# STOCKHOLM 1.0 #=GF ID 3.40.50.300/FF/634234 #=GF DE Adenylate kinase homolog MTH_1663 #=GF AC 3.40.50.300/FF/634234 #=GF TP FunFam #=GF DR CATH: 4.2 #=GF DR DOPS: 98.189 #=GS 3h86A00/1-192 AC Q6LYG0 #=GS 3h86A00/1-192 OS Methanococcus maripaludis S2 #=GS 3h86A00/1-192 DE Adenylate kinase #=GS 3h86A00/1-192 DR CATH; 3h86; A:2-192; #=GS 3h86A00/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS 3h86A00/1-192 DR EC; 2.7.4.3; #=GS 1khtA00/1-192 AC P43411 #=GS 1khtA00/1-192 OS Methanococcus voltae #=GS 1khtA00/1-192 DE Adenylate kinase #=GS 1khtA00/1-192 DR CATH; 1kht; A:3-192; #=GS 1khtA00/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus voltae; #=GS 1khtA00/1-192 DR EC; 2.7.4.3; #=GS 1ki9A00/1-192 AC P43410 #=GS 1ki9A00/1-192 OS Methanothermococcus thermolithotrophicus #=GS 1ki9A00/1-192 DE Adenylate kinase #=GS 1ki9A00/1-192 DR CATH; 1ki9; A:2-192; #=GS 1ki9A00/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanothermococcus; Methanothermococcus thermolithotrophicus; #=GS 1ki9A00/1-192 DR EC; 2.7.4.3; #=GS 1nksA00/1-194 AC P35028 #=GS 1nksA00/1-194 OS Sulfolobus acidocaldarius DSM 639 #=GS 1nksA00/1-194 DE Adenylate kinase #=GS 1nksA00/1-194 DR CATH; 1nks; A:1-194; #=GS 1nksA00/1-194 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus acidocaldarius; #=GS 1nksA00/1-194 DR EC; 2.7.4.3; #=GS 3h86B00/1-192 AC Q6LYG0 #=GS 3h86B00/1-192 OS Methanococcus maripaludis S2 #=GS 3h86B00/1-192 DE Adenylate kinase #=GS 3h86B00/1-192 DR CATH; 3h86; B:2-192; #=GS 3h86B00/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS 3h86B00/1-192 DR EC; 2.7.4.3; #=GS 3h86C00/1-192 AC Q6LYG0 #=GS 3h86C00/1-192 OS Methanococcus maripaludis S2 #=GS 3h86C00/1-192 DE Adenylate kinase #=GS 3h86C00/1-192 DR CATH; 3h86; C:2-192; #=GS 3h86C00/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS 3h86C00/1-192 DR EC; 2.7.4.3; #=GS 3h86G00/1-192 AC Q6LYG0 #=GS 3h86G00/1-192 OS Methanococcus maripaludis S2 #=GS 3h86G00/1-192 DE Adenylate kinase #=GS 3h86G00/1-192 DR CATH; 3h86; G:2-192; #=GS 3h86G00/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS 3h86G00/1-192 DR EC; 2.7.4.3; #=GS 1khtB00/1-192 AC P43411 #=GS 1khtB00/1-192 OS Methanococcus voltae #=GS 1khtB00/1-192 DE Adenylate kinase #=GS 1khtB00/1-192 DR CATH; 1kht; B:2-192; #=GS 1khtB00/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus voltae; #=GS 1khtB00/1-192 DR EC; 2.7.4.3; #=GS 1khtC00/1-192 AC P43411 #=GS 1khtC00/1-192 OS Methanococcus voltae #=GS 1khtC00/1-192 DE Adenylate kinase #=GS 1khtC00/1-192 DR CATH; 1kht; C:2-192; #=GS 1khtC00/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus voltae; #=GS 1khtC00/1-192 DR EC; 2.7.4.3; #=GS 1ki9B00/1-192 AC P43410 #=GS 1ki9B00/1-192 OS Methanothermococcus thermolithotrophicus #=GS 1ki9B00/1-192 DE Adenylate kinase #=GS 1ki9B00/1-192 DR CATH; 1ki9; B:1-192; #=GS 1ki9B00/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanothermococcus; Methanothermococcus thermolithotrophicus; #=GS 1ki9B00/1-192 DR EC; 2.7.4.3; #=GS 1ki9C00/1-192 AC P43410 #=GS 1ki9C00/1-192 OS Methanothermococcus thermolithotrophicus #=GS 1ki9C00/1-192 DE Adenylate kinase #=GS 1ki9C00/1-192 DR CATH; 1ki9; C:1-192; #=GS 1ki9C00/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanothermococcus; Methanothermococcus thermolithotrophicus; #=GS 1ki9C00/1-192 DR EC; 2.7.4.3; #=GS 1nksB00/1-194 AC P35028 #=GS 1nksB00/1-194 OS Sulfolobus acidocaldarius DSM 639 #=GS 1nksB00/1-194 DE Adenylate kinase #=GS 1nksB00/1-194 DR CATH; 1nks; B:1-194; #=GS 1nksB00/1-194 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus acidocaldarius; #=GS 1nksB00/1-194 DR EC; 2.7.4.3; #=GS 1nksC00/1-194 AC P35028 #=GS 1nksC00/1-194 OS Sulfolobus acidocaldarius DSM 639 #=GS 1nksC00/1-194 DE Adenylate kinase #=GS 1nksC00/1-194 DR CATH; 1nks; C:1-194; #=GS 1nksC00/1-194 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus acidocaldarius; #=GS 1nksC00/1-194 DR EC; 2.7.4.3; #=GS 1nksD00/1-194 AC P35028 #=GS 1nksD00/1-194 OS Sulfolobus acidocaldarius DSM 639 #=GS 1nksD00/1-194 DE Adenylate kinase #=GS 1nksD00/1-194 DR CATH; 1nks; D:1-194; #=GS 1nksD00/1-194 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus acidocaldarius; #=GS 1nksD00/1-194 DR EC; 2.7.4.3; #=GS 1nksE00/1-194 AC P35028 #=GS 1nksE00/1-194 OS Sulfolobus acidocaldarius DSM 639 #=GS 1nksE00/1-194 DE Adenylate kinase #=GS 1nksE00/1-194 DR CATH; 1nks; E:1-194; #=GS 1nksE00/1-194 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus acidocaldarius; #=GS 1nksE00/1-194 DR EC; 2.7.4.3; #=GS 1nksF00/1-194 AC P35028 #=GS 1nksF00/1-194 OS Sulfolobus acidocaldarius DSM 639 #=GS 1nksF00/1-194 DE Adenylate kinase #=GS 1nksF00/1-194 DR CATH; 1nks; F:1-194; #=GS 1nksF00/1-194 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus acidocaldarius; #=GS 1nksF00/1-194 DR EC; 2.7.4.3; #=GS O26135/1-184 AC O26135 #=GS O26135/1-184 OS Methanothermobacter thermautotrophicus str. Delta H #=GS O26135/1-184 DE Adenylate kinase #=GS O26135/1-184 DR GENE3D; 174dc8f40923f6358916733ae45bd4ef/1-184; #=GS O26135/1-184 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanothermobacter; Methanothermobacter thermautotrophicus; #=GS O26135/1-184 DR EC; 2.7.4.3; #=GS A2BME3/9-202 AC A2BME3 #=GS A2BME3/9-202 OS Hyperthermus butylicus DSM 5456 #=GS A2BME3/9-202 DE Adenylate kinase #=GS A2BME3/9-202 DR GENE3D; 300e446704f71e114ed93ca55e7248ab/9-202; #=GS A2BME3/9-202 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Desulfurococcales; Pyrodictiaceae; Hyperthermus; Hyperthermus butylicus; #=GS A2BME3/9-202 DR EC; 2.7.4.3; #=GS Q5JJH2/3-189 AC Q5JJH2 #=GS Q5JJH2/3-189 OS Thermococcus kodakarensis KOD1 #=GS Q5JJH2/3-189 DE Adenylate kinase #=GS Q5JJH2/3-189 DR GENE3D; 3d980e5923e2e150f02cbb053fbbb8ef/3-189; #=GS Q5JJH2/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus kodakarensis; #=GS Q5JJH2/3-189 DR EC; 2.7.4.3; #=GS A9A5A0/3-190 AC A9A5A0 #=GS A9A5A0/3-190 OS Nitrosopumilus maritimus SCM1 #=GS A9A5A0/3-190 DE Adenylate kinase #=GS A9A5A0/3-190 DR GENE3D; 4ad4de34f098e2c5d546980aefd11410/3-190; #=GS A9A5A0/3-190 DR ORG; Archaea; Thaumarchaeota; Nitrosopumilales; Nitrosopumilaceae; Nitrosopumilus; Nitrosopumilus maritimus; #=GS A9A5A0/3-190 DR EC; 2.7.4.3; #=GS Q8ZWP7/2-190 AC Q8ZWP7 #=GS Q8ZWP7/2-190 OS Pyrobaculum aerophilum str. IM2 #=GS Q8ZWP7/2-190 DE Adenylate kinase #=GS Q8ZWP7/2-190 DR GENE3D; 5376582473452315df04a89881d78379/2-190; #=GS Q8ZWP7/2-190 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Thermoproteales; Thermoproteaceae; Pyrobaculum; Pyrobaculum aerophilum; #=GS Q8ZWP7/2-190 DR EC; 2.7.4.3; #=GS Q9UX83/1-195 AC Q9UX83 #=GS Q9UX83/1-195 OS Sulfolobus solfataricus P2 #=GS Q9UX83/1-195 DE Adenylate kinase #=GS Q9UX83/1-195 DR GENE3D; 58e4b6990051ea2f4ff7804e33dda691/1-195; #=GS Q9UX83/1-195 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus solfataricus; #=GS Q9UX83/1-195 DR EC; 2.7.4.3; #=GS A5UL64/1-185 AC A5UL64 #=GS A5UL64/1-185 OS Methanobrevibacter smithii ATCC 35061 #=GS A5UL64/1-185 DE Adenylate kinase #=GS A5UL64/1-185 DR GENE3D; 64f2140db0ab2fe82add655e5f8e29bb/1-185; #=GS A5UL64/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter smithii; #=GS A5UL64/1-185 DR EC; 2.7.4.3; #=GS Q6LYG0/1-192 AC Q6LYG0 #=GS Q6LYG0/1-192 OS Methanococcus maripaludis S2 #=GS Q6LYG0/1-192 DE Adenylate kinase #=GS Q6LYG0/1-192 DR GENE3D; 7bcb4deb7e3761be620942a5d4254d41/1-192; #=GS Q6LYG0/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS Q6LYG0/1-192 DR EC; 2.7.4.3; #=GS P43409/1-192 AC P43409 #=GS P43409/1-192 OS Methanocaldococcus jannaschii DSM 2661 #=GS P43409/1-192 DE Adenylate kinase #=GS P43409/1-192 DR GENE3D; 7f10e2bd5cb52e04b087c1201e45188a/1-192; #=GS P43409/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanocaldococcus; Methanocaldococcus jannaschii; #=GS P43409/1-192 DR EC; 2.7.4.3; #=GS Q9YDD2/5-200 AC Q9YDD2 #=GS Q9YDD2/5-200 OS Aeropyrum pernix K1 #=GS Q9YDD2/5-200 DE Adenylate kinase #=GS Q9YDD2/5-200 DR GENE3D; 84747e2dff76b16da8340c6dcd2db401/5-200; #=GS Q9YDD2/5-200 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Desulfurococcales; Desulfurococcaceae; Aeropyrum; Aeropyrum pernix; #=GS Q9YDD2/5-200 DR EC; 2.7.4.3; #=GS Q9HIT1/2-181 AC Q9HIT1 #=GS Q9HIT1/2-181 OS Thermoplasma acidophilum DSM 1728 #=GS Q9HIT1/2-181 DE Adenylate kinase #=GS Q9HIT1/2-181 DR GENE3D; 8a8f3f490f8742f67a56a020696e705d/2-181; #=GS Q9HIT1/2-181 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmataceae; Thermoplasma; Thermoplasma acidophilum; #=GS Q9HIT1/2-181 DR EC; 2.7.4.3; #=GS Q8TZB0/3-189 AC Q8TZB0 #=GS Q8TZB0/3-189 OS Methanopyrus kandleri AV19 #=GS Q8TZB0/3-189 DE Adenylate kinase #=GS Q8TZB0/3-189 DR GENE3D; 9bef02828335f03f1a682b23fa189b59/3-189; #=GS Q8TZB0/3-189 DR ORG; Archaea; Euryarchaeota; Methanopyri; Methanopyrales; Methanopyraceae; Methanopyrus; Methanopyrus kandleri; #=GS Q8TZB0/3-189 DR EC; 2.7.4.3; #=GS O59443/3-189 AC O59443 #=GS O59443/3-189 OS Pyrococcus horikoshii OT3 #=GS O59443/3-189 DE Adenylate kinase #=GS O59443/3-189 DR GENE3D; ca6401392d8ed47e22f41bbb12d4e836/3-189; #=GS O59443/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus horikoshii; #=GS O59443/3-189 DR EC; 2.7.4.3; #=GS K2RT60/1-184 AC K2RT60 #=GS K2RT60/1-184 OS Methanobacterium formicicum DSM 3637 #=GS K2RT60/1-184 DE Adenylate kinase #=GS K2RT60/1-184 DR GENE3D; 0771bf600525802c8a3ba1e67d104054/1-184; #=GS K2RT60/1-184 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium formicicum; #=GS K2RT60/1-184 DR EC; 2.7.4.3; #=GS Q2FTU6/1-190 AC Q2FTU6 #=GS Q2FTU6/1-190 OS Methanospirillum hungatei JF-1 #=GS Q2FTU6/1-190 DE Adenylate kinase #=GS Q2FTU6/1-190 DR GENE3D; 60622855fd275841cc4e32d90f6f0174/1-190; #=GS Q2FTU6/1-190 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanospirillaceae; Methanospirillum; Methanospirillum hungatei; #=GS Q2FTU6/1-190 DR EC; 2.7.4.3; #=GS L0HMF5/2-181 AC L0HMF5 #=GS L0HMF5/2-181 OS Aciduliprofundum sp. MAR08-339 #=GS L0HMF5/2-181 DE Adenylate kinase #=GS L0HMF5/2-181 DR GENE3D; 02307b2c66653a38774b40f0ac028ee7/2-181; #=GS L0HMF5/2-181 DR ORG; Archaea; Euryarchaeota; Aciduliprofundum; Aciduliprofundum sp. MAR08-339; #=GS L0HMF5/2-181 DR EC; 2.7.4.3; #=GS D9PZX5/12-207 AC D9PZX5 #=GS D9PZX5/12-207 OS Acidilobus saccharovorans 345-15 #=GS D9PZX5/12-207 DE Adenylate kinase #=GS D9PZX5/12-207 DR GENE3D; 02c46a820a2305d90a1fdeb5977fab9d/12-207; #=GS D9PZX5/12-207 