITQLKDLERVCQQAREADVVMLDTEFVRTRTYYPQLGLIQLF-DGE-----------TLSLIDPIALGE--MTPFVGLLKD-ASVLKVLHACGEDLEVFQNA-FGCT-PTPMVDTQIMAAFLGHGLSTGFAALVSEFVGVDLDKSESRTDWLAR-PLSQKQLDYAAADVHYLMPMYNKLLEKVMEAGWWEAAQQESDLQVAKRIRKV-
A0A1C3JEY0/1-194           --------MDYQIITQLKDLERVCQQAREADVVMLDTEFVRTRTYYPQLGLIQLF-DGE-----------TLSLIDPIALGE--MTPFVGLLKD-ASVLKVLHACGEDLEVFQNA-FGCT-PTPMVDTQIMAAFLGHGLSTGFAALVSEFVGVDLDKSESRTDWLAR-PLSQKQLDYAAADVHYLMPMYNKLLEKVMEAGWWEAAQQESDLQVAKRIRKV-
U1HA12/1-191               ----------MDLISTTSDLAAACDRLAQHKVITVDTEFLRETTYYPLLCVVQMA-SAD-----------EAVVVDALA-PGIDLKPFFELMSN-EAVLKVFHAARQDIEIVWHL-SGTI-PHPIFDTQVAAMVLGYGDSIAYDQLVDRVTGHRPDKTHRFTDWSRR-PLSEEQLHYAVSDVTHLREVFAALDADLRKRDRSDWVSEEMEILTSPKTY---
A0A1D7V7T0/2-195           --------LKYQLITSSSALKEVCERASACPYIALDTEFVRTRTYYPQLGLVQLY-DGE-----------TLSLIDPLPISD--WQPFVDLLRN-PQVVKLLHAGSEDLEVFLHD-FQTL-PQPLIDTQILAAFTGRPLSSGFAAMVSAYLQVDLDKSESRTDWLAR-PLSERQCDYAAADVYYLLPMAHKLLAEVEACGWLPAALDECQALCRRRAETV-
D0ZH25/2-195               --------LKYQLITSSSALKEVCERASACPYIALDTEFVRTRTYYPQLGLVQLY-DGE-----------TLSLIDPLPISD--WQPFVDLLRN-PQVVKLLHAGSEDLEVFLHD-FQTL-PQPLIDTQILAAFTGRPLSSGFAAMVSAYLQVDLDKSESRTDWLAR-PLSERQCDYAAADVYYLLPMAHKLLAEVEACGWLPAALDECQALCRRRAETV-
A0A0H3DSC7/2-195           --------LKYQLITSSSALKEVCERASACPYIALDTEFVRTRTYYPQLGLVQLY-DGE-----------TLSLIDPLPISD--WQPFVDLLRN-PQVVKLLHAGSEDLEVFLHD-FQTL-PQPLIDTQILAAFTGRPLSSGFAAMVSAYLQVDLDKSESRTDWLAR-PLSERQCDYAAADVYYLLPMAHKLLAEVEACGWLPAALDECQALCRRRAETV-
A0A0N8REG7/3-194           --------IDIHWIRDDDSLARHCAQWQSLPFVALDTEFMRVDTFYPIAALLQIG-DGQ-----------SAWLIDPLLIND--WAPLSALLEN-PAVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLNIDLPKGETRSDWLQR-PLSDTQISYAAEDAVHLAELFAILRPRLSDD-KYAWLLDDGAELVANLRRE--
R9VLS6/1-194               --------MNYQMITTNDALAAVCEAARAFPAIALDTEFVRTRTYYPQLGLIQLY-DGE-----------HVALIDPLTITD--WTPFRDLLIN-TAVTKYLHAGSEDLEVFLNA-FGVQ-PQPMIDTQILAAFCGRPLSWGFAAMVEEFTGLVIDKSESRTDWLAR-PLTERQCDYAAADVWYLLPIAGKLLAETDQAGRLDAALDECRLMMQRRQEVL-
M9G6Z2/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A073G7Q2/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A080FSL0/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
S1IIY5/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A070CIU8/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
D8EJV3/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
I2WTN1/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
I6CVB6/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
I0VLG2/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A026V3F4/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
U9ZCA0/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
U9YAN9/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
F8X713/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
E9THJ3/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
V0YCL6/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
F4VG50/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
I4SWF9/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
W1X0J7/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A023KKF7/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A074I1N0/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
U9Z257/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
E0J520/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
V0TR18/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
D7Y1M0/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
D8E918/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0G3K3C5/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A070KHG7/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
V6FJ87/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
V0SXY4/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
S1GVE4/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
D7YK96/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
D7X947/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A1N7VRJ3/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
N2H1K1/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
F4V2V8/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0A0FEX7/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A073GDU1/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
E1IMJ3/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A1C7V6C4/1-194           --------MSYQLIVNNDQLTEFCSKIEKSSAIALDTEFVRTCTFYPHLGLLQVF-DGK-----------HAALIDPITISD--WQDFLTILKN-PKIEKYFHSCSEDIEVFLYY-FGMV-PTPIIDSQILASFLDNPLSSGYASLVKKYLEVELDKSETRTDWLKR-PLTEKQCEYAINDVFYLFPLVNILKSQLTENDYLQAAYQECQMAVARKCTVI-
A0A1B3JJ05/9-202           --------LHFSLITTNQELSEICQLARQKSAVALDTEFVRVSTYFPKLGLIQLY-DGE-----------NVSLIDPLSISD--FSPFVELLAD-PDVLKVLHSCSEDLVVFLQE-FDQL-PQPMIDTQIMARFLGLGNSVGLAKLALNYLNIKVDKGATRTNWIKR-PLSENQLHYAAGDVWYLLPIYSCLQKELVATPWQSAVQADCELALSKIKKLQ-
A0A1C3V444/1-190           ------------MIETTAQLEAACQELAKSEFITIDTEFLRETTFWPELCLIQMA-SPT-----------TEVLVDPLA-KGLDLAPFFELMAN-PSVLKVFHAARQDIEIIFHR-GNLI-PHPIFDTQVAAMVCGFGDSVSYDQLVSRIKNVHIDKSSRFTDWSRR-PLSEKQLDYALADVTHLRDVYLSLKEQLQREGRASWLQEEMAILEARETYD--
A0A0R4FMD4/11-204          --------CNYQLVTTDAQLQSVCEQAKKHARIALDTEFVRTRTYYPQLGLIQLF-DGE-----------QLSLIDPLEISQ--WQPLKALLVD-PDVLKLIHAGSEDLEVFGNS-FQCL-PTPMIDTQVLAAFIGHPISCGFATLVAEYLHVELDKSESRTDWLAR-PLSRKQCEYAAADVYYLLPLADILLKKTEQAGYFDAAKDESDLIAQRRKEIV-
A0A0H0XL70/4-194           ----------HPLITDTETLAALCERLAKHEFVCVDTEFMRENTYYPLLCLVQVG-NEE-----------EAAAIDPLA-DGIDLTPLLDLLCENDEVLKIFHAGGQDVEIVYNL-TGKT-PYPIFDTQIAMMAISQSEQIGYANLVESWLNKTIDKGARFTDWSRR-PLTERQIEYAIGDVTYLATIFPRMLKKLIKTNRGHWLNAEMDKLADPSN----
K2H8Y0/1-193               ----------MMTIVTTDALAAFCERARSRPYVTVDTEFLRERTYYSQLCLVQLA-LPG-------DAEDDAVLVDPLA-PDLSLEPLYALFRD-ADVVKVFHAARQDIEIFCLE-GGVI-PQPLFDTQVAAMVCGYGDQAGYETLVRKIARAQVDKTSRFTDWSRR-PLSDAQKAYALADVTHLRGIYEYLAAELERTGRTAWVEEELAVLSDPD-----
A0A0D6PRI0/12-201          -----------VIVTSSEEVARLCNKLKQEPFVTIDTEFVREKTYWPELCLVQLA-GEE-----------DVAVIDTLA-PGIDLAPLGELLDE-PGCIKVFHAARQDLEIFLHI-FDRL-PQSLFDTQVAAMVAGFGDQVGYDSLVGAITGQAIDKAHRFSDWSAR-PLTKAQIAYAAADVTHLRTVYLALRKQLEDEGRLRWADAEQAVLTSEETF---
J3E0S5/3-195               --------IDIHWIRDNDSLGQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVVKVVHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIDLPKGETRSDWLQR-PLSDTQISYAAEDALHLAEVFVQLRPKLSDE-KYAWVLEDGAELVANLRREV-
J3GCB4/3-195               --------IDIHWIRDNDSLGQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVVKVVHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIDLPKGETRSDWLQR-PLSDTQISYAAEDALHLAEVFVQLRPKLSDE-KYAWVLEDGAELVANLRREV-
A0A0D8KXN4/1-190           ------------MIETTAALAEACTELAKSEFITIDTEFLRETTFWPELCLVQMA-SPT-----------LEVLVDPLA-KGLDLAPLFELMAN-PNVVKVFHAARQDIEIIYHL-GGLI-PHPIFDTQVAAMVCGFGDSISYDQLVQKIKNVQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDVYLALKAQLEREGRSLWLTEEMDILESRDTYD--
A0A0M2UHH0/3-195           --------IEIHWIRDDQSLAEHCRDWHQLPFVAVDTEFMRVDTFYPKAGLIQIG-DGQ-----------RAFLIDPLLIGN--WQPLAELLDD-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQEVLGIDLPKGETRSDWLQR-PLSETQVSYAAEDAVHLAELFTVLRPRLSDD-KYAWVLEDGAELVAALRREV-
A0A177M429/1-190           --------MTIQYINRPDQLDSLCQLISQEPWIALDTEFLREKTYYPKFCLLQIA-APG-----------WVACVDPLAIAD--LTPLLEAIYN-PDIVKVLHSCRQDLEIFYQI-TGKI-PGPIFDTQIAAPLLGFQENPGYAMLVSSFLNVNLSKAHTRTDWSER-PLSEDQIQYAADDVIYLCKIYKIMCEQLEKLGRSNWLESDFALLNDPE-----
A0A151JJU7/1-193           --------MNYQIITDEKELNRVCHQARQADVVMLDTEFVRTRTYYPQLGLIQLF-DGE-----------NLSLIDPTTLKE--MDAFVELLQD-TAVIKVLHACGEDLEVFHNA-FGCT-PVPMVDTQIMAAFLGHGLSTGFAALVEQYLHVQLDKSESRTDWLAR-PLSDKQLEYAAADVHYLLPLYDILREQVQQAGWWQAAQQESELLAGKRVRT--
A0A097EDI8/4-194           ----------HPLITDSASLANLCARLANADFVTVDTEFMRESTYYPELCLIQIA-DVN-----------EAAAIDPMA-PGLDMTPLLELLTENQDVLKVVHAGGQDIEIIYNL-TGKT-PHPLFDTQVAAMALGQGEQIGYSNLVDSWLGIVVDKGARFTDWARR-PLDARQIEYAIGDVTHLAVIFPKMLERLRKTGRGVWLDQEMERLADPAN----
H5T8S5/8-199               --------YEYLYVDTPAQLTQLCAHYSTQEVLAIDTEFVRTQTLTPILGLIQVF-DKH-----------QVALIDPVAIKD--LSEFSSILTN-PNIVKVAHACSEDLEALWHH-LHII-PTPLFDTQFAAAMLGLGVSVGYANLVENLFEITVDKGESRTDWIQR-PLSSAQCAYASADVTHLMALYEHIYKETQILQKTDWVLDEIHQLGLKKSI---
A0A085GCN1/1-190           ------------MITTDEALVRVCEAARQFPAVALDTEFVRTRTYYPQLGLIQLY-DSE-----------TASLIDPLTITD--WSPFKALLQD-TAVIKFLHAGSEDLEVFLNA-FGML-PDPFIDTQILAAFSGRPLSCGFATIVESFTGIALDKSESRTDWIAR-PLTERQCEYAAADVLYLLPIAHKLMEETKAAGWMDAALDECNLMAARRQDVL-
A1SVE6/1-192               --------MQFEIITTTAQLHDFIATLDGSP-ISLDTEFVRTRTYAANLGLLQIS-QNT-----------QITLIDPIAVGD--LSSFWQAIDN-KNI--ILHASSEDLEIIRDH-KGDL-NFTLFDTQIACSFLNMGASLGYAKMVETLEAVIVDKGESRTDWCAR-PLSEKQINYAGVDVLYLQPCLEKLQQQLENKKMFPFFEQECQSVLAQKMVKQD
A0A1H2G0R2/69-261          --------VAMHIVTKTSELADICQRLAQHDFVTVDTEFLRETTFWPKLCVIQLA-SPD-----------EAVIVDALS-DELDLSPFFDLMRN-EKVVKVFHAARQDIEIVYHL-GGFI-PHPVFDTQVAAMVCGFGDSISYDQLVHRVTAVRIDKSSRFTDWARR-PLSDKQLDYALADVTHLRDVYLFLKANLAEQGRTHWVGDEMEILTSESTY---
Q3ICG4/1-193               --------MHYQLIETQNQLNTFVEQIKNKPVLAIDTEFMRRRTLYPEVALIQVY-DGE-----------HLALIDPLAELS--LFDFWQILKD-PAVLKVFHSPSEDIEVFQKY-AGFV-PTPLFDTQFALQILGEGNCMGFALMVKTLLDIEIDKSESRTNWLQR-PLTNKQLEYAAADAYHLLPCFNLIIDSVKAADLFNIVISESELVANKREFQ--
A4YTC1/8-198               ----------MDLITTTADLAAACARLAQHPVITVDTEFLRETTYYPLLCVVQMA-SQD-----------EAVVIDALA-EGIDLKAFFELMAN-EKVLKVFHAARQDIEIIWHR-AGIV-PHPIFDTQVAAMVLGYGDSIAYDQLVERITGHRPDKTHRFTDWSRR-PLTKEQAHYAEADVTHLRDVFAALDTDLKKRGRSDWVSEEMEILTSPKTY---
A0A0Q4GE78/4-193           ----------HPLISDSATLANLCARMADADYVCVDTEFMRESTYYPELCLIQIA-DDK-----------EAAAIDPMA-PGIDLKPLLDLLVENHDVLKVVHAGGQDIEIVYNL-TGKT-PFPLFDTQVAAMALGQGEQIGYSNLVDSWLGIAVDKGARFTDWARR-PLDARQIEYAIGDVTHLSKIFPKMLERLRKTGRGQWLDQEMERLGDIA-----
K2K509/2-195               -----------ITLTTTEGLQAFCDRAKKQAYVTVDTEFLRERTYYSKLCLVQLA-IPG-------DAEEDAVLLDPLV-KGLDLAPLYDLFRD-TSVVKVFHAARQDLEIFFIQ-GGVI-PDPLFDTQVAAMVCGFGEQVGYETLVRKIAKENLDKTSRFTDWSRR-PLTTAQENYALADVTHLRVIYEFLRDEIKREGREKWVAEELEILTSPATY---
A0A0G2NMP9/1-194           --------MNYQMIETDDALASLCEAVRACPAIALDTEFVRTRTYYPQLGLIQLF-DGA-----------NVALIDPLGISD--WSPLKAVLRD-TGITKFLHAGSEDLEVFLNA-FGEL-PEPLIDTQILAAFCGRPLSWGFAAMVEEYTGVALDKSESRTDWLAR-PLSERQCEYAAADVWYLLPIAKKLMIETEAAGWLPAALDECRLMQQRRQEIQ-
B5R8Y4/1-194               --------MNYQMIETDDALASLCEAVRACPAIALDTEFVRTRTYYPQLGLIQLF-DGA-----------NVALIDPLGISD--WSPLKAVLRD-TGITKFLHAGSEDLEVFLNA-FGEL-PEPLIDTQILAAFCGRPLSWGFAAMVEEYTGVALDKSESRTDWLAR-PLSERQCEYAAADVWYLLPIAKKLMIETEAAGWLPAALDECRLMQQRRQEIQ-
A0A074MXS5/3-195           ---------IHDLITTTDALADLCERLAKSEFVAVDTEFMRENTYWPELCLVQIA-DTE-----------EAAAIDPLA-DGIDLKPLLDLLTENDEVLKVFHAGGQDVEIIVNM-TGKT-PFPIFDTQVAMMAISQSEQIGYANLVDHWLGLQIDKGARFTDWSRR-PLTDRQIEYAIGDVTHLSKIFSKILKKLIKTGRGNWLDAEMEKLADASNF---
A0A1E7ZC00/1-194           --------MKYKLITDEKALRSVCEKAAEADAVAIDTEFVRTRTLTPLLGLLQMF-DGE-----------NLVLIDPLAIDD--LSPFVELMAN-PNVVKVLHSCSEDLETFLAA-FSMV-PAPIFDTQFAASVLDMGPTLGYARLVELMSNVVLDKGESRTDWLAR-PLREAQLSYAANDVLYLLPVYRQLAEKIAQVGKYEWVTQEIAALAEKKKAQV-
A0A0B3XZ26/1-194           --------MQYQLITTSEQLEKVCTAAQRQEAVALDTEFVRTRTLTPHLGLIQLY-DGH-----------QLVLIDPLAIDN--MQPFIELMEN-NEVVKVLHSCSEDIEAFLTA-FDTV-PTPVFDTQLAGSILDMGPSLGYAKLVELLCDITLDKGESRTDWIAR-PLRESQLSYAANDVLYLLPCYQQLASKVQDAGKVHWIYQEIALLVEKKRAQM-
A0A0M2F0K3/1-194           --------MNYQLITSDIGLQQVCTQARRFPQVALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLTITD--WAPFQALLRD-EQVTKFLHAGSEDLEVFLNA-FGTL-PVPFIDTQILAAFLGKPLSYGFAALVADYMGVTLDKSESRTDWLAR-PLSEKQCDYAAADVFYLLPMAIQLVADTEAAGWMNAALDECLLLCQRKQDIL-
F9SPN1/19-212              --------VNYQIITQSSQLEEVCQSARNVDVVMLDTEFVRTRTYYPQLGLIQLF-DGE-----------KLSLIDPTVIED--MTAFVELLKD-TSVLKVLHACGEDLEVFHNS-FGCL-PYPMVDTQLMAAFLGHGLSTGFAALVENYLGVELDKSESRTDWLAR-PLSDKQLEYAAADVYYLQPLYEQLFEKITQAGWWEAAQQESDLAASKRIKTV-
A0A0Q4MRR2/1-190           ------------MITTDDALAEVCLRARQVPALALDTEFVRTRTYYPRLGLIQLF-DGE-----------TISLIDPLTIGD--WTPFRDLLLD-AGVTKFLHAGSEDLEVFLHQ-FGVL-PQPMIDTQILAAFSGRPLSCGFATIVESFTGIALDKSESRTDWLAR-PLTEKQCVYAAADVFYLLPVAHKLMAETEAAGQMAAALDECRLLCQRRTAQL-
A0A0A6DL30/3-194           --------IDIHWIRDNESLAQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQVG-DGK-----------RAYLIDPLTINA--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TGSL-PAPMFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSDTQISYAAEDAVHLAEVFVQLRPKLSDD-KFAWVLEDGAELVANLRRE--
A0A136HSY9/1-190           -----------MYVETSEQLHQVCQRYTQAPVLAIDTEFVRTRTLYPKLGLIQIN-DGK-----------TLALIDPVALPD--LSPFWQLLES-PSIQKVLHACSEDLEVFLTA-GNCR-PVNLIDSQIIMSFLGHGLSMGYAAMIAHYTNIELDKSESRTDWMKR-PLTTKQLNYAAADVEHLFNVLPQVMADIEKSGWLAAAQEESDIMVERKFTP--
A0A166RRX0/1-195           ----------MKTITTTADLAEFCREAARHDYVTVDTEFLRERTYYSKLCLVQLA-MPG-------QDDSNAVLVDPLS-DGLSLEPLYDLFRD-TSVVKVFHAARQDLEIFFVD-AKVF-PEPLFDTQVAAMVCGFGEQVGYETLVRKIAHQSLDKTSRFTDWSRR-PLSEAQKKYALADVTHLRQIYEFLAARLEETGRGHWVTEELETLTNPDTY---
A0A168L833/1-190           ------------MITTNDGLRAVCDAASAVSAIALDTEFVRTRTYYPQLGLLQLF-DGT-----------QVSLIDPLVITD--WQPMRELLLN-KDVTKFLHAGSEDLEVFLNA-FHLM-PQPLIDTQILAAFCGRPMSWGFASMVEEFTGVALDKSESRTDWLAR-PLTERQCIYAAADVWYLLPIAGKLMAETDSAGWLSAALDECQLMQQRRQEVQ-
A0A0S3JCA2/10-203          --------LNYQMITQDDALKAACDAARGAPAIALDTEFVRTRTYYPQLGLIQMY-DGD-----------SVVLIDPLSITD--WTPFRDLLLD-VAVTKYLHAGSEDLEVFLNT-FGVL-PEPLIDTQILAAFCGRPMSWGFAAMVEEYTGIALDKSESRTDWLAR-PLTERQCDYAAADVWYLLPIAHKLMAETEASGWLPAALDECRLMQQRRREVV-
V4JEB6/1-193               --------MQYQFIQYQAELDEFVSLISDSKVLAIDTEFMRRRTLYPENALLQVY-DGK-----------HLALIDPLVDMD--FSALWALFTS-PDVIKVIHSPSEDIEVFQNF-AGIV-PAPLFDTQFALQLLGEGNCVGFANMVKSLLDIEIDKSMSRTDWLKR-PLSDKQLEYAAADVFYLLPCFEKIIVQIEQKQLFDIVISESELIAKKRAFR--
H0H6Y7/1-190               ------------MIETTAALAEACTELAKSEFITIDTEFLRETTFWPELCLVQMA-SPT-----------LEVLVDPLA-KGLDLTPLFELMAN-PDVVKVFHAARQDIEIIYHL-GGLI-PHPIFDTQVAAMVCGFGDSISYDQLVQRIKNVQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDVYLALKAQLEREGRSLWLTEEMDILESRETYD--
F0L1P5/1-190               ------------MIETTAALAEACTELAKSEFITIDTEFLRETTFWPELCLVQMA-SPT-----------LEVLVDPLA-KGLDLTPLFELMAN-PDVVKVFHAARQDIEIIYHL-GGLI-PHPIFDTQVAAMVCGFGDSISYDQLVQRIKNVQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDVYLALKAQLEREGRSLWLTEEMDILESRETYD--
A0A0Q7Q256/1-190           ------------MIETTAALAEACTELAKSEFITIDTEFLRETTFWPELCLVQMA-SPT-----------LEVLVDPLA-KGLDLTPLFELMAN-PDVVKVFHAARQDIEIIYHL-GGLI-PHPIFDTQVAAMVCGFGDSISYDQLVQRIKNVQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDVYLALKAQLEREGRSLWLTEEMDILESRETYD--
A0A0Q7IF87/1-190           ----------MDLIVSTDVLAAFCERAGKFDFVTVDTEFLRETTYWPKLCLIQAA-TDD-----------EAVLIDPLA-PDLDLSSFFDLLAN-PNITKVFHAARQDIEIFVKL-TGKV-PVNIFDTQIAASVCGFGDSVSYDNLVRSITNVELDKSSRFTDWSAR-PLSEKQRLYAVADVTHLRDIYRELRKQVDATKRWDWVEDELGVLRSIDT----
H8FNM1/1-190               ----------MPMISDTESLAAFCQRLKTASFVTVDTEFMREKTYWPILCLVQVG-GPD-----------EAHVIDPLA-PGIDLAPLFELMAD-TSVLKVFHAARQDVEIFLHI-AGAL-PNPLFDTQVAAMVCGFGDAVSYETLASQLAKARIDKSLRFTDWSIR-PLSDKQIQYALADVTHLRVAYEKLVRKLERNGRLEWLAEEMAILADPAT----
A0A0N8R0U1/3-194           --------IDIHWIRDDDSLARHCAQWQSLPFVALDTEFMRVDTFYPIAALLQIG-DGQ-----------SAWLIDPLVIND--WRPLSALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLDIDLPKGETRSDWLQR-PLSETQISYAAEDAVHLAELFIILRPRLSDD-KYAWLLDDGAELVANLRRE--
A0A0P9ILF8/3-194           --------IDIHWIRDDDSLARHCAEWQLLPFVALDTEFMRVDTFYPIAALLQIG-DGQ-----------SAWLIDPLLIND--WQPLSALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLNIDLPKGETRSDWLQR-PLSETQISYAAEDAVHLAELFAILRPRLSDD-KYAWLLDDGAELVANLRRE--
A0A162HV53/1-194           --------MDYQIITQLKDLERVCQQAREADVVMLDTEFVRTRTYYPQLGLIQLF-DGE-----------TLSLIDPIALDE--MTPFVGLLKD-ASVLKVLHACGEDLEVFQNA-FDCT-PTPMVDTQIMAAFLGHGLSTGFAALVSEFVGVDLDKSESRTDWLAR-PLSRKQLDYAAADVHYLMPMYNKLLEKVMEAGWWEAAQQESDLQVAKRIRKV-
A0A0K1XFL2/3-193           --------IDIQWVTSDQELSKKCAQWAKLSYLAVDTEFIRVSTFYPIAGLIQLS-DGQ-----------SVFLIDPLLITN--WQPFKELLES-KQVIKVLHACGEDLEVFARL-MEAR-PQRLFDTQIAAGLLNIGFSMGYSRLVQALLHIELPKGETRSDWLQR-PLSETQVLYAAQDTLYLAQVYLQLAERLSAE-KLQWLFEDGDTLVQLHTA---
A7N151/11-204              --------VNYQIITKNKDLEEVCALAREADVVMLDTEFVRIRTYYPQLGLIQLF-DGK-----------QLSLIDPTELTD--MTSFVELLKD-TSVLKVLHACGEDLEVFQNA-FGCT-PFPMVDTQLMAAFLGHGLSTGFATLVEEYLGVELDKSESRTDWMAR-PLTQKQLDYAAADVHYLMPLYEKLLDKVNEAGWWEAVQQESDLLVSKRIRNV-
A0A0D7M2R5/1-190           ------------MITTDDALATLCEAVREFPAIALDTEFVRTRTYYPQLGLIQLF-DGK-----------HVALIDPQGITD--WSPLRDILRD-TAITKFLHAGSEDLEVFLNT-FGEL-PQPLIDTQILAAFCGRPLSWGFAAMVEEFTGVALDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITTKLMVETEASGWLPAALDECRLMQQRRQEVL-
A0A0J1NF00/1-190           ------------MITTDDALATLCEAVREFPAIALDTEFVRTRTYYPQLGLIQLF-DGK-----------HVALIDPQGITD--WSPLRDILRD-TAITKFLHAGSEDLEVFLNT-FGEL-PQPLIDTQILAAFCGRPLSWGFAAMVEEFTGVALDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITTKLMVETEASGWLPAALDECRLMQQRRQEVL-
A0A0J1L4G9/1-190           ------------MITTDDALATLCEAVREFPAIALDTEFVRTRTYYPQLGLIQLF-DGK-----------HVALIDPQGITD--WSPLRDILRD-TAITKFLHAGSEDLEVFLNT-FGEL-PQPLIDTQILAAFCGRPLSWGFAAMVEEFTGVALDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITTKLMVETEASGWLPAALDECRLMQQRRQEVL-
A0A0W1KNS5/1-193           --------MQYQLIETQNQLNTFVEQIKSKPILAIDTEFMRRRTLYPEVALIQVF-DGE-----------LLALIDPLAELS--LFDFWEILKD-PAVLKVLHSPSEDIEVFQKY-AGFV-PAPLFDTQFALQLLGEGNCMGFALMVKELLGIEIDKSESRTNWLQR-PLTKKQLDYAAADTFHLLPCYELIIERINKAELFDIVINESELIANKRAFQ--
A0A0J6AMV7/1-194           --------MNYQLITSDIGLQQVCSQARRFPQVALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLTITD--WAPFQALLRD-EQVTKFLHAGSEDLEVFLNT-FGTL-PTPFIDTQILAAFLGKPLSYGFAALVADYMGVSLDKSESRTDWLAR-PLSEKQCDYAAADVFYLLPMAIQLVADTETAGWMNAALDECLLLCQRKQAIL-
A0A161JME4/1-191           ----------MELITATQALSDACARLAAQPFVTVDTEFMRETTYYPKLCLIQMA-GPD----------GFACLVDPLA-KDLDLKPFFELMAD-ESTVKVFHSARQDLEIIWLL-GGLL-PHPFFDTQVAAMVCGYGDSVSYEQLVNDVAKARIDKSSRFTDWSRR-PLSEAQLAYALSDVTHLVTIYQVLAAELVRTDRGLWLDEEMAVLTSPET----
A0A0H3HB17/1-194           --------MNYQMITTNDGLRAVCDAASAVSAIALDTEFVRTRTYYPQLGLLQLF-DGS-----------QVSLIDPLVITD--WEPMRELLLN-KDVTKFLHAGSEDLEVFLNA-FHLM-PQPLIDTQILAAFCGRPMSWGFASMVEEFTGVALDKSESRTDWLAR-PLTERQCIYAAADVWYLLPIAGKLMAETDSAGWLSAALDECQLMQQRRQEIQ-
N6UQI3/1-189               ----------MKLITQTTELEIAIATLSNSDFVTVDTEFIRETTFWPQLCLIQLA-SLN-----------TTILIDPMV-PDINLQSFFNLMVD-EKIVKVFHAARQDIETIYHL-GGII-PYPLFDTQIAGSICGFGDSISYDQIVQRCTGHHIDKSSRFTDWSHR-PLSEKQLLYALADVTYLRDVYLSLKKKLEKNKRTHWMNDELEILLTPT-----
S3HKB0/1-190               ------------MIETTADLEAACKELAKSEFITIDTEFLRETTFWPELCLIQMA-SPT-----------TEVLVDPLA-KGLDLKPFFELMAN-PAVLKVFHAARQDIEIIYNR-GGLI-PHPIFDTQVAAMVCGFGDSVSYDQLVSRTKGVQIDKSSRFTDWSRR-PLSEKQLDYALADVTHLRDVYLYLKAELEREGRSSWLREEMDILEARETYD--
A0A176NGU6/3-195           --------IDIHWIRDNDSLGQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGK-----------RAYLIDPLTIDN--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVFVQLRPKLSDE-KYRWVLEDGAELVANLRREV-
T0H9R1/4-195               ----------HPLITKTDDLAALCERLAKSDFVAVDTEFMRENTYWPELCLVQIA-NTE-----------EAAAIDPMA-DGLDMTPLLDLLTDNEDVLKVFHAGGQDVEIIYNA-TGRT-PHPIFDTQIAMMAISQSEQIGYSNLVESWMGLTIDKGARFTDWSRR-PLTERQIEYAIGDVTHLSKIFPKMLKRLIKTGRGEWLDQEMEKLADPEHY---
F7Y1A3/1-191               ----------MHVITTQKELETALAAFEKSDFVTVDTEFIRETTFWPILCLIQMA-APG-----------VTALIDPLS-SDIDLRPFFKLMAN-EAVVKVFHAARQDIEIIVHL-GDLV-PHPVFDTQVAAMVCGFGDSVSYDQLVQRITGARLDKSSRFTDWRHR-PLSDKQLDYALADVTHLIEVYQHLNAELARENRAHWLNEEMDVLTSRETY---
A0A094TG31/1-194           --------MNYQLITTDTALETACKAASQASQIALDTEFVRIRTYYPHLGLIQMY-DGK-----------QISLIDPLAITN--WTPFVELLTH-PNIMKYLHAGSEDLEVFSHQ-FGCV-PTPMIDTQVVAAFLGYPISCGFATLVEKYENIALDKSESRTDWLAR-PLTEKQCQYASGDVFYLLPLAKKLIVEAQDAGYMDAITDECEMIAERRQEMV-
A0A1C1S9B5/1-194           --------MNYQMITTDDGLRAVCEAASTASAVALDTEFVRTRTYYPQLGLLQLF-DGQ-----------QVSLIDPLTIND--WAPMRDLLLN-QDVTKYLHAGSEDLEVFLNA-FNLM-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVALDKSESRTDWLAR-PLTERQCEYAAADVWYLLPIASQLMAETDRAGWLPAALDECRVMQQRRQEVV-
A4EKU8/1-194               ----------MKTITTTEDLAAFCQEAAKRAYVTVDTEFLRERTYYSKLCLVQLA-YQD-------DSGADAVLLDPLV-DGLSLEPLYDLFKD-HGVVKVFHAARQDLEIFYVD-AGVI-PEPLFDTQVAAMVCGFGEQVGYETLVRKITKSDLDKSSRFTDWSRR-PLTDAQAKYALADVTHLRDIYEHLSARLAKSGRSKWVAEEMAVLEDPAT----
A0A0G9MX69/4-194           ----------HPLITKTADLAELCERLAKSDFVCVDTEFMRENTFYPLLCLIQIG-NEE-----------EAAAIDPLA-DGLDLTPLWDLLTENDEVLKVFHAGGQDVEIVYNF-TKKT-PYPIFDTQIAMMAVSQSEQIGYANLVESWLGKTIDKGARFTDWSRR-PLTERQIEYAIGDVTYLAKIFPRLLKKLIKTGRGSWLDAEMEKLADPAN----
A0A0U4HKK0/1-190           ------------MITTNDALATLCETARTQRALALDTEFVRTRTYYPQLGLIQLY-DGE-----------NVALIDPLTITD--WAPFQALLQD-QNVTKFLHAGSEDLEVFQNA-FGMM-PDPFIDTQVLASFVGHPLSCGFATLVEHHTGVVLDKSESRTDWLAR-PLTERQCDYAAADVWYLLPIAHKLMEQVREAGWLTAAINECRLMTQRRGEVL-
A0A0A7PQS8/3-195           --------IEIHWIRDDQSLAEHCRDWHQLPFVAVDTEFMRVDTFYPKAGLIQIG-DGQ-----------RAFLIDPLLIGN--WQPLADLLED-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAELFSVLRPRLSDD-KYAWVLEDGVELVAALRREV-
D2YGL0/13-206              --------VNYQIITQLGDLQRVCLAARDADVVMLDTEFVRTRTFFPQLGLIQMF-DGE-----------NLSLIDPTVIDE--MTPFVELLQD-TSVLKVLHACGEDLEVFQNA-FGCT-PFPMVDTQIMAAFLGYGLSTGFAALVQDQLQVELDKSESRTDWLAR-PLSDKQLEYAAADVFYLLPMYEKLLERVTHAGWWEAALQESELQVAKRTKVS-
A0A196M9D5/4-194           ----------HPLITDSKTLADFCARIANSPYVAVDTEFMRENSYWPDLCLVQVA-DAH-----------EAAAIDPKA-PGLDMKPLLDLLVDNEEVLKVFHAGGQDIEIVHNL-TGKT-PHPMFDTQIAAMALGLGEQIGYGNLVEAWLGVQLDKGARFTDWARR-PLDKRQIDYAIGDVTYLIQIFPKMLDELRKTGRGDWLDQEMERISDPSN----
A0A166X0C1/6-197           ---------QPNWIADNQALQEACNLWQGEAYLAVDTEFVRTTTFYPKAGLIQIT-SSD-----------GDYLIDPLVIDD--WQPLREIFEH-PLIVKVFHACAEDLEVCRQL-VGCV-PAPLADSQHAAALAGLGGSMGFQRVVSAVLGIDLPKGETRSNWLER-PLREEQVQYAVADVHYLYRLYPKLIAQLKKMQREAWLAEDCDRLVEQAKAP--
V4PET7/1-186               ----------MTPITNTNDLIAFCDAIKSAPFITVDTEFMRETTYWPKLCLIQAA-SED-----------HAAIIDPLA-KSLDLKPFLDILAD-EKILKVFHACRQDMEIFFNL--GTM-PKPIFDTQVAAMAAGYGDQVAYDSLVRQKLKIDIDKGSRFTDWSRR-PLSEQQLQYALGDVTHLAKVYPKLRDRLAREGRLEWVSAEMIDLCD-------
A0A1E3E023/1-194           --------MNYQIITKNKDLEEVCALAREADVVMLDTEFVRIRTYYPQLGLIQLF-DGK-----------QLSLIDPTELTD--MTSFVELLKD-TSVLKVLHACGEDLEVFQNA-FGCT-PFPMVDTQLMAAFLGHGLSTGFATLVEEYLGVELDKSESRTDWMAR-PLTQKQLDYAAADVHYLMPLYEKLLDKVNEAGWWEAVQQESDLLVSKRIRNL-
A0A1C3RDP4/1-193           ----------MELITDTETLAAFCDRLSSESFVTVDTEFMREKTYWPKLCLVQLG-GSD-----------DARCVDVLA-NGIDLQPLFDLMAN-EDVLKVFHAARQDVEIFVKL-TGKT-PVPMFDSQVAAMVCGFGESVGYETLVNNICRESLDKGSRFTDWSKR-PLTERQVTYALGDVTYLREIYQFLKDKLDDNNRAVWLEEEMAALTSTDTYIV-
F3E3D4/3-194               --------IDIHWIRDDDSLARHCAQWQSLPFVALDTEFMRVDTFYPIAALLQIG-DGQ-----------SAWLIEPLLINN--WAPLSALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLNIDLPKGETRSDWLQR-PLSDTQISYAAEDAVHLAELFAILRPRLSDD-KYAWLLDDGAELVANLRRE--
A0A0Q8YCC4/3-195           --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVYTRLRPQLSDD-KYAWVLEDGAELVANLRREI-
A0A109KPT8/3-195           --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVYTRLRPQLSDD-KYAWVLEDGAELVANLRREI-
A0A167AHW9/3-194           ---------TVPFIDRPEALKAFCERLKGVEWFALDTEFIREKTYYPQLCLIQVA-TPE-----------EVACIDPLNLDD--LSPLTHLLFD-PNITKVLHAASQDLEIFFHQ-QGRV-PGPIFDTQVAAALLGHGDQIGYGKLIQLVLGVELEKGQSRTDWAQR-PLEPVQLSYAADDVHYLAQAYPVMRQALEDNGRLAWLEDDFQRMQDPRTYQ--
C8S2P6/1-193               ----------MQTITTTTDLADFCEAAKREPYVTIDTEFLRERTYWSKLCLIQMA-LPG--------KTGRAVLVDPIEGPEMSLEPLYDLFRH-QATVKVFHAARQDLEIFFVE-GNSF-PEPLFDTQVAAMVCGYGEQVGYETLVKKIAKENLDKTSRFTDWSRR-PLSEAQSDYALADVTHLRVVYESLAAQIAKSGRQKWVEEELSILTDPA-----
A0A1C3GQ32/3-195           --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PTVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAEVYIRLRPRLSDD-KYAWVLEDGAELVANLRREV-
A0A095BKV7/4-194           ----------HPLIETNAALVEFCDLIRNSDFIAVDTEFMRENTFWPELCLIQVA-DRD-----------HAAAIDPMA-PGIDLKPLLDLLVDNEDMLKVFHAGGQDVEIIFNL-TGKT-PHPIFDTQIGQMALGQAEQVGYSNLVEAWIGLQLDKGARFTDWSRR-PLDKRQIDYAVGDVTHLAKIFPMMLDKLIKTGRGHWLDEEMEKLADPAN----
V4NBG7/1-187               ----------MTPITNTNDLIAFCEAIKSAPFITVDTEFMRETTYWPKLCLIQAA-SED-----------HAAIIDPLA-KSLDLKPFLDILAD-EKILKVFHACRQDMEIFVNL--GTL-PMPIFDTQVAAMAAGYGDQVAYDSLVRQKLKIDIDKGSRFTDWSRR-PLSEQQLQYALGDVTHLAKVYPKLRDRLAREGRLEWVSAEMADLCAP------
A0A0Q4XDK2/1-192           ----------MDLIATTPALAEACSRFAGQPFVTVDTEFMRETTYYPKLCLIQMA-GPD----------GSGVLVDPLS-PDIDLAPFFALMAD-ESVVKVFHSARQDLEIIWLL-GGLL-PQPFFDTQVAAMVCGYGDSVSYEQLVNDVAKAKIDKSSRFTDWSRR-PLSDAQSSYALSDVTHLVTIYEVLAGKLLSTDRGEWLDEEMSVLTSPETY---
A0A0Q4UE00/1-192           ----------MDLIATTPALAEACSRFAGQPFVTVDTEFMRETTYYPKLCLIQMA-GPD----------GSGVLVDPLS-PDIDLAPFFALMAD-ESVVKVFHSARQDLEIIWLL-GGLL-PQPFFDTQVAAMVCGYGDSVSYEQLVNDVAKAKIDKSSRFTDWSRR-PLSDAQSSYALSDVTHLVTIYEVLAGKLLSTDRGEWLDEEMSVLTSPETY---
A0A0Q5HT21/1-191           ----------MEPITTTAALQDACNTLSRAEFVTVDTEFIRETTFWPELCLIQMA-SDD-----------LAVLVDPLA-DGIDLAPFFALMAD-DKVIKVFHAARQDVEIIHKL-GGLI-PVPLFDTQVAAMVCGFGESIAYDQLVARTSKGRIDKTSRFTDWRRR-PLSQDQLEYALADVTYLRDAYRFLKSALAVEERESWLADEMSVLTDPKTY---
A0KXU5/22-213              ---------VFQYVSDEASLNALVAQYQQSPLLVLDTEFVRTRTYYAKLGLIQAY-DGK-----------TLALIDPVALPD--LSAFWSLLDN-PNIIKLVHSCSEDLEVFAHY-GQRQ-PTPLFDSQIAASLCGMGHGLGYAKLVETCLGEVIDKGESRTDWMRR-PLTEAQLSYAANDVLYLYQLYPQLADKLKAQDRLGWLYEEGERMTEGRLAT--
A0A1B6Z6I3/4-194           ----------HPLMTDNQDIADICARFSTADFVTVDTEFMRENTYWPILCLIQIS-DGK-----------EAAAIDPLA-KGIDLQPLLDLLVDNEEVLKIFHAGGQDVEIIHNL-TGKT-PHPIFDTQIAAMAIGQSEQIGYANLVDSWLGITLDKGARFTDWSRR-PLNERQIKYAIADVTHLADIFPRMLDKLRETGRGIWINAEMEKLADPNN----
A0A0C1KEU3/3-195           --------IEIHWIRDDQSLAEHCRDWHQLPFVAVDTEFMRVDTFYPKAGLIQIG-DGK-----------RAFLIDPLLIGN--WQPLAELLDD-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQEVLGIDLPKGETRSDWLQR-PLSETQVSYAAEDAVHLAELFTVLRPRLSDD-KYAWVLEDGAELVAALRREV-
R5ZRH9/1-189               -----------MYISTHQALFDFCQRAREFDAIAVDTEFLRERTFHPRLCLVQIA-TPA-----------ESVAVDPLVIDD--LSPLAELMGD-ESVTKVFHACSQDMEVMLHT-VGVL-PRPIFDTQVAAAFLGERQQISYGALVQTFCGVSLPKTESLTDWSRR-PLTDKQIEYAIDDVKYLIVAYTEMMSRLRELGRVDWVLDELRPLADESHY---
A0A0N7LSH3/1-197           ----------MKTLTTTEELAQFCNMARQEPYVTIDTEFLRERTYYSKLCLIQLA-IPG-------DTDDTAVLVDPLV-DGLSLEPLYELFRD-TSVVKVFHAARQDLEIFFVE-AGVF-PDPLFDTQVAAMVCGFGEQVGYETLVRKIAKQGLDKSSRFTDWSRR-PLTEAQKTYALADVTHLRKIYEFLAAKLAETGRAHWVQEELQMLTRPETYVI-
A0A0J1HI50/1-194           --------MNFEVITSATRLETVCLQARNQKAVMLDTEFVRTRTLYPKLGLVQLY-DGE-----------TLALIDPLEIDN--LEPLWELLRD-QSVTKVLHACGEDLEVFQYY-AGTM-PVPMIDTQVMAAFLGYGVSAGFGTLVKDFLGVELDKGEARTNWLAR-PLTDRQLDYAAADVYYLKPLFDKLLPLVEAKGWSEALEQECAAQVLKRMRTV-
A0A0G4Q194/1-194           --------MNYQLITTDTALETACKAASQASQIALDTEFVRIRTYYPHLGLIQMY-DGK-----------QISLIDPLAITN--WTPFVELLTA-PNIMKYLHAGSEDLEVFSHQ-FGCV-PKPMIDTQVVAAFLGYPISCGFATLVEKYEDIALDKSESRTDWLAR-PLTEKQCQYASGDVFYLLPLAKKLIAEAEEAGYMEAIVDECEMIAQRRQETV-
R9V5C1/3-195               --------IEIHWIRDDQSLAEHCRDWHQLPFVAVDTEFMRVDTFYPKAGLIQIG-DGQ-----------RAFLIDPLLIGN--WQPLADLLED-CGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAELFTVLRPRLSDD-KYAWVLEDGAELVAALRREV-
A0A1L7NI12/3-195           --------IEIHWIRDDQSLAEHCRDWHQLPFVAVDTEFMRVDTFYPKAGLIQIG-DGQ-----------RAFLIDPLLIGN--WQPLADLLED-CGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAELFTVLRPRLSDD-KYAWVLEDGAELVAALRREV-
A0A1H2KXA8/3-195           --------IDIHWIRDNDSLGRFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGK-----------RAYLIDPLTIDN--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TRSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQDVLGIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVFVQLRPKLSDE-KYAWVLEDGAELVANLRREV-
A0A0A4GMV8/3-195           --------IDIHWIRDNDSLGRFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGK-----------RAYLIDPLTIDN--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TRSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQDVLGIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVFVQLRPKLSDE-KYAWVLEDGAELVANLRREV-