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Acidilobales; Acidilobaceae; Acidilobus; Acidilobus saccharovorans; #=GS D9PZX5/12-207 DR EC; 2.7.4.3; #=GS A0A1J5THU3/1-177 AC A0A1J5THU3 #=GS A0A1J5THU3/1-177 OS Marine Group III euryarchaeote CG-Epi6 #=GS A0A1J5THU3/1-177 DE Adenylate kinase #=GS A0A1J5THU3/1-177 DR GENE3D; 04d78738a1ea89a990bbe549e5a1d108/1-177; #=GS A0A1J5THU3/1-177 DR ORG; Archaea; Euryarchaeota; Marine Group III euryarchaeote CG-Epi6; #=GS A0A1J5THU3/1-177 DR EC; 2.7.4.3; #=GS A8ABS2/5-200 AC A8ABS2 #=GS A8ABS2/5-200 OS Ignicoccus hospitalis KIN4/I #=GS A8ABS2/5-200 DE Adenylate kinase #=GS A8ABS2/5-200 DR GENE3D; 05823e4cd53c84fa29aa698a05fbfb27/5-200; #=GS A8ABS2/5-200 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Desulfurococcales; Desulfurococcaceae; Ignicoccus; Ignicoccus hospitalis; #=GS A8ABS2/5-200 DR EC; 2.7.4.3; #=GS A0A0P9I162/3-192 AC A0A0P9I162 #=GS A0A0P9I162/3-192 OS Candidatus Bathyarchaeota archaeon BA2 #=GS A0A0P9I162/3-192 DE Adenylate kinase #=GS A0A0P9I162/3-192 DR GENE3D; 067a7bbe88970fefd3c29cb1aa3f0e5d/3-192; #=GS A0A0P9I162/3-192 DR ORG; Archaea; Candidatus Bathyarchaeota; Candidatus Bathyarchaeota archaeon BA2; #=GS A0A0P9I162/3-192 DR EC; 2.7.4.3; #=GS A0A097QTI9/3-189 AC A0A097QTI9 #=GS A0A097QTI9/3-189 OS Thermococcus eurythermalis #=GS A0A097QTI9/3-189 DE Adenylate kinase #=GS A0A097QTI9/3-189 DR GENE3D; 0752140cd3259718970e438656815d9b/3-189; #=GS A0A097QTI9/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus eurythermalis; #=GS A0A097QTI9/3-189 DR EC; 2.7.4.3; #=GS E1RKM1/2-189 AC E1RKM1 #=GS E1RKM1/2-189 OS Methanolacinia petrolearia DSM 11571 #=GS E1RKM1/2-189 DE Adenylate kinase #=GS E1RKM1/2-189 DR GENE3D; 072cb01e329750dbeff6073c56ea571f/2-189; #=GS E1RKM1/2-189 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanolacinia; Methanolacinia petrolearia; #=GS E1RKM1/2-189 DR EC; 2.7.4.3; #=GS F0LHL0/3-189 AC F0LHL0 #=GS F0LHL0/3-189 OS Thermococcus barophilus MP #=GS F0LHL0/3-189 DE Adenylate kinase #=GS F0LHL0/3-189 DR GENE3D; 0b3a68ddd9428c35e7cd3a427e11198d/3-189; #=GS F0LHL0/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus barophilus; #=GS F0LHL0/3-189 DR EC; 2.7.4.3; #=GS A0A0S1X8J4/3-189 AC A0A0S1X8J4 #=GS A0A0S1X8J4/3-189 OS Thermococcus barophilus #=GS A0A0S1X8J4/3-189 DE Adenylate kinase #=GS A0A0S1X8J4/3-189 DR GENE3D; 0b3a68ddd9428c35e7cd3a427e11198d/3-189; #=GS A0A0S1X8J4/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus barophilus; #=GS A0A0S1X8J4/3-189 DR EC; 2.7.4.3; #=GS T0M5P4/1-180 AC T0M5P4 #=GS T0M5P4/1-180 OS Thermoplasmatales archaeon A-plasma #=GS T0M5P4/1-180 DE Adenylate kinase #=GS T0M5P4/1-180 DR GENE3D; 0cdb2971a9c35e9a4a3af4eb55eab32b/1-180; #=GS T0M5P4/1-180 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmatales archaeon A-plasma; #=GS T0M5P4/1-180 DR EC; 2.7.4.3; #=GS A9AAR7/1-192 AC A9AAR7 #=GS A9AAR7/1-192 OS Methanococcus maripaludis C6 #=GS A9AAR7/1-192 DE Adenylate kinase #=GS A9AAR7/1-192 DR GENE3D; 0cd0e54ffed50e63cb8c74fa93e61bdb/1-192; #=GS A9AAR7/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS A9AAR7/1-192 DR EC; 2.7.4.3; #=GS V9S7L7/1-194 AC V9S7L7 #=GS V9S7L7/1-194 OS Sulfolobus acidocaldarius SUSAZ #=GS V9S7L7/1-194 DE Adenylate kinase #=GS V9S7L7/1-194 DR GENE3D; 1115e8a8c02e04493d4cf1a298943b62/1-194; #=GS V9S7L7/1-194 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus acidocaldarius; #=GS V9S7L7/1-194 DR EC; 2.7.4.3; #=GS A0A0Q1B620/1-180 AC A0A0Q1B620 #=GS A0A0Q1B620/1-180 OS Acidiplasma cupricumulans #=GS A0A0Q1B620/1-180 DE Adenylate kinase #=GS A0A0Q1B620/1-180 DR GENE3D; 11a9f720bece0972ac8dfcf29310dfa9/1-180; #=GS A0A0Q1B620/1-180 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Ferroplasmaceae; Acidiplasma; Acidiplasma cupricumulans; #=GS A0A0Q1B620/1-180 DR EC; 2.7.4.3; #=GS A0A0D8DL73/1-180 AC A0A0D8DL73 #=GS A0A0D8DL73/1-180 OS Acidiplasma sp. MBA-1 #=GS A0A0D8DL73/1-180 DE Adenylate kinase #=GS A0A0D8DL73/1-180 DR GENE3D; 11a9f720bece0972ac8dfcf29310dfa9/1-180; #=GS A0A0D8DL73/1-180 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Ferroplasmaceae; Acidiplasma; Acidiplasma sp. MBA-1; #=GS A0A0D8DL73/1-180 DR EC; 2.7.4.3; #=GS A0A0P9CTW9/1-180 AC A0A0P9CTW9 #=GS A0A0P9CTW9/1-180 OS Acidiplasma aeolicum #=GS A0A0P9CTW9/1-180 DE Adenylate kinase #=GS A0A0P9CTW9/1-180 DR GENE3D; 11a9f720bece0972ac8dfcf29310dfa9/1-180; #=GS A0A0P9CTW9/1-180 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Ferroplasmaceae; Acidiplasma; Acidiplasma aeolicum; #=GS A0A0P9CTW9/1-180 DR EC; 2.7.4.3; #=GS A4WLW3/2-187 AC A4WLW3 #=GS A4WLW3/2-187 OS Pyrobaculum arsenaticum DSM 13514 #=GS A4WLW3/2-187 DE Adenylate kinase #=GS A4WLW3/2-187 DR GENE3D; 13bcd595ff248fb4326fae3db14ed8a1/2-187; #=GS A4WLW3/2-187 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Thermoproteales; Thermoproteaceae; Pyrobaculum; Pyrobaculum arsenaticum; #=GS A4WLW3/2-187 DR EC; 2.7.4.3; #=GS A0A1M4MQR8/1-184 AC A0A1M4MQR8 #=GS A0A1M4MQR8/1-184 OS Methanothermobacter wolfeii #=GS A0A1M4MQR8/1-184 DE Adenylate kinase #=GS A0A1M4MQR8/1-184 DR GENE3D; 1872654103aaab12368b21480335edb1/1-184; #=GS A0A1M4MQR8/1-184 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanothermobacter; Methanothermobacter wolfeii; #=GS A0A1M4MQR8/1-184 DR EC; 2.7.4.3; #=GS A0A098E738/2-182 AC A0A098E738 #=GS A0A098E738/2-182 OS groundwater metagenome #=GS A0A098E738/2-182 DE Adenylate kinase #=GS A0A098E738/2-182 DR GENE3D; 1958dc17d72d9f254bfd2b479976e7b0/2-182; #=GS A0A098E738/2-182 DR ORG; groundwater metagenome; #=GS A0A098E738/2-182 DR EC; 2.7.4.3; #=GS A3MW37/2-192 AC A3MW37 #=GS A3MW37/2-192 OS Pyrobaculum calidifontis JCM 11548 #=GS A3MW37/2-192 DE Adenylate kinase #=GS A3MW37/2-192 DR GENE3D; 1b5889c694076e19665f3b9ba2a1395d/2-192; #=GS A3MW37/2-192 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Thermoproteales; Thermoproteaceae; Pyrobaculum; Pyrobaculum calidifontis; #=GS A3MW37/2-192 DR EC; 2.7.4.3; #=GS A4FXE7/1-192 AC A4FXE7 #=GS A4FXE7/1-192 OS Methanococcus maripaludis C5 #=GS A4FXE7/1-192 DE Adenylate kinase #=GS A4FXE7/1-192 DR GENE3D; 1b56732e1218c0aa6c9e931cbc3a5510/1-192; #=GS A4FXE7/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS A4FXE7/1-192 DR EC; 2.7.4.3; #=GS A0A0Q0VSM3/1-190 AC A0A0Q0VSM3 #=GS A0A0Q0VSM3/1-190 OS Methanoculleus sp. SDB #=GS A0A0Q0VSM3/1-190 DE Adenylate kinase #=GS A0A0Q0VSM3/1-190 DR GENE3D; 1c56228cf1278945cd274cd2f3812df9/1-190; #=GS A0A0Q0VSM3/1-190 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus sp. SDB; #=GS A0A0Q0VSM3/1-190 DR EC; 2.7.4.3; #=GS A0A1D8MTD6/2-186 AC A0A1D8MTD6 #=GS A0A1D8MTD6/2-186 OS Nanohaloarchaea archaeon SG9 #=GS A0A1D8MTD6/2-186 DE Adenylate kinase #=GS A0A1D8MTD6/2-186 DR GENE3D; 1ee4cc32bc8adaa99ff8ed44c35b459f/2-186; #=GS A0A1D8MTD6/2-186 DR ORG; Archaea; Candidatus Nanohaloarchaeota; Nanohaloarchaea; Nanohaloarchaea archaeon SG9; #=GS A0A1D8MTD6/2-186 DR EC; 2.7.4.3; #=GS F4HJN3/2-189 AC F4HJN3 #=GS F4HJN3/2-189 OS Pyrococcus sp. NA2 #=GS F4HJN3/2-189 DE Adenylate kinase #=GS F4HJN3/2-189 DR GENE3D; 1fc37ea8f3c8064646d608bf594cb67f/2-189; #=GS F4HJN3/2-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus sp. NA2; #=GS F4HJN3/2-189 DR EC; 2.7.4.3; #=GS A0A1F2PBC1/1-189 AC A0A1F2PBC1 #=GS A0A1F2PBC1/1-189 OS Candidatus Syntrophoarchaeum caldarius #=GS A0A1F2PBC1/1-189 DE Adenylate kinase #=GS A0A1F2PBC1/1-189 DR GENE3D; 203e1249e0afa954f62e37ee97f0aae2/1-189; #=GS A0A1F2PBC1/1-189 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Candidatus Syntrophoarchaeum; Candidatus Syntrophoarchaeum caldarius; #=GS A0A1F2PBC1/1-189 DR EC; 2.7.4.3; #=GS A0A172WHC7/3-189 AC A0A172WHC7 #=GS A0A172WHC7/3-189 OS Thermococcus piezophilus #=GS A0A172WHC7/3-189 DE Adenylate kinase #=GS A0A172WHC7/3-189 DR GENE3D; 216bf4d1836a3706a0da6453179a52b1/3-189; #=GS A0A172WHC7/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus piezophilus; #=GS A0A172WHC7/3-189 DR EC; 2.7.4.3; #=GS A0A0C5BTU0/6-193 AC A0A0C5BTU0 #=GS A0A0C5BTU0/6-193 OS Candidatus Nitrosopumilus piranensis #=GS A0A0C5BTU0/6-193 DE Adenylate kinase #=GS A0A0C5BTU0/6-193 DR GENE3D; 21a1b49e93482c86a14b46654fca0ade/6-193; #=GS A0A0C5BTU0/6-193 DR ORG; Archaea; Thaumarchaeota; Nitrosopumilales; Nitrosopumilaceae; Nitrosopumilus; Candidatus Nitrosopumilus piranensis; #=GS A0A0C5BTU0/6-193 DR EC; 2.7.4.3; #=GS A0A151ECL5/2-181 AC A0A151ECL5 #=GS A0A151ECL5/2-181 OS Thermoplasmatales archaeon SG8-52-1 #=GS A0A151ECL5/2-181 DE Adenylate kinase #=GS A0A151ECL5/2-181 DR GENE3D; 2496cafe7966d5387ed1d8ade4eb4ba3/2-181; #=GS A0A151ECL5/2-181 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmatales archaeon SG8-52-1; #=GS A0A151ECL5/2-181 DR EC; 2.7.4.3; #=GS Q97BV2/2-181 AC Q97BV2 #=GS Q97BV2/2-181 OS Thermoplasma volcanium GSS1 #=GS Q97BV2/2-181 DE Adenylate kinase #=GS Q97BV2/2-181 DR GENE3D; 2dc5c84340e29ca6946e6173b9b11e51/2-181; #=GS Q97BV2/2-181 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmataceae; Thermoplasma; Thermoplasma volcanium; #=GS Q97BV2/2-181 DR EC; 2.7.4.3; #=GS D2PC95/1-195 AC D2PC95 #=GS D2PC95/1-195 OS Sulfolobus islandicus L.D.8.5 #=GS D2PC95/1-195 DE Adenylate kinase #=GS D2PC95/1-195 DR GENE3D; 2dff9c6fb99ef2259166339a96aa877e/1-195; #=GS D2PC95/1-195 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus islandicus; #=GS D2PC95/1-195 DR EC; 2.7.4.3; #=GS C3MQ83/1-195 AC C3MQ83 #=GS C3MQ83/1-195 OS Sulfolobus islandicus L.S.2.15 #=GS C3MQ83/1-195 DE Adenylate kinase #=GS C3MQ83/1-195 DR GENE3D; 2dff9c6fb99ef2259166339a96aa877e/1-195; #=GS C3MQ83/1-195 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus islandicus; #=GS C3MQ83/1-195 DR EC; 2.7.4.3; #=GS F0NM56/1-195 AC F0NM56 #=GS F0NM56/1-195 OS Sulfolobus islandicus HVE10/4 #=GS F0NM56/1-195 DE Adenylate kinase #=GS F0NM56/1-195 DR GENE3D; 2dff9c6fb99ef2259166339a96aa877e/1-195; #=GS F0NM56/1-195 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus islandicus; #=GS F0NM56/1-195 DR EC; 2.7.4.3; #=GS M9UDW7/1-195 AC M9UDW7 #=GS M9UDW7/1-195 OS Sulfolobus islandicus LAL14/1 #=GS M9UDW7/1-195 DE Adenylate kinase #=GS M9UDW7/1-195 DR GENE3D; 2dff9c6fb99ef2259166339a96aa877e/1-195; #=GS M9UDW7/1-195 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus islandicus; #=GS M9UDW7/1-195 DR EC; 2.7.4.3; #=GS C3N5V1/1-195 AC C3N5V1 #=GS C3N5V1/1-195 OS Sulfolobus islandicus M.16.27 #=GS