A0A1B8S2N8/1-194           ----------MKTLTSTEELQAFCEAAAQHAYVTVDTEFLRERTYYSKLCLIQLA-FAG-------DGENDAVLVDPLA-DGISLEPLYELFRN-ENVVKVFHAARQDLEIFWVD-AQVF-PKPLFDTQVAAMVCGFGEQAGYETLVRKIVKQGLDKTSRFTDWSRR-PLSEAQKTYALADVTHLRKIYEFLAAELDKSGRAHWVTEELQVLTDPAT----
A0A0B4EHF9/1-194           ----------MKTLTSTEELQAFCEAAAQHAYVTVDTEFLRERTYYSKLCLIQLA-FAG-------DGENDAVLVDPLA-DGISLEPLYELFRN-ENVVKVFHAARQDLEIFWVD-AQVF-PKPLFDTQVAAMVCGFGEQAGYETLVRKIVKQGLDKTSRFTDWSRR-PLSEAQKTYALADVTHLRKIYEFLAAELDKSGRAHWVTEELQVLTDPAT----
M7CGZ8/1-194               --------MNYQLITSDTHLAAYCGQVTGKPYLALDTEFVRIRTYYPHLGLVQLY-DGE-----------HLALVDPLGITD--WTPLKTLLTA-PDMIKYLHAGSEDIEVFFNC-MGCV-PQPLVDTQVLAAFTGHPLSCGFATLVETYLGVALDKSESRTDWLAR-PLTEKQCEYAAADVYYLLPLAEKLTEKVRAAGYLASAEEECAMMAQRRITQT-
F4QQ82/1-187               ----------MTPITNTNDLIAFCEAIKSAPFITVDTEFMRETTYWPKLCLIQAA-SED-----------HAAIIDPLA-KSLDLKPFLDILAD-EKILKVFHACRQDMEIFVNL--GTM-PMPIFDTQVAAMAAGYGDQVAYDSLVRQKLKIDIDKGSRFTDWSRR-PLSDQQLQYALGDVTHLAKLYPKLRDRLAREGRLEWVSAEMVDLCAP------
A0A0I9NY97/1-194           --------MNYQMITTDDGLRAVCEAASAASAVALDTEFVRTRTYYPQLGLLQLF-DGT-----------QVSLIDPLTISD--WAPMRELLLN-QDVTKYLHAGSEDLEVFLNA-FSLM-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVALDKSESRTDWLAR-PLTERQCEYAAADVWYLLPIASQLMAETDRAGWLSAALDECRLMQQRRQEVV-
B8CNR7/2-194               --------LAFQYIDDDTSLAALVAQYREAKLLVIDTEFVRTRTYYARLGLIQAY-DGK-----------TLALIDPLAVTN--LSLFWALLTD-SSIIKLLHSCSEDLEVFAKN-GACQ-PNKLFDSQIAAGLCGMGYGLGYAKLVEQTLDITLDKGESRTDWLKR-PLSEAQLNYAANDVYYLYELYPQLVDKLESQGRLDWVYEDGERMTQGRLDA--
A0A1B9LI04/1-194           --------MSYQYITNNEQLADYCLKIGNSKAIALDTEFVRTRTFYPHLGLLQIF-DGH-----------FAALIDPLAITD--WRNFIAILEN-PTIEKYFHSCSEDIEVFQYF-FNYV-PNPVVDSQILASFLDNSISCGYASLVKKYLNVDLDKSETRTDWLKR-PLTDRQRQYAINDVLYLFPLIEKLKSQLTISNWLEAAYSECQLIVSRKCEVM-
A0A0A0SQ67/1-194           --------MNYQIITRPDQLEKVCEQARNADVVMLDTEFVRTRTYYPQLGLIQLF-DGE-----------TLSLIDPTVIDD--MTAFVHLLKD-TSVLKVLHACGEDLEVFNNS-FGCL-PYPMVDTQLMAAFLGHGLSTGFASLVESYLGVELDKSESRTDWLAR-PLTDKQLDYAAADVHYLLPLYEKLLEEITQAGWWEAAQQESDLLATKRIKSL-
D3VFD0/4-197               --------CNYQLVTTDAQLQSVCEQAKKHARIALDTEFVRTRTYYPQLGLIQLF-DGE-----------QLSLIDPLEISQ--WQPLKALLVD-PDVLKLIHAGSEDLEVFGNS-FQCL-PTPMIDTQVLAAFIGHPISCGFATLVAEYLHVELDKSESRTDWLAR-PLSRKQCEYAAADVYYLLPLADILLKKTEQAGYFDAAKDESDLIAQRRKEIV-
A5VZZ8/3-195               --------IEIHWIRDDQSLAEHCRDWHQLPFVAVDTEFMRVDTFYPKAGLIQIG-DGQ-----------RAFLIDPLLIGN--WQPLADLLED-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAELFTVLRPRLSDD-KYAWVLEDGAELVAALRREV-
A0A173HJ08/3-195           --------IEIHWIRDDQSLAEHCRDWHQLPFVAVDTEFMRVDTFYPKAGLIQIG-DGQ-----------RAFLIDPLLIGN--WQPLADLLED-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAELFTVLRPRLSDD-KYAWVLEDGAELVAALRREV-
U7QUX5/1-194               --------MNYQLITTDAQLQQVCERAKEYSKVALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLNITN--WQPFRELITH-PQILKLLHAGSEDLEVFLNA-FQCL-PEPMIDTQVLAAFIGHPLSCGFAALVAEYLQVELDKSESRTDWLAR-PLSEKQCEYAAADVYYLLPLADILMTATEQAGYMKAAMGECELISRRRKEIL-
A0A167PPB8/10-203          --------LNYQMITTNDELASLCEVTRDFPAIALDTEFVRTRTYYPQLGLIQMY-DGK-----------HVSLIDPLGITD--WTPMRDLLLD-TAVTKYLHAGSEDLEVFLNT-FGIM-PQPLIDTQILAAFSGRPLSWGFAAMVEEYTGLTLDKSESRTDWLAR-PLTARQLEYAAADVFYLLPIAGQLMKEAEASGWLSAALDECRMTQLRRQEVV-
A0A0N0KES1/4-194           ----------HPLITTTEALTDLCNRFAQGEFITVDTEFMRENTYWPELCLVQIA-DDK-----------EAAAIDPLA-PGMDLKPLLDLMCDNENVLKIFHAGGQDVEIIYNL-TGKT-PHPIFDTQIAMMAVSQSEQIGYSNLVESWLGLAIDKGARFTDWSRR-PLTERQIEYAIGDVTHLSKIFPKLLKRLIKTGRGAWLDIEMEKLADPAN----
B3H145/5-198               --------IHYHWIDTDEKLKTVCENACRKSAVALDTEFIRTRSYYPKLGLIQLF-DGD-----------TVSLIDPNSISD--FSPFIGLLTC-QNVVKVLHACSEDLEVFQHL-FKQL-PTPLADTQIMAGFAGGGISLGFAKLVAHYLNVELDKGASRTDWLAR-PLTEEQLQYAAADVWYLLPVYQRLVSDLDATRWQNAVEQECRYLLSKRESVA-
E0FFQ8/5-198               --------IHYHWIDTDEKLKTVCENACRKSAVALDTEFIRTRSYYPKLGLIQLF-DGD-----------TVSLIDPNSISD--FSPFIGLLTC-QNVVKVLHACSEDLEVFQHL-FKQL-PTPLADTQIMAGFAGGGISLGFAKLVAHYLNVELDKGASRTDWLAR-PLTEEQLQYAAADVWYLLPVYQRLVSDLDATRWQNAVEQECRYLLSKRESVA-
E0FLY6/5-198               --------IHYHWIDTDEKLKTVCENACRKSAVALDTEFIRTRSYYPKLGLIQLF-DGD-----------TVSLIDPNSISD--FSPFIGLLTC-QNVVKVLHACSEDLEVFQHL-FKQL-PTPLADTQIMAGFAGGGISLGFAKLVAHYLNVELDKGASRTDWLAR-PLTEEQLQYAAADVWYLLPVYQRLVSDLDATRWQNAVEQECRYLLSKRESVA-
E0EJE8/5-198               --------IHYHWIDTDEKLKTVCENACRKSAVALDTEFIRTRSYYPKLGLIQLF-DGD-----------TVSLIDPNSISD--FSPFIGLLTC-QNVVKVLHACSEDLEVFQHL-FKQL-PTPLADTQIMAGFAGGGISLGFAKLVAHYLNVELDKGASRTDWLAR-PLTEEQLQYAAADVWYLLPVYQRLVSDLDATRWQNAVEQECRYLLSKRESVA-
A0A1E5MWW6/10-203          --------LNYQMITTNDELASLCEVTRDFPAIALDTEFVRTRTYYPQLGLIQMY-DGK-----------NVSLIDPLGITD--WTPMRDLLLD-TAVTKYLHAGSEDLEVFLNT-FGIM-PQPLIDTQILAAFSGRPLSWGFAAMVEEYTGLTLDKSESRTDWLAR-PLTARQLEYAAADVFYLLPIAGQLMKEAEASGWLPAALDECRMTQQRRQEVV-
A0A0P7WWZ9/6-204           ---------SLPLITTTDALAAFCAQAAEAPYVTIDTEFLRERTYYAKLCVLQMA-LPGPDG----PTTGPAVLVDTLA-EGLDLAPFYALLRD-ERVVKVLHAARQDLEIFCIE-GDTL-PRPLFDTQVAAMVCGFGDQVGYETLARKLARANIDKSSRFTDWSRR-PLSDAQATYALADVTHLRVIYEKLEAMLQETARAPWLDEEIATLMDPETY---
A0A149Q5V6/12-200          ----------PRLISTTDDLATTLTRLRAEPYLTIDTEFMRERTYWPELCLVQIG-GVQ-----------EVVLIDTMA-DGLDLAPLAELMAD-ESVLKVFHAARQDLEIFLHL-FDAL-PTPLFDTQVAAMVAGYGDQVGYDSLVGSITGHAIDKSHRFTDWSVR-PLSAAQLTYAAGDVTWLRLVYERLVKKLEQEKRLDWVSAEMAVLTDPA-----
A0A068T4L3/1-186           ------------MIQTTAALEEACIQLAQSDFITIDTEFLRETTFWPELCLIQMA-SPT-----------VEVLVDPLA-KGLNLKPFFELMAN-PTVTKVFHAARQDIEIVYHL-GNLV-PHPIFDTQVAAMVCGFGDSVSYDQLVSRIKDVHIDKSSRFTDWSRR-PLSDKQLEYALADVTHLRDVYLFLKAQLEREGRALWLTEEMAVLESP------
A0A142LAI4/1-190           ----------MKVIKTTQELAEACAAIAQHEFVAVDTEFLRETTYWPMLCLIQAA-AGD-----------VEILIDPLL-EGLSLEPFLNLMAD-EKVLKVFHAPRQDLEIFYRLMAGRL-PSPVFDTQTAAMALGLGEQIAYDGLVMALLKRPVDKSHRFTDWSRR-PLSENQLAYALADVTHLRDLYPKMAAQLERKGRADWVSEEMKAFVDPA-----
A0A0K8N5Y6/12-201          -----------VIVTSSEEVARLCNKLKQEPFVTIDTEFVREKTYWPELCLVQLA-GAE-----------DVAVIDTLA-PGIDLAPLGELLDE-PGCIKVFHAARQDLEIFLHI-FNRL-PQSLFDTQVAAMVAGFGDQVGYDSLVGAITGQAIDKAHRFSDWSAR-PLTKAQIAYAAADVTHLRTVYLALRKQLEDEGRLRWADAEQAVLTSEETF---
A0A0T2QG23/4-194           ----------HPLITTTEELAELCTRLAKSNFVAVDTEFMRENTFYPLLCLVQIG-NEE-----------EAAAIDPLA-SGIDLSPLLELLTNNEDVLKVFHAGGQDVEIVYNL-TGRT-PHPIFDTQIAMMAVSQSEQIGYANLVESWIGKTIDKGARFTDWSRR-PLTERQIEYAIGDVTYLAKIFPKLLKKLIKTGRGEWLNAEMEKLADPDN----
A0A1B3ZBV5/4-192           ----------HPLITDSATLANLCTRLAEADFVCVDTEFMRENTFWPELCLIQIA-DEN-----------EAAAIDPMA-PGLDMQPLLDLMVNNPDVLKVFHAGGQDLEIVYNL-TGKT-PYPLFDTQVAAMALGQGEQIGYSNLVDAYLGISVDKGARFTDWSRR-PLDARQIEYAIGDVTHLAKIFPKMLARLRKTGRGAWLDQEMERIGDP------
R6I2Q3/3-195               --------LSMKVIDSTAALTEFCHSLQNREFITIDLEFLREKTYYAKLCLIQVG-AAD-----------DAAVIDPLA-EGLDLSPFVELLKN-PGITKVFHSGRQDIEILYML-TGFI-PEPLFDTQIAAMVCGYGDSVSYETLVKKICDVELDKSSRLSNWSIR-PLDKSQLCYALSDVTHLVNVYQALREQLKQNGRIHWLDEEAEILKNPETY---
W1KPU8/17-207              ----------HPLITDSKTLAQFCARIAKSPYIAVDTEFMRENSYWPDLCLVQVA-DEH-----------EAAAIDPKA-PGLDLSPLLDLMVDNEDVLKVFHAGGQDLEIIYNL-TGKT-PHPLFDTQIAAMALGLGEQIGYGNLVDAWLGVQLDKGARFTDWARR-PLDKRQIDYAIGDVTYLIQIFPKMLEELRRTGRGDWLDQEMERISDPSN----
T0HJK2/17-207              ----------HPLITDSKTLAQFCARIAKSPYIAVDTEFMRENSYWPDLCLVQVA-DEH-----------EAAAIDPKA-PGLDLSPLLDLMVDNEDVLKVFHAGGQDLEIIYNL-TGKT-PHPLFDTQIAAMALGLGEQIGYGNLVDAWLGVQLDKGARFTDWARR-PLDKRQIDYAIGDVTYLIQIFPKMLEELRRTGRGDWLDQEMERISDPSN----
U3H586/3-195               --------IDFHWIRDDAELASHCARWRNLSFVALDTEFMRVDTFYPKAGLVQVG-DGE-----------SAWLIDPLLIKD--WRPFAELLED-PAVTKVLHACSEDLEVFLRL-TGSL-PLPLLDTQLAAGYLGIGYSMGYSRLVQAVLGIDLPKDETRSDWLQR-PLTEMQERYAAEDAIHLAEIYRIIDERLDAT-KRAWVLEDGAELVANLRREV-
A0A077FLD3/1-190           ----------MTIITTTAELNNLCNLLNSQSFITIDTEFLRDKTYFPKLCLIQIG-LDN-----------HTVIIDALS-PHLDITPLFYIFNN-DNIIKVFHAATQDLEIIFRL-SGTI-PYPIFDTQTAAMFCGLGCSISYNNLSTQLIGVQIDKTYQFTDWSLR-PLSNAQITYALNDVHYLRDIYIKLRKKLLELNRLKWLEEEMLLIRNPTN----
A0A163VRR5/1-191           ----------MHVITKTKDLAAACQRLAANDYVTVDTEFLRETTFWPKLCVIQMA-GPE-----------LAFIVDALS-EGLDLEPFFELMRD-DSVTKVFHAARQDIEIVYHL-GGLI-PAPLFDTQVAAMVCGFGDSISYDQLVYKVTGAQIDKSSRFTDWARR-PLTTKQLDYALADVTHLRDAYQFLNANLAEQNRSHWVQDEMKVLTSVATY---
I9LGZ0/1-191               ----------MDLITTTAALHDVCTRLAEQPFVTVDTEFMRETTYYPKLCLIQIA-APD----------GTGVLVDPLA-TGIDLQPFIDLMAD-ERTVKVFHSARQDLEIIWLM-GGIL-PQPFFDTQVAAMVCGYGDSVSYEQLVNDVAKAKIDKSSRFTDWSRR-PLSEAQLSYALSDVTHLVKVYEVLVAELLRTDRGAWLDEEMAVLTSPET----
A0A0B2THI1/1-194           --------MNYQLITSDIGLQQVCSQARRFPRVALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLTITD--WAPFQALLRD-EQVTKFLHASSEDLEVFLNA-FGTL-PTPFIDTQILAAFLGKPLSYGFAALVADYLGVTLDKSESRTDWLAR-PLSEKQCDYAAADVFYLLPMAAQLVADTEAAGWMNAALDECLLLCQRKQDIL-
A0A191YYE2/3-195           --------IDIHWIRDNDSLGRFCTEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGV-----------RAYLIDPLTIDD--WQPLAALLEN-PAVVKVLHACSEDLEVLLRL-TGSL-PASLFDTQLAAAYLNLGFSMGYSRLVQEVLGIDLPKGETRSDWLQR-PLSETQISYAAEDALHLAEVFVQLRPKLSDD-KYAWVLEDGAELVANLRREI-
I2ND54/5-198               --------IHYLWVENEQQLAEVCQNARQVPAVALDTEFIRERTFYPKLGLIQLF-DGK-----------QVSLIDPTTIED--FSPFIALLAD-QNVIKVLHACSEDLEVFECS-FNQL-PTPLVDTQVMANFLNLGISVGFAKLVLHYLDIELDKGASRTDWLAR-PLSETQLQYATADVWYLLPIYQKMQTELAQTNWQNAVNEECSAFLTKRERED-
L4J7G7/1-190               ------------MITTDDALTSLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGISD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWIPAALDECRLMQMRRQEVV-
A0A0E3MPD8/3-195           --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGI-----------RAYLIDPLTIDN--WQPLAALLEN-SGVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAEVYIRLRPQLLDD-KYAWVLEDGAELVANLRREI-
A0A1C2HTY9/1-196           ----------MTTITTTEALAAFCEKAKSEAYVTVDTEFLRERTYWSKLCLVQLA-LPSHG-----AVEGDAVLVDPLV-KGLSLEPLYDLFRH-TGTVKVFHAARQDLEIFFTD-ANVF-PDPLFDTQIAAMVCGFGEQVGYETLVRKIAKESLDKSSRFTDWSRR-PLTPAQAKYAVADVTHLRVIYEYLAKQLAKSGREAWVREEERIMLDPET----
A0A149RD29/12-200          ----------PRLISTTDDLATTLTRLRAEPYLTIDTEFMRERTYWPELCLVQIG-GVQ-----------EVVLIDTMA-DGLDLAPLADLMAD-ESVLKVFHAARQDLEIFLHL-FDAL-PTPLFDTQVAAMVAGYGDQVGYDSLVGSITGHAIDKSHRFTDWSVR-PLSAAQLTYAAGDVTWLRLVYERLLKKLEQEKRLDWVSAEMAVLTDPA-----
I3BTN9/1-189               ---------MFEYIDNNQKLADLLARLDSAPWITLDTEFIREKTYYPRLCLVQIG-SAD-----------ILACIDPLQIDN--LQPLLDWLDE-PKRLKVFHAAWQDLEIFHHL-GGKV-PTPVFDTQVAAAVLGMGDQLGYARLVEQLSGVTLDKSQSRTDWARR-PLTNKQLEYAVDDVRYLRDAYLLLRQQLEQLGRLKWLEKPFQKLTDPA-----
A0A1G0JJ56/12-200          -----------VFVTDNSVLNDLCNQWQGLPVLALDTEFIRIDTFFPRLGLIQVC-DGS-----------ASYLLDPLTLTD--WHAFIALLRS-DSIVKVFHSCSEDLVVFNDF-FKEL-PRPLIDTQKAAAFLNFGYSISYQNLVKEILGIEISKGETRSDWLRR-PLSSDQLAYAALDVAYLPEIYTTLLDRLQEKQRDTWLVAECEQMLEQASL---
A0A1I5I3L4/1-191           ----------MHVITTQEELESVVAAFEKSEFVTVDTEFIRETTFWPILCLIQIA-APG-----------IEALIDPLS-PDIDLKPFFRLMAN-EAVLKVFHAARQDIEIIVHL-GNLV-PHPVFDTQVAAMVCGFGDSVSYDQLVQKVTGARLDKSSRFTDWRHR-PLSDKQLEYALADVTHLIEVYRHLSAELKREDRAHWLNEEMDVLTSRETY---
A0A0Q6AJJ0/4-193           ----------HPLIEDSATLATLCARLAQSDFVAVDTEFMRENSYWPELCLIQIA-NAE-----------EAAAIDPMA-PGIDLKPLLDLMTDNDEVLKVFHAGGQDIEIVYNL-TGKT-PFPMFDTQVAAMALGQGEQVGYSNLVDAYLGIVVDKGARFTDWSRR-PLDDRQIDYAIADVTHLSVIFPKMLAKLRRTGRGLWLDEEMERIGNPA-----
A0A0Q4LQE7/4-193           ----------HPLIEDSATLATLCARLAQSDFVAVDTEFMRENSYWPELCLIQIA-NAE-----------EAAAIDPMA-PGIDLKPLLDLMTDNDEVLKVFHAGGQDIEIVYNL-TGKT-PFPMFDTQVAAMALGQGEQVGYSNLVDAYLGIVVDKGARFTDWSRR-PLDDRQIDYAIADVTHLSVIFPKMLAKLRRTGRGLWLDEEMERIGNPA-----
A0A0H2Q9Q3/1-194           --------MNDQLITTHAALVDVCQQAKNAKWLVLDTEFIRTRTYYPQLGLLQLY-DGE-----------RVSLIDPLLIDD--LSPFKQLLQD-TNIVKFLHAGSEDLEVFLHD-FGCV-PDPLIDTQVLAAFIGHPISCGFAALVAEYLDVVLDKSESRTDWLAR-PLSEKQCEYAAADVLYLLPLAEKLMVQVTEAGYLESAKDECRRIVQRRQEIT-
A0A017HC43/1-199           ----------MQTITTTEDLAAFCERAATHPYVTVDTEFLRERTYYSKLCLIQLA-HPGPDGPD--GGEGSAVLVDPLV-EGLDLAPLYTLFRD-PGVVKVFHAARQDLEIFQVE-AGLI-PAPLFDTQVAAMVCGFGEQAGYETLVRKIARSEIDKSSRFTDWSRR-PLSEAQKTYALADVTHLRVIYEWLSAQLRKSGRARWVAEEMAVLNDPAT----
A0A191W2V0/1-194           --------MNYQIITQPNDLQRVCLAARDADVVMLDTEFVRVRTFYPQLGLIQLY-DGE-----------NLSLIDPLAFDD--MAPFVELLQD-TSVLKVLHACGEDLEVFHNA-FGCT-PFPMVDTQVMAAFLGHGLSTGFAALVNEFLGIEIDKSESRTDWLAR-PLSQKQLDYAAADVFYLLPIYEKLLDKVTQAGWWQAAQQESELLSVKRIKQT-
A0A1H6AW32/6-193           --------IEYRFIDSDSLLKERCTHWLTCSVIALDTEFIRVDTFYPKAALIQVQ-DNQ-----------GCWLIDPLTISD--WGPFKQVLNA-EQTLKVLHACSEDLDVFAKL-TGTL-PKPMMDTQVALAFLGETLSVGYQRMVESWLDISLQKEETRSDWLQR-PLTQSQCAYAAADVFYLYKIWPKIEQKLQEQNRFDWCRQECAQIIR-------
W6VQ63/3-194               --------IDIHWIRDNESLAQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQVG-DGK-----------RAYLIDPLTIDA--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSDTQISYAAEDAVHLAEVFVQLGPKLSDD-KFAWVLEDGAELVANLRRE--
A0A1H0F960/1-194           ----------MKTITTTEDLAAFCHAARAHDYVTIDTEFLRERTYYSKLCLIQLA-VPG-------EGEDSAVLVDPIG-GDLSLEPLYELFRD-TSVVKVFHAARQDLEIFYVD-AKVF-PEPLFDTQVAAMVCGFGEQVGYETLVRKIAREGLDKSSRFTDWSRR-PLSEAQKTYALADVTHLRKIYEYLAAELEKRGRAKWVAEELTLLTNPET----
A0A1L9L708/20-212          --------VNYQIITENQDLVRVCSKAREADVVMLDTEFVRTRTYYPQLGLIQLF-DGD-----------TLSLIDPTVLTD--MSAFTELLND-ASVMKVLHACGEDLEVFHNA-FGAI-PVPMVDTQIMAAFLGHGLSTGFAALVEQYLNVELDKSESRTDWLAR-PLSDKQLEYAAADVHYLLPLYEILLEKVMAAGWWQAAQQESELQASKRVKT--
A0A1L9KR14/20-212          --------VNYQIITENQDLVRVCSKAREADVVMLDTEFVRTRTYYPQLGLIQLF-DGD-----------TLSLIDPTVLTD--MSAFTELLND-ASVMKVLHACGEDLEVFHNA-FGAI-PVPMVDTQIMAAFLGHGLSTGFAALVEQYLNVELDKSESRTDWLAR-PLSDKQLEYAAADVHYLLPLYEILLEKVMAAGWWQAAQQESELQASKRVKT--
A0A1C3IU35/26-219          --------VDYQIITQVKDLERVCQQAREADVVMLDTEFVRTRTYYPQLGLIQLF-DGE-----------TLSLIDPIALDE--MTPFVGLLKD-TSVLKVLHACGEDLEVFQNA-FGCT-PTPMVDTQIMAAFLGHGLSTGFAALVSEFVGVDLDKSESRTDWLAR-PLSQKQLDYAAADVHYLMPMYNKLLEKVMEAGWWEAAQQESDLQVAKRIRKA-
A0A1C3IKF2/26-219          --------VDYQIITQVKDLERVCQQAREADVVMLDTEFVRTRTYYPQLGLIQLF-DGE-----------TLSLIDPIALDE--MTPFVGLLKD-TSVLKVLHACGEDLEVFQNA-FGCT-PTPMVDTQIMAAFLGHGLSTGFAALVSEFVGVDLDKSESRTDWLAR-PLSQKQLDYAAADVHYLMPMYNKLLEKVMEAGWWEAAQQESDLQVAKRIRKA-
W4HNI5/1-195               ----------MHTITTTEDLRAFCERAQGQPYVTVDTEFLRERTYYSKLCLIQLA-LPS-------RGEDDAVLVDPIEGAEMSLEPLMELFRD-TSVVKVFHAARQDLEIFYVD-HGVI-PDPLFDTQVAAMVCGFGEQVGYETLVKRIAKAQLDKSSRFTDWSRR-PLSDAQKTYALADVTHLRDIYEYLDRRLRDTGRHRWVVEEIETLTDPAT----
A0A0P1HR39/1-194           ----------MKTLTTTEELQAFCDAAAQHPYVTVDTEFLRERTYYSKLCLIQLA-FAG-------DGENDAVLVDPLA-EGISLEPLYALFRD-ENVVKVFHAARQDLEIFWVD-ASVF-PKPLFDTQVAAMVCGFGEQAGYETLVRKIVKQGLDKTSRFTDWSRR-PLSEAQKTYALADVTHLRKIYEFLAAELEKSGRSHWVAEELQVLTDPAT----
A0A0T7FSF4/1-186           ------------MIQTTAALEEACIQLAQSDFITIDTEFLRETTFWPELCLIQMA-SPT-----------VEVLVDPLA-KGLSLKPFFELMAN-PAVTKVFHAARQDIEIIYHL-GNLV-PHPIFDTQVAAMVCGFGDSVSYDQLVSRIKDVHIDKSSRFTDWSRR-PLSDKQLEYALADVTHLRDVYLFLKAQLEREGRALWLTEEMAVLESP------
L2V217/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
S1F6Z4/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
W1B6I3/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
E9YCR2/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
U9ZJJ1/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
M9FHZ9/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A167EU32/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
S1I6Y3/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
T9HAG8/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
V2R241/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A140NAY0/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A142H3P5/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
C0B312/1-194               --------MNYQLITTDTALDTACKAASEASQIALDTEFVRIRTYYPHLGLIQMY-DGK-----------QISLIDPLAIKD--WTPFVELLTN-QGIMKFLHAGSEDLEVFSHQ-FGCV-PTPMIDTQVVAAFLGHPISCGFATLVEKYENVALDKSESRTDWLAR-PLTEKQCQYASGDVFYLLPLAEKLIKEAEEAGYMDAIADECEMIAERRQETV-
A0A1B8RGD0/1-190           ------------MIETTADLAAACKELAKSDFITIDTEFLRETTFWPELCLIQMA-SPT-----------TEVLVDPLA-KGIDLAPFFELMAD-PKVLKVFHAARQDIEIIFNR-GNLI-PHPIFDTQVAAMVCGFGDSVSYDQLVSRIKNVHIDKSSSFTDWSRR-PLSDKQLDYALADVTHLRDVYLSLKAELDREGRTSWLSEEMDILESRETYD--
W0Q835/5-198               --------ICYNWIDTNEQLAAVCEEAKKANAIALDTEFIRTRTYYPKLGLVQLY-DGK-----------QVSLIDPTAISD--FSPFVSLLAD-KSTIKVLHACSEDLEVFEHQ-FKQL-PEPMLDTQVMAGFAGVGISMGFAKLVSHYLEVELDKGASRTDWLAR-PLTEQQLQYAAADVWYLLPIYEKLAEALAKGNWQNAVKEECEAISAKIQRVE-
A0A0N0L623/3-195           --------IDIHWIRDNDSLGQFCAEWQQLPYVALDTEFMRVDTFYPIAGLLQIG-DGV-----------RAYLIDPLTIDN--WQPLSALLEN-PAVVKVVHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIDLPKGETRSDWLQR-PLSDTQISYAAEDALHLAEVFVQLRPKLSDD-KYDWVLEDGAELVANLRREV-
A9D4E8/1-192               ----------MDMITTTEALAAFCARLAAHEFVTVDTEFLRETTYWPELCLIQMA-GPD-----------DEGIVDPLA-EGIDLKPFFELMAD-TSVVKVFHAARQDIEIMVHR-GDLV-PHPIFDTQVAAMVCGFGESISYDQLVSRITGAHIDKSSRFTDWSRR-PLSDKQLDYALADVTHLRDVYLELLSRLKAEGRSHWVADEMAVLESRATYE--
J3AMS2/4-195               ----------HPLITKTEDLADLCGRLSKSDFVSVDTEFMRENTYWPELCLVQIA-NTE-----------EAAAIDPLA-PGLDLKPLWDLLTDNEDVLKVFHAGGQDVEIVFNF-TGRT-PHPIFDTQIAMMAISQSEQIGYSNLVESWQGLTIDKGARFTDWSRR-PLTDRQIEYAIGDVTHLSKIFPKMLKRLIKTGRGEWLDQEMEKLADPEHY---
A0A143HND0/8-197           ----------PIWIDSGEQLAELCQRWRRQQALALDTEFMRSRTFYPRPALVQVG-DGE-----------RCYLIDNLAIDN--LDPLRELLLD-TRVTKIMHSCSEDLETLERL-LGAI-PEPVFDTQIAAALTGMGAGLGYAAAVKELLNIELPKSETRSDWLQR-PLSEAQKKYAALDVAWLPLMYGVLIKRLRERGRLEWLQEDCAALVSAARN---
A0A081MEK3/1-187           ------------MIETTAALEDACRALAQSDFITIDTEFLRETTFWPQLCLIQMA-SPT-----------VEVLVDPLA-KGLDLSPFFALMAD-PKVIKVFHAARQDIEIIHHL-GGLV-PHPIFDTQVAAMVCGFGDSVSYDQLVQRISGAQIDKSSRFTDWSRR-PLSDKQLEYAMADVTHLRDVYLSLKEQLEREGRASWLTEEMAILESPG-----
A0A0J6I3P9/3-195           --------IDIHWIRDNDSLGQHCAEWQKLPFVALDTEFMRVDTFYPIAGLIQIG-DGT-----------RAYLIDPLTIDN--WQPLADLLED-TSVVKVLHACSEDLEVLLRL-TSSL-PVPLFDTQLAAAYLNLGFSMGYSRLVKEVLDIDLPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVYKLLHPRLSAE-KYSWVLEDGAELVANLRREV-
A0A1F3AIP2/1-189           ----------MRIITTTDDLARFSAELKERPHFAVDTEFMREKTYWPILCLIQAA-AEG-----------TEAIIDPMA-PGIDLSPFLDALRD-RSTTKVFHAARQDVEIFFQL-TGEA-PAPLFDTQIAAMACGFGDQIGYEPLMRSLLNASIDKGSRFTDWSRR-PLSAAQLQYALSDVTHLRDAYLLLRDRLEEEARLSWVEAEMEALRDPA-----
A0A0A5I8A1/1-194           --------MNYQIITQSEQLDAVCLSARETDVVMLDTEFVRTRTYYPQLGLIQLY-DGE-----------TLSLIDPTVIED--MTSFVALLKD-TSVLKVLHACGEDLEVFQNS-FGCL-PYPMVDTQLMAAFLGHGLSTGFAALVNEYLGVELDKSESRTDWLAR-PLSDKQLDYAAADVYYLQPLYEQLFEKITQAGWWEAAQQESDLIASKRVKTV-
A0A1H1LLV4/1-189           -----------MYISDSKELAAFCERAASSRVLAVDTEFLREKTFYPKLCLIQVA-TEE-----------ESAAVDPILIRN--LSSLRALFED-EKITKVFHACTQDLEVILEE-MGCI-PTPVFDTQVAAAFLGYRQQIGYGALVEACCGVRLPKAESLTDWSRR-PLDPEQLQYAEDDVRYLPGIYRQMTEELTRRGRISWIAPEMAEVTSREHF---
E6VEE1/1-190               ----------MDLISTSEQLADACARLARHPVITVDTEFLRETTFYPLLCVVQMA-SAE-----------DALVIDALA-DGIDLKPFFDLMAN-EQVLKVFHAARQDIEIVWHR-AGIV-PHPIFDTQVAAMVLGYGDSIAYDQLVERITGHRPDKTHRFTDWSRR-PLTQEQVHYAVSDVTHLRDVFAALDADLKKRGRSDWVSEEMEVLTSPST----
A0A086YAW8/9-202           ---------TVKTLTTSEELAAFCDRAKGQPYIAIDTEFLRERTYYSKLCLVQLA-LPG--------KTGEAVLVDPIA-GEVSMEPLYELFRD-ESIIKVFHAARQDLEIFFVQ-GNVL-PKPLFDTQVAAMVCGFGEQVAYETLVRKIAHESLDKTSRFTDWSRR-PLTPAQKTYAIADVTHLRVIYEVLARQLAETGRQKWVEEEIAVLLDPET----
A0A085EQZ1/1-190           ----------MSLITTTQDLAEACARLAQHPFVTVDTEFLRETTYYPKLCLIQLA-SPD-----------EAVLVDPLA-PELDLAPFLALMAD-QNVVKVFHAARQDLEIIWII-GKLL-PTPLFDTQVAAMVCGYGDSVGYEQLANDLAKARIDKSSRFTDWSRR-PLTEAQLTYAESDVTYLRDIYLALAADLAASGRQGWVAEEMAILNSPAT----
A0A0P1IUB1/25-219          ----------MKTLTTTEELAQFCKEARQHPYVTIDTEFLRERTYYSKLCLVQLA-YPG-------EGDENAVLVDPLV-DGLSLEPLYELFRD-TNVVKVFHAARQDLEIFFIE-AGVF-PDPLFDTQVAAMVCGFGEQVGYETLVRKIARQGLDKSSRFTDWSRR-PLTDAQKKYALGDVTHLRKIYEFLAEKLEETGRARWVKEELTVLTSPETY---
A0A137XZF5/3-194           --------IETQWVVDDAHLARLCAEWRQLPFVAVDTEFMRVDTFYPIAGLVQVG-DGR-----------RAYLIDPLAVRD--WRPFATLLDD-AAVVKVLHACSEDLEVLLRL-TGSL-PQPLFDTQLAAGYLNIGFSMGYSRLVQAVLGIELPKGETRSDWLQR-PLSEMQVRYAAEDAQHLAELYEALLPKLSDE-KRAWVLEDGAELVANLQRE--
A0A179SDV7/1-190           ----------MKLITSTEELASACARFATQPFVTVDTEFMRETTYYPKLCLIQIA-APD----------GSTALVDPLA-PDIDLAPFFALMGD-EGVLKVFHSARQDLEIIWLL-GGLL-PQPFFDTQVAAMVCGYGDSVSYEQLVNDVAKAKIDKSSRFTDWSRR-PLSDAQLSYALSDVTHLVKVYEVLARELIATDRGAWLDEEMGVLTSPD-----
A0A1B9L6P5/1-194           --------MSYQLIVTNDQLADYCSKIENSSAIALDTEFVRTRTFYPHLGLLQVF-DGK-----------CAALIDPINITD--WQPFLVMLND-PKIEKYFHSCSEDIEVFLHH-FGIV-PTPIIDSQILASFLDNPLSSGYASLVKKYLEVELDKSETRTDWLKR-PLTEKQCNYAINDVLYLFPLINILKEKLTTNHYLQAAYQECQMAVDRKCEIM-
A0A1K1P3B0/3-195           --------IDIHWIRDNDSLGQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGK-----------RAYLIDPLTIDN--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVFVLLRPKLSDE-KYRWVLEDGAELVANLRREV-
A0A142M9H1/1-191           ----------MHVITTQDELETVIAALEKSNFVTVDTEFIRETTFWPELCLIQMA-APG-----------VSALVDPLA-PDLDLKPFFRLMAN-EAVTKVFHAARQDIEIIFHL-GALI-PHPVFDTQVAAMVCGFGDSVSYEQIVQKITGGRIDKSSRFTDWRHR-PLSEKQLDYALADVTHLIDVYKHLVTELERENRAHWLNEEMEVLTSRETY---
A0A1N6M721/1-190           ------------MITSSDELEAVCRKALQCPVVMLDTEFVRTRTFHAQLGLIQLY-DGE-----------SVALIDPTTIED--MTSFVNLLKA-PQVLKVLHAAGEDLEVFYHQ-FECA-PAPFVDTQILAAFIGYGLSTGFAALVADFTAVELDKSESRTDWMAR-PLSQKQLDYAAADVFYLMPVYRQLFEKIQQKGWWDAALEESRLQVEKRTRNY-
A0A161Q2W0/1-189           ------------MITDTQSLRQLVDELKAEPFVTVDTEFMREKTYWPKLCLVQLA-GAQ-----------RAAAVDPLA-DGIDLAPLGELLAD-PSVLKVFHAARQDVEIFLLL-FGNV-PRPMFDTQVAAMVCGFGESVGYETLVNKLAKASIDKSSRFTDWSRR-PLTPKQIAYALADVTHLRTVYLKLAKLLEDSGREEWLDEEMATLNAPETY---
A6VND0/10-201              ---------QFNLITTNSGLKTVCEQAQQKSAVALDTEFIRIRSYYPKLGLIQLY-DGE-----------RVSLIDPTTITD--FSPFTALLAD-INVIKVLHACYEDLEVFSHY-FQQL-PEPIMDTQVMAGFLAFPHSTGLASLIRHYLALEIDKGASRTDWLAR-PLSEKQLQYAAADVWYLLPLYEKMAVELAKTRWQSAVEFDCGLLLEKQRCV--
L0GQB9/3-194               --------IETQWVLDDEHLTHLCAEWRQLPYVAVDTEFMRVDTFYPIAGLVQVG-DGR-----------RAYLIDPLAVHD--WSAFAAVLQD-NAVVKVLHACSEDLEVLLRL-TGSL-PQPLFDTQLAAGYLNIGFSMGYSRLVQAVLGIELPKGETRSDWLQR-PLSDMQVQYAAEDAQHLAELYEALLPKLSED-KRAWVLEDGAELVANLQRE--
A0A0Q4DJA9/4-192           ----------HPLIEDSATLAALCTRLATSDFVAVDTEFMRENSYWPELCLIQIA-NTE-----------EAAAIDPMA-PGIDLTPLLNLLTDNEDVLKVFHAGGQDIEIVYNL-TGKT-PFPMFDTQVAAMALGQGEQVGYSNLVDAYLGITVDKGARFTDWSRR-PLDDRQIDYAIADVTHLSVIFPKMLTKLRKTGRGLWLDEEMERIGDP------
C6XKM8/8-198               ---------ELKLVADTDELIKACEELKKGEFIAVDTEFHRESTFWPKLCLIQAA-TLE-----------FDCLIDPLS-PNIDLAPFLDLMAD-TSRVKVFHAARQDMEIFTKL-IGTP-PAPIFDSQVAAMACGLGDSVSYENLVSQLLKARVDKSSQFTDWQRR-PLTEKQLDYARGDVTHLRHCYVKLKAKLEKLGRMGWIEEETEILVNPDT----
A0A085VIH5/3-195           --------IDIHWIRDDDSLALHCAQWQSLPFVALDTEFMRVDTFYPIAALLQIG-DGS-----------KAWLIDPLLIKD--WRPLSALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNIGFSMGYSRLVQEVLSIDLPKGETRSDWLQR-PLSETQISYAAEDAVHLAELYSILRPRLSEE-KYAWLLEDGAELVANLRREV-
A0A068SQD2/1-186           ------------MIQTTAALEEACIQLAQSDFITIDTEFLRETTFWPELCLIQMA-SPT-----------VEVLVDPLA-KGLDLKPFFELMAN-PAVTKVFHAARQDIEIVYHL-GNLV-PHPIFDTQVAAMVCGFGDSVSYDQLVNRIKGENLDKSSRFTDWSRR-PLSDKQLEYALADVTHLRDVYLFLKAQLEREGRALWLTEEMAVLESP------
A0A1I4DEQ0/1-192           ----------MHLIKTQNELDSVVRELAKSEFITVDTEFIRETTFWPELCLIQMA-APG-----------ITALVDPLA-PDIDLQPFFYLMAN-EAVTKVFHAARQDIEIIFHR-GGLI-PHPVFDTQVAAMVCGFGDSVSYDQLVQKITGVRLDKSSRFTDWRHR-PLSDKQLEYAVADVTHLIDVYVHLKAELERENRAHWLNEEMEVLTSRQTYD--
A0A1H9UTR0/1-192           ----------MDIIDTTAALQAACDTLATAPYLTIDTEFLRETTFWPQLCLIQMA-GPD-----------IAVIVDPLA-KGLDLAPFFALMAN-ADIIKVFHAARQDIEIIFHL-GGLI-PHPIFDTQVAAMVCGFGDSVSYDQLVSRIKGEHIDKSSRFTDWSRR-PLTDKQLDYALADVTHLRDVYHHLKAELEREGRSLWLTEEMAVLESRETYD--
A0A0W0PMD2/3-194           --------IDIHWIRDDDSLARHCAQWQSLPFVALDTEFMRVDTFYPIAALLQIG-DGQ-----------SAWLIDPLLINN--WAPLSALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLNIDLPKGETRSDWLQR-PLSDTQISYAAEDAVHLAELFAILRPRLSDD-KYAWLLDDGAELVANLRRE--
Q0BVP4/12-201              ----------PTLITKSEDLAALCTTLRREPYVTIDTEFMRERTYWPELCVVQLG-GAD-----------CVAVIDTLA-PELDLAPVGELLAD-PAVIKVFHACRQDIEIFLLR-FGSI-PQPMFDTQVAAMVAGFGDQVGYDTLVSSLTGGHIDKAHRFSDWSRR-PLSQAQIDYAAADVTHLRGVYETLRDRLEKEGRLAWVSEEMAVLNDPAT----
A0A063X820/12-201          ----------ARLISSTQELEAALAPFHNESFVTVDTEFMREQTYWPELCLVQVG-ATD-----------DIVLIDALA-EGIDLTPLKNLFAD-TAVLKVFHAARQDLEIFLHL-FDAL-PTPLFDTQVAAMVAGFGDQVGYDSLVGSLTGHMIDKSHRFTDWSVR-PLSPAQLTYAAGDVTWLRLVYERLVKKLEQEKRLDWVAAEMAELENPAT----
A0A1J5L7Q3/1-194           ----------MRTLTTTDELRAFCEEAANHAYVTLDTEFLRERTYYSKLCLLQMA-FPG-------SGDENAVLVDPLC-AELSLEPLYDLFRN-EQVVKVFHAARQDLEIFWVD-AGVF-PTPLFDTQVAAMVCGFGEQVGYETLVRKICKQGLDKTSRFTDWSRR-PLSEAQKTYALADVTHLRQIYEHLNRELEKTGRSHWVAEELKVLTDPAT----
W0DK10/3-193               ---------DHGLITTDTALRALLDAIAGSHWVAMDTEFIREKTYFPKLCLIQLA-TPD-----------HIACVDPLALGG--IGALDELLQD-SSVLKVFHAASQDLEVLYLV-TGKV-PSPVFDTQVAASLLGHGEQVGYANLVEAVLHRELDKTQSRTDWARR-PLQPAQLEYARDDVRFLTELFLQLQKELEALGRLDWLQPEMEALTRPEQY---
X5ZF70/1-191               ----------MHVITTQNELESVLAAFEKSDFVTVDTEFIRETTFWPILCLIQMA-APG-----------VTALIDPLA-PDINLAPFFRLMAN-EAVVKVFHAARQDIEIIVHL-GDLV-PHPVFDTQVAAMVCGFGDSVSYDQLVQRITGARLDKSSRFTDWRHR-PLSDKQLDYALADVTHLIDVYKHLSAELERENRAHWLNEEMEVLTSRETY---
A0A066UKW3/1-194           --------MNYQIITQLKDLERVCQQAREADVVMLDTEFVRTRTYYPQLGLIQLF-DGE-----------TLSLIDPIALDE--MTPFVSLLKD-ASVLKVLHACGEDLEVFQNA-FGCT-PTPMVDTQIMAAFLGHGLSTGFAALVSEFVGIDLDKSESRTDWLAR-PLSQKQLDYAAADVYYLLPMYNKLLEKVMEAGWWDAAQQESDLQVSKRIRSI-
E8THH7/1-191               ----------MHVITTQKELETVLAAFEKSDFVTVDTEFIRETTFWPILCLIQMA-APG-----------VTALIDPLA-PDIDLKPFFRLMAN-EAVVKVFHAARQDIEIIVHL-GDLV-PHPVFDTQVAAMVCGFGDSVSYDQLVQRITGARLDKSSRFTDWRHR-PLSDKQLDYALADVTHLIEVYQHLSAELERENRAHWLNEEMEVLTSRETY---
A0A0Q4PFM6/1-191           ----------MDLIVSTEALSAFCERAAQFDFVTVDTEFLRETTYWPRLCLIQAA-TDE-----------EAVLIDPLA-DGLGLKPFFALLAN-PAVTKVFHAARQDIEIFVKL-TGAV-PHNIFDTQIAASVCGFGDSASYDSLVRAICKVELDKSSRFTDWSAR-PLSEKQRLYALADVTYLRDIYRELRKQVEQTRRWDWVEDELTTLRSIDTY---
A0A098S079/1-190           ------------MIETTAALAEACTELAKSEFITIDTEFLRETTFWPELCLVQMA-SPT-----------LEVLVDPLA-KGLDLTPLFELMAN-PDVVKVFHAARQDIEIIYHL-GGLI-PHPIFDTQVAAMVCGFGDSISYDQLVQKIKNVQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDVYLSLKAQLEREGRSLWLTEEMDILESRDTYD--
A0A1L9CHG3/1-190           ------------MIETTAALAEACTELAKSEFITIDTEFLRETTFWPELCLVQMA-SPT-----------LEVLVDPLA-KGLDLTPLFELMAN-PDVVKVFHAARQDIEIIYHL-GGLI-PHPIFDTQVAAMVCGFGDSISYDQLVQKIKNVQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDVYLSLKAQLEREGRSLWLTEEMDILESRDTYD--
J2SPN5/3-195               --------IDIHWIRDNDSLGRLCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVVKVVHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIDLPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVFVKLRPKLSAE-KYAWVLEDGAELVANLRREI-
S4YPM5/18-211              --------LNYQLITTDAGLQQVCEQARNHAQIALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLPIKQ--WQPFIDLLSD-TQIVKFLHAGSEDLEVFLNA-FKTL-PTPMVDTQILAAFTGRPLSCGFATLVTEYMQVDLDKSESRTDWLAR-PLTEKQCVYAAADVFYLLPMAKQLVQETEDAGWTAAAANECLLLCQRRSESL-
Q0BZZ0/1-195               -----MTDNTLTPITEQSALEDLCGALSESDFVCVDTEFHRETTYWPELCLIQAS-APG-----------VEGLIDPRA-EDLDIRPFLDLIAS-DRQLKVFHAARQDIEIFNRL-IGHP-PGPIFDTQVAAMALGFGDSISYDNLIQRVLRKHIDKSSQFTDWMRR-PLSQKQLVYALGDVTHLRDAYLKMRDELEKAGRMNWVREEMAELEDPAT----
A0A059FBC6/1-195           -----MTDNTLTPITEQSALEDLCGALSESDFVCVDTEFHRETTYWPELCLIQAS-APG-----------VEGLIDPRA-EDLDIRPFLDLIAS-DRQLKVFHAARQDIEIFNRL-IGHP-PGPIFDTQVAAMALGFGDSISYDNLIQRVLRKHIDKSSQFTDWMRR-PLSQKQLVYALGDVTHLRDAYLKMRDELEKAGRMNWVREEMAELEDPAT----
A0A1B3P3I2/1-190           ------------MIDTTAALEEACRLLAQSDFITIDTEFLRETTFWPELCLIQMA-SPD-----------HEYIVDPMA-KGIDLKPFFELMAN-SAVVKVFHAARQDIEIIFHL-GDLI-PHPIFDTQVAAMVCGFGDSVSYDQLVQKVKNVHIDKTSRFTDWSRR-PLSEKQLDYALADVTHLRDVYLKLKGQLEAEGRAEWLTEEMAILESRETYD--
A0A0N0JJ37/1-190           ------------MIDTTAALEEACRLLAQSDFITIDTEFLRETTFWPELCLIQMA-SPD-----------HEYIVDPMA-KGIDLKPFFELMAN-SAVVKVFHAARQDIEIIFHL-GDLI-PHPIFDTQVAAMVCGFGDSVSYDQLVQKVKNVHIDKTSRFTDWSRR-PLSEKQLDYALADVTHLRDVYLKLKGQLEAEGRAEWLTEEMAILESRETYD--