C3N5V1/1-195 DE Adenylate kinase #=GS C3N5V1/1-195 DR GENE3D; 2dff9c6fb99ef2259166339a96aa877e/1-195; #=GS C3N5V1/1-195 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus islandicus; #=GS C3N5V1/1-195 DR EC; 2.7.4.3; #=GS C3NEG7/1-195 AC C3NEG7 #=GS C3NEG7/1-195 OS Sulfolobus islandicus Y.G.57.14 #=GS C3NEG7/1-195 DE Adenylate kinase #=GS C3NEG7/1-195 DR GENE3D; 2dff9c6fb99ef2259166339a96aa877e/1-195; #=GS C3NEG7/1-195 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus islandicus; #=GS C3NEG7/1-195 DR EC; 2.7.4.3; #=GS C4KHI0/1-195 AC C4KHI0 #=GS C4KHI0/1-195 OS Sulfolobus islandicus M.16.4 #=GS C4KHI0/1-195 DE Adenylate kinase #=GS C4KHI0/1-195 DR GENE3D; 2dff9c6fb99ef2259166339a96aa877e/1-195; #=GS C4KHI0/1-195 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus islandicus; #=GS C4KHI0/1-195 DR EC; 2.7.4.3; #=GS F0NHL5/1-195 AC F0NHL5 #=GS F0NHL5/1-195 OS Sulfolobus islandicus REY15A #=GS F0NHL5/1-195 DE Adenylate kinase #=GS F0NHL5/1-195 DR GENE3D; 2dff9c6fb99ef2259166339a96aa877e/1-195; #=GS F0NHL5/1-195 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus islandicus; #=GS F0NHL5/1-195 DR EC; 2.7.4.3; #=GS C3NH85/1-195 AC C3NH85 #=GS C3NH85/1-195 OS Sulfolobus islandicus Y.N.15.51 #=GS C3NH85/1-195 DE Adenylate kinase #=GS C3NH85/1-195 DR GENE3D; 2dff9c6fb99ef2259166339a96aa877e/1-195; #=GS C3NH85/1-195 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus islandicus; #=GS C3NH85/1-195 DR EC; 2.7.4.3; #=GS C3MVK2/1-195 AC C3MVK2 #=GS C3MVK2/1-195 OS Sulfolobus islandicus M.14.25 #=GS C3MVK2/1-195 DE Adenylate kinase #=GS C3MVK2/1-195 DR GENE3D; 2dff9c6fb99ef2259166339a96aa877e/1-195; #=GS C3MVK2/1-195 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus islandicus; #=GS C3MVK2/1-195 DR EC; 2.7.4.3; #=GS C6A184/3-189 AC C6A184 #=GS C6A184/3-189 OS Thermococcus sibiricus MM 739 #=GS C6A184/3-189 DE Adenylate kinase #=GS C6A184/3-189 DR GENE3D; 309deed3b71ce022cf541c31b08cf3ca/3-189; #=GS C6A184/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus sibiricus; #=GS C6A184/3-189 DR EC; 2.7.4.3; #=GS A0A063ZEH0/1-192 AC A0A063ZEH0 #=GS A0A063ZEH0/1-192 OS Methanoculleus sp. MH98A #=GS A0A063ZEH0/1-192 DE Adenylate kinase #=GS A0A063ZEH0/1-192 DR GENE3D; 351e2f276acd0584459f0f4c8f64e201/1-192; #=GS A0A063ZEH0/1-192 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus sp. MH98A; #=GS A0A063ZEH0/1-192 DR EC; 2.7.4.3; #=GS D3TB24/2-180 AC D3TB24 #=GS D3TB24/2-180 OS Aciduliprofundum boonei T469 #=GS D3TB24/2-180 DE Adenylate kinase #=GS D3TB24/2-180 DR GENE3D; 34c336fbeb9f80c849aa93329baa5599/2-180; #=GS D3TB24/2-180 DR ORG; Archaea; Euryarchaeota; Aciduliprofundum; Aciduliprofundum boonei; #=GS D3TB24/2-180 DR EC; 2.7.4.3; #=GS B6YSN8/3-189 AC B6YSN8 #=GS B6YSN8/3-189 OS Thermococcus onnurineus NA1 #=GS B6YSN8/3-189 DE Adenylate kinase #=GS B6YSN8/3-189 DR GENE3D; 35f54786a37f7602aca243a4ef519df0/3-189; #=GS B6YSN8/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus onnurineus; #=GS B6YSN8/3-189 DR EC; 2.7.4.3; #=GS H3ZNK3/3-189 AC H3ZNK3 #=GS H3ZNK3/3-189 OS Thermococcus litoralis DSM 5473 #=GS H3ZNK3/3-189 DE Adenylate kinase #=GS H3ZNK3/3-189 DR GENE3D; 3c48ce587333be706dd1d707453170aa/3-189; #=GS H3ZNK3/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus litoralis; #=GS H3ZNK3/3-189 DR EC; 2.7.4.3; #=GS V4KFL3/11-206 AC V4KFL3 #=GS V4KFL3/11-206 OS uncultured Acidilobus sp. OSP8 #=GS V4KFL3/11-206 DE Adenylate kinase #=GS V4KFL3/11-206 DR GENE3D; 3d1d6d1b5e3876dc4a17fa325b3ea204/11-206; #=GS V4KFL3/11-206 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Acidilobales; Acidilobaceae; Acidilobus; uncultured Acidilobus sp. OSP8; #=GS V4KFL3/11-206 DR EC; 2.7.4.3; #=GS P43411/1-192 AC P43411 #=GS P43411/1-192 OS Methanococcus voltae #=GS P43411/1-192 DE Adenylate kinase #=GS P43411/1-192 DR GENE3D; 40f19d0243149a4080d474d980eecd0d/1-192; #=GS P43411/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus voltae; #=GS P43411/1-192 DR EC; 2.7.4.3; #=GS K6T1M1/1-184 AC K6T1M1 #=GS K6T1M1/1-184 OS Methanobacterium sp. Maddingley MBC34 #=GS K6T1M1/1-184 DE Adenylate kinase #=GS K6T1M1/1-184 DR GENE3D; 480775cad229ebf965396930c515c499/1-184; #=GS K6T1M1/1-184 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium sp. Maddingley MBC34; #=GS K6T1M1/1-184 DR EC; 2.7.4.3; #=GS A6UP41/1-192 AC A6UP41 #=GS A6UP41/1-192 OS Methanococcus vannielii SB #=GS A6UP41/1-192 DE Adenylate kinase #=GS A6UP41/1-192 DR GENE3D; 45c6a0e23768d79621fff90fc23c804b/1-192; #=GS A6UP41/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus vannielii; #=GS A6UP41/1-192 DR EC; 2.7.4.3; #=GS T0LFZ5/1-180 AC T0LFZ5 #=GS T0LFZ5/1-180 OS Thermoplasmatales archaeon E-plasma #=GS T0LFZ5/1-180 DE Adenylate kinase #=GS T0LFZ5/1-180 DR GENE3D; 48816a9fcc98e31d23e8eeda2c46636f/1-180; #=GS T0LFZ5/1-180 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmatales archaeon E-plasma; #=GS T0LFZ5/1-180 DR EC; 2.7.4.3; #=GS A0A0V8RWD5/9-201 AC A0A0V8RWD5 #=GS A0A0V8RWD5/9-201 OS Pyrodictium occultum #=GS A0A0V8RWD5/9-201 DE Adenylate kinase #=GS A0A0V8RWD5/9-201 DR GENE3D; 4c592cd264aaf48406dae9bd8009dd13/9-201; #=GS A0A0V8RWD5/9-201 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Desulfurococcales; Pyrodictiaceae; Pyrodictium; Pyrodictium occultum; #=GS A0A0V8RWD5/9-201 DR EC; 2.7.4.3; #=GS A0A0H1R2J6/2-191 AC A0A0H1R2J6 #=GS A0A0H1R2J6/2-191 OS Methanoculleus sediminis #=GS A0A0H1R2J6/2-191 DE Adenylate kinase #=GS A0A0H1R2J6/2-191 DR GENE3D; 4d576ae763531027c445abdd122e7da8/2-191; #=GS A0A0H1R2J6/2-191 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus sediminis; #=GS A0A0H1R2J6/2-191 DR EC; 2.7.4.3; #=GS A0A0U3FHL4/2-197 AC A0A0U3FHL4 #=GS A0A0U3FHL4/2-197 OS Ignicoccus islandicus DSM 13165 #=GS A0A0U3FHL4/2-197 DE Adenylate kinase #=GS A0A0U3FHL4/2-197 DR GENE3D; 4f0d7574d8e9b7aec55a01e398a831c2/2-197; #=GS A0A0U3FHL4/2-197 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Desulfurococcales; Desulfurococcaceae; Ignicoccus; Ignicoccus islandicus; #=GS A0A0U3FHL4/2-197 DR EC; 2.7.4.3; #=GS G0ECG9/10-203 AC G0ECG9 #=GS G0ECG9/10-203 OS Pyrolobus fumarii 1A #=GS G0ECG9/10-203 DE Adenylate kinase #=GS G0ECG9/10-203 DR GENE3D; 56007f5df59b72890d1eea454c0e80c0/10-203; #=GS G0ECG9/10-203 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Desulfurococcales; Pyrodictiaceae; Pyrolobus; Pyrolobus fumarii; #=GS G0ECG9/10-203 DR EC; 2.7.4.3; #=GS Q9V1V9/2-189 AC Q9V1V9 #=GS Q9V1V9/2-189 OS Pyrococcus abyssi GE5 #=GS Q9V1V9/2-189 DE Adenylate kinase #=GS Q9V1V9/2-189 DR GENE3D; 542457104bb6a1bf522a970185dd63ac/2-189; #=GS Q9V1V9/2-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus abyssi; #=GS Q9V1V9/2-189 DR EC; 2.7.4.3; #=GS D5VRS8/1-189 AC D5VRS8 #=GS D5VRS8/1-189 OS Methanocaldococcus infernus ME #=GS D5VRS8/1-189 DE Adenylate kinase #=GS D5VRS8/1-189 DR GENE3D; 59a9ef4bea1921890574f3518503590c/1-189; #=GS D5VRS8/1-189 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanocaldococcus; Methanocaldococcus infernus; #=GS D5VRS8/1-189 DR EC; 2.7.4.3; #=GS A0A0U3DN81/1-185 AC A0A0U3DN81 #=GS A0A0U3DN81/1-185 OS Methanobrevibacter millerae #=GS A0A0U3DN81/1-185 DE Adenylate kinase #=GS A0A0U3DN81/1-185 DR GENE3D; 5a88ead8ebf23f4cd97bdf9226f6c7fb/1-185; #=GS A0A0U3DN81/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter millerae; #=GS A0A0U3DN81/1-185 DR EC; 2.7.4.3; #=GS I6US44/3-189 AC I6US44 #=GS I6US44/3-189 OS Pyrococcus furiosus COM1 #=GS I6US44/3-189 DE Adenylate kinase #=GS I6US44/3-189 DR GENE3D; 57bbdc87dc375e52c6773a57e3bad155/3-189; #=GS I6US44/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus furiosus; #=GS I6US44/3-189 DR EC; 2.7.4.3; #=GS Q8U020/3-189 AC Q8U020 #=GS Q8U020/3-189 OS Pyrococcus furiosus DSM 3638 #=GS Q8U020/3-189 DE Adenylate kinase #=GS Q8U020/3-189 DR GENE3D; 57bbdc87dc375e52c6773a57e3bad155/3-189; #=GS Q8U020/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus furiosus; #=GS Q8U020/3-189 DR EC; 2.7.4.3; #=GS D0KTA1/1-195 AC D0KTA1 #=GS D0KTA1/1-195 OS Sulfolobus solfataricus 98/2 #=GS D0KTA1/1-195 DE Adenylate kinase #=GS D0KTA1/1-195 DR GENE3D; 58e4b6990051ea2f4ff7804e33dda691/1-195; #=GS D0KTA1/1-195 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus solfataricus; #=GS D0KTA1/1-195 DR EC; 2.7.4.3; #=GS A0A0E3MJD3/1-195 AC A0A0E3MJD3 #=GS A0A0E3MJD3/1-195 OS Sulfolobus solfataricus #=GS A0A0E3MJD3/1-195 DE Adenylate kinase #=GS A0A0E3MJD3/1-195 DR GENE3D; 58e4b6990051ea2f4ff7804e33dda691/1-195; #=GS A0A0E3MJD3/1-195 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus solfataricus; #=GS A0A0E3MJD3/1-195 DR EC; 2.7.4.3; #=GS S0APE0/1-180 AC S0APE0 #=GS S0APE0/1-180 OS Ferroplasma acidarmanus fer1 #=GS S0APE0/1-180 DE Adenylate kinase #=GS S0APE0/1-180 DR GENE3D; 600cf02f683979a6b49ad116da7d47a7/1-180; #=GS S0APE0/1-180 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Ferroplasmaceae; Ferroplasma; Ferroplasma acidarmanus; #=GS S0APE0/1-180 DR EC; 2.7.4.3; #=GS W8NWV3/3-189 AC W8NWV3 #=GS W8NWV3/3-189 OS Thermococcus nautili #=GS W8NWV3/3-189 DE Adenylate kinase #=GS W8NWV3/3-189 DR GENE3D; 609fc72bc237702b75a043e9c63dac57/3-189; #=GS W8NWV3/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus nautili; #=GS W8NWV3/3-189 DR EC; 2.7.4.3; #=GS A0A1J5TLG5/1-179 AC A0A1J5TLG5 #=GS A0A1J5TLG5/1-179 OS Marine Group III euryarchaeote CG-Epi2 #=GS A0A1J5TLG5/1-179 DE Adenylate kinase #=GS A0A1J5TLG5/1-179 DR GENE3D; 632faaa71b1a966aa98a9db6a1a1f99e/1-179; #=GS A0A1J5TLG5/1-179 DR ORG; Archaea; Euryarchaeota; Marine Group III euryarchaeote CG-Epi2; #=GS A0A1J5TLG5/1-179 DR EC; 2.7.4.3; #=GS F8ALZ1/1-192 AC F8ALZ1 #=GS F8ALZ1/1-192 OS Methanothermococcus okinawensis IH1 #=GS F8ALZ1/1-192 DE Adenylate kinase #=GS F8ALZ1/1-192 DR GENE3D; 62c9a658f8b441e943130febc4d9801a/1-192; #=GS F8ALZ1/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanothermococcus; Methanothermococcus okinawensis; #=GS F8ALZ1/1-192 DR EC; 2.7.4.3; #=GS L0HJZ5/1-190 AC L0HJZ5 #=GS L0HJZ5/1-190 OS Methanoregula formicica SMSP #=GS L0HJZ5/1-190 DE Adenylate kinase #=GS L0HJZ5/1-190 DR GENE3D; 68e6859706109f35a65ffb8d91da322e/1-190; #=GS L0HJZ5/1-190 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanoregulaceae; Methanoregula; Methanoregula formicica; #=GS L0HJZ5/1-190 DR EC; 2.7.4.3; #=GS B9AE68/1-185 AC B9AE68 #=GS B9AE68/1-185 OS Methanobrevibacter smithii DSM 2375 #=GS