A0A1D2TXG1/4-195           ----------HPLITDSKTLSDFCARIAKSPYVAIDTEFMRENSYWPELCLIQVA-DAD-----------EAAAIDPKA-PGIDLKPLLDLMVDNEDVLKIFHAGGQDIEIVYNL-TGKT-PHPMFDTQIAAMALGLGEQIGYGNLVEAWLGVQLDKGARFTDWARR-PLDKRQIDYAIGDVTYLIQIFPKMLEELRKTGRGDWLDQEMERISNPSHY---
A0A067W452/1-191           ----------MKLITQTTDLEIALTTLRNSDFVTVDTEFIRETTFWPQLCLIQLA-SPG-----------ATVLIDPIS-QDIDLKPFFDLMAD-KKIVKVFHAARQDIETIYHL-GGVI-PFPLFDTQIAGSICGFGDSISYDQIVQRCTGNQLDKSSRFTDWSCR-PLSEKQLLYALADVTYLRDVYLLLKKQLEKNKRTHWMDDEIAILLTPKTY---
A0A0R3AT37/3-195           --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIDLPKGETRSDWLQR-PLSETQVSYAAEDAVHLAEVFIRLRPRLSDD-KYAWVLEDGAELVANLRREV-
U4SKC4/5-198               --------IEYQWVDDNPSLAQMCLQVAEQSVIALDTEFVRTRTYYPKLGLIQLF-DGK-----------QVYLIDPLSITD--FSPFTVLLAN-ENVLKVLHACSEDLEVFQHY-FKQL-PQPMLDTQVMAGFVGIGISIGFAKLALHYLEVELDKGASRTDWLSR-PLSEIQLQYACADVWYLLPIYHKLAEDLAKTPWQTAVVEECATLLAKRQIVE-
A0A0S8ZBD0/3-194           --------IDIHWIRDNDSLGRLCTEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVVKVVHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIDLPKGETRSDWLQR-PLSDTQISYAAEDALHLAEVFVQLRPKLSDD-KYAWVLEDGAELVANLRRE--
A6X201/1-192               ----------MHLITTTQALEEAVSALAKSDFVTVDTEFIRETTFWPELCLIQMA-SPD-----------HTALVDALA-PGLDLAPFFRLMAD-ETIVKVFHAARQDIEIVFHL-GDLI-PSPVFDSQVAAMVCGFGDAISYDQLVQKVTGKQIDKSSRFTDWRRR-PLSDKQLDYALADVTYLRDIYLYLKEELEKEGRSEWVNEEMAVLTSRETYD--
A0A011SUR8/1-192           ----------MHLITTTQALEEAVSALAKSDFVTVDTEFIRETTFWPELCLIQMA-SPD-----------HTALVDALA-PGLDLAPFFRLMAD-ETIVKVFHAARQDIEIVFHL-GDLI-PSPVFDSQVAAMVCGFGDAISYDQLVQKVTGKQIDKSSRFTDWRRR-PLSDKQLDYALADVTYLRDIYLYLKEELEKEGRSEWVNEEMAVLTSRETYD--
A0A1E5WTC3/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVI-
A0A1C0XU15/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0F2P559/1-185           ------------MVDSDSALAECCATCAKAGRIAFDTEFIRTDTFYPKLGLIQIC-DGD-----------SVWLVDPLAIAD--FAPLVDLLVN-EQVVKVFHSCSEDLEVLQSA-FGVL-PTPLFDTQIAAAFAGEGFSRGYGRLVEQVLGIALDKHETRSDWLQR-PLTPSQCLYAAEDVIYLVRVYDHLLAELSPE-RLAWIREDMADLLDSA-----
A0A1C5TWM7/1-191           -----------MYISTEADLAAFCDRAAAFDAVAVDTEFLRERTYHPRLCLVQVA-TPE-----------ESVAIDPIALDD--LAPLADLLAN-ERVIKVFHACPQDMEVLLQS-LGVL-PAPIFDTQVAAAFLGERLQTSYNGLVHAFLGISLPKSESLTDWSRR-PLTEKQLEYALDDVRYLIQAYHVMVERLQRLGRLSWVLDEIRPLAERAHYEV-
A0A0L6K9Q1/1-190           ------------MIETTAALAEACTELAKSEFITIDTEFLRETTFWPELCLVQMA-SPT-----------LEVLVDPLA-KGLDLTPLFELMAN-PAVVKVFHAARQDIEIIYHL-GGLI-PHPIFDTQVAAMVCGFGDSISYDQLVQKIKNVQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDVYLSLKAQLEREGRSLWLTEEMDILESRDTYD--
A0A0Q8FSB2/1-190           ------------MIETTAALAEACTELAKSEFITIDTEFLRETTFWPELCLVQMA-SPT-----------LEVLVDPLA-KGLDLTPLFELMAN-PAVVKVFHAARQDIEIIYHL-GGLI-PHPIFDTQVAAMVCGFGDSISYDQLVQKIKNVQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDVYLSLKAQLEREGRSLWLTEEMDILESRDTYD--
A0A0U1I028/23-216          --------LNYQLITTNDALQQVCEQARKHAHVALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLPITE--WQPFRELLQD-LNVVKYLHAGSEDLEVFLNA-FDRM-PTPMIDTQVLAAFSGRSLSCGFAMLVNEFEGVELDKSESRTDWIAR-PLSEKQCDYAAADVFYLLPLATKLVEATEAAGRMDAAKDECELLCRRRSETL-
A0A1B9L381/1-194           --------MSYQLIISNDQLADYCSKIENSSALALDTEFVRTRTFYPHLGLLQVF-NGE-----------HAALIDPINITD--WQAFLAILNN-PTIEKYFHSCSEDIEVFSYH-FGCV-PTPIVDSQILASFLDNPLSSGYASLVKKYLEVELDKSETRTDWLKR-PLTEKQCKYAINDVLYLFPLINILKSKLNTNHYLQAAYQECQMAVARKSELM-
A0A177JL07/3-195           --------IEIHWIRDDLSLAEHCRDWHQLPFVAVDTEFMRVDTFYPKAGLIQIG-DGQ-----------RAYLIDPLLIGN--WQPLADLLED-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSDTQVSYAAEDAVHLAELFTVLRPRLSDD-KYAWVLEDGAELVAALRREV-
A0A0P7C2X5/3-195           --------IEIHWIRDDLSLAEHCRDWHQLPFVAVDTEFMRVDTFYPKAGLIQIG-DGQ-----------RAYLIDPLLIGN--WQPLADLLED-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSDTQVSYAAEDAVHLAELFTVLRPRLSDD-KYAWVLEDGAELVAALRREV-
A0A031JJW9/4-194           ----------HPLITDSKTLAQFCARIAKSPYIAVDTEFMRENSYWPDLCLVQVA-DGN-----------EAAAIDPKA-PGLDLSPLLDLLVDNEDVLKVFHAGGQDLEIIYNL-TGKT-PHPLFDTQIAAMALGLGEQIGYGNLVDAWLGVQLDKGARFTDWGRR-PLDKRQIDYAIGDVTYLIQIFPKMLEELKRTGRGDWLDQEMERISDPAN----
A0A1E3VM60/1-190           ----------MNLITTTEDLEAACADLAKAPFVTVDTEFMREQTFWPRLCLIQIA-GGD-----------TEVLIDNLA-PGIDLKPFFDLMVD-ENVLKVFHSARQDIEIVHHM-AGVV-PHPIFDTQVAAMVCGFGEAVSYAMLVKRLLGRNLDKSSRFTDWSRR-PLSERQLTYALGDVTHLRDLYPKLQAQLDKSERASWLIEEMAVLTDPAT----
A0A1H0SIR2/1-191           ----------MDLITTTADLAVACTRLAQHKVITVDTEFLRETTYYPLLCVVQMA-SAD-----------EAVVVDTLA-ADIDLKPFFELMGN-EAVLKVFHAARQDIEIVWHQ-SGTI-PHPIFDTQVAAMVLGYGDSIAYDQLVERITGHRPDKTHRFTDWSRR-PLTDDQMHYAISDVTHLRDVFAALDADLKKRGRSDWVSEEMEVLTSPKTY---
F2BYP8/29-221              ---------HFRVISDNAALLEICNLAQMKSAVALDTEFMRVSTYFPKLGLIQLY-DGE-----------RVSLIDPLAITD--FSPFVALLSN-PKVLKILHSCSEDLLVFLQE-FDQL-PRPMIDTQIMARFLGLGTSAGLAKLAQQYLNIEIDKGATRTNWIKR-PLSDIQLQYAAGDVWYLLPLYHILEKELAKTPWEQAVRDDCELVLAKTHKLQ-
A0A0F4PYI8/1-194           --------MDYQLITEQAELDSFVNAISQAETLAIDTEFMRRRTLYPEIALLQIF-DGQ-----------HLGLIDPLQPLD--FTQLWQLLKC-EQVLKVLHSPSEDIEVFQNF-AGFV-PAPLFDTQFALQLLGQGNCVGFAAMVNSRLNIEIDKSESRTNWLQR-PLRESQLAYAAADVAHLLPCYNELVTQIRAQGWFDLVIAESQLLSKKRAHQI-
H3RDF3/1-194               --------MSYSLIDNDDHLAEVCQKARQHTAVALDTEFVRTRTYYPQLGLIQLF-DGE-----------QLVLIDPLPVRD--WSPFIALLTD-TRVTKFLHAGGEDLEVFLHR-FGVL-PQPMIDTQILAAFSGQPLSWGFASMVAHFTQVELDKSEARTDWLAR-PLTERQCQYAAADVHYLLPIAHQLMAQVEQVGNVTAALSECENLCQRRLDVL-
U2YR47/1-187               ----------MTPITTNEALAEFCDQLSGSEFITVDTEFMRETTYWPRLCLIQAA-TPV-----------NASIIDPMA-EGLDLTPFLDLLRD-PAITKVFHAARQDVEIFNKL--GAM-PTPLFDTQVAGMAAGFGDQVAYDSLVRQMLKKDVDKGSRFTDWARR-PLSESQLTYALGDVTHLAALYPRLRDRLAREGRLDWVSQEMEALIDP------
A0A0Q4VSF0/1-189           ------------MIETTKALAEACKELAKSDFITIDTEFLRETTFWPQLCLVQMA-SPT-----------LEVLVDPLA-KDLDLTPLFELMAD-ASVVKVFHAARQDIEIIHHL-GGLI-PHPIFDTQVAAMVCGFGDSISYDQLVQRIKNVQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDVYLALKAQLERDGRASWLKEEMDILESVETY---
A0A1A9G6S5/1-190           ------------MIETTAALAEACETLARSEYLTIDTEFLRETTFWPELCLIQLA-GPE-----------TEVIVDPLA-KGLDLAPFFALMAN-PAVLKVFHAARQDIEIIVNR-GDLI-PHPIFDTQVAAMVCGFGDSVSYDQLVQKIKGVHIDKSSRFTDWSRR-PLTEKQLEYALADVTHLRDVYLALKEKLEAAGRSLWLTEEMAVLEARETYD--
J0YQE7/37-228              ---------MMNLITKTTDLETALAILRTSDFVTVDTEFIRETTFWPQLCLIQLA-SPH-----------TTVLIDPMS-QEIDLQPFFDLMLD-KKIVKVFHAARQDIETIYHL-GGVI-PSPLFDTQIAGSICGFGDSISYDQIVQRCTGHKLDKSSRFTDWSCR-PLSEKQLLYALADVTYLREVYLLLKKQLEKNKRTHWMDDEIAILLSPKTY---
A0A0T6ZT61/1-190           ------------MIQTTAELEAACQELALSSYITIDTEFLRETTFWPELCLIQMA-GPD-----------TAVIVDPMA-PGIDLASFFALMAN-ADVVKVFHAARQDIEIIHHL-GNLI-PHPLFDTQVAAMVCGFGDSVSYDQLVSRIKNEQIDKSSRFTDWSRR-PLSDKQLEYALADVTHLRDIYHYLKAELEREGRSSWLAEEMAILESRETYD--
V7FRJ8/1-191               ----------MHVITTQNELETVIAAFEKAEFVTVDTEFIRETTFWPILCLIQMA-APG-----------VTALIDPLS-PDIDLKPFFRLMAN-EAIVKVFHAARQDIEIIVHL-GDLV-PHPVFDTQVAAMVCGFGDSVSYDQLVQRITGARLDKSSRFTDWRHR-PLSEKQLDYALADVTHLIEVYKHLSAELVRENRAHWLNEEMDVLTSRETY---
I1DTI7/2-192               ----------TSLITDNQALAAYCQQVAGSKLLALDTEFIRQSTFLPKLGLIQLF-DGK-----------ALALVDPLTISD--WQPLQQLCAD-TAVVKLLHSCSEDLDALATI-GISQ-ISPLFDTQLAAELLGWGASVGYARLVEQLSGEVLDKSESRTDWLAR-PLTETQLRYAANDVHFLYPLYDKLCQLLSTQ-HQALLLQEGEQLIRRRSQQV-
E0TC26/1-189               ----------MHIVTQTQDLTALCGRLAKHDFVTVDTEFMRERTYYPKLCLIQVA-STE-----------EAAIIDPLA-AALDLAPFLELLAD-PSVLKVFHAARQDLEIFYKL-MGKV-PAPLFDTQIAAMACGHGDQVGYEALIREVTGAQVDKGSRFTDWAKR-PLSDKQLTYALGDVTHLVDAYQALITELEEKGRLEWIHAEMTQLNDPT-----
A0A0D0J347/1-194           --------MNYQIITKNKDLEEVCALAREADVVMLDTEFVRIRTYYPQLGLIQLF-DGK-----------QLSLIDPTELTD--MTSFVELLKD-TSVLKVLHACGEDLEVFQNA-FGCT-PFPMVDTQLMAAFLGHGLSTGFATLVEEYLGVELDKSESRTDWMAR-PLTQKQLDYAAADVHYLMPLYEKLLDKVNEAGWWEAVQQESDLLVSKRIRNV-
A0A1H2L8I1/4-191           ---------DIHWILDDASLAEHCAAWQALPFVALDTEFMRVDTFYPIAGLLQVS-GGD-----------GAYLIDPLRISD--WRPFAALLEA-PGVVKVLHSCSEDLEVFLRL-TGSL-PAPLFDTQLAAGYLNLGFSMGYSRLVQALLDIELPKGETRSDWLQR-PLSELQVRYAAEDVSHLVEVYRALMARLAPQ-KVEWILEDGAELVANL-----
A0A0Q4SCH0/4-191           ---------DIHWILDDASLAEHCAAWQALPFVALDTEFMRVDTFYPIAGLLQVS-GGD-----------GAYLIDPLRISD--WRPFAALLEA-PGVVKVLHSCSEDLEVFLRL-TGSL-PAPLFDTQLAAGYLNLGFSMGYSRLVQALLDIELPKGETRSDWLQR-PLSELQVRYAAEDVSHLVEVYRALMARLAPQ-KVEWILEDGAELVANL-----
A0A0P0Z435/1-190           ----------MKLITTTAALRETCDALARSAFITVDTEFIRETTFWPELCLIQMA-GED-----------LAVLVDPLA-EGIDLQPFFDLMVD-PGVIKVFHAARQDIEIIYKE-GGVI-PAPLFDTQVAAMVCGFGESIAYDQLVARTTEGRIDKTSRFTDWRAR-PLTPSQLQYALADVTYLREAYEVLIKMIDDQDRRSWLDGELATLAAPET----
B9JV58/1-190               ------------MISTTQDLEAACEKLAKSEFITIDTEFLRETTFWPELCLIQMA-SPD-----------LEVIVDPLA-EGLDLAPFFKLMAN-GDVIKVFHAARQDIEIIFHL-GNLI-PHPIFDTQVAAMVCGFGDSVSYDQLVQKIKNIHIDKSSRFTDWSRR-PLSEKQLDYALADVTHLRDVYLTLNAELEREGRASWLSEEMAILESRDTYD--
A0A059G773/1-196           -----MTDNTLTPITEQSALEDLCGKLAESDFICVDTEFHRETTYWPELCLVQAS-APG-----------VEGLIDPLA-EDLDIGPFLDLIAM-DNRVKVFHAARQDIEIFNRL-IGHP-PGPIFDTQVAAMALGYGDSISYDNLVQRVVRRQIDKSSQFTDWMRR-PLSQKQLIYALGDVTHLRDIYLIMREELEKSGRMNWVREEMADLEDPAKY---
A0A0Q9HN88/1-189           ----------MHLISDTAALSAACDRLATHPFVTVDTEFLRETTYYPKLCLIQLA-SPD-----------EAVLVDPLS-PDLDLAPFFGLMVN-DAVVKVFHAARQDLEIVWLL-GRVL-PTPLFDTQVAAMVCGYGDSVGYEQLANDLAKARIDKSSRFTDWSRR-PLNEAQLVYAEADVTHLRDIYLALKADLDASGRESWVAEEMSVLTSPG-----
A0A0Q8S0R3/4-194           ----------HPLIETNAALVEFCDLIRNSDFIAVDTEFMRENTFWPELCLIQVA-DRD-----------HAAAIDPMA-PGIDLGPLLNLLVGNEDMLKVFHAGGQDVEIIFNL-TGKT-PHPIFDTQIGQMALGQAEQVGYSNLVEAWIGLQLDKGARFTDWSRR-PLDKRQIDYAVGDVTHLAKIFPMMLDKLIKTGRGHWLDEEMEKLADPAN----
A0A0T9KZ99/1-194           --------MNYQLITTDAALQQVCEQARNHTQVALDTEFVRTRTYYPQLGLIQLF-DGE-----------QLSLIDPLPITE--WQPFRELLKD-ESVVKFLHAGSEDLEVFLNA-FQQL-PTPMIDTQILAAFTGKTLSCGFATLVAELEGVELDKSESRTDWLAR-PLTEKQCDYAAADVFYLLPMAKKLVDATLAAGRMDAAQDECLLLCRRRSETV-
N0BGF6/58-248              ---------SMQTITTTSELAALCETLSRSDYVAVDTEFLREQTFWPLLCLIQLA-GPE-----------AEAIVDPLA-PGIDLAPFYQLMAD-TSTVKVFHAARQDIEIVFLK-SGVV-PTPVFDSQVAAMVCGFGDSISYVNLVKKTTGTDLDKSSRFTDWSRR-PLSPKQLDYALADVTYLRDVYVRLRQTLDKTERTPWLQEEMAVLTNPAT----
Q0FGF6/1-195               ----------MIIITKTQELIDFCKKCSAYEYVTLDTEFLRERTYYSKLCLVQMA-HPG-------NTEDSAVLIDPLS-PDLSLDPLYELFKN-PNVVKVFHAARQDLEIFFID-KKII-PFPFFDTQVAAMVCGFGEQVGYEKLVRSICNEGLDKSSRFTDWSAR-PLSNKQMHYAIGDVTYLREIYEFLSNKIKNNKRQAWVEEELKILMDPETY---
C9PQC2/13-204              ---------HFQLITTDQALADVCVFAQQKSVVALDTEFVRIRTLYPQLGLIQLY-DGE-----------RVSLIDPLSIQD--FSPFIALLAN-QNVLKVLHACSEDLEVFQHY-YQQM-PTPMIDTQIMASFLSFPNSTGLATLIQHYFQLEIDKGASRTDWLAR-PLSDKQLVYAAADVWYLLPLYQRMQQDLQQTPWQSAVENDCEMLLAKREQG--
A0A0Q5VEV9/1-187           ----------MTPITTNEALQAFCADVASAPFIAVDTEFMRETTYWPKLCLIQAA-TPE-----------HAAIIDPLA-DGLDLEPFLAILRD-PAVVKVFHACRQDTEIFVKL--GSM-PEPIFDTQVAAMAAGFGDQVSYDSLVRQMLRIELDKGSRFTDWSRR-PLSDSQLVYALGDVTHLAALYPKLRERLQREGRLDWVMAEMADLSDP------
I3UZM3/3-195               --------IEIHWIRDDQSLAEHCRDWHLLPFVAVDTEFMRVDTFYPKAGLIQIG-DGQ-----------RAFLIDPLLIGN--WQPLADLLED-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAELFTVLRPRLSDD-KYAWVLEDGAELVAALRREV-
I7BXW1/3-195               --------IEIHWIRDDQSLAEHCRDWHLLPFVAVDTEFMRVDTFYPKAGLIQIG-DGQ-----------RAFLIDPLLIGN--WQPLADLLED-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAELFTVLRPRLSDD-KYAWVLEDGAELVAALRREV-
N9W0S3/3-195               --------IEIHWIRDDQSLAEHCRDWHLLPFVAVDTEFMRVDTFYPKAGLIQIG-DGQ-----------RAFLIDPLLIGN--WQPLADLLED-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAELFTVLRPRLSDD-KYAWVLEDGAELVAALRREV-
A0A0T9XGA9/1-190           ------------MIETDDALASLCEAVRACPAIALDTEFVRTRTYYPQLGLIQLF-DGA-----------NVALIDPLGISD--WSPLKAVLRD-TGITKFLHAGSEDLEVFLNA-FGEL-PEPLIDTQILAAFCGRPLSWGFASMVEEYTGVALDKSESRTDWLAR-PLSERQCEYAAADVWYLLPIAKKLMIETEAAGWLPAALDECRLMQQRRQEIQ-
G5REQ4/1-190               ------------MIETDDALASLCEAVRACPAIALDTEFVRTRTYYPQLGLIQLF-DGA-----------NVALIDPLGISD--WSPLKAVLRD-TGITKFLHAGSEDLEVFLNA-FGEL-PEPLIDTQILAAFCGRPLSWGFASMVEEYTGVALDKSESRTDWLAR-PLSERQCEYAAADVWYLLPIAKKLMIETEAAGWLPAALDECRLMQQRRQEIQ-
A0A0R9MK43/1-190           ------------MIETDDALASLCEAVRACPAIALDTEFVRTRTYYPQLGLIQLF-DGA-----------NVALIDPLGISD--WSPLKAVLRD-TGITKFLHAGSEDLEVFLNA-FGEL-PEPLIDTQILAAFCGRPLSWGFASMVEEYTGVALDKSESRTDWLAR-PLSERQCEYAAADVWYLLPIAKKLMIETEAAGWLPAALDECRLMQQRRQEIQ-
A0A100PNU2/1-190           ------------MIETDDALASLCEAVRACPAIALDTEFVRTRTYYPQLGLIQLF-DGA-----------NVALIDPLGISD--WSPLKAVLRD-TGITKFLHAGSEDLEVFLNA-FGEL-PEPLIDTQILAAFCGRPLSWGFASMVEEYTGVALDKSESRTDWLAR-PLSERQCEYAAADVWYLLPIAKKLMIETEAAGWLPAALDECRLMQQRRQEIQ-
G5NC15/1-190               ------------MIETDDALASLCEAVRACPAIALDTEFVRTRTYYPQLGLIQLF-DGA-----------NVALIDPLGISD--WSPLKAVLRD-TGITKFLHAGSEDLEVFLNA-FGEL-PEPLIDTQILAAFCGRPLSWGFASMVEEYTGVALDKSESRTDWLAR-PLSERQCEYAAADVWYLLPIAKKLMIETEAAGWLPAALDECRLMQQRRQEIQ-
A0A090RXT0/1-194           --------MKYQIIKSQEALVSVCEAARQAEKVMLDTEFVRIRSYFPKLGLVQLF-DGE-----------QLSLIDPLELSD--LTPLAELLAD-ESVLKVLHACGEDLEVFQND-LGCL-PTPMVDTQIMAAFLGHGLSTGFASLVNEYLGVELDKSESRADWTAR-PLTAKQLDYAAADVHYLWPLHDILVDKLAETPWESAALEESASLALKRIKNI-
L4VIA8/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
L3CCI9/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A1C0SB40/1-189           ------------MIETTVDLEAACQQLARSNYITIDTEFLRETTFWPELCLIQMA-SPD-----------LAVIVDPMA-KGIDLSPFFALMAN-TEVVKVFHAARQDIEIIFHL-GNLI-PHPIFDTQVAAMVCGFGDSVSYDQLVNRVTGTQIDKSSRFTDWSRR-PLTDKQLDYALADVTHLRDIYKYLTAELEREGRSLWLTEEMAILEAQDTY---
A0A1G7L4J6/3-195           --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVYIRLRPRLSED-KYAWVLEDGAELVANLRREV-
A0A023CF76/3-195           --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVYIRLRPRLSED-KYAWVLEDGAELVANLRREV-
A0A0A0BDQ8/1-193           --------MTIQFIDSSAGLKDLCEQLAESTWLAIDTEFHREKTYYPQLCLIQVA-NDD-----------VIACVDPLKIDD--LSPLMDVFYR-TDMTLVFHAARQDLELLFLL-RDAL-PQQVFDTQLAATVLGYGDQIGYGNLVKQCLNVDLDKAHARTDWRQR-PLSPEQIDYAADDVRYLRELYHQLEAKLVDTGRINWLKEDFATLSATETYQ--
A0A1G0JSE2/9-198           --------HDYFLVDSDVDLAAVCYEQAKNDWVAVDTEFERSSTYYPELCLVQLT-TIG-----------QVAVIDPLAIQD--MGPLVELIFN-SRITKVFHAGRQDLEIFHHL-YDRV-PTPIFDTQIAAQLLGLEEQSSYATLVKHLLGVELDKSHTRTNWKIR-PLSGGQLKYAAEDVIYLAQVYELIRQRLSDAGILEWLKDDFAALQSPA-----