B9AE68/1-185 DE Adenylate kinase #=GS B9AE68/1-185 DR GENE3D; 64f2140db0ab2fe82add655e5f8e29bb/1-185; #=GS B9AE68/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter smithii; #=GS B9AE68/1-185 DR EC; 2.7.4.3; #=GS A0A1D2WRW6/1-185 AC A0A1D2WRW6 #=GS A0A1D2WRW6/1-185 OS Methanobrevibacter sp. A54 #=GS A0A1D2WRW6/1-185 DE Adenylate kinase #=GS A0A1D2WRW6/1-185 DR GENE3D; 64f2140db0ab2fe82add655e5f8e29bb/1-185; #=GS A0A1D2WRW6/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter sp. A54; #=GS A0A1D2WRW6/1-185 DR EC; 2.7.4.3; #=GS R7PUE8/1-185 AC R7PUE8 #=GS R7PUE8/1-185 OS Methanobrevibacter smithii CAG:186 #=GS R7PUE8/1-185 DE Adenylate kinase #=GS R7PUE8/1-185 DR GENE3D; 64f2140db0ab2fe82add655e5f8e29bb/1-185; #=GS R7PUE8/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter smithii CAG:186; #=GS R7PUE8/1-185 DR EC; 2.7.4.3; #=GS W7KM92/1-195 AC W7KM92 #=GS W7KM92/1-195 OS Sulfolobales archaeon AZ1 #=GS W7KM92/1-195 DE Adenylate kinase #=GS W7KM92/1-195 DR GENE3D; 6b367bc4acaf99e4e857f47c89e3af06/1-195; #=GS W7KM92/1-195 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobales archaeon AZ1; #=GS W7KM92/1-195 DR EC; 2.7.4.3; #=GS A0A0P8XAI2/3-189 AC A0A0P8XAI2 #=GS A0A0P8XAI2/3-189 OS Thermococcus sp. EP1 #=GS A0A0P8XAI2/3-189 DE Adenylate kinase #=GS A0A0P8XAI2/3-189 DR GENE3D; 668cd492d422ea1a964ff999f0d46002/3-189; #=GS A0A0P8XAI2/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus sp. EP1; #=GS A0A0P8XAI2/3-189 DR EC; 2.7.4.3; #=GS A7I5R3/1-190 AC A7I5R3 #=GS A7I5R3/1-190 OS Methanoregula boonei 6A8 #=GS A7I5R3/1-190 DE Adenylate kinase #=GS A7I5R3/1-190 DR GENE3D; 67bda9b79bafd2a3d31b2059acae5e97/1-190; #=GS A7I5R3/1-190 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanoregulaceae; Methanoregula; Methanoregula boonei; #=GS A7I5R3/1-190 DR EC; 2.7.4.3; #=GS A0A075H8H9/2-176 AC A0A075H8H9 #=GS A0A075H8H9/2-176 OS uncultured marine group II/III euryarchaeote KM3_51_F05 #=GS A0A075H8H9/2-176 DE Adenylate kinase #=GS A0A075H8H9/2-176 DR GENE3D; 6dedd0101848b798e46ea774c75685ac/2-176; #=GS A0A075H8H9/2-176 DR ORG; Archaea; Euryarchaeota; uncultured marine group II/III euryarchaeote KM3_51_F05; #=GS A0A075H8H9/2-176 DR EC; 2.7.4.3; #=GS A0A1J5TH15/2-176 AC A0A1J5TH15 #=GS A0A1J5TH15/2-176 OS Marine Group III euryarchaeote CG-Bathy2 #=GS A0A1J5TH15/2-176 DE Adenylate kinase #=GS A0A1J5TH15/2-176 DR GENE3D; 6dedd0101848b798e46ea774c75685ac/2-176; #=GS A0A1J5TH15/2-176 DR ORG; Archaea; Euryarchaeota; Marine Group III euryarchaeote CG-Bathy2; #=GS A0A1J5TH15/2-176 DR EC; 2.7.4.3; #=GS A0A075HPS2/2-176 AC A0A075HPS2 #=GS A0A075HPS2/2-176 OS uncultured marine group II/III euryarchaeote KM3_82_E01 #=GS A0A075HPS2/2-176 DE Adenylate kinase #=GS A0A075HPS2/2-176 DR GENE3D; 6dedd0101848b798e46ea774c75685ac/2-176; #=GS A0A075HPS2/2-176 DR ORG; Archaea; Euryarchaeota; uncultured marine group II/III euryarchaeote KM3_82_E01; #=GS A0A075HPS2/2-176 DR EC; 2.7.4.3; #=GS A0A075GQR4/2-176 AC A0A075GQR4 #=GS A0A075GQR4/2-176 OS uncultured marine group II/III euryarchaeote KM3_18_H05 #=GS A0A075GQR4/2-176 DE Adenylate kinase #=GS A0A075GQR4/2-176 DR GENE3D; 6dedd0101848b798e46ea774c75685ac/2-176; #=GS A0A075GQR4/2-176 DR ORG; Archaea; Euryarchaeota; uncultured marine group II/III euryarchaeote KM3_18_H05; #=GS A0A075GQR4/2-176 DR EC; 2.7.4.3; #=GS A0A163BSD3/2-191 AC A0A163BSD3 #=GS A0A163BSD3/2-191 OS Methanoculleus bourgensis #=GS A0A163BSD3/2-191 DE Adenylate kinase #=GS A0A163BSD3/2-191 DR GENE3D; 6fa24e6649d99fe6966deebe66e9f2f8/2-191; #=GS A0A163BSD3/2-191 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus bourgensis; #=GS A0A163BSD3/2-191 DR EC; 2.7.4.3; #=GS A0A0X3BN33/2-191 AC A0A0X3BN33 #=GS A0A0X3BN33/2-191 OS Methanoculleus sp. MAB1 #=GS A0A0X3BN33/2-191 DE Adenylate kinase #=GS A0A0X3BN33/2-191 DR GENE3D; 6fa24e6649d99fe6966deebe66e9f2f8/2-191; #=GS A0A0X3BN33/2-191 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus sp. MAB1; #=GS A0A0X3BN33/2-191 DR EC; 2.7.4.3; #=GS D3E2G6/1-185 AC D3E2G6 #=GS D3E2G6/1-185 OS Methanobrevibacter ruminantium M1 #=GS D3E2G6/1-185 DE Adenylate kinase #=GS D3E2G6/1-185 DR GENE3D; 6b6bfbbefbb862ef3240546180eac3be/1-185; #=GS D3E2G6/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter ruminantium; #=GS D3E2G6/1-185 DR EC; 2.7.4.3; #=GS F2L4X0/1-189 AC F2L4X0 #=GS F2L4X0/1-189 OS Thermoproteus uzoniensis 768-20 #=GS F2L4X0/1-189 DE Adenylate kinase #=GS F2L4X0/1-189 DR GENE3D; 721279da6149368c3bdb11fd9557ad83/1-189; #=GS F2L4X0/1-189 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Thermoproteales; Thermoproteaceae; Thermoproteus; Thermoproteus uzoniensis; #=GS F2L4X0/1-189 DR EC; 2.7.4.3; #=GS A0A147JUD1/1-192 AC A0A147JUD1 #=GS A0A147JUD1/1-192 OS Hadesarchaea archaeon YNP_45 #=GS A0A147JUD1/1-192 DE Adenylate kinase #=GS A0A147JUD1/1-192 DR GENE3D; 723b39877d186ca8f99444ca0aa509bc/1-192; #=GS A0A147JUD1/1-192 DR ORG; Archaea; Euryarchaeota; Hadesarchaea; Hadesarchaea archaeon YNP_45; #=GS A0A147JUD1/1-192 DR EC; 2.7.4.3; #=GS A0A1J5TCA0/1-176 AC A0A1J5TCA0 #=GS A0A1J5TCA0/1-176 OS Marine Group III euryarchaeote CG-Bathy1 #=GS A0A1J5TCA0/1-176 DE Adenylate kinase #=GS A0A1J5TCA0/1-176 DR GENE3D; 77fe56b67cab0f9a36585ab4321ac192/1-176; #=GS A0A1J5TCA0/1-176 DR ORG; Archaea; Euryarchaeota; Marine Group III euryarchaeote CG-Bathy1; #=GS A0A1J5TCA0/1-176 DR EC; 2.7.4.3; #=GS A0A124EBM9/3-189 AC A0A124EBM9 #=GS A0A124EBM9/3-189 OS Thermococcus celericrescens #=GS A0A124EBM9/3-189 DE Adenylate kinase #=GS A0A124EBM9/3-189 DR GENE3D; 72fdac17f434f924c19dacd3d80fc62d/3-189; #=GS A0A124EBM9/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus celericrescens; #=GS A0A124EBM9/3-189 DR EC; 2.7.4.3; #=GS G0HIS4/3-189 AC G0HIS4 #=GS G0HIS4/3-189 OS Thermococcus sp. 4557 #=GS G0HIS4/3-189 DE Adenylate kinase #=GS G0HIS4/3-189 DR GENE3D; 72fdac17f434f924c19dacd3d80fc62d/3-189; #=GS G0HIS4/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus sp. 4557; #=GS G0HIS4/3-189 DR EC; 2.7.4.3; #=GS V4JMR7/11-206 AC V4JMR7 #=GS V4JMR7/11-206 OS uncultured Acidilobus sp. JCHS #=GS V4JMR7/11-206 DE Adenylate kinase #=GS V4JMR7/11-206 DR GENE3D; 7d9f0e85a94a97cbcf8b91d7f23ad0db/11-206; #=GS V4JMR7/11-206 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Acidilobales; Acidilobaceae; Acidilobus; uncultured Acidilobus sp. JCHS; #=GS V4JMR7/11-206 DR EC; 2.7.4.3; #=GS A0A133VRS7/1-173 AC A0A133VRS7 #=GS A0A133VRS7/1-173 OS candidate divison MSBL1 archaeon SCGC-AAA833K04 #=GS A0A133VRS7/1-173 DE Adenylate kinase #=GS A0A133VRS7/1-173 DR GENE3D; 794715be872e3975f85b0874bf726df7/1-173; #=GS A0A133VRS7/1-173 DR ORG; Archaea; Euryarchaeota; candidate divison MSBL1 archaeon SCGC-AAA833K04; #=GS A0A133VRS7/1-173 DR EC; 2.7.4.3; #=GS A0A133UY24/1-173 AC A0A133UY24 #=GS A0A133UY24/1-173 OS candidate divison MSBL1 archaeon SCGC-AAA261C02 #=GS A0A133UY24/1-173 DE Adenylate kinase #=GS A0A133UY24/1-173 DR GENE3D; 794715be872e3975f85b0874bf726df7/1-173; #=GS A0A133UY24/1-173 DR ORG; Archaea; Euryarchaeota; candidate divison MSBL1 archaeon SCGC-AAA261C02; #=GS A0A133UY24/1-173 DR EC; 2.7.4.3; #=GS A0A133V415/1-173 AC A0A133V415 #=GS A0A133V415/1-173 OS candidate divison MSBL1 archaeon SCGC-AAA261F17 #=GS A0A133V415/1-173 DE Adenylate kinase #=GS A0A133V415/1-173 DR GENE3D; 794715be872e3975f85b0874bf726df7/1-173; #=GS A0A133V415/1-173 DR ORG; Archaea; Euryarchaeota; candidate divison MSBL1 archaeon SCGC-AAA261F17; #=GS A0A133V415/1-173 DR EC; 2.7.4.3; #=GS A0A133V950/1-173 AC A0A133V950 #=GS A0A133V950/1-173 OS candidate divison MSBL1 archaeon SCGC-AAA261G05 #=GS A0A133V950/1-173 DE Adenylate kinase #=GS A0A133V950/1-173 DR GENE3D; 794715be872e3975f85b0874bf726df7/1-173; #=GS A0A133V950/1-173 DR ORG; Archaea; Euryarchaeota; candidate divison MSBL1 archaeon SCGC-AAA261G05; #=GS A0A133V950/1-173 DR EC; 2.7.4.3; #=GS A0A133V9F3/1-173 AC A0A133V9F3 #=GS A0A133V9F3/1-173 OS candidate divison MSBL1 archaeon SCGC-AAA261F19 #=GS A0A133V9F3/1-173 DE Adenylate kinase #=GS A0A133V9F3/1-173 DR GENE3D; 794715be872e3975f85b0874bf726df7/1-173; #=GS A0A133V9F3/1-173 DR ORG; Archaea; Euryarchaeota; candidate divison MSBL1 archaeon SCGC-AAA261F19; #=GS A0A133V9F3/1-173 DR EC; 2.7.4.3; #=GS A0A133V802/1-173 AC A0A133V802 #=GS A0A133V802/1-173 OS candidate divison MSBL1 archaeon SCGC-AAA261D19 #=GS A0A133V802/1-173 DE Adenylate kinase #=GS A0A133V802/1-173 DR GENE3D; 794715be872e3975f85b0874bf726df7/1-173; #=GS A0A133V802/1-173 DR ORG; Archaea; Euryarchaeota; candidate divison MSBL1 archaeon SCGC-AAA261D19; #=GS A0A133V802/1-173 DR EC; 2.7.4.3; #=GS G0H0I2/1-192 AC G0H0I2 #=GS G0H0I2/1-192 OS Methanococcus maripaludis X1 #=GS G0H0I2/1-192 DE Adenylate kinase #=GS G0H0I2/1-192 DR GENE3D; 7bcb4deb7e3761be620942a5d4254d41/1-192; #=GS G0H0I2/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS G0H0I2/1-192 DR EC; 2.7.4.3; #=GS A0A147JYB0/1-192 AC A0A147JYB0 #=GS A0A147JYB0/1-192 OS Hadesarchaea archaeon DG-33 #=GS A0A147JYB0/1-192 DE Adenylate kinase #=GS A0A147JYB0/1-192 DR GENE3D; 7bf3ced8df96affd882d8f12f28c94ca/1-192; #=GS A0A147JYB0/1-192 DR ORG; Archaea; Euryarchaeota; Hadesarchaea; Hadesarchaea archaeon DG-33; #=GS A0A147JYB0/1-192 DR EC; 2.7.4.3; #=GS L0A8J4/8-203 AC L0A8J4 #=GS L0A8J4/8-203 OS Caldisphaera lagunensis DSM 15908 #=GS L0A8J4/8-203 DE Adenylate kinase #=GS L0A8J4/8-203 DR GENE3D; 7e90ff9288d34fb2ef018ea240766012/8-203; #=GS L0A8J4/8-203 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Acidilobales; Caldisphaeraceae; Caldisphaera; Caldisphaera lagunensis; #=GS L0A8J4/8-203 DR EC; 2.7.4.3; #=GS A6UW35/1-192 AC A6UW35 #=GS A6UW35/1-192 OS Methanococcus aeolicus Nankai-3 #=GS A6UW35/1-192 DE Adenylate kinase #=GS A6UW35/1-192 DR GENE3D; 7fbb1f4eb53e1aa4dc0bda28901a8818/1-192; #=GS A6UW35/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus aeolicus; #=GS A6UW35/1-192 DR EC; 2.7.4.3; #=GS A0A1D2WCE6/1-185 AC A0A1D2WCE6 #=GS A0A1D2WCE6/1-185 OS Methanobacterium sp. A39 #=GS A0A1D2WCE6/1-185 DE Adenylate kinase #=GS A0A1D2WCE6/1-185 DR GENE3D; 877f2fbf0ebfa7d810821b692ecea8eb/1-185; #=GS A0A1D2WCE6/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium sp. A39; #=GS A0A1D2WCE6/1-185 DR EC; 2.7.4.3; #=GS I3RG92/3-189 AC I3RG92 #=GS I3RG92/3-189 OS Pyrococcus sp. ST04 #=GS I3RG92/3-189 DE Adenylate kinase #=GS I3RG92/3-189 DR GENE3D; 947917950c98244d5aaa8346e7f62638/3-189; #=GS