I4KFE5/3-195               --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGV-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVYTRLRPQLSDD-KYAWVLEDGAELVANLRREI-
A0A0T6Z2J6/1-190           ------------MIETTADLEAACQQLALSNYITIDTEFLRETTFWPELCLIQMA-SPD-----------LAVIVDPMA-KGIDLAPFFALMAN-PEVIKVFHAARQDIEIIFHL-GNLI-PHPIFDTQVAAMVCGFGDSVSYDQLVNRVTGTQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDIYKYLAAELEREGRSLWLTEEMAILEARDTYD--
A0A0Q7KCG9/1-190           ------------MIETTADLEAACQQLALSNYITIDTEFLRETTFWPELCLIQMA-SPD-----------LAVIVDPMA-KGIDLAPFFALMAN-PEVIKVFHAARQDIEIIFHL-GNLI-PHPIFDTQVAAMVCGFGDSVSYDQLVNRVTGTQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDIYKYLAAELEREGRSLWLTEEMAILEARDTYD--
A0A0T6YFE1/1-190           ------------MIETTADLEAACQQLALSNYITIDTEFLRETTFWPELCLIQMA-SPD-----------LAVIVDPMA-KGIDLAPFFALMAN-PEVIKVFHAARQDIEIIFHL-GNLI-PHPIFDTQVAAMVCGFGDSVSYDQLVNRVTGTQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDIYKYLAAELEREGRSLWLTEEMAILEARDTYD--
V4NV51/1-189               ----------MPTITTTAALVAFCEKVASAPFITVDTEFMRETTYWPKLCLIQAA-SEE-----------HAAIIDPLA-PELDMKPFLDLLAD-ENILKVFHACRQDIEIFNNL--GTM-PVPVFDTQVAAMAAGFGDQVAYDSLVRQVIKVDIDKGSRFTDWSRR-PLSDQQLQYALGDVTYLAKVYPKLVEKLKAQNRYEWVAAEMADLTDPKL----
U2LCE1/12-205              --------LNYQLITTDAGLQQVCEQARNYAQVALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLPIKQ--WQPFIDLLAD-TAVVKFLHAGSEDLEVFLNA-FKTL-PTPMVDTQILAAFSGHTLSCGFAKLVTEYMKVDLDKSESRTDWLAR-PLTERQCVYAAADVFYLLPMAKQLVQETEEAGWTAAADNECRLLCQRRSEAL-
C8TSW4/1-194               --------MNYQMITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
K4UXK4/1-194               --------MNYQMITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0Q8ATI4/1-190           ------------MIETTAALADACKELAKSEFVTIDTEFLRETTFWPQLCLVQMA-SPT-----------LEVLVDPMA-KGIDLTPLFDLMAD-ANVVKVFHAARQDIEIIHHL-GGLI-PHPIFDTQVAAMVCGFGDSISYDQLVQKTKNVQIDKSSRFTDWSHR-PLSEKQLDYALADVTHLRDVYLALKAQLEREGRSSWLKEEMDILEARETYD--
A0A148NAS6/7-194           -----------LFIDTLQALAQLCRQLETSPWLAIDTEFLRESTYYPQFCLLQIA-NQD-----------IVACIDPLQLED--LEPLWQLLYR-PEIIKVFHAGRQDLEIFYHL-HGKL-PAPVFDTQIAAPLLGFSDQIGYAQLVAEVLGVQLEKGHSRTDWRKR-PLSPQQLQYAADDVRYLGPMYLELRQQLEKLHRLSWLEEDFATLTNPAT----
A0A163TE47/1-193           ----------MEPITTTEELRSLCDSLRKFDYVTVDTEFMRDSTYWPQLCLVQLA-SPEH--------SDNGAAVDPLA-EGIDLSPLFELMQD-ESVIKVFHAARQDIEIFVHL-SGKV-PHPVFDTQVAAMVLGYGDQVGYETLVNKVARKSIDKSMRFTDWSRR-PLSSKQINYALSDVTHLRVIYEDFHERLEANGRAVWLFEEMERLTDPSI----
E0F3C3/5-198               --------IHYHWIDTDEKLKTVCENACRKSAVALDTEFIRTRSYYPKLGLIQLF-DGD-----------TVSLIDPNPISD--FSPFIGLLTC-QNVVKVLHACSEDLEVFQHL-FKQL-PTPLADTQIMAGFAGGGISLGFAKLVAHYLNVELDKGASRTDWLAR-PLTEEQLQYAAADVWYLLPVYQRLVSDLDATRWQNAVEQECRYLLSKRESVA-
A0A0Q4IUI9/4-194           ----------HPLISDSATLANLCARMADADYVCVDTEFMRESTYYPELCLIQIA-DDK-----------EAAAIDPMA-PGIDLKPLLDLLVENHDVLKVVHAGGQDIEIVYNL-TGKT-PFPLFDTQVAAMALGQGEQIGYSNLVDSWLGIAVDKGARFTDWARR-PLDARQIEYAIGDVTHLSKIFPKMLERLRKTGRGVWLDQEMERLGDTAN----
A0A142W379/4-194           ----------HPLIESSEALHQFVDLIKGSDFIAVDTEFMRENTFWPELCLIQVA-DAH-----------HAAAVDPMA-PGIDLAPLLDLLVDNEDVLKVFHAGGQDVEIIFNL-TGKT-PHPIFDTQIGQMALGQAEQVGYSNLVEAWLGLQLDKGARFTDWSRR-PLDKRQIDYAIGDVTHLAKIFPMMLKKLIKTGRGHWLDEEMEKLADPSN----
A0A0C5WLB2/1-190           ------------MITSRTRLEIICLQARRQSAVMLDTEFVRTRTLYPKLGLIQLF-DGE-----------SLALIDPLAIDD--LEPLWELLRD-QSVIKVLHACGEDLEVFQYY-AGCL-PVPMIDTQVMASFLGYGVSAGFGTLVKDYLGIELDKGEARTNWLAR-PLTERQLDYAAADVYYLLPLYQKLMPLVEAKGWQEALAQECAGLMLKRVKTI-
A0A0J1HCH1/1-194           --------MNFEIITSAARLETVCGQARKKPVVMLDTEFVRTRTLYPKLGLVQLF-DGD-----------NLALIDPLAIDD--LEPLWDLLRD-QSVVKVLHACGEDLEVFQHY-AGCL-PVPMVDTQIMAAFLGYGVSAGFGTLVKDFLGVELDKGEARTNWLAR-PLTDKQLDYAAADVFYLLPLYEALLPQVEARGWAEALEQECASQMLKRMKSA-
N9UQR4/4-194               ----------HPLIESSEALHQFVDLIKGSDFIAVDTEFMRENTFWPELCLIQVA-DAH-----------HAAAIDPMA-PGIDLAPLLDLLVDNEEVLKVFHAGGQDVEIIFNL-TGKT-PHPIFDTQIGQMALGQAEQVGYSNLVEAWLGLQLDKGARFTDWSRR-PLDKRQIDYAIGDVTHLAKIFPMMLKKLIKTGRGHWLDEEMEKLADPSN----
W6R884/1-190               ------------MIETTADLEAACKELAKSEFITIDTEFLRETTFWPELCLIQMA-SPT-----------TEVLVDPLA-KGLDLTPFFELMAN-PAVLKVFHAARQDIEIIYNR-GGLI-PHPIFDTQVAAMVCGFGDSVSYDQLVSRTKGVQIDKSSRFTDWSRR-PLSEKQLDYALADVTHLRDVYLYLKAELEREGRSSWLREEMDILEARETYD--
A0A0S8EXL2/1-191           --------MSYVLIETEDRLAECCEELATQPWVAIDTEFMREKTYYPELCLLQIT-GAG-----------QIYCIDTLALQD--TSALQNLLDQ-RELIKVFHAARQDLEVLHFL-CGMP-PAPVFDTQIAAALLGYDDQLGYAALVEAVTGTVLPKTHQRTDWSRR-PLPEAQLEYAADDVRYLRKLYPVMFEQLEEKGRLAWAMEDNARLTDSAL----
A0A0D7Q268/1-191           ----------MDLITTTADLAAACSRLAKHPVITVDTEFLRETTYYPLLCVVQMA-SAE-----------EAMVIDTLA-EGLDLKPFFELMAN-ESVLKVFHAARQDIEIIWHQ-ANII-PHPVFDTQVAAMVLGYGDSIAYDQLVEKVTGHRPDKTHRFTDWSRR-PLTKEQMHYAVSDVTHLRDVFAALDADLKKRRRSEWVSIEMEVLTSPKTY---
A0A073HEV3/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0H3EJR7/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A073URP4/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0W3CUP1/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
E2QN06/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A029HY42/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
T6I2D8/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
V0VLL4/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
H4LCN8/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A029ISF5/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
E3XP15/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
H4KHS4/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0H2YZE2/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
E9XJ42/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A125XJ31/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A1L9A4Z5/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
H4ISP1/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
H4J8Y8/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
H4IBT2/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0E2L3M7/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
Q11JA8/1-191               ----------MDLIKSRSELENAVAALENSDFVTVDTEFIRETTFWPELCLIQMA-APG-----------VTALVDPLA-DGMDLAPFFRLMGN-EQVVKVFHAARQDIEIIYNR-GGLI-PHPIFDTQVAAMVCGFGDSISYDQLVLRITGEHIDKTSRFTDWRHR-PLSEKQLRYALADVTHLIPVYAHLTTELQRGGREGWLKEEMDVLTARETY---
A0A0Q4MZY3/3-195           --------IEIHWIRDDQSLAEHCRDWQQLPFVAVDTEFMRVDTFYPKAGLIQVG-DGQ-----------RAFLIDPLLIGN--WQPLADLLED-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSDTQVSYAAEDAVHLAELFTALRPRLSDD-KYAWVLEDGAELVAALRREV-
A0A0H6S7N2/1-194           --------MNYQIISQVGDLQRVCLAARDADVVMLDTEFVRTRTFFPQLGLIQMF-DGE-----------NLSLIDPTVLDE--MTPFVELLQD-ISVLKVLHACGEDLEVFQNA-FGCT-PFPMVDTQIMAAFLGYGLSTGFAALVQDQLQVELDKSESRTDWLAR-PLSDKQLEYAAADVFYLLPMYEKLVEQVTQAGWWDAALQESELQVAKRTKVS-
A0A1B9M313/1-194           --------MSYQLIVNNDQLAEFCSKIEKSSAIALDTEFVRTCTFYPHLGLLQVF-DGK-----------HAALIDPITISE--WQDFLAILKN-PKIEKYFHSCSEDIEVFLYY-FGMV-PTPIIDSQIFASFLDNPLSSGYASLVKKYLGAELDKSETRTDWLKR-PLTEKQCEYAINDVLYLFPLVNILKSQLTENDYLQAAYQECQMTVARKCTVI-
A0A0N1FCM3/1-189           ----------MNLIATTADLADACARLAQHPFVTVDTEFLRETTYYPKLCLIQLA-SPD-----------EAVLVDPLS-ADLDLAPFFALMTD-EAVVKVFHAARQDLEIVWML-GRVL-PTPLFDTQVAAMVCGYGDSVGYEQLANDLAKARIDKSSRFTDWSRR-PLNEAQLVYAEADVTHLRDIYLALKADLESTGREGWVAEEMAVLNSPG-----
A0A0B8ZGR9/1-194           --------MNYQLITTSSDLKQVCEQASRHAYIALDTEFVRTRTYYPQLGLIQLF-DGE-----------TLTLIDPLPITD--WQPFVALLKN-PEVTKLLHACSEDLEVFLHE-FQTL-PTPMIDTQILAAFTGRALSCGFAAMVNDYLQVELDKSESRTDWLAR-PLTERQCEYAAADVFYLLPLADKLIAEVAEAGWLDAAKDDCLSLCRRRQDVV-
E5YEF9/1-194               --------MNYQLITTSSDLKQVCEQASRHAYIALDTEFVRTRTYYPQLGLIQLF-DGE-----------TLTLIDPLPITD--WQPFVALLKN-PEVTKLLHACSEDLEVFLHE-FQTL-PTPMIDTQILAAFTGRALSCGFAAMVNDYLQVELDKSESRTDWLAR-PLTERQCEYAAADVFYLLPLADKLIAEVAEAGWLDAAKDDCLSLCRRRQDVV-
A0A0M6YKU6/8-201           ---------TITTLTTTDDLATFCIRAAKAPYVTVDTEFLRERTYYSKLCLIQLA-YPG-------DGETDAVLVDPLA-DGLDLAPLYDLFRA-PDCVKVFHAARQDLEIFAIE-GEVI-PAPLFDTQVAAMVCGFGEQVGYETLARKVAKAQIDKSSRFTDWSRR-PLSDAQKSYALADVTHLRVIYEYLAAELEKTDRTPWVEEEMDVLRDFG-----
A0A0H4KTN7/1-195           ----------MRIITTTAELAEFCTAARQEPYVTVDTEFLRERTYYSKLCLVQMA-MPG-------KDDSNAVLIDPLV-EGLSLDPMYELFRD-GNVVKVFHAARQDLEIFFVD-AGVI-PHPLFDTQVAAMVCGFGEQVGYEKLVRAIARKGLDKTSRFTDWSRR-PLTEAQQKYALADVTHLRTIYEFLAAKLEKTGRAHWVEEEMSILEDPETY---
A0A067Z4V7/12-201          -----------VLLTSSEEVARICEKLQNEPFVTIDTEFVRERTYWPELCLVQLA-GTE-----------DVVLIDTLA-PGIDLAPLGALLAK-PDCTKVFHAARQDLEIFLHI-FDRL-PASVFDTQVAAMVAGFGDQVGYDSLVGAITGRSIDKAHRFSDWSAR-PLSKAQIAYAAADVTHLRTVYDALRKQLAEQDRLHWADSEQAILTEEKTF---
X6CMQ7/1-191               ----------MHVITTQKELETALAAFEKSAFVTVDTEFIRETTFWPILCLIQMA-APG-----------VTALIDPLS-PDIDLKPFFKLMAN-EAVIKVFHAARQDIEIIVHL-GDLV-PHPVFDTQVAAMVCGFGDSVSYDQLVQRITGARLDKSSRFTDWRHR-PLSDKQLDYALADVTHLIEVYQHLSAELERENRAHWLNEEMDVLTSRETY---
A3QF05/1-193               --------MTFQYVEDDASLTELVDKYRQAKVLMLDTEFVRTRTYYAKLGLIQVY-DGE-----------TLALIDPVAVSD--LSAFWALLER-DDMISVLHSCSEDLEVLARY-GRCQ-PKVLFDSQIAAAFCGWGHGMGYAKLVEHCLGVQLDKGESRTDWMKR-PLSDAQLQYAANDVDYLYRLYPQLLEKLQESGRMPWLLEEGERMTQGRLES--
K6YQG6/1-193               --------MQYNFITSNQALADFCQQASQAEAIAVDTEFVRTRTLYPQLGLIQIY-DGK-----------QLVLVDPLVIDD--FSSLKELLTN-PNVVKVLHSCSEDLETFWHA-FKIM-PSPIFDSQFAASVVGMGTALGYAKLVEIMLEITVDKGESRTDWLAR-PLRDEQCDYAAKDVLYLFQLYPELKARVEEQNKLPWVYAEIAHLATKKQTP--
W6KH38/6-194               ----------MPVIRDSQTLADFCAELAQEPYVTVDTEFLREKTYWPKLCLVQLG-GSK-----------NSKAVDPLA-EGIDLTPLFDLMAN-EQVLKVFHAARQDLEIFFNL-TGKV-PHPLFDTQVAAMVCGFGDSVSYENLVAKLAKAKIDKSSRFTDWSKR-PLTDKQIDYALADVIHLRPVFEKLRDRMEKSGRAHWLDGEMEILTSPS-----
A0A098TBI0/1-190           ------------MITTTEALAAFCARLASHTYVTVDTEFLRETTYWPELCLIQMA-GPE-----------DEGIVDPMA-EGLDLKPFFDLMAD-ASVIKVFHAARQDIEIMVNR-GDLV-PHPIFDTQVAAMVCGFGESISYDQLVSRITGAPIDKSSRFTDWSHR-PLSEKQLDYALADVTHLRDVYLELVARLEAEGRGHWVADEMAVLESRATYE--
A0A1H1MWC4/9-197           -----------LMIDTNAELASWCSRWLTLPYVAVDTEFVRTETFYPIAGLIQVG-DGQ-----------RAYLIDPLAITD--WSPLVTLLQA-PDVVKVLHACSEDLEVFTRL-CNAV-PLPLFDTQLAAAFLGMDFSMGYSRLVSELLNIDLPKEETRSDWLQR-PLSPGQIEYAARDAQHLAELYQLLAPRIAAAGVEPWLFADTAEQVRASGQ---
A0A1B9T4S8/1-190           ------------MIETTAALAEACTELAKSEFITIDTEFLRETTFWPELCLVQMA-SPT-----------LEVLVDPLA-KGIDLTPLFELMAN-PDVVKVFHAARQDIEIIYHL-GGLI-PHPIFDTQVAAMVCGFGDSISYDQLVQKIKNVQIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDVYLALKAQLEREGRSLWLTEEMDILESRDTYD--
A0A094YKL0/49-237          ----------PRLVSTTQDLADSLIRLREERFLTIDTEFMRERTYWPELCLVQIG-GAN-----------DVVLIDTLA-EGLDLAPLADLLAD-ESVLKVFHAARQDLEIFLYL-FDAL-PTPVFDTQVAAMVAGYGDQVGYDSLVGSLTGHAIDKSHRFTDWSVR-PLTPAQLTYAAGDVTWLRLVYERLVKKLEQEKRLEWVSAEMAELADPA-----
F7VAL2/49-237              ----------PRLVSTTQDLADSLIRLREERFLTIDTEFMRERTYWPELCLVQIG-GAN-----------DVVLIDTLA-EGLDLAPLADLLAD-ESVLKVFHAARQDLEIFLYL-FDAL-PTPVFDTQVAAMVAGYGDQVGYDSLVGSLTGHAIDKSHRFTDWSVR-PLTPAQLTYAAGDVTWLRLVYERLVKKLEQEKRLEWVSAEMAELADPA-----
A0A1B6YYB7/3-198           -----------HTITTTEALADYCARAATQPYVTVDTEFLRERTYFAQLCLVQVA-LPG-------TDDSDAVLIDPLA-EGLSLEPLYELFRN-PNVVKVFHAARQDLEIFFVE-GGLV-PAPLFDTQVAAMVCGFGDQVGYETLVRKIAKASLDKSSRFTDWSRR-PLSDAQKTYALGDVTHLRQIYEYLSAELAKTGRTHWLEEELAQLTNADAYVV-
A1S6Y2/2-194               --------LEFHYVKDDEALTALVDQYSQSRLLVLDTEFVRTRTYYAKLGLIQVY-DGN-----------TLALIDPLDIQD--LSGFWALLTN-PNILKLVHSCSEDLEVFARY-GKVQ-PTPLFDSQIAAALSGMGHGLGYAKLVEECLGQTLDKGESRTDWIKR-PLTDAQLQYAANDVFYLYQLYPQLEQKLKTLGRFDWVLEEGARLTEGRLQR--
A0A134A3K6/39-228          ----------CVYISDAEGLARFCERASDSKVLAVDTEFLRERTYFPRLCLIQVA-TAD-----------ESCAVDPILIED--LTPLRRLLED-RSVTKVFHACTQDLEVILDG-MGCV-PAPVFDTQLAAAFLGHRQQIGYGALVEACCGVRLPKAESLTDWSRR-PLDAEQLRYAEDDVIYLPRIYEQMVSELARRDRLAWLEPEMRSLTDPSRV---
A0A0M5M1H2/3-195           --------IDIHWIRDNDSLGQHCAEWQSLPFVALDTEFMRVDTFYPIAGLIQIG-DGE-----------RAYLIDPLTIDN--WQPLSALLEN-PAVVKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVKEVLDLDLPKGETRSDWLQR-PLSETQISYAAEDALHLAEVYVLLRPRLSDE-KYAWVLEDGAELVANLRREV-
A0A109BK09/8-198           ----------MRIVTASEELSQAVGRLSASDFVTVDTEFLRESTFWPQLCLIQIA-SPD-----------EAMIIDPMA-PGIDLAPFWGLMGD-ERVTKVFHAARQDIEIVYAR-AGLV-PRPVFDTQVAAMVCGFGESVSYVNLVKNVTGADIDKSSRFTDWSRR-PLSDRQLEYALGDVTHLRDVYRHLKADIDKAGRSDWLSEEMGILTDPRTY---
J2WTN6/1-191               ----------MDLITTTADLAAACSRMAKHPVITVDTEFLRETTYYPLLCVVQMA-SPE-----------EAIVIDALA-EGIDLKPFFELMGN-EGVLKVFHAARQDIEIIWHQ-ANII-PHPVFDTQVAAMVLGYGDSIAYDALVEKVTGHRPDKTHRFTDWSRR-PLTKEQMHYAVSDVTHLRDVFAALDADLKKRRRSEWVSIEMEVLTSPKTY---
Q1GSA7/4-194               ----------HPLIDTNAALLEFCDRVKDSDFIAVDTEFMRENTFWPELCLIQVA-DTE-----------HAAAIDPMA-QGMDLKPLLDLLVDNEDMLKVFHAGGQDVEIIFNL-TGKT-PHPIFDTQIGQMALGQAEQVGYSNLVEAWLGLQLDKGARFTDWSRR-PLDKRQIDYAIGDVTHLAKIFPMMLDKLIRTGRGHWLDEEMEKLADPAN----
A0A181YB23/1-190           ------------MITTDDGLRAVCEAASAASTVALDTEFVRTRTYYPQLGLLQLF-DGT-----------QVSLIDPLTISD--WAPMRELLLN-QDVTKYLHAGSEDLEVFLNA-FNLM-PQPLIDTQILAAFCGRPMSWGFASMVEEYSEVALDKSESRTDWLAR-PLTERQCEYAAADVWYLLPIASQLMAETDRAGWLSAALDECRLMQQRRQEVV-
A0A1D3BKC5/10-203          --------LNYQMITTNDELASLCEVTRDFPAIALDTEFVRTRTYYPQLGLIQMY-DGK-----------HVSLIDPLGITD--WTPMRDLLLD-TAVTKYLHAGSEDLEVFLNT-FGIM-PQPLIDTQILAAFSSRPLSWGFAAMVEEYTGLTLDKSESRTDWLAR-PLTERQLEYAAADVFYLLPIAGQLMKEAEASGWLSAALDECRMTQLRRQEVV-
A0A1B9NL48/1-194           --------MSYQLIVNNDQLAEFCSKIEKSSAIALDTEFVRTCTFYPHLGLLQVF-DGK-----------HAALIDPITISD--WQDFLTILKN-PKIEKYFHSCSEDIEVFLHY-FGMV-PTPIIDSQILASFLDNPLSSGYASLVKKYLEVELDKSETRTDWLKR-PLTEKQCEYAINDVLYLFPLVNILKSQLTENDYLQAAYQECQMAVVRKCTVI-
A0A0T9TCL1/1-194           --------MNYQLITTNSALQQVCEQARTHTHVALDTEFVRTRTYYPQLGLIQLF-DGE-----------QLSLIDPLPITQ--WQPFRALLQD-LSVVKYLHAGSEDLEVFLNA-FEQM-PTPMIDTQVLAAFSGRTLSCGFAMLVNEFEGIELDKSESRTDWIAR-PLSEKQCDYAAADVFYLLPLAAKLVEATEAAGRMDAAIDECELLCRRRSETL-
A0A1B3NEQ0/1-190           ----------MKLITTTADLADACARLASHPFVTVDTEFLRETTYYPKLCLIQLA-SPD-----------EAVLVDPLA-PELDLAPFFGLMVD-EAVVKVFHAARQDLEIVWML-GRVL-PSPLFDTQVAAMVCGYGDSVGYEQLANDLAKARIDKSSRFTDWSRR-PLNEAQLVYAEADVTHLRDIYLALKADLETTGREGWVAEEMAVLNSPAT----
D6LMU9/1-192               ----------MQLITTTEALEEAVSALAKSDFVTVDTEFIRETTFWPELCLIQMA-SPD-----------HTALVDALA-PGLDLAPFFRLMAD-EEIVKVFHAARQDIEIVFHL-GNLI-PSPVFDTQVAAMVCGFGDAISYDQLVQKVTSKHLDKSSRFTDWRRR-PLSDKQLDYALADVTYLRDIYLYLKEELQKEGRSEWVNEEMAVLTARQTYD--
A0A085HJ71/1-194           --------MNYQLITTDEQLKGMCDSASQKSLIALDTEFVRTRTYYPQLGLIQLY-DGD-----------NVTLVDPLNIKD--WSPFVALLTN-KQVIKYLHACSEDLEVFQHE-FGVM-PDPMIDTQVLAAFNQRPLSTGFATLVAEYLGVELDKSESRTDWLAR-PLTEKQCVYAAADVYYLLPIAEKIQNETQERGWLAAAEDECIMMSARRGETL-
A0A1B8QTQ0/10-202          ---------HFSLITTNTKLSEICLLAQQQDIVALDTEFIRISTYFPKLGLIQLY-DGK-----------RVSLIDPLMITD--FSPFVKLLAD-SHVLKVLHSCSEDLVVFSQE-FNQL-PTPMIDTQIMARFLGLGMSAGLAKLVQQYLNIKIDKGATRTDWIKR-PLSKIQLQYAAGDVWYLLPLYHILQQELSQTPWLKAVKEDCELALIKTYKLK-
A0A0Q6CVG7/1-191           ----------MELIATTQALAETCTRLAAQPFVTVDTEFMRETTYYPKLCLIQMA-GPD----------GTACLVDPLA-QGLDLKPFLDLMAD-EGVVKVFHSARQDLEIIWLM-GGLL-PHPFFDTQVAAMVCGYGDSVSYEQLVNDVAKARIDKSSRFTDWSRR-PLSEAQLAYALSDVTHLVTIYQVLAAELLRTDRGLWLDEEMAVLTSPET----
A0A0K1DLS1/3-194           --------IDIHWIRDDDSLARHCAQWQSLPFVALDTEFMRVDTFYPIAALLQIG-DGQ-----------SAWLIDPLLINN--WAPLSALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLNIDLPKGETRSDWLQR-PLSDTQISYAAEDAVHLAELFAILRPRLSDD-KYAWLLDDGAELVANLRRE--
A0A0K8M0C5/3-194           --------IDIHWIRDDDSLARHCAQWQSLPFVALDTEFMRVDTFYPIAALLQIG-DGQ-----------SAWLIDPLLINN--WAPLSALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLNIDLPKGETRSDWLQR-PLSDTQISYAAEDAVHLAELFAILRPRLSDD-KYAWLLDDGAELVANLRRE--
A0A0E2V0G3/3-194           --------IDIHWIRDDDSLARHCAQWQSLPFVALDTEFMRVDTFYPIAALLQIG-DGQ-----------SAWLIDPLLINN--WAPLSALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLNIDLPKGETRSDWLQR-PLSDTQISYAAEDAVHLAELFAILRPRLSDD-KYAWLLDDGAELVANLRRE--
A0A0Q0E7J5/3-194           --------IDIHWIRDDDSLARHCAQWQSLPFVALDTEFMRVDTFYPIAALLQIG-DGQ-----------SAWLIDPLLINN--WAPLSALLEN-PDVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQEVLNIDLPKGETRSDWLQR-PLSDTQISYAAEDAVHLAELFAILRPRLSDD-KYAWLLDDGAELVANLRRE--
A0A1C7P8W3/1-190           ------------MIETTAELAAACETLASGQYLTIDTEFLRETTFWPQLCLIQMA-GPD-----------IAVIVDPLA-KGIDLAPFFELMAN-TNVIKVFHAARQDIEIIYNL-GKLI-PHPIFDTQVAAMVCGFGDSVSYDQLVSRIKNVHIDKSSRFTDWSRR-PLTEKQLDYALADVTHLRDVYQHLKQELEREGRSLWLTEEMAILEAKETYD--
A0A074NLM5/3-194           ---------IHDLITTTEALAELCERLAKSEFVAVDTEFMRENTYWPELCLVQIA-NTE-----------EAAAIDPLA-SGIDLTPLLDLMCDNDEVLKIFHAGGQDVEIIVNL-TGKT-PFPIFDTQIAMMAISQSEQIGYANLVETWLNLTIDKGARFTDWSRR-PLTDRQIEYAIGDVTHLSKIFPKILKKLIKTQRGAWLDAEMEKLADPSN----
A0A0N0JMI2/4-192           ----------HPLVTDTATLAALCERLSHADFVCVDTEFMRESTYYPELCLVQVA-SST-----------EAAAIDPMA-AGLDLAPLLKLLVE-DEVLKVFHAGGQDLEIIYNL-TRKT-PSPLFDTQIAAMALGLGEQIGYTNLVAAYSGVQVDKGARFTDWARR-PLNDRQLDYAIGDVTHLARLFPKMLDRLRKTGRGEWLDDEMARAADPA-----
A0A1E8MXW9/1-193           --------MNYQIISQLGDLQRVCLAARDADVVMLDTEFVRTRTFFPQLGLIQMF-DGE-----------NLSLIDPTVLDE--MTPFVELLQD-TSVLKVLHACGEDLEVFQNA-FGCT-PFPMVDTQIMAAFLGYGLSTGFAALVQDQLQVELDKSESRTDWLAR-PLSDKQLEYAAADVFYLLPMYEKLVERVTQAGWWDAALQESELQVAKRTKG--
A0A0P1DEM6/5-193           ---------EIQWIRDDASLAQQCREWRTQPYLALDTEFMRVDTFYPAAGLVQVG-DGR-----------QEWLIDPLLIQD--WSPFAELLED-ERVVKVLHACSEDLEVFLRL-TGSL-PVPLFDTQLAAAYLGMAHSMGYSKLVKEVLDIDLPKDETRSDWLQR-PLTEMQMRYAADDVQHLAQVYLALDARLSEE-KRAWLLEDGAELVANLC----
A0A1G5KG68/5-193           ---------EIQWIRDDASLAQQCREWRTQPYLALDTEFMRVDTFYPAAGLVQVG-DGR-----------QEWLIDPLLIQD--WSPFAELLED-ERVVKVLHACSEDLEVFLRL-TGSL-PVPLFDTQLAAAYLGMAHSMGYSKLVKEVLDIDLPKDETRSDWLQR-PLTEMQMRYAADDVQHLAQVYLALDARLSEE-KRAWLLEDGAELVANLC----
A0A1C7BS50/5-193           ---------EIQWIRDDASLAQQCREWRTQPYLALDTEFMRVDTFYPAAGLVQVG-DGR-----------QEWLIDPLLIQD--WSPFAELLED-ERVVKVLHACSEDLEVFLRL-TGSL-PVPLFDTQLAAAYLGMAHSMGYSKLVKEVLDIDLPKDETRSDWLQR-PLTEMQMRYAADDVQHLAQVYLALDARLSEE-KRAWLLEDGAELVANLC----
A0A1J0IYZ3/5-193           ---------EIQWIRDDASLAQQCREWRTQPYLALDTEFMRVDTFYPAAGLVQVG-DGR-----------QEWLIDPLLIQD--WSPFAELLED-ERVVKVLHACSEDLEVFLRL-TGSL-PVPLFDTQLAAAYLGMAHSMGYSKLVKEVLDIDLPKDETRSDWLQR-PLTEMQMRYAADDVQHLAQVYLALDARLSEE-KRAWLLEDGAELVANLC----
B0KSS5/3-195               --------IEIHWIRDDQSLAEHCRDWHQLPFVAVDTEFMRVDTFYPKAGLIQIG-DGQ-----------RAFLIDPLLIGD--WQPLADLLED-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQDVLGIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAELFTELRPRLSDD-KYTWVLEDGAELVAALRREV-
G4E3E8/3-194               ---------HAELIDSAEALEALCAHLQQQRWFALDTEFVREKTYYPKLCLIQVA-TAQ-----------QVACIDPLHISD--LSPFLACLHN-PAITKVLHAASQDLELFYCL-DGRV-PAPIFDTQLAGALLGYGDQAGYAKLVSAMLGVELDKDMTRTDWSQR-PLSAAQLRYAEDDVRYLAQLYPLMHTQLSETRRLEWLASDFAALSEARHYE--
A0A0J6JAA0/3-195           --------IDIHWIRDNDSLGQHCAEWQHLPFIALDTEFMRVDTFYPIAGLIQIG-DGE-----------RAFLIDPLTIDN--WQPLAALLEN-PAVVKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVKEVLDLDLPKGETRSDWLQR-PLSETQISYAAEDAQHLAEVYVQLRPRLSDD-KYNWVLEDGAELVANLRREV-
A0A199Y7X0/1-193           ----------MEPITTTEELRSLCERLRKFEYVTVDTEFMRDSTYWPQLCLVQLA-SPEP--------SDNGAAVDPLA-EGIDLTPLFELMQD-EAVVKVFHAARQDIEIFVHL-SGKV-PHPVFDTQVAAMVLGYGDQVGYETLVNKVARKSIDKSMRFTDWSRR-PLSTKQISYALSDVTHLRVIYEAFHERLEANGRAVWLFEEMERLTDPSI----
A0A0G3GJD2/3-195           --------IDIHWIRDNDSLGQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGK-----------RAYLIDPLTIDN--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQDVLGIDLPKGETRSDWLQR-PLSETQISYAAEDALHLAEVFVQLRPKLSDE-KYAWVLEDGAELVANLRREI-
A0A0W2HHK8/10-203          --------LNYQMITTNDELASLCEVTRDFPAIALDTEFVRTRTYYPQLGLIQMY-DGK-----------HVSLIDPLGITD--WTPMRDLLLD-TAVTKYLHAGSEDLEVFLNT-FGIM-PQPLIDTQILAAFSGRPLSWGFAAMVEEYTGLTLDKSESRTDWLAR-PLTARQLEYAAADVFYLLPIAGQLMKEAEASGWLSAALDECRMTQLRRQEVV-
A0A0B4X2J9/1-190           ------------MIETTAELAAACKELATSDFITIDTEFLRETTFWPELCLIQMA-SLT-----------TEVIIDPLA-KGIDLAPFFELMAN-PNVLKVFHAARQDIEIIFHR-GGLI-PHPIFDTQVAAMVCGFGDSVSYDQLISRTKGVQIDKSSRFTDWSRR-PLSEKQLDYALADVTHLRDAYIYLKAELEREGRSSWLSEEMDILESRETYD--
E6YQU8/1-189               ----------MRLITNTIDLEIAIAALRKSNFVTVDTEFIRETTFWPQLCLIQVA-SSD-----------VTILIDPMA-QDINLQPFFDLMID-KKIVKVFHAARQDIEIIYHL-GGVI-PSPLFDTQVAGSICGFGDSISYDQIVQRCTGHHLDKSSRFTDWSCR-PLSEKQLLYALADVTYLREVYLVLKKQLEEKKRTHWMNDEMAILLTPT-----
A0A0M2QZ89/1-194           --------MNYQMITTDDGLRAVCEAASAASAVALDTEFVRTRTYYPQLGLLQLF-DGQ-----------QVSLIDPLTIND--WAPMRDLLLN-QDVTKYLHAGSEDLEVFLNA-FNLM-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVALDKSESRTDWLAR-PLTERQCEYAAADVWYLLPIASQLMAETDRAGWLPAALDECRVMQQRRQEVV-
A0A099FPA4/1-199           ----------MRTLTTTAELAEFCALAKTQPYVTLDTEFLRERTYYSRLCLIQAA-LPPASAAK--AAGGSAVLIDPLV-EGLSLEPLYDLFRH-KATVKVFHAARQDLEIFFHD-AGVM-PDPLFDTQIAAMVCGFGEQVGYETLVKKIARQPLDKSSRFTDWSHR-PLSDAQAAYALADVTHLRAIYEFLSTQLDKTGRAPWLAEEVAVLLNPET----
W0AUW3/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGHPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVRYLLPITTKLMAETEASGWLPAALDECRLMQIRRQEVL-
A0A0M1R5I4/1-194           --------MNYQMITTNDELASLCEVTRDFPAIALDTEFVRTRTYYPQLGLIQMY-DGK-----------HVSLIDPLGITD--WTPMRDLLLD-TAVTKYLHAGSEDLEVFLNT-FGIM-PQPLIDTQILAAFSNRPLSWGFAAMVEEYTGLTLDKSESRTDWLAR-PLTERQLDYAAADVFYLLPIAGQLMKEAEASGWLPAALDECRMTQQRRQEIA-
A0A196R2E8/1-194           ----------MKTITTTADLAEFCAQAAQHPYVTVDTEFLRERTYYSKLCLVQLA-MPG-------TDDSGAVLLDPLS-DGISLEPLYDLFRD-TSVVKVFHAARQDLEIFFVD-AQVF-PEPLFDTQVAAMVCGFGEQVGYETLVRKICHEGVDKSSRFTDWSRR-PLSEAQKKYALADVTHLRQIYEFLAEKLEESGRARWVKEELTILTSPDT----
A0A062UMM4/1-196           -----MTDNTLTPITEQSALEDLCGKLAESDFICVDTEFHRETTYWPELCLVQAS-APG-----------VEGLIDPLA-EDLDIGPFLDLIAM-DNRVKVFHAARQDIEIFNRL-IGHP-PGPIFDTQVAAMALGYGDSISYDNLVQRVVRRQIDKSSQFTDWMRR-PLSQKQLIYALGDVTHLRDIYLIMREELEKSGRMNWVREEMADLEDPAKY---
A0A1F3AAZ5/1-190           ----------MKLITTTDELAAFCKPLAEAEFVAVDTEFMRERTYWPKLCLAQVA-GPE-----------DAAAIDTLA-DGIDLAPLDELMAN-PKVLKVFHAARQDLEIFYLR-MTKV-PQPLFDTQVAAMVCGHGEAASYESLATKLAKAKIDKSSRFTDWSRR-PLSERQITYALSDVTHLRVVYEKLRLQLEKSGRLPWITEEMAVLNDPAT----
A0A127EXC5/1-190           ----------MNLITTTDELAAACSRLSSHPFVTVDTEFLRETTYYPLLCVAQMA-CDD-----------EAVVVDALA-PGLDLAPFFELMGN-TRVLKVFHAARQDIEIVWHR-AGMI-PQPMFDTQVAAMVLGYGDSISYDQLVQRITGDAIDKSNRFTDWSRR-PLTPAQTAYAVSDVTHLRSVYTALLADLGRRARAGWMDDEMEVLTSPDT----
A0A0D6NDD0/12-200          ----------PRLVSTTQDLADSLVRLRHERFLTIDTEFMRERTYWPELCLVQIG-GEQ-----------DVLLIDALA-EGLDLTPLAELMAD-DAVLKVFHAARQDLEIFLYL-FDAL-PTPVFDTQVAAMVAGYGDQVGYDSLVGSLTGHSIDKSHRFTDWSAR-PLTPAQLTYAAGDVTWLRLVYERLVKKLEQEKRLEWVSAEMAELADPA-----
A0A1E4DMD8/1-189           ----------MNLITTTAELAEACARLAQHPFVTVDTEFLRETTYYPKLCLIQLA-SPD-----------EAVLVDPLA-PDLSLEPFLALMSD-PKVVKVFHAARQDLEIVWMI-GKLI-PTPLFDTQVAAMVCGYGDSVGYEQLANDLAKARIDKSSRFTDWSRR-PLTDAQLAYAESDVTHLRDIYLALAADLAESGRESWVAEEMAVLTSPG-----
A0A1H1ZSC0/3-195           --------IDIHWIRDNDSLGQFCTEWQKLPFVALDTEFMRVDTFYPIAGLLQVG-DGQ-----------RAYLIDPLTIDD--WQPLAALLEN-SAVVKVVHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSDTQVSYAAEDAVHLAEVFTQLRPKLSED-KYNWVLEDGAELVANLRREV-
A0A0F3U0W1/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A023YY35/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A025CPC1/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A0C5SIB7/3-195           --------IEIHWIRDDQSLAEHCRDWQQLPFVAVDTEFMRVDTFYPKAGLIQIG-DGQ-----------RAFLIDPLLIGN--WQPLADLLED-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVHEVLGIELPKGETRSDWLQR-PLSETQVSYAAEDAVHLAELFTVLRPRLSDD-KYAWVLEDGAELVAALRREV-
A0A059DNM0/1-197           -----MTDNTLTPITEQSALEDFCGKLAESDFICVDTEFHRETTYWPELCLVQAS-SPD-----------VEGLIDPLA-EDLDIGPFLNLIAA-DNRVKVFHAARQDIEIFNRL-IGHP-PGPIFDTQVAAMALGYGDSISYDNLVQRVLRRQIDKSSQFTDWMRR-PLSQKQLVYALGDVTHLRDAYLIMREKLESSGRLTWVQEEMADLEDPAKYD--
A0A0R3MJ86/1-191           ----------MDLITTTSDLAAACSRLAQHKVITVDTEFLRETTYYPLLCVVQMA-SAD-----------EAVVIDTLA-PGIDLKPFFGLMGN-EAVLKVFHAARQDIEIVWHQ-SGTI-PHPIFDTQVAAMVLGYGDSIAYDQLVERVTGHRPDKTHRFTDWSRR-PLTPEQMHYAISDVTHLRDVFAALDADLKKRGRSDWVSEEMEVLTSPRTY---
I4YWZ8/1-192               ----------MDLITSTDALAAACNRLSQHPFVTVDTEFLRETTYYPKLCLIQMA-GPDP---------ADAYLIDPLA-EGISLEPFMTLMAN-PDVVKVFHSARQDLEIVWNL-GGIV-PIPLFDTQVAAMVCGYGDSVSYEQLANDLAKAKIDKSSRFTDWSRR-PLTDAQLTYALSDVTHLVQVYEALMAQLQKNGRLEWLAEEMAILTSPET----
R8WUC8/1-190               ------------MITTDDALATLCEAVREFPAIALDTEFVRTRTYYPQLGLIQLF-DGK-----------HVALIDPLGITD--WSPLRDILRD-TAITKFLHAGSEDLEVFLNA-FGEL-PQPLIDTQILAAFCGRPLSWGFASMVEEFTGVALDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITTKLMAETEASGWLPAALDECRLMQQRRQEIL-
A0A1E7DCR1/1-194           --------MQYQLITTSEQLEKVCTAAQRQEAVALDTEFVRTKTLTPHLGLIQLY-DGH-----------QLVLIDPLAIDN--MQPFIDLMEN-TEVVKVLHSCSEDIEAFLTA-FDTE-PTPVFDTQLAGSILDMGPSLGYAKLVELLCDISLDKGESRTDWLAR-PLREAQLSYAANDVLYLLPCYQQLASKVQEAGKVHWIYQEIALLVDKKRAQM-
B7KS94/1-191               ----------MELISATQALSDACTQFAAQPFVTVDTEFMRETTYYPKLCLIQMA-GPD----------GFACLVDPLA-KDLDLKPFFDLMAD-ESTVKVFHSARQDLEIIWLL-GGLL-PQPFFDTQVAAMVCGYGDSVSYEQLVNDVAKARIDKSSRFTDWSRR-PLSEAQLAYALSDVTHLVTIYQVLAAELLSTDRGLWLDEEMAVLTSPET----
A0A0Q4WS21/1-191           ----------MELISATQALSDACTQFAAQPFVTVDTEFMRETTYYPKLCLIQMA-GPD----------GFACLVDPLA-KDLDLKPFFDLMAD-ESTVKVFHSARQDLEIIWLL-GGLL-PQPFFDTQVAAMVCGYGDSVSYEQLVNDVAKARIDKSSRFTDWSRR-PLSEAQLAYALSDVTHLVTIYQVLAAELLSTDRGLWLDEEMAVLTSPET----
A0A0S9K845/1-191           ----------MELISATQALSDACTQFAAQPFVTVDTEFMRETTYYPKLCLIQMA-GPD----------GFACLVDPLA-KDLDLKPFFDLMAD-ESTVKVFHSARQDLEIIWLL-GGLL-PQPFFDTQVAAMVCGYGDSVSYEQLVNDVAKARIDKSSRFTDWSRR-PLSEAQLAYALSDVTHLVTIYQVLAAELLSTDRGLWLDEEMAVLTSPET----
A0YC02/13-203              ----------PVYIDDNETLRKFCLQWQHAAVLALDTEFIRTDTFYPIGALLQIS-EGT-----------GCFLIDPLSIDD--FSPLTALLTD-PAIVKVLHSCSEDLEVFERL-FQVL-PQPLIDTQIAAGLDGYGFSLGYQKMTEALLQIHVAKGETRSNWLQR-PLTESQIHYAALDVAYLPEMYQQLKQSLESKGRWQWLLDECSPLTNGQSDT--
A0A0N1RV29/1-194           --------MNYSLIDNDDRLAEVCNKARQHTAVALDTEFVRTRTYYPQLGLIQLF-DGE-----------QLVLIDPLPVRD--WSPFIELLTD-TRVTKFLHAGGEDLEVFLHR-FAVL-PQPMIDTQILAAFSGQPLSWGFASMVAHFTQVELDKSEARTDWLAR-PLTERQCQYAAADVHYLLPIAHQLMQQVEQAGNMAAALSECENLCQRRLDSL-
D1NZ56/1-194               --------MNYRLVTTDSELAQVCQEASDAPWLALDTEFVRTRTYYPQLGLLQLY-DGN-----------QVSLIDPLLMTD--FSPFKALLTN-PNQLKFLHAGSEDLEVFIHD-FGCV-PEPMIDTQIVAAFLGYPISCGFATLVVEHLGIELDKSESRTDWLAR-PLSAKQCDYATADVLYLLPLAKILMEKVTEAGYLDDAKDECQRVVARRQKVV-
A0A0Q6KVB7/4-194           ----------HPLITDSATLANLCARLANADFITVDTEFMRESTYWPELCLIQIA-DVN-----------EAAAIDPLA-PGLDMKPLLDLLVENEDVLKVVHAGGQDIEIVYNL-TGKT-PHPLFDTQVAAMALGQGEQIGYSNLVDSWLGIAVDKGARFTDWSRR-PLDARQIEYAIGDVTHLATIFPMMLERLRKTGRGAWLDQEMERLADPSN----
N2BPA9/1-187               -----------MYISEFSQMEEFIARVRAEKAVAVDTEFLREKTFYPRLCLIQIG-TAK-----------ETAAIDPLLIED--LTPVKELLTD-ESVVKIFHACSQDMEVIDHT-LGVV-AHPIFDTQLAAAFLGYRMQLGYGALVEAYTGVHLPKAASLTDWSYR-PLDSEQLEYAEDDVRYLPGIYDQMITSLVKQNRLSWVMPEFEAFCDPS-----
G8PYH7/3-195               --------IDIHWIRDNDSLGQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGK-----------RAYLIDPLTIDN--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVFVLLRPKLSDE-KYRWVLEDGAELVANLRREV-
A0A0F5ZWY9/1-193           --------MNFDIVTELSQLERVCERARQVPAVMLDTEFVRTRTLYPRLGLIQLY-DGD-----------TLSLIDPIELED--MSPLWALLTD-ESVVKVLHACSEDLEVFHHY-AGVM-PTPMVDTQIMAAFLGHGLSTGFATLVEEYLEVTLDKGEARTDWCAR-PLSEKQLEYAAADVYYLLPLYSLLAKRITEEGWEDAVKQECALMVSKRGKT--
A0A0F5EYH2/14-206          ---------HFQIIDSDPALEQVCSQAGQCKAVALDTEFIRTRTYYPKLGLIQLY-DGE-----------QVSLIDPLAITD--FSPFIALLAD-QNVLKVLHACKEDLEIFHHY-FKQL-PTPLVDTQVISQFLGFGHSMGFASLIQHYFELELDKGASRTDWLSR-PLSHTQLHYAAADVWYLLPLYEEMQQYLVQTVWQSAVLNECEMLLENCQKAK-
A0A0M7AJ14/1-191           ----------MEVITKTKDLAAACQRLATNDYVTVDTEFLRETTFWPKLCVIQMA-GTD-----------MAFIVDALA-EGLDLEPFFDLMRD-DSVTKVFHAARQDIEIIYHL-GGLI-PAPLFDTQVAAMVCGFGDSISYDQLVYKVTGARIDKSSRFTDWARR-PLTAKQLDYALADVTHLRDAFQFLKANLAEQNRTHWVQDEMTVLTSVATY---
G6XF32/14-202              -----------VLLTTTEDVVRVCEKLQQEPFVTIDTEFVRERTYWPELCLVQLA-GRE-----------DVVLIDTLA-PGIDLTALGQLLAE-PDCIKVFHAARQDLEIFLHI-FDRL-PVSVFDTQVAAMVAGFGDQVGYDSLVGAITGRSIDKAHRFSDWAAR-PLTKAQIAYAAADVTHLRTVYLALRKQLEEQGRLHWADAEQGVLTEEST----