I3RG92/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus sp. ST04; #=GS I3RG92/3-189 DR EC; 2.7.4.3; #=GS D7DTV1/1-192 AC D7DTV1 #=GS D7DTV1/1-192 OS Methanococcus voltae A3 #=GS D7DTV1/1-192 DE Adenylate kinase #=GS D7DTV1/1-192 DR GENE3D; 9a786eadd0ee87844c70cfa73d1bef11/1-192; #=GS D7DTV1/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus voltae; #=GS D7DTV1/1-192 DR EC; 2.7.4.3; #=GS G0QHX2/2-187 AC G0QHX2 #=GS G0QHX2/2-187 OS Candidatus Nanosalina sp. J07AB43 #=GS G0QHX2/2-187 DE Adenylate kinase #=GS G0QHX2/2-187 DR GENE3D; 9b3e23882bb590815ca9cf3431a0b696/2-187; #=GS G0QHX2/2-187 DR ORG; Archaea; Candidatus Nanohaloarchaeota; Nanohaloarchaea; Candidatus Nanosalina; Candidatus Nanosalina sp. J07AB43; #=GS G0QHX2/2-187 DR EC; 2.7.4.3; #=GS A0A126QZA2/1-185 AC A0A126QZA2 #=GS A0A126QZA2/1-185 OS Methanobrevibacter olleyae #=GS A0A126QZA2/1-185 DE Adenylate kinase #=GS A0A126QZA2/1-185 DR GENE3D; 9b43c69a7a26cd968369dc81b91a814a/1-185; #=GS A0A126QZA2/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter olleyae; #=GS A0A126QZA2/1-185 DR EC; 2.7.4.3; #=GS B5ICT9/1-183 AC B5ICT9 #=GS B5ICT9/1-183 OS Aciduliprofundum boonei T469 #=GS B5ICT9/1-183 DE Adenylate kinase #=GS B5ICT9/1-183 DR GENE3D; 9d9d8817668194cfd13abe42f2de7c90/1-183; #=GS B5ICT9/1-183 DR ORG; Archaea; Euryarchaeota; Aciduliprofundum; Aciduliprofundum boonei; #=GS B5ICT9/1-183 DR EC; 2.7.4.3; #=GS A0A1D3L2M3/1-185 AC A0A1D3L2M3 #=GS A0A1D3L2M3/1-185 OS Methanobacterium congolense #=GS A0A1D3L2M3/1-185 DE Adenylate kinase #=GS A0A1D3L2M3/1-185 DR GENE3D; a4ef591e6a508430e4e1d321d8bc9190/1-185; #=GS A0A1D3L2M3/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium congolense; #=GS A0A1D3L2M3/1-185 DR EC; 2.7.4.3; #=GS D9PV64/1-185 AC D9PV64 #=GS D9PV64/1-185 OS Methanothermobacter marburgensis str. Marburg #=GS D9PV64/1-185 DE Adenylate kinase #=GS D9PV64/1-185 DR GENE3D; a40ee0da6b3f251930e0f2e2b7e696b7/1-185; #=GS D9PV64/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanothermobacter; Methanothermobacter marburgensis; #=GS D9PV64/1-185 DR EC; 2.7.4.3; #=GS P43410/1-192 AC P43410 #=GS P43410/1-192 OS Methanothermococcus thermolithotrophicus #=GS P43410/1-192 DE Adenylate kinase #=GS P43410/1-192 DR GENE3D; 9f484bad7a9496f9cdd1e35399fcdfdb/1-192; #=GS P43410/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanothermococcus; Methanothermococcus thermolithotrophicus; #=GS P43410/1-192 DR EC; 2.7.4.3; #=GS T0LJG8/2-180 AC T0LJG8 #=GS T0LJG8/2-180 OS Thermoplasmatales archaeon I-plasma #=GS T0LJG8/2-180 DE Adenylate kinase #=GS T0LJG8/2-180 DR GENE3D; a1f4a19fae744bee09c57fd1808faa7b/2-180; #=GS T0LJG8/2-180 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmatales archaeon I-plasma; #=GS T0LJG8/2-180 DR EC; 2.7.4.3; #=GS A0A101HFN3/1-185 AC A0A101HFN3 #=GS A0A101HFN3/1-185 OS Methanobacterium sp. 42_16 #=GS A0A101HFN3/1-185 DE Adenylate kinase #=GS A0A101HFN3/1-185 DR GENE3D; acf5dc45bc617e1b69be21a7202edf26/1-185; #=GS A0A101HFN3/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium sp. 42_16; #=GS A0A101HFN3/1-185 DR EC; 2.7.4.3; #=GS A0A090I174/1-185 AC A0A090I174 #=GS A0A090I174/1-185 OS Methanobacterium formicicum #=GS A0A090I174/1-185 DE Adenylate kinase #=GS A0A090I174/1-185 DR GENE3D; acf5dc45bc617e1b69be21a7202edf26/1-185; #=GS A0A090I174/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium formicicum; #=GS A0A090I174/1-185 DR EC; 2.7.4.3; #=GS A0A135VM46/4-194 AC A0A135VM46 #=GS A0A135VM46/4-194 OS Candidatus Thorarchaeota archaeon SMTZ1-45 #=GS A0A135VM46/4-194 DE Adenylate kinase #=GS A0A135VM46/4-194 DR GENE3D; a50b37d8d51bca7ec9a0e3790832a4ac/4-194; #=GS A0A135VM46/4-194 DR ORG; Archaea; Candidatus Thorarchaeota; Candidatus Thorarchaeota archaeon SMTZ1-45; #=GS A0A135VM46/4-194 DR EC; 2.7.4.3; #=GS A0A0D5C3S9/3-190 AC A0A0D5C3S9 #=GS A0A0D5C3S9/3-190 OS Candidatus Nitrosopumilus adriaticus #=GS A0A0D5C3S9/3-190 DE Adenylate kinase #=GS A0A0D5C3S9/3-190 DR GENE3D; a51d2fa644cae73e64ae59493605aa77/3-190; #=GS A0A0D5C3S9/3-190 DR ORG; Archaea; Thaumarchaeota; Nitrosopumilales; Nitrosopumilaceae; Nitrosopumilus; Candidatus Nitrosopumilus adriaticus; #=GS A0A0D5C3S9/3-190 DR EC; 2.7.4.3; #=GS A0A087RU76/6-193 AC A0A087RU76 #=GS A0A087RU76/6-193 OS Marine Group I thaumarchaeote SCGC AAA799-D11 #=GS A0A087RU76/6-193 DE Adenylate kinase #=GS A0A087RU76/6-193 DR GENE3D; ac5c1bcc3799444f6ca19c1bc3d59206/6-193; #=GS A0A087RU76/6-193 DR ORG; Archaea; Thaumarchaeota; Marine Group I thaumarchaeote SCGC AAA799-D11; #=GS A0A087RU76/6-193 DR EC; 2.7.4.3; #=GS A0A087S077/6-193 AC A0A087S077 #=GS A0A087S077/6-193 OS Marine Group I thaumarchaeote SCGC RSA3 #=GS A0A087S077/6-193 DE Adenylate kinase #=GS A0A087S077/6-193 DR GENE3D; ac5c1bcc3799444f6ca19c1bc3d59206/6-193; #=GS A0A087S077/6-193 DR ORG; Archaea; Thaumarchaeota; Marine Group I thaumarchaeote SCGC RSA3; #=GS A0A087S077/6-193 DR EC; 2.7.4.3; #=GS A0A081RP58/6-193 AC A0A081RP58 #=GS A0A081RP58/6-193 OS Marine Group I thaumarchaeote SCGC AAA799-N04 #=GS A0A081RP58/6-193 DE Adenylate kinase #=GS A0A081RP58/6-193 DR GENE3D; ac5c1bcc3799444f6ca19c1bc3d59206/6-193; #=GS A0A081RP58/6-193 DR ORG; Archaea; Thaumarchaeota; Marine Group I thaumarchaeote SCGC AAA799-N04; #=GS A0A081RP58/6-193 DR EC; 2.7.4.3; #=GS F6BD75/1-192 AC F6BD75 #=GS F6BD75/1-192 OS Methanotorris igneus Kol 5 #=GS F6BD75/1-192 DE Adenylate kinase #=GS F6BD75/1-192 DR GENE3D; a92a7f62b3e0dc17202533f430bb6739/1-192; #=GS F6BD75/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanotorris; Methanotorris igneus; #=GS F6BD75/1-192 DR EC; 2.7.4.3; #=GS P43408/1-192 AC P43408 #=GS P43408/1-192 OS Methanotorris igneus #=GS P43408/1-192 DE Adenylate kinase #=GS P43408/1-192 DR GENE3D; a92a7f62b3e0dc17202533f430bb6739/1-192; #=GS P43408/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanotorris; Methanotorris igneus; #=GS P43408/1-192 DR EC; 2.7.4.3; #=GS A0A1J5J9X9/2-182 AC A0A1J5J9X9 #=GS A0A1J5J9X9/2-182 OS Candidatus Altiarchaeum sp. CG2_30_32_3053 #=GS A0A1J5J9X9/2-182 DE Adenylate kinase #=GS A0A1J5J9X9/2-182 DR GENE3D; a9617da1bce7a6c5a3601e37cdb7f9bf/2-182; #=GS A0A1J5J9X9/2-182 DR ORG; Archaea; Euryarchaeota; Candidatus Altiarchaeales; Candidatus Altiarchaeum; Candidatus Altiarchaeum sp. CG2_30_32_3053; #=GS A0A1J5J9X9/2-182 DR EC; 2.7.4.3; #=GS G4RKQ2/1-177 AC G4RKQ2 #=GS G4RKQ2/1-177 OS Thermoproteus tenax Kra 1 #=GS G4RKQ2/1-177 DE Adenylate kinase #=GS G4RKQ2/1-177 DR GENE3D; b20ea7577af76e67fe8b310fcaa11cf7/1-177; #=GS G4RKQ2/1-177 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Thermoproteales; Thermoproteaceae; Thermoproteus; Thermoproteus tenax; #=GS G4RKQ2/1-177 DR EC; 2.7.4.3; #=GS A0A1D2WMY5/1-185 AC A0A1D2WMY5 #=GS A0A1D2WMY5/1-185 OS Methanobrevibacter sp. A27 #=GS A0A1D2WMY5/1-185 DE Adenylate kinase #=GS A0A1D2WMY5/1-185 DR GENE3D; b38ca8d3c3e6f2868d8c8d2fa892b601/1-185; #=GS A0A1D2WMY5/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter sp. A27; #=GS A0A1D2WMY5/1-185 DR EC; 2.7.4.3; #=GS A0A076LH61/1-192 AC A0A076LH61 #=GS A0A076LH61/1-192 OS Methanocaldococcus bathoardescens #=GS A0A076LH61/1-192 DE Adenylate kinase #=GS A0A076LH61/1-192 DR GENE3D; b2612ba9aea6cf20a9a09566807111b0/1-192; #=GS A0A076LH61/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanocaldococcus; Methanocaldococcus bathoardescens; #=GS A0A076LH61/1-192 DR EC; 2.7.4.3; #=GS A0A1G5UZG8/1-185 AC A0A1G5UZG8 #=GS A0A1G5UZG8/1-185 OS Methanobrevibacter millerae #=GS A0A1G5UZG8/1-185 DE Adenylate kinase #=GS A0A1G5UZG8/1-185 DR GENE3D; b87429b4c65aab08383228d59f3d8b9d/1-185; #=GS A0A1G5UZG8/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter millerae; #=GS A0A1G5UZG8/1-185 DR EC; 2.7.4.3; #=GS A0A0X1KIZ1/3-189 AC A0A0X1KIZ1 #=GS A0A0X1KIZ1/3-189 OS Thermococcus guaymasensis DSM 11113 #=GS A0A0X1KIZ1/3-189 DE Adenylate kinase #=GS A0A0X1KIZ1/3-189 DR GENE3D; b7acfad8fab7420733fd4778c0ca2e7b/3-189; #=GS A0A0X1KIZ1/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus guaymasensis; #=GS A0A0X1KIZ1/3-189 DR EC; 2.7.4.3; #=GS A6VFX9/1-192 AC A6VFX9 #=GS A6VFX9/1-192 OS Methanococcus maripaludis C7 #=GS A6VFX9/1-192 DE Adenylate kinase #=GS A6VFX9/1-192 DR GENE3D; af3114958bd6b68d4fbcb7993f8f0339/1-192; #=GS A6VFX9/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanococcaceae; Methanococcus; Methanococcus maripaludis; #=GS A6VFX9/1-192 DR EC; 2.7.4.3; #=GS A0A117SQV8/1-187 AC A0A117SQV8 #=GS A0A117SQV8/1-187 OS Thermoproteus sp. CIS_19 #=GS A0A117SQV8/1-187 DE Adenylate kinase #=GS A0A117SQV8/1-187 DR GENE3D; b8e1f6998a68683e19539f2c5925c556/1-187; #=GS A0A117SQV8/1-187 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Thermoproteales; Thermoproteaceae; Thermoproteus; Thermoproteus sp. CIS_19; #=GS A0A117SQV8/1-187 DR EC; 2.7.4.3; #=GS A0A101F0Y1/3-189 AC A0A101F0Y1 #=GS A0A101F0Y1/3-189 OS Thermococcus sp. 40_45 #=GS A0A101F0Y1/3-189 DE Adenylate kinase #=GS A0A101F0Y1/3-189 DR GENE3D; bb71725606c2c5e7d433c0b65e3d584f/3-189; #=GS A0A101F0Y1/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus sp. 40_45; #=GS A0A101F0Y1/3-189 DR EC; 2.7.4.3; #=GS A0A1F5DIC0/2-191 AC A0A1F5DIC0 #=GS A0A1F5DIC0/2-191 OS Candidatus Bathyarchaeota archaeon RBG_13_38_9 #=GS A0A1F5DIC0/2-191 DE Adenylate kinase #=GS A0A1F5DIC0/2-191 DR GENE3D; bdc4fc9e7f653311c58d03dde629e696/2-191; #=GS A0A1F5DIC0/2-191 DR ORG; Archaea; Candidatus Bathyarchaeota; Candidatus Bathyarchaeota archaeon RBG_13_38_9; #=GS A0A1F5DIC0/2-191 DR EC; 2.7.4.3; #=GS A0A075LR56/3-189 AC A0A075LR56 #=GS A0A075LR56/3-189 OS Palaeococcus pacificus DY20341 #=GS A0A075LR56/3-189 DE Adenylate kinase #=GS A0A075LR56/3-189 DR GENE3D; b455fd7a7409a522178fa94d9844764e/3-189; #=GS A0A075LR56/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Palaeococcus; Palaeococcus pacificus; #=GS A0A075LR56/3-189 DR EC; 2.7.4.3; #=GS A0A1F2P3X7/1-188 AC A0A1F2P3X7 #=GS A0A1F2P3X7/1-188 OS Candidatus Syntrophoarchaeum butanivorans #=GS A0A1F2P3X7/1-188 DE Adenylate kinase #=GS A0A1F2P3X7/1-188 DR GENE3D; be1e700a0773b88e88b14ac1ea036739/1-188; #=GS A0A1F2P3X7/1-188 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanosarcinales; Candidatus Syntrophoarchaeum; Candidatus Syntrophoarchaeum butanivorans; #=GS A0A1F2P3X7/1-188 DR EC; 2.7.4.3; #=GS D2ZQD7/1-185 AC D2ZQD7 #=GS D2ZQD7/1-185 OS Methanobrevibacter smithii DSM 2374 #=GS D2ZQD7/1-185 DE Adenylate