A0A147EBU1/4-195           ----------HPLITKSEDLAALCDRLSHAEFVAVDTEFMRENTYWPELCLVQIA-DTK-----------EAAAIDPLA-PGLDLQPLWDLLTDNEDVLKVFHAGGQDVEIIFNF-TGRT-PHPIFDTQIAAMAITQSEQIGYSNLVESWLGLTIDKGARFTDWSRR-PLTERQIEYAIGDVTHLAKIFPRMLKRLIKTDRGQWLDQEMEKLADPENY---
A0A0W0NIC9/3-195           --------IDIHWIRDDASLAEHCAHWQRLPYVALDTEFMRVDTFYPIAGLLQIG-DGA-----------SAFLIDPLSITQ--WQPLTQLLEN-TAVIKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSDTQVSYAAEDAVHLAEVFEKLRPQLSED-KYAWVLEDGAELVAQLRREV-
F0EEB4/3-195               --------IEIHWICDDQSLAEHCRDWQQLPFVAVDTEFMRVDTFYPKAGLIQIG-DGQ-----------RAFLIDPLLIGN--WQPLAELLEN-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQEVLGIDLPKGETRSDWLQR-PLSDTQVSYAAEDAVHLAELFTVLRPRLSDD-KYAWVLEDGAELVAALRREV-
A0A177YY38/3-195           --------IEIHWICDDQSLAEHCRDWQQLPFVAVDTEFMRVDTFYPKAGLIQIG-DGQ-----------RAFLIDPLLIGN--WQPLAELLEN-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQEVLGIDLPKGETRSDWLQR-PLSDTQVSYAAEDAVHLAELFTVLRPRLSDD-KYAWVLEDGAELVAALRREV-
A0A0Q8FSU7/1-189           ----------MTTITTTAELAAFCNELKGQPFIAVDTEFMRETTYWPKLCLIQVA-SPD-----------TEACIDPLA-DGIDLAPLLDILRD-PSVLKVFHAARQDVEIFNNL--DAM-PTPLFDTQVAGMAAGFGEQIAYDALVRQMLKIELDKSSRFTDWARR-PLSEAQLTYAVADVTHLATLFPILRDRLDKAGRLAWVEEEMKALNDPAA----
A0A1B3CHD7/3-195           --------IDIHWIRDNDSLGRFCTEWQQLPFVALDTEFMRVDTFYPIAGLLQIG-DGK-----------RAFLIDPLTIDN--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TRSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVFVQLRPRLSDE-KYAWVLEDGAELVANLRREV-
A0A1B1A1D1/1-194           ----------MKTLTTTDELRAFCEEAANYPYVTVDTEFLRERTYYSKLCLIQIA-FRG-------DGKTDAVLVDPLS-GDLSLEPLYELFRN-EDVVKVFHAARQDLEIFWVD-ASVF-PKPLFDTQVAAMVCGFGEQVGYETLVRKICKQGLDKTSRFTDWSRR-PLSDAQKTYALADVTHLRQIYEHLRKELDKTGRSHWVAEELQVLTDPAT----
Q1Z5L6/1-194               --------MNFEIITTTQRLDTICDHARTYSVVMLDTEFVRTRTLYPKLGLIQMF-DGD-----------NLVLIDPIEIED--LTPFWDLLRD-QSVIKVLHACGEDLEVFQHH-AGCL-PTPMIDTQLMAAFLGHGVSAGFGSLVSEYVGVDLEKGEARTNWLAR-PLTDKQLDYAAADVFYLLPLYETLLEKVKAKGWMDALELECTALMQKRTQGV-
A0A0K2W519/1-191           ----------MRVITTQEELESVIAAFEKSEFVTVDTEFIRETTFWPILCLIQIA-APG-----------IEALIDPLA-PGIDLKPFFRLMAN-EAVLKVFHAARQDIEIIVHL-GDLV-PHPVFDTQVAAMVCGFGDSVSYDQLVQKVTGARLDKSSRFTDWRHR-PLSDKQLEYALADVTHLIKVYQHLSAELKREDRAHWLKEEMDILTSRETY---
I2JMV4/7-197               ---------SCLYIDSDSVLNENCAIWAQAEFLAIDTEFIRTDTFYPIAGLLQVG-AAG-----------RLYLIDPLKISD--WSAFTELLRR-QDIPKVIHSCSEDLEVFQVL-FQCV-PQPLLDTQIGAALAGLGFGLSYQKLIMECLGIHVEKGETRSDWLRR-PLSESQCTYAALDVLYLQKVYPLLKQRLEAKGALSWWLEDCATITTQAES---
A0A127M4M0/7-197           ---------SCLYIDSDSVLNENCAIWAQAEFLAIDTEFIRTDTFYPIAGLLQVG-AAG-----------RLYLIDPLKISD--WSAFTELLRR-QDIPKVIHSCSEDLEVFQVL-FQCV-PQPLLDTQIGAALAGLGFGLSYQKLIMECLGIHVEKGETRSDWLRR-PLSESQCTYAALDVLYLQKVYPLLKQRLEAKGALSWWLEDCATITTQAES---
A0A0C2HUY7/1-194           ----------MKTLTSTEDLQAFCEAAAQHDYVTVDTEFLRERTYYSKLCLVQLA-YPG-------AGNENAVLVDPLA-DGLSLEPLYELFRN-ESVVKVFHAARQDLEIFWVD-AQVF-PKPLFDTQVAAMVCGFGEQVGYETLVRKIVKQGLDKTSRFTDWSRR-PLSDAQKTYALADVTHLRQIYEYLAAELKRTGRARWVEEELQVLTDPAT----
T0HT81/4-195               ----------HPLITDSKTLAEFCARIAKSPYIAIDTEFMRENSYWPDLCLVQVA-DPH-----------EAAAIDPKA-PGLDLSPLLDLMVDNEDVLKVFHAGGQDLEIIYNL-TGKT-PHPLFDTQIAAMALGLGEQIGYGNLVDAWLGVQLDKGARFTDWGRR-PLDKRQIDYAIGDVTYLIQIFPMMLEELRKTGRGGWLDQEMERVCDPENY---
A0A0Q7W9J3/1-191           ----------MHVITTQGELEAAIKALEQSDFVTVDTEFIRETTFWPILCLIQMA-APG-----------VTALVDPLA-PGLDLKPFFELMAN-EKVEKVFHAARQDIEIIVHL-GNLV-PHPVFDTQVAAMVCGFGDSVSYDQLVQKITGARLDKSSRFTDWKYR-PLSDKQLEYALADVTHLIDVYKHLKAELDRENRAHWLNEEMRVLTSRETY---
A3X1L0/39-229              ----------MDLITTTAELASVCARFAKHPVITVDTEFLRETTYYPLLCVIQMA-SPD-----------EAIAIDALA-EGIDLNSFFTLMSN-EGVLKVFHAARQDIEIIWHQ-AGII-PHPVFDTQVAAMVLGYGDSIAYDALVERVTGHRPDKTHRFTDWSRR-PLTAEQLEYAVADVTHLRDVFAALDVDLRKRGRSDWVSEEMEILTSPKTY---
U1JGU3/1-193               --------MQYQLIETQNQLNTFVEQIKNKPILAIDTEFMRRRTLYPEVALIQVF-DGE-----------HLALIDPLAELS--LFDFWEILKD-PAVLKVLHSPSEDIEVFQKY-AGFV-PAPLFDTQFALQLLGEGNCMGFALMVKELQGIEIDKSESRTNWLQR-PLTKKQLDYAAADTFYLLPCFELIIDRINAAGFFDIVINESELIAKKRAFQ--
A0A1B3A1L7/1-194           --------MNYQMITTDNGLRAVCEAASTASAVALDTEFVRTRTYYPQLGLLQLF-DGQ-----------QVSLIDPLTIND--WAPMRDLLLN-QDVTKYLHAGSEDLEVFLNA-FNLM-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVALDKSESRTDWLAR-PLTERQCEYAAADVWYLLPIASQLMAETDRAGWLPAALDECRVMQQRRQEVV-
A3D3Q8/3-193               ---------AFQYVSDEASLNALVAQYKQSKILVLDTEFVRTRTYYAKLGLIQAY-DGK-----------TLALIDPVALPD--LAQFWALLSD-PNIVKLVHSCSEDLEVFAHY-GKCQ-PTPLFDSQIAASLCGMGHGVGYAKLVETCLGEVIDKGESRTDWIRR-PLTEAQLSYAANDVLYLYQLYPQLEAKLSAQGRLAWLYEEGERMTLGRLA---
A0A0P7D6W8/1-193           --------MQYQLIETQNQLNDFVEKITGKPVLAIDTEFMRRRTLYPEVALIQVY-DGE-----------HLALIDPLAELS--LFDFWQVLKN-PEVLKVLHSPSEDIEVFQKY-AGFV-PTPLFDTQFALQILGHGNCMGFAHMVKELLDIEIDKSESRTNWLQR-PLTEKQLDYAAADTYHLLPCFEIIKKQIDEAGFFDIVISESELVAQKRAYQ--
A0A1B8QZL8/10-201          ---------HFTLIQNNEELAQVCQLARQQSAVALDTEFMRVSTYYPKLGLIQLY-DGD-----------RVSLIDPLSITD--FSPFVELLRD-QQVTKILHACNEDLLVFLQE-FDAL-PQPMMDTQIMARFLGFANSAGLAKLVLHYLGVEMDKGATRTNWLKR-PLSPVQLQYAVGDVWYLLPVYQKMQIELAQSPWLQAVIDDCQLAISKTSKL--
A0A0M0HPF6/1-194           --------MNYQIITQSKQLETVCLQARDTDIVMLDTEFVRTRTYYPQLGLIQLF-DGE-----------HLSLIDPTVIED--MSAFEQLLKD-TSVLKVLHACGEDLEVFQNS-FGCL-PLPMVDTQVMAAFLGHGLSTGFASLVESFLNVELDKSESRTDWLAR-PLTDKQLDYAAADVFYLYPLYEKLAQQVTDAGWWEAAQQESELLASKRVKNI-
A0A0H6VMX2/1-194           --------MNYQIISQVGDLQRVCLAARDADVVMLDTEFVRTRTFFPQLGLIQMF-DGE-----------NLSLIDPTVLDE--MTPFVELLQD-TSVLKVLHACGEDLEVFQNA-FGCT-PFPMVDTQIMAAFLGYGLSTGFAALVQDQLQVELDKSESRTDWLAR-PLSDKQLEYAAADVFYLLPMYEKLVEQVTQAGWWDAALQESELQVAKRTKVS-
Q1ZP15/1-194               --------MNFDIITTTEQLQQRCDSARTHTAVMLDTEFVRTRTLYPRLGLIQLF-DGE-----------QLSLIDPLEVED--MEPLWALLRD-QSVIKVLHACGEDLEVFQHH-AGCL-PTPMFDTQLMAAFLGHGISTGFGTLVKEYVGVELDKGEARTNWLAR-PLTEKQLDYAAADVYYLKPLFESLLAKVEERGYMEALQQECESVMHRRIKPV-
G5PM70/1-190               ------------MIETDDALASLCEAVRACPAIALDTEFVRTRTYYPQLGLIQLF-DGA-----------NVALIDPLGISD--WSPLKAVLRD-TGITKFLHAGSEDLEVFLNA-FGEL-PEPLIDTQILAAFCGRPLSWGFASMVEEYTGVALDKSESRTDWLAR-PLSERQCEYAAADVWYLLPIAKKLMIETEAAGCLPAALDECRLMQQRRQEIQ-
J3F4D3/3-194               --------IDIHWIRDNDSLAQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQVG-DGK-----------RAYLIDPLTINA--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSDTQISYAAEDAVHLAEVFVQLRPKLSDD-KFAWVLEDGAELVANLRRE--
Q3KGH5/3-194               --------IDIHWIRDNDSLAQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQVG-DGK-----------RAYLIDPLTINA--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSDTQISYAAEDAVHLAEVFVQLRPKLSDD-KFAWVLEDGAELVANLRRE--
A0A173IXU1/3-194           --------IDIHWIRDNDSLAQFCAEWQQLPFVALDTEFMRVDTFYPIAGLLQVG-DGK-----------RAYLIDPLTINA--WQPLAALLEN-PAVLKVLHACSEDLEVLLRL-TGSL-PAPLFDTQLAAAYLNLGFSMGYSRLVQEVLGIELPKGETRSDWLQR-PLSDTQISYAAEDAVHLAEVFVQLRPKLSDD-KFAWVLEDGAELVANLRRE--
A0A0M3BU54/1-188           ------------MIETTAALEEACRALAQSDFITIDTEFLRETTFWPELCLIQMA-SPT-----------LEVLVDPLA-KGMDLQPFFELMAN-PKVVKVFHAARQDIEIVHHL-GNLV-PHPIFDTQVAAMVCGFGDSVSYDQLVSRIKNVHIDKSSRFTDWSRR-PLSEKQLEYALADVTHLRDVYLALKEQLEREGRALWLTEEMAILESAGT----
A0A1B5EY77/3-195           --------IDIHWICDNDSLGQHCAEWQQLPFVALDTEFMRVDTFYPIAGLIQIG-DGA-----------RAYLIDPLTIDN--WQPLAALLEN-PAVIKVVHACSEDLEVLLRL-TGSL-PVPLFDTQLAAAYLNLGFSMGYSRLVQAVLDIELPKGETRSDWLQR-PLSETQISYAAEDAVHLAEVYIRLRPQLSDD-KYAWVLEDGAELVANLRREV-
A0A1B2ELD1/1-193           ----------MDLIASTDALAAACRRLSQHPFVTVDTEFLRETTYYPKLCLIQMA-SSDP---------GEAYLIDPLA-EGMSLEPFMALMAD-PSVVKVFHSARQDLEIVWNL-GGIV-PAPLFDTQVAAMVCGYGDSVSYEQLTNDLAKAKIDKSSRFTDWSRR-PLTDAQLTYALSDVTHLVKVYEALMAELEKNGRLEWLTEEMAVLTSPETY---
A0A0D8D0X2/1-183           -------------------MTDLCRQLSHSKVLAIDTEFVRTRTLYPKLGLLQVC-NGE-----------HLALIDPVAIDD--LSPFWQLLTN-GDIVKVLHACSEDLEVFLCA-ANCK-PVNLIDSQIMMSFLGQGLSMGYAAMIQHYTGIELDKSESRTDWTKR-PLSERQLSYARADVLHLFKVYPQILKQLTDSGWLEAAEEETRLLIERKFKPV-
A0A0D7PLD5/1-191           ----------MDLITTTSDLAAVCDRLAQHKVITVDTEFLRETTYYPLLCVVQMA-SAD-----------EAVVVDALA-PGIDLKPLFELMSN-EAVLKVFHAARQDIEIVWHL-SGTI-PHPIFDTQVAAMVLGYGDSIAYDQLVERVTGHRPDKTHRFTDWSRR-PLTDDQLHYAVSDVTHLRDVFAALDADLKKRDRSEWVSEEMEVLTSPKTY---
K2LE44/1-177               --------------------------MRKFEYVTVDTEFMRDSTYWPQLCLVQLA-SPEP--------SDNGAAVDPLA-EGIDLTPLFELMQD-EAVVKVFHAARQDIEIFVHL-SGKV-PHPVFDTQVAAMVLGYGDQVGYETLVNKVARKSIDKSMRFTDWSRR-PLSTKQISYALSDVTHLRVIYEAFHERLEANGRAVWLFEEMERLTDPSI----
A0A1E3YI13/1-190           ------------MIDTTAALEEACRLLAQSDFITIDTEFLRETTFWPELCLIQMA-SPE-----------HEYIVDPMA-KGLNLKPFFELMAN-SAVVKVFHAARQDIEIIFHL-GDLI-PHPIFDTQVAAMVCGFGDSVSYDQLVQKVKNVHIDKTSRFTDWSRR-PLSDKQLDYALADVTHLRDVYLKLKGQLDAEGRAEWLTEEMAILESRETYD--
A0A1E4ENK0/2-199           -----------PTITRTEDLARFCEAAKSHPYVTIDTEFLRERTYWSKLCLIQLA-VPPASTAK--TPGGEAVLVDPMA-EGLSLEPLYDLFRH-EATVKVFHAARQDLEIFFHD-AQIF-PTPLFDTQVAAMVCGFGEQVGYETLVRKIARADLDKSSRFTDWSRR-PLSDAQAAYALADVTHLRVIYEFLAAELKKTGRDAWLAEELSVLTDPET----
A0A0D5WUZ2/1-190           ------------MITTDEGLAAVCQAARQFPALALDTEFVRTRTYYPQLGLIQLY-DGQ-----------QVSLIDPLTISD--WSPFKALLQD-PDTIKYLHAGSEDLEVFLNA-FGML-PDPFIDTQILASFTGRPLSCGFATIVESYTGIALDKSESRTDWLAR-PLTERQCEYAAADVLYLLPIAEKLMAETKAAGWINAALDECHLMCSRRRDQL-
U3HQF0/3-194               --------IETQWVLDDAHLARLCAEWRQLPYVAVDTEFMRVDTFYPIAALLQVG-DGR-----------CAYLIDPLLITD--WSGFAGLLED-QKVVKVLHACSEDLEVLWRL-TGSL-PAPLFDTQLAAGYLNIGFSMGYSRLVQAVLNIELPKGETRSDWLQR-PLSDMQERYAAEDAQHLAELYAALLPKLSDE-KRAWVLEDGAELVANLQRE--
A0A0M4M381/3-195           ---------IHDLITTTEALQELCERLAKSDFVTVDTEFMRENTYWPELCLVQIA-NEE-----------EAAAIDPLA-DGIDLTPLLDLMCNNEDVLKVFHAGGQDVEIIVNL-AGKT-PHPIFDTQIAMMAISQSEQIGYANLVESWLGFTIDKGARFTDWSRR-PLTDRQIEYAIGDVTHLSEIFPKILEKLIKTDRGAWLDAEMDKLADVSNY---
A8GFH0/1-194               --------MNYQLITTDAGLQQVCDQAKKHAQIALDTEFVRTRTYYPQLGLIQLY-DGE-----------QLSLIDPLPIKQ--WQPFIELLSN-TQVVKFLHAGSEDLEVFLNA-FKTL-PTPMVDTQILAAFTGRPMSCGFATLVAEYMEVELDKSEARTDWLAR-PLTEKQCVYAAADVFYLLPMAKRLVQETEEAGWTAAASNECLLLCQRRSETL-
A0A0P7BZP3/3-195           --------IEIHWIRDDQSLAEHCRDWHQLPFVAVDTEFMRVDTFYPKAGLIQIG-DGQ-----------RAFLIDPLLIGN--WQPLAELLDD-SGVVKVLHACSEDLEVLLRL-TGKL-PQPLFDTQLAAGYLNLGFSMGYSRLVQDVLGIDLPKGETRSDWLQR-PLSETQVSYAAEDAVHLAELFTVLRPRLSDY-KYAWVLEDGAELVAALRREV-
I2S3W8/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEDSGWLPAALDECRLMQMRRQEVV-
A0A070D339/1-190           ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNV-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEDSGWLPAALDECRLMQMRRQEVV-
A0A0Q2UYQ2/1-194           --------MNYQIIDQLNDLERVCSLARDADVVMLDTEFVRTRTFYPQLGLIQLF-DGE-----------NLSLIDPLAMDE--MTPFVELLQD-TSVLKVLHACGEDIEVFKTS-FGCV-PFPMVDTQIMAAFLGYGLSTGFAALAHDLLNVELDKSESRTDWLAR-PLSQKQLEYAAADVFYLMPMYEQLLEKVTQAGWWEAAQQESELQVEKRTRTT-
Q07LH3/1-191               ----------MDLITTSEQLAAACARFAKQPVITVDTEFLRETTYYPLLCVVQIA-SAD-----------EAVVIDSLA-PGIDLKPFFELMAD-EHVLKVFHAARQDIEIVWHR-AGIL-PHPIFDTQVAAMVLGYGDSIAYDQLVERITGHRPDKTHRFTDWSRR-PLTEEQVHYAVSDVTHLRDVFAALDADLKKRGRSDWVSEEMEILTSPKTY---
A0A174LYZ6/1-189           -----------MYISTHQALVDFCQRAREFDAIAVDTEFLRERTFHPRLCLVQIA-TPA-----------ESVAVDPLVIDD--LSPLAELMAD-EGVVKVFHACSQDMEVMLHT-VGAL-PRPIFDTQVAAAFLGERQQISYGALVQTFCGVSLPKTESLTDWSRR-PLSDKQIEYAIDDVKYLIVAYTEMMSRLRELGRVDWVLDELRPLADESHY---
Q47YC8/1-193               --------MHYQLIEDQKSLNNLCEQLVKAKVLAIDTEFVRTRTLYAKLGLLQVC-DGE-----------QLALIDPLAIDD--LAPFWALLTN-ENITKVLHACSEDLEVFLTA-GNCK-PVNLIDSQIMMSFLGHGLSLGYAAMVKHFTDIELDKSESRTDWTKR-PLTEKQLDYASADVDHLFDIYPKLLAEITQAGFLAYAQIETQSMIDKKFTP--
F4SZ32/1-190               ------------MITTDDALASLCEAVRAFPAIALDTEFVRTRTYYPQLGLIQLF-DGE-----------HLALIDPLGITD--WSPLKAILRD-PSITKFLHAGSEDLEVFLNI-FGEL-PQPLIDTQILAAFCGRPMSWGFASMVEEYSGVTLDKSESRTDWLAR-PLTERQCEYAAADVWYLLPITAKLMVETEASGWLPAALDECRLMQMRRQEVV-
A0A095VD45/1-188           ------------MIETTAALEEACHALAKSDFITIDTEFLRETTFWPELCLIQMA-SPR-----------LEVLVDPLA-KGLDLKPFFELMAN-PSVTKVFHAARQDIEIVYHL-GNLV-PHPIFDTQVAAMVCGFGDSVSYDQLVNRIKGVHIDKSSRFTDWSRR-PLSDKQLEYALADVTHLRDVYLSLREQLEREGRALWLTEEMAILESPET----
A0A0A5HUV0/1-194           --------MNYQIVTDNALLEQVCQKAREVDVVMLDTEFVRTRTFYPQLGLIQLF-DGE-----------QLSLIDPTELDE--MTPFVELLQD-TSVLKVLHACGEDLEVFQNS-FGCL-PYPMVDTQVMAAFLGHGLSTGFASLVEHYLQVELDKSESRTDWLAR-PLTDKQLDYAAADVFYLLPLYEKLLNAVTEAGWWEAAQQESDLLAAKRIKNT-
A0A063KQD1/1-193           --------MQYQLIETQNQLNTFVEQIKNKPILAIDTEFMRRRTLYPEVALIQVF-DGE-----------HLALIDPLAELS--LFDFWQILKD-PTVLKVLHSPSEDIEVFQKY-AGFV-PAPLFDTQFALQLLGEGNCMGFALMVKELLGIEIDKSESRTNWLQR-PLTTKQLDYAAADTFHLLPCFKLIIERIKAADLFDIVINESELIANKRAFQ--
A3JPA5/1-194               ----------MRTITTTEDLAEYCTQAAKFPYVTVDTEFLRERTYYAKLCLVQLA-MPG-------DDDSNAVLVDPLA-KGLSLAPLYDLFRD-ENVVKVFHAARQDLEIFFVE-EGVI-PSPLFDTQVAAMVCGFGDQVGYETLVRKIAREAVDKSSRFTDWSRR-PLSDAQKTYALADVTHLRVVYEYLAKELEKSKRTKWVTEELGVLTEPST----
#=GC scorecons             00000000012248444448434743343344666989959448768465869530554000000000003446788642350144762476360446486697456968754430362508386598965844473536377437844345436695544789448099554944995597368345533733454434433453573436334332110
#=GC scorecons_70          _____________*_____*___*________*__****_*__****_*_***____________________*****________**__**_____*_*__**__*****__________*_*__***__*___*___*_**__**_______***____***__*_**___*__**__**_**______*_______________*_____________
#=GC scorecons_80          _____________*_____*___*___________****_*__**_*___*_*_____________________***_________*___*________*__**___*_*___________*_*__***__*__________*__**_________*____***__*_**___*__**__**__*______*_______________*_____________
#=GC scorecons_90          ___________________*_______________****_*__*__*___*_*______________________**______________________*__*____*_*___________*_*__***_________________*_________*_____**__*_**___*__**__*___*____________________________________
//