kinase #=GS D2ZQD7/1-185 DR GENE3D; bfa996cd7ab87f1a191b9d9911b67d7d/1-185; #=GS D2ZQD7/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter smithii; #=GS D2ZQD7/1-185 DR EC; 2.7.4.3; #=GS H1YWP2/4-191 AC H1YWP2 #=GS H1YWP2/4-191 OS Methanoplanus limicola DSM 2279 #=GS H1YWP2/4-191 DE Adenylate kinase #=GS H1YWP2/4-191 DR GENE3D; c0bee821e00016d1e2b2b3224e47761a/4-191; #=GS H1YWP2/4-191 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoplanus; Methanoplanus limicola; #=GS H1YWP2/4-191 DR EC; 2.7.4.3; #=GS A0A147JS17/2-191 AC A0A147JS17 #=GS A0A147JS17/2-191 OS Hadesarchaea archaeon DG-33-1 #=GS A0A147JS17/2-191 DE Adenylate kinase #=GS A0A147JS17/2-191 DR GENE3D; c125fc83dbc70c820fadf6e96c837b16/2-191; #=GS A0A147JS17/2-191 DR ORG; Archaea; Euryarchaeota; Hadesarchaea; Hadesarchaea archaeon DG-33-1; #=GS A0A147JS17/2-191 DR EC; 2.7.4.3; #=GS A0A0Q2XLV4/3-189 AC A0A0Q2XLV4 #=GS A0A0Q2XLV4/3-189 OS Thermococcus thioreducens #=GS A0A0Q2XLV4/3-189 DE Adenylate kinase #=GS A0A0Q2XLV4/3-189 DR GENE3D; c10a02cb0426ceb0723063ed40c90e45/3-189; #=GS A0A0Q2XLV4/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus thioreducens; #=GS A0A0Q2XLV4/3-189 DR EC; 2.7.4.3; #=GS A0A0P0N356/9-201 AC A0A0P0N356 #=GS A0A0P0N356/9-201 OS Pyrodictium delaneyi #=GS A0A0P0N356/9-201 DE Adenylate kinase #=GS A0A0P0N356/9-201 DR GENE3D; c0bf13e0b170299239259d49fef7f144/9-201; #=GS A0A0P0N356/9-201 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Desulfurococcales; Pyrodictiaceae; Pyrodictium; Pyrodictium delaneyi; #=GS A0A0P0N356/9-201 DR EC; 2.7.4.3; #=GS I3ZSX6/3-189 AC I3ZSX6 #=GS I3ZSX6/3-189 OS Thermococcus cleftensis #=GS I3ZSX6/3-189 DE Adenylate kinase #=GS I3ZSX6/3-189 DR GENE3D; b970bc982dc70d313ffa139bb9adab45/3-189; #=GS I3ZSX6/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus cleftensis; #=GS I3ZSX6/3-189 DR EC; 2.7.4.3; #=GS Q6L1A3/1-180 AC Q6L1A3 #=GS Q6L1A3/1-180 OS Picrophilus torridus DSM 9790 #=GS Q6L1A3/1-180 DE Adenylate kinase #=GS Q6L1A3/1-180 DR GENE3D; c3952b4f7e8aa2b5e45e7a9211a5790a/1-180; #=GS Q6L1A3/1-180 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Picrophilaceae; Picrophilus; Picrophilus torridus; #=GS Q6L1A3/1-180 DR EC; 2.7.4.3; #=GS T2GGL2/1-185 AC T2GGL2 #=GS T2GGL2/1-185 OS Methanothermobacter sp. CaT2 #=GS T2GGL2/1-185 DE Adenylate kinase #=GS T2GGL2/1-185 DR GENE3D; c2e60799a28cfe37ffb9f18a476a053a/1-185; #=GS T2GGL2/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanothermobacter; Methanothermobacter sp. CaT2; #=GS T2GGL2/1-185 DR EC; 2.7.4.3; #=GS A0A101ENW7/3-189 AC A0A101ENW7 #=GS A0A101ENW7/3-189 OS Thermococcus sibiricus #=GS A0A101ENW7/3-189 DE Adenylate kinase #=GS A0A101ENW7/3-189 DR GENE3D; c47b8ddf09d90cffb4b1df05472c66d2/3-189; #=GS A0A101ENW7/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus sibiricus; #=GS A0A101ENW7/3-189 DR EC; 2.7.4.3; #=GS F4B8F5/1-195 AC F4B8F5 #=GS F4B8F5/1-195 OS Acidianus hospitalis W1 #=GS F4B8F5/1-195 DE Adenylate kinase #=GS F4B8F5/1-195 DR GENE3D; bf953d818dee920e944f8a446315564d/1-195; #=GS F4B8F5/1-195 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Acidianus; Acidianus hospitalis; #=GS F4B8F5/1-195 DR EC; 2.7.4.3; #=GS A3CT21/1-192 AC A3CT21 #=GS A3CT21/1-192 OS Methanoculleus marisnigri JR1 #=GS A3CT21/1-192 DE Adenylate kinase #=GS A3CT21/1-192 DR GENE3D; bfd395f1a8af6c5e2d43a8e662fd6311/1-192; #=GS A3CT21/1-192 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus marisnigri; #=GS A3CT21/1-192 DR EC; 2.7.4.3; #=GS N6WK53/2-181 AC N6WK53 #=GS N6WK53/2-181 OS Thermoplasmatales archaeon SCGC AB-539-C06 #=GS N6WK53/2-181 DE Adenylate kinase #=GS N6WK53/2-181 DR GENE3D; cf87b56bc62c907a96145f8353f714a1/2-181; #=GS N6WK53/2-181 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmatales archaeon SCGC AB-539-C06; #=GS N6WK53/2-181 DR EC; 2.7.4.3; #=GS C9RES2/1-192 AC C9RES2 #=GS C9RES2/1-192 OS Methanocaldococcus vulcanius M7 #=GS C9RES2/1-192 DE Adenylate kinase #=GS C9RES2/1-192 DR GENE3D; c75299ddf8cdeef6fc3a6bf272811003/1-192; #=GS C9RES2/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanocaldococcus; Methanocaldococcus vulcanius; #=GS C9RES2/1-192 DR EC; 2.7.4.3; #=GS A4YCZ0/1-193 AC A4YCZ0 #=GS A4YCZ0/1-193 OS Metallosphaera sedula DSM 5348 #=GS A4YCZ0/1-193 DE Adenylate kinase #=GS A4YCZ0/1-193 DR GENE3D; d129581d8faee2c02ccc7a2d3a0ddcbd/1-193; #=GS A4YCZ0/1-193 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Metallosphaera; Metallosphaera sedula; #=GS A4YCZ0/1-193 DR EC; 2.7.4.3; #=GS A0A088E1D6/1-193 AC A0A088E1D6 #=GS A0A088E1D6/1-193 OS Metallosphaera sedula #=GS A0A088E1D6/1-193 DE Adenylate kinase #=GS A0A088E1D6/1-193 DR GENE3D; d129581d8faee2c02ccc7a2d3a0ddcbd/1-193; #=GS A0A088E1D6/1-193 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Metallosphaera; Metallosphaera sedula; #=GS A0A088E1D6/1-193 DR EC; 2.7.4.3; #=GS V4K1H3/11-206 AC V4K1H3 #=GS V4K1H3/11-206 OS uncultured Acidilobus sp. CIS #=GS V4K1H3/11-206 DE Adenylate kinase #=GS V4K1H3/11-206 DR GENE3D; d6310977ea1aca0e44fe32b09c730415/11-206; #=GS V4K1H3/11-206 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Acidilobales; Acidilobaceae; Acidilobus; uncultured Acidilobus sp. CIS; #=GS V4K1H3/11-206 DR EC; 2.7.4.3; #=GS D3S6F7/1-192 AC D3S6F7 #=GS D3S6F7/1-192 OS Methanocaldococcus sp. FS406-22 #=GS D3S6F7/1-192 DE Adenylate kinase #=GS D3S6F7/1-192 DR GENE3D; d73adceef3edb7af8818108df76b9cd9/1-192; #=GS D3S6F7/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanocaldococcus; Methanocaldococcus sp. FS406-22; #=GS D3S6F7/1-192 DR EC; 2.7.4.3; #=GS A0A162FK61/1-184 AC A0A162FK61 #=GS A0A162FK61/1-184 OS Methanobrevibacter curvatus #=GS A0A162FK61/1-184 DE Adenylate kinase #=GS A0A162FK61/1-184 DR GENE3D; d66ac1f669d8c82ae1175676ce012dc0/1-184; #=GS A0A162FK61/1-184 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter curvatus; #=GS A0A162FK61/1-184 DR EC; 2.7.4.3; #=GS A0A166FK15/1-185 AC A0A166FK15 #=GS A0A166FK15/1-185 OS Methanobrevibacter cuticularis #=GS A0A166FK15/1-185 DE Adenylate kinase #=GS A0A166FK15/1-185 DR GENE3D; daae47d5e5666347d72cafbf3ab564c1/1-185; #=GS A0A166FK15/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter cuticularis; #=GS A0A166FK15/1-185 DR EC; 2.7.4.3; #=GS A0A109V759/9-204 AC A0A109V759 #=GS A0A109V759/9-204 OS Acidilobus sp. 7A #=GS A0A109V759/9-204 DE Adenylate kinase #=GS A0A109V759/9-204 DR GENE3D; d9f3ecd86ec46a87974c7528eaa538e6/9-204; #=GS A0A109V759/9-204 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Acidilobales; Acidilobaceae; Acidilobus; Acidilobus sp. 7A; #=GS A0A109V759/9-204 DR EC; 2.7.4.3; #=GS E3GZE3/1-185 AC E3GZE3 #=GS E3GZE3/1-185 OS Methanothermus fervidus DSM 2088 #=GS E3GZE3/1-185 DE Adenylate kinase #=GS E3GZE3/1-185 DR GENE3D; dbc9c04946e8b3898a1fee6599595995/1-185; #=GS E3GZE3/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanothermaceae; Methanothermus; Methanothermus fervidus; #=GS E3GZE3/1-185 DR EC; 2.7.4.3; #=GS T0NFW2/2-180 AC T0NFW2 #=GS T0NFW2/2-180 OS Ferroplasma sp. Type II #=GS T0NFW2/2-180 DE Adenylate kinase #=GS T0NFW2/2-180 DR GENE3D; de895e0b3095b8f845e8c46b235a1a51/2-180; #=GS T0NFW2/2-180 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Ferroplasmaceae; Ferroplasma; Ferroplasma sp. Type II; #=GS T0NFW2/2-180 DR EC; 2.7.4.3; #=GS C5A261/3-189 AC C5A261 #=GS C5A261/3-189 OS Thermococcus gammatolerans EJ3 #=GS C5A261/3-189 DE Adenylate kinase #=GS C5A261/3-189 DR GENE3D; d45ca945e79f435b68b9aaded4269cda/3-189; #=GS C5A261/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus gammatolerans; #=GS C5A261/3-189 DR EC; 2.7.4.3; #=GS A0A0F2L8P7/1-186 AC A0A0F2L8P7 #=GS A0A0F2L8P7/1-186 OS Thermoproteus sp. AZ2 #=GS A0A0F2L8P7/1-186 DE Adenylate kinase #=GS A0A0F2L8P7/1-186 DR GENE3D; d937179b5219d9cb49cf41041806115a/1-186; #=GS A0A0F2L8P7/1-186 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Thermoproteales; Thermoproteaceae; Thermoproteus; Thermoproteus sp. AZ2; #=GS A0A0F2L8P7/1-186 DR EC; 2.7.4.3; #=GS K0IH82/4-191 AC K0IH82 #=GS K0IH82/4-191 OS Candidatus Nitrososphaera gargensis Ga9.2 #=GS K0IH82/4-191 DE Adenylate kinase #=GS K0IH82/4-191 DR GENE3D; e57510be5c0e93d4d49d9a115d183273/4-191; #=GS K0IH82/4-191 DR ORG; Archaea; Thaumarchaeota; Nitrososphaeria; Nitrososphaerales; Nitrososphaeraceae; Nitrososphaera; Candidatus Nitrososphaera gargensis; #=GS K0IH82/4-191 DR EC; 2.7.4.3; #=GS W0I5E3/3-189 AC W0I5E3 #=GS W0I5E3/3-189 OS Thermococcus paralvinellae #=GS W0I5E3/3-189 DE Adenylate kinase #=GS W0I5E3/3-189 DR GENE3D; e78d660636c41914b14b97e98c333962/3-189; #=GS W0I5E3/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus paralvinellae; #=GS W0I5E3/3-189 DR EC; 2.7.4.3; #=GS A0A0W8FHM8/2-191 AC A0A0W8FHM8 #=GS A0A0W8FHM8/2-191 OS hydrocarbon metagenome #=GS A0A0W8FHM8/2-191 DE Adenylate kinase, archaeal type #=GS A0A0W8FHM8/2-191 DR GENE3D; e7f3ad25a0fc7fb293522516dc7ef63c/2-191; #=GS A0A0W8FHM8/2-191 DR ORG; hydrocarbon metagenome; #=GS A0A0W8FHM8/2-191 DR EC; 2.7.4.3; #=GS U3T9E3/5-200 AC U3T9E3 #=GS U3T9E3/5-200 OS Aeropyrum camini SY1 = JCM 12091 #=GS U3T9E3/5-200 DE Adenylate kinase #=GS U3T9E3/5-200 DR GENE3D; e67436d0e5c15e6cbbc2c5b1dd06d696/5-200; #=GS U3T9E3/5-200 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Desulfurococcales; Desulfurococcaceae; Aeropyrum; Aeropyrum camini; #=GS U3T9E3/5-200 DR EC; 2.7.4.3; #=GS V4JXU4/11-206 AC V4JXU4 #=GS V4JXU4/11-206 OS uncultured Acidilobus sp. MG #=GS V4JXU4/11-206 DE Adenylate kinase #=GS V4JXU4/11-206 DR GENE3D; e86112222b5c5b5efff6d1bc5e861db5/11-206; #=GS V4JXU4/11-206 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Acidilobales; Acidilobaceae; Acidilobus; uncultured Acidilobus sp. MG; #=GS V4JXU4/11-206 DR EC; 2.7.4.3; #=GS A0A1G8ZKH2/27-216 AC A0A1G8ZKH2 #=GS A0A1G8ZKH2/27-216 OS Methanoculleus thermophilus #=GS A0A1G8ZKH2/27-216 DE Adenylate kinase #=GS A0A1G8ZKH2/27-216 DR GENE3D; ea65ccddc668fa94b9f2d19b64de3fa7/27-216; #=GS A0A1G8ZKH2/27-216 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus thermophilus; #=GS A0A1G8ZKH2/27-216 DR EC; 2.7.4.3; #=GS A0A101DRA7/1-184 AC A0A101DRA7 #=GS A0A101DRA7/1-184 OS Methanobacteriaceae archaeon 41_258 #=GS A0A101DRA7/1-184 DE Adenylate kinase #=GS A0A101DRA7/1-184 DR GENE3D; df0af13cae079dddf1f2a4bc291b1663/1-184; #=GS A0A101DRA7/1-184 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacteriaceae archaeon 41_258; #=GS A0A101DRA7/1-184 DR EC; 2.7.4.3; #=GS A0A1J5TBM3/1-177 AC A0A1J5TBM3 #=GS A0A1J5TBM3/1-177 OS Marine Group III euryarchaeote CG-Epi1 #=GS A0A1J5TBM3/1-177 DE Adenylate kinase #=GS A0A1J5TBM3/1-177 DR GENE3D; edfa0d6eae7e71743ffefa7560c433cf/1-177; #=GS A0A1J5TBM3/1-177 DR ORG; Archaea; Euryarchaeota; Marine Group III euryarchaeote CG-Epi1; #=GS A0A1J5TBM3/1-177 DR EC; 2.7.4.3; #=GS A0A133VDH4/1-173 AC A0A133VDH4 #=GS A0A133VDH4/1-173 OS candidate divison MSBL1 archaeon SCGC-AAA261O19 #=GS A0A133VDH4/1-173 DE Adenylate kinase #=GS A0A133VDH4/1-173 DR GENE3D; eb88392b43856f2a20d7535730bb2d5c/1-173; #=GS A0A133VDH4/1-173 DR ORG; Archaea; Euryarchaeota; candidate divison MSBL1 archaeon SCGC-AAA261O19; #=GS A0A133VDH4/1-173 DR EC; 2.7.4.3; #=GS I7L024/2-191 AC I7L024 #=GS I7L024/2-191 OS Methanoculleus bourgensis MS2 #=GS I7L024/2-191 DE Adenylate kinase #=GS I7L024/2-191 DR GENE3D; eda780e43d0b8ec3c66fa1e17045349b/2-191; #=GS I7L024/2-191 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus bourgensis; #=GS I7L024/2-191 DR EC; 2.7.4.3; #=GS G0QBX7/2-188 AC G0QBX7 #=GS G0QBX7/2-188 OS Candidatus Nanosalinarum sp. J07AB56 #=GS G0QBX7/2-188 DE Adenylate kinase #=GS G0QBX7/2-188 DR GENE3D; ef07406dda41c2f9ac5d3370b4b2813e/2-188; #=GS G0QBX7/2-188 DR ORG; Archaea; Candidatus Nanohaloarchaeota; Nanohaloarchaea; Candidatus Nanosalinarum; Candidatus Nanosalinarum sp. J07AB56; #=GS G0QBX7/2-188 DR EC; 2.7.4.3; #=GS A0A161K9V3/3-189 AC A0A161K9V3 #=GS A0A161K9V3/3-189 OS Thermococcus chitonophagus #=GS A0A161K9V3/3-189 DE Adenylate kinase #=GS A0A161K9V3/3-189 DR GENE3D; e493f328c4772926c341404d38548feb/3-189; #=GS A0A161K9V3/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus chitonophagus; #=GS A0A161K9V3/3-189 DR EC; 2.7.4.3; #=GS Q975K4/1-193 AC Q975K4 #=GS Q975K4/1-193 OS Sulfolobus tokodaii str. 7 #=GS Q975K4/1-193 DE Adenylate kinase #=GS Q975K4/1-193 DR GENE3D; e6d5bfcd85eb86936d7e92dd2f863d10/1-193; #=GS Q975K4/1-193 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus tokodaii; #=GS Q975K4/1-193 DR EC; 2.7.4.3; #=GS F6D7J3/1-185 AC F6D7J3 #=GS F6D7J3/1-185 OS Methanobacterium paludis #=GS F6D7J3/1-185 DE Adenylate kinase #=GS F6D7J3/1-185 DR GENE3D; f6a7a8e2852aa6202bf3600ad09f58df/1-185; #=GS F6D7J3/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium paludis; #=GS F6D7J3/1-185 DR EC; 2.7.4.3; #=GS A0A0U3H6K9/2-189 AC A0A0U3H6K9 #=GS A0A0U3H6K9/2-189 OS Thermococcus sp. 2319x1 #=GS A0A0U3H6K9/2-189 DE Adenylate kinase #=GS A0A0U3H6K9/2-189 DR GENE3D; ec06f35fb8c2a4a2c12b2885d594f14e/2-189; #=GS A0A0U3H6K9/2-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus sp. 2319x1; #=GS A0A0U3H6K9/2-189 DR EC; 2.7.4.3; #=GS A0A165ZLW7/1-185 AC A0A165ZLW7 #=GS A0A165ZLW7/1-185 OS Methanobrevibacter oralis #=GS A0A165ZLW7/1-185 DE Adenylate kinase #=GS A0A165ZLW7/1-185 DR GENE3D; fceba7b5bef1b073b363d187b48013f4/1-185; #=GS A0A165ZLW7/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter oralis; #=GS A0A165ZLW7/1-185 DR EC; 2.7.4.3; #=GS A0A162FBX4/1-185 AC A0A162FBX4 #=GS A0A162FBX4/1-185 OS Methanobrevibacter filiformis #=GS A0A162FBX4/1-185 DE Adenylate kinase #=GS A0A162FBX4/1-185 DR GENE3D; f112bf96b5e9b877812647f626d634ae/1-185; #=GS A0A162FBX4/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter filiformis; #=GS A0A162FBX4/1-185 DR EC; 2.7.4.3; #=GS A0A117MIC0/27-216 AC A0A117MIC0 #=GS A0A117MIC0/27-216 OS Methanoculleus marisnigri #=GS A0A117MIC0/27-216 DE Adenylate kinase #=GS A0A117MIC0/27-216 DR GENE3D; fec5da32caf8e0a0ac6e05f00f46d1a4/27-216; #=GS A0A117MIC0/27-216 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanoculleus; Methanoculleus marisnigri; #=GS A0A117MIC0/27-216 DR EC; 2.7.4.3; #=GS B5IBH6/2-180 AC B5IBH6 #=GS B5IBH6/2-180 OS Aciduliprofundum boonei T469 #=GS B5IBH6/2-180 DE Adenylate kinase #=GS B5IBH6/2-180 DR GENE3D; f4c0268afff65112405f3daec56ab0f7/2-180; #=GS B5IBH6/2-180 DR ORG; Archaea; Euryarchaeota; Aciduliprofundum; Aciduliprofundum boonei; #=GS B5IBH6/2-180 DR EC; 2.7.4.3; #=GS T0LUP3/1-180 AC T0LUP3 #=GS T0LUP3/1-180 OS Thermoplasmatales archaeon Gpl #=GS T0LUP3/1-180 DE Adenylate kinase #=GS T0LUP3/1-180 DR GENE3D; 09ed810b3779ba4456c9c6418d7a0560/1-180; #=GS T0LUP3/1-180 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmatales archaeon Gpl; #=GS T0LUP3/1-180 DR EC; 2.7.4.3; #=GS H0AER5/2-185 AC H0AER5 #=GS H0AER5/2-185 OS Candidatus Haloredivivus sp. G17 #=GS H0AER5/2-185 DE Adenylate kinase #=GS H0AER5/2-185 DR GENE3D; 0aa8d48ed7c211aa1572b1afca91bba1/2-185; #=GS H0AER5/2-185 DR ORG; Archaea; Candidatus Nanohaloarchaeota; Nanohaloarchaea; Candidatus Haloredivivus sp. G17; #=GS H0AER5/2-185 DR EC; 2.7.4.3; #=GS P35028/1-194 AC P35028 #=GS P35028/1-194 OS Sulfolobus acidocaldarius DSM 639 #=GS P35028/1-194 DE Adenylate kinase #=GS P35028/1-194 DR GENE3D; fcca5184c0c700b479fecacfcf5d1bb7/1-194; #=GS P35028/1-194 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus acidocaldarius; #=GS P35028/1-194 DR EC; 2.7.4.3; #=GS A0A0U3GNI1/1-194 AC A0A0U3GNI1 #=GS A0A0U3GNI1/1-194 OS Sulfolobus acidocaldarius #=GS A0A0U3GNI1/1-194 DE Adenylate kinase #=GS A0A0U3GNI1/1-194 DR GENE3D; fcca5184c0c700b479fecacfcf5d1bb7/1-194; #=GS A0A0U3GNI1/1-194 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus acidocaldarius; #=GS A0A0U3GNI1/1-194 DR EC; 2.7.4.3; #=GS M1IW99/1-194 AC M1IW99 #=GS M1IW99/1-194 OS Sulfolobus acidocaldarius Ron12/I #=GS M1IW99/1-194 DE Adenylate kinase #=GS M1IW99/1-194 DR GENE3D; fcca5184c0c700b479fecacfcf5d1bb7/1-194; #=GS M1IW99/1-194 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus acidocaldarius; #=GS M1IW99/1-194 DR EC; 2.7.4.3; #=GS M1IT72/1-194 AC M1IT72 #=GS M1IT72/1-194 OS Sulfolobus acidocaldarius N8 #=GS M1IT72/1-194 DE Adenylate kinase #=GS M1IT72/1-194 DR GENE3D; fcca5184c0c700b479fecacfcf5d1bb7/1-194; #=GS M1IT72/1-194 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus acidocaldarius; #=GS M1IT72/1-194 DR EC; 2.7.4.3; #=GS B1YCY5/2-190 AC B1YCY5 #=GS B1YCY5/2-190 OS Pyrobaculum neutrophilum V24Sta #=GS B1YCY5/2-190 DE Adenylate kinase #=GS B1YCY5/2-190 DR GENE3D; 133eda6481637528b8472e755594c20e/2-190; #=GS B1YCY5/2-190 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Thermoproteales; Thermoproteaceae; Pyrobaculum; Pyrobaculum neutrophilum; #=GS B1YCY5/2-190 DR EC; 2.7.4.3; #=GS A2SPM6/1-190 AC A2SPM6 #=GS A2SPM6/1-190 OS Methanocorpusculum labreanum Z #=GS A2SPM6/1-190 DE Adenylate kinase #=GS A2SPM6/1-190 DR GENE3D; 12502a965798e1bbbb8a7e055d850642/1-190; #=GS A2SPM6/1-190 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanocorpusculaceae; Methanocorpusculum; Methanocorpusculum labreanum; #=GS A2SPM6/1-190 DR EC; 2.7.4.3; #=GS F8AFW7/3-189 AC F8AFW7 #=GS F8AFW7/3-189 OS Pyrococcus yayanosii CH1 #=GS F8AFW7/3-189 DE Adenylate kinase #=GS F8AFW7/3-189 DR GENE3D; 1a691be364292d97595c66712b942399/3-189; #=GS F8AFW7/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus yayanosii; #=GS F8AFW7/3-189 DR EC; 2.7.4.3; #=GS A0A0W8F3B5/1-190 AC A0A0W8F3B5 #=GS A0A0W8F3B5/1-190 OS hydrocarbon metagenome #=GS A0A0W8F3B5/1-190 DE Adenylate kinase, archaeal type #=GS A0A0W8F3B5/1-190 DR GENE3D; 1beb78a8517b5a29d4d28d70f15077d4/1-190; #=GS A0A0W8F3B5/1-190 DR ORG; hydrocarbon metagenome; #=GS A0A0W8F3B5/1-190 DR EC; 2.7.4.3; #=GS A0A1C8ZRW3/1-193 AC A0A1C8ZRW3 #=GS A0A1C8ZRW3/1-193 OS Sulfolobus sp. A20 #=GS A0A1C8ZRW3/1-193 DE Adenylate kinase #=GS A0A1C8ZRW3/1-193 DR GENE3D; 2159cf9f82b1c8c588c8265e119656a2/1-193; #=GS A0A1C8ZRW3/1-193 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Sulfolobus; Sulfolobus sp. A20; #=GS A0A1C8ZRW3/1-193 DR EC; 2.7.4.3; #=GS A0A0D5ZDQ5/1-181 AC A0A0D5ZDQ5 #=GS A0A0D5ZDQ5/1-181 OS uncultured archaeon #=GS A0A0D5ZDQ5/1-181 DE Adenylate kinase #=GS A0A0D5ZDQ5/1-181 DR GENE3D; 237066b5acc46acd7155a43f95ef1863/1-181; #=GS A0A0D5ZDQ5/1-181 DR ORG; Archaea; uncultured archaeon; #=GS A0A0D5ZDQ5/1-181 DR EC; 2.7.4.3; #=GS A1RV56/2-190 AC A1RV56 #=GS A1RV56/2-190 OS Pyrobaculum islandicum DSM 4184 #=GS A1RV56/2-190 DE Adenylate kinase #=GS A1RV56/2-190 DR GENE3D; 26870348d3988cdcb5088e555a254c88/2-190; #=GS A1RV56/2-190 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Thermoproteales; Thermoproteaceae; Pyrobaculum; Pyrobaculum islandicum; #=GS A1RV56/2-190 DR EC; 2.7.4.3; #=GS K0BB29/3-190 AC K0BB29 #=GS K0BB29/3-190 OS Candidatus Nitrosopumilus sediminis #=GS K0BB29/3-190 DE Adenylate kinase #=GS K0BB29/3-190 DR GENE3D; 35bf18fd9bdbf05df8e03624cd804772/3-190; #=GS K0BB29/3-190 DR ORG; Archaea; Thaumarchaeota; Nitrosopumilales; Nitrosopumilaceae; Nitrosopumilus; Candidatus Nitrosopumilus sediminis; #=GS K0BB29/3-190 DR EC; 2.7.4.3; #=GS A0A151DWC8/2-181 AC A0A151DWC8 #=GS A0A151DWC8/2-181 OS Thermoplasmatales archaeon SG8-52-2 #=GS A0A151DWC8/2-181 DE Adenylate kinase #=GS A0A151DWC8/2-181 DR GENE3D; 3ae8103f6d4a10287a3cb24aa66cc9a7/2-181; #=GS A0A151DWC8/2-181 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmatales archaeon SG8-52-2; #=GS A0A151DWC8/2-181 DR EC; 2.7.4.3; #=GS U6EAM3/1-185 AC U6EAM3 #=GS U6EAM3/1-185 OS Methanobacterium sp. MB1 #=GS U6EAM3/1-185 DE Adenylate kinase #=GS U6EAM3/1-185 DR GENE3D; 4c2df085e9318ff5b38cbe61b22ccb61/1-185; #=GS U6EAM3/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium sp. MB1; #=GS U6EAM3/1-185 DR EC; 2.7.4.3; #=GS C7P7F9/1-192 AC C7P7F9 #=GS C7P7F9/1-192 OS Methanocaldococcus fervens AG86 #=GS C7P7F9/1-192 DE Adenylate kinase #=GS C7P7F9/1-192 DR GENE3D; 4e21704aeef3bbc6afbcc5887cf59d0f/1-192; #=GS C7P7F9/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanocaldococcus; Methanocaldococcus fervens; #=GS C7P7F9/1-192 DR EC; 2.7.4.3; #=GS B7R319/3-189 AC B7R319 #=GS B7R319/3-189 OS Thermococcus sp. AM4 #=GS B7R319/3-189 DE Adenylate kinase #=GS B7R319/3-189 DR GENE3D; 539f4ed8edebb86c545aa739e7513af1/3-189; #=GS B7R319/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus sp. AM4; #=GS B7R319/3-189 DR EC; 2.7.4.3; #=GS A0A0K1E1E9/2-190 AC A0A0K1E1E9 #=GS A0A0K1E1E9/2-190 OS Pyrobaculum sp. WP30 #=GS A0A0K1E1E9/2-190 DE Adenylate kinase #=GS A0A0K1E1E9/2-190 DR GENE3D; 5823152ba60599448801764479a9aae2/2-190; #=GS A0A0K1E1E9/2-190 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Thermoproteales; Thermoproteaceae; Pyrobaculum; Pyrobaculum sp. WP30; #=GS A0A0K1E1E9/2-190 DR EC; 2.7.4.3; #=GS H2C6H9/1-195 AC H2C6H9 #=GS H2C6H9/1-195 OS Metallosphaera yellowstonensis MK1 #=GS H2C6H9/1-195 DE Adenylate kinase #=GS H2C6H9/1-195 DR GENE3D; 554fd36fa3f654411d69774bb4ae2422/1-195; #=GS H2C6H9/1-195 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Metallosphaera; Metallosphaera yellowstonensis; #=GS H2C6H9/1-195 DR EC; 2.7.4.3; #=GS A0A1D2X1H7/1-185 AC A0A1D2X1H7 #=GS A0A1D2X1H7/1-185 OS Methanosphaera sp. WGK6 #=GS A0A1D2X1H7/1-185 DE Adenylate kinase #=GS A0A1D2X1H7/1-185 DR GENE3D; 5f2293de23f777b92cd56f2bffe7e8d1/1-185; #=GS A0A1D2X1H7/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanosphaera; Methanosphaera sp. WGK6; #=GS A0A1D2X1H7/1-185 DR EC; 2.7.4.3; #=GS A0A1F9YP60/1-181 AC A0A1F9YP60 #=GS A0A1F9YP60/1-181 OS Euryarchaeota archaeon RBG_13_31_8 #=GS A0A1F9YP60/1-181 DE Adenylate kinase #=GS A0A1F9YP60/1-181 DR GENE3D; 684aab9fc20716f41d084349313f0e43/1-181; #=GS A0A1F9YP60/1-181 DR ORG; Archaea; Euryarchaeota; Euryarchaeota archaeon RBG_13_31_8; #=GS A0A1F9YP60/1-181 DR EC; 2.7.4.3; #=GS M7T8N0/2-181 AC M7T8N0 #=GS M7T8N0/2-181 OS Thermoplasmatales archaeon SCGC AB-540-F20 #=GS M7T8N0/2-181 DE Adenylate kinase #=GS M7T8N0/2-181 DR GENE3D; 6a0bee1776a70a57e3ce9006967d28ac/2-181; #=GS M7T8N0/2-181 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmatales archaeon SCGC AB-540-F20; #=GS M7T8N0/2-181 DR EC; 2.7.4.3; #=GS J1L0C3/1-190 AC J1L0C3 #=GS J1L0C3/1-190 OS Methanofollis liminatans DSM 4140 #=GS J1L0C3/1-190 DE Adenylate kinase #=GS J1L0C3/1-190 DR GENE3D; 7df11c16e102a9cca070f27879233e49/1-190; #=GS J1L0C3/1-190 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiaceae; Methanofollis; Methanofollis liminatans; #=GS J1L0C3/1-190 DR EC; 2.7.4.3; #=GS A0A151ED78/2-181 AC A0A151ED78 #=GS A0A151ED78/2-181 OS Thermoplasmatales archaeon SG8-52-1 #=GS A0A151ED78/2-181 DE Adenylate kinase #=GS A0A151ED78/2-181 DR GENE3D; 79b37440584b8e8426fea9d597340c80/2-181; #=GS A0A151ED78/2-181 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmatales archaeon SG8-52-1; #=GS A0A151ED78/2-181 DR EC; 2.7.4.3; #=GS F4G1N8/1-194 AC F4G1N8 #=GS F4G1N8/1-194 OS Metallosphaera cuprina Ar-4 #=GS F4G1N8/1-194 DE Adenylate kinase #=GS F4G1N8/1-194 DR GENE3D; 7b84b12464b3b4eacc74e94fcb792474/1-194; #=GS F4G1N8/1-194 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Metallosphaera; Metallosphaera cuprina; #=GS F4G1N8/1-194 DR EC; 2.7.4.3; #=GS A0A0Q1FC79/1-190 AC A0A0Q1FC79 #=GS A0A0Q1FC79/1-190 OS Methanolinea sp. SDB #=GS A0A0Q1FC79/1-190 DE Adenylate kinase #=GS A0A0Q1FC79/1-190 DR GENE3D; 87f68afa2c9c1aab962483f14929b2c3/1-190; #=GS A0A0Q1FC79/1-190 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanoregulaceae; Methanolinea; Methanolinea sp. SDB; #=GS A0A0Q1FC79/1-190 DR EC; 2.7.4.3; #=GS H1KXW6/1-192 AC H1KXW6 #=GS H1KXW6/1-192 OS Methanotorris formicicus Mc-S-70 #=GS H1KXW6/1-192 DE Adenylate kinase #=GS H1KXW6/1-192 DR GENE3D; a6401fbfb278467df418d025cd66490b/1-192; #=GS H1KXW6/1-192 DR ORG; Archaea; Euryarchaeota; Methanococci; Methanococcales; Methanocaldococcaceae; Methanotorris; Methanotorris formicicus; #=GS H1KXW6/1-192 DR EC; 2.7.4.3; #=GS A0A109UUP2/1-185 AC A0A109UUP2 #=GS A0A109UUP2/1-185 OS Methanobrevibacter sp. YE315 #=GS A0A109UUP2/1-185 DE Adenylate kinase #=GS A0A109UUP2/1-185 DR GENE3D; 9fdfc7bcf7a4aace3bf26bcc36cad868/1-185; #=GS A0A109UUP2/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter sp. YE315; #=GS A0A109UUP2/1-185 DR EC; 2.7.4.3; #=GS A0A101X8R0/1-186 AC A0A101X8R0 #=GS A0A101X8R0/1-186 OS Thermoproteus sp. JCHS_4 #=GS A0A101X8R0/1-186 DE Adenylate kinase #=GS A0A101X8R0/1-186 DR GENE3D; a0e42beccf3604e2f8f2e464d92acb1f/1-186; #=GS A0A101X8R0/1-186 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Thermoproteales; Thermoproteaceae; Thermoproteus; Thermoproteus sp. JCHS_4; #=GS A0A101X8R0/1-186 DR EC; 2.7.4.3; #=GS Q2NFY1/1-185 AC Q2NFY1 #=GS Q2NFY1/1-185 OS Methanosphaera stadtmanae DSM 3091 #=GS Q2NFY1/1-185 DE Adenylate kinase #=GS Q2NFY1/1-185 DR GENE3D; ae77aa73b04710be20ef862e3aa5eae9/1-185; #=GS Q2NFY1/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanosphaera; Methanosphaera stadtmanae; #=GS Q2NFY1/1-185 DR EC; 2.7.4.3; #=GS A0A1D2W763/1-185 AC A0A1D2W763 #=GS A0A1D2W763/1-185 OS Methanosphaera sp. A6 #=GS A0A1D2W763/1-185 DE Adenylate kinase #=GS A0A1D2W763/1-185 DR GENE3D; ae77aa73b04710be20ef862e3aa5eae9/1-185; #=GS A0A1D2W763/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanosphaera; Methanosphaera sp. A6; #=GS A0A1D2W763/1-185 DR EC; 2.7.4.3; #=GS A0A1D2R6M1/2-182 AC A0A1D2R6M1 #=GS A0A1D2R6M1/2-182 OS Candidatus Altiarchaeales archaeon WOR_SM1_86-2 #=GS A0A1D2R6M1/2-182 DE Adenylate kinase #=GS A0A1D2R6M1/2-182 DR GENE3D; a6a71ee62cd5d95139d35009a616febf/2-182; #=GS A0A1D2R6M1/2-182 DR ORG; Archaea; Euryarchaeota; Candidatus Altiarchaeales; Candidatus Altiarchaeales archaeon WOR_SM1_86-2; #=GS A0A1D2R6M1/2-182 DR EC; 2.7.4.3; #=GS A0A151E3Y9/2-181 AC A0A151E3Y9 #=GS A0A151E3Y9/2-181 OS Thermoplasmatales archaeon SM1-50 #=GS A0A151E3Y9/2-181 DE Adenylate kinase #=GS A0A151E3Y9/2-181 DR GENE3D; c43de67480219eeb09abdf96a91519ef/2-181; #=GS A0A151E3Y9/2-181 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmatales archaeon SM1-50; #=GS A0A151E3Y9/2-181 DR EC; 2.7.4.3; #=GS B8GKF7/4-190 AC B8GKF7 #=GS B8GKF7/4-190 OS Methanosphaerula palustris E1-9c #=GS B8GKF7/4-190 DE Adenylate kinase #=GS B8GKF7/4-190 DR GENE3D; c9a309395115afff0818440091a0ea53/4-190; #=GS B8GKF7/4-190 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanoregulaceae; Methanosphaerula; Methanosphaerula palustris; #=GS B8GKF7/4-190 DR EC; 2.7.4.3; #=GS A0A031LP16/1-195 AC A0A031LP16 #=GS A0A031LP16/1-195 OS Candidatus Acidianus copahuensis #=GS A0A031LP16/1-195 DE Adenylate kinase #=GS A0A031LP16/1-195 DR GENE3D; c9edabbd599322c445823403bab7f839/1-195; #=GS A0A031LP16/1-195 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Sulfolobales; Sulfolobaceae; Acidianus; Candidatus Acidianus copahuensis; #=GS A0A031LP16/1-195 DR EC; 2.7.4.3; #=GS F0TB99/1-185 AC F0TB99 #=GS F0TB99/1-185 OS Methanobacterium lacus #=GS F0TB99/1-185 DE Adenylate kinase #=GS F0TB99/1-185 DR GENE3D; ce8b50e4c421d00f5fd3e732ec4c8380/1-185; #=GS F0TB99/1-185 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobacterium; Methanobacterium lacus; #=GS F0TB99/1-185 DR EC; 2.7.4.3; #=GS M7TB48/2-181 AC M7TB48 #=GS M7TB48/2-181 OS Thermoplasmatales archaeon SCGC AB-539-N05 #=GS M7TB48/2-181 DE Adenylate kinase #=GS M7TB48/2-181 DR GENE3D; dc11589b05be334fd9c5b55608b94848/2-181; #=GS M7TB48/2-181 DR ORG; Archaea; Euryarchaeota; Thermoplasmata; Thermoplasmatales; Thermoplasmatales archaeon SCGC AB-539-N05; #=GS M7TB48/2-181 DR EC; 2.7.4.3; #=GS A0A087S7Z1/6-193 AC A0A087S7Z1 #=GS A0A087S7Z1/6-193 OS Marine Group I thaumarchaeote SCGC AAA799-B03 #=GS A0A087S7Z1/6-193 DE Adenylate kinase #=GS A0A087S7Z1/6-193 DR GENE3D; de9bc86bc46d4e411c9701e30da97037/6-193; #=GS A0A087S7Z1/6-193 DR ORG; Archaea; Thaumarchaeota; Marine Group I thaumarchaeote SCGC AAA799-B03; #=GS A0A087S7Z1/6-193 DR EC; 2.7.4.3; #=GS A0A142CW91/3-189 AC A0A142CW91 #=GS A0A142CW91/3-189 OS Thermococcus peptonophilus #=GS A0A142CW91/3-189 DE Adenylate kinase #=GS A0A142CW91/3-189 DR GENE3D; e8cc8bfe4dfc50bf283e46050ae43bf3/3-189; #=GS A0A142CW91/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Thermococcus; Thermococcus peptonophilus; #=GS A0A142CW91/3-189 DR EC; 2.7.4.3; #=GS A0A117LUN9/1-190 AC A0A117LUN9 #=GS A0A117LUN9/1-190 OS Methanocalculus sp. 52_23 #=GS A0A117LUN9/1-190 DE Adenylate kinase #=GS A0A117LUN9/1-190 DR GENE3D; ee66e3e1fdf66075b03b0682a777d0d2/1-190; #=GS A0A117LUN9/1-190 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanocalculaceae; Methanocalculus; Methanocalculus sp. 52_23; #=GS A0A117LUN9/1-190 DR EC; 2.7.4.3; #=GS A0A101IYR7/1-190 AC A0A101IYR7 #=GS A0A101IYR7/1-190 OS Methanomicrobiales archaeon 53_19 #=GS A0A101IYR7/1-190 DE Adenylate kinase #=GS A0A101IYR7/1-190 DR GENE3D; ee66e3e1fdf66075b03b0682a777d0d2/1-190; #=GS A0A101IYR7/1-190 DR ORG; Archaea; Euryarchaeota; Methanomicrobia; Methanomicrobiales; Methanomicrobiales archaeon 53_19; #=GS A0A101IYR7/1-190 DR EC; 2.7.4.3; #=GS H6Q6U8/2-187 AC H6Q6U8 #=GS H6Q6U8/2-187 OS Pyrobaculum oguniense TE7 #=GS H6Q6U8/2-187 DE Adenylate kinase #=GS H6Q6U8/2-187 DR GENE3D; e95fa1e87c247cb7f48fcb592667b01b/2-187; #=GS H6Q6U8/2-187 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Thermoproteales; Thermoproteaceae; Pyrobaculum; Pyrobaculum oguniense; #=GS H6Q6U8/2-187 DR EC; 2.7.4.3; #=GS G7VDS8/2-190 AC G7VDS8 #=GS G7VDS8/2-190 OS Pyrobaculum ferrireducens #=GS G7VDS8/2-190 DE Adenylate kinase #=GS G7VDS8/2-190 DR GENE3D; ea545495776bcd1fb98f3a3bf219dd5b/2-190; #=GS G7VDS8/2-190 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Thermoproteales; Thermoproteaceae; Pyrobaculum; Pyrobaculum ferrireducens; #=GS G7VDS8/2-190 DR EC; 2.7.4.3; #=GS A0A127BB58/3-189 AC A0A127BB58 #=GS A0A127BB58/3-189 OS Pyrococcus kukulkanii #=GS A0A127BB58/3-189 DE Adenylate kinase #=GS A0A127BB58/3-189 DR GENE3D; eb47d70be434026f46216041c563f851/3-189; #=GS A0A127BB58/3-189 DR ORG; Archaea; Euryarchaeota; Thermococci; Thermococcales; Thermococcaceae; Pyrococcus; Pyrococcus kukulkanii; #=GS A0A127BB58/3-189 DR EC; 2.7.4.3; #=GS A0A135VCR2/4-195 AC A0A135VCR2 #=GS A0A135VCR2/4-195 OS Candidatus Thorarchaeota archaeon SMTZ1-83 #=GS A0A135VCR2/4-195 DE Adenylate kinase #=GS A0A135VCR2/4-195 DR GENE3D; ec7daddc239362b676edd765d0b9370f/4-195; #=GS A0A135VCR2/4-195 DR ORG; Archaea; Candidatus Thorarchaeota; Candidatus Thorarchaeota archaeon SMTZ1-83; #=GS A0A135VCR2/4-195 DR EC; 2.7.4.3; #=GS I0A0H9/7-203 AC I0A0H9 #=GS I0A0H9/7-203 OS Fervidicoccus fontis Kam940 #=GS I0A0H9/7-203 DE Adenylate kinase #=GS I0A0H9/7-203 DR GENE3D; f8b08bd6d9c362e3bdf6435241125699/7-203; #=GS I0A0H9/7-203 DR ORG; Archaea; Crenarchaeota; Thermoprotei; Fervidicoccales; Fervidicoccaceae; Fervidicoccus; Fervidicoccus fontis; #=GS I0A0H9/7-203 DR EC; 2.7.4.3; #=GS R9SLW1/2-184 AC R9SLW1 #=GS R9SLW1/2-184 OS Methanobrevibacter sp. AbM4 #=GS R9SLW1/2-184 DE Adenylate kinase #=GS R9SLW1/2-184 DR GENE3D; fc56eb9347efa52e1d8becdda21c1856/2-184; #=GS R9SLW1/2-184 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanobrevibacter; Methanobrevibacter sp. AbM4; #=GS R9SLW1/2-184 DR EC; 2.7.4.3; #=GS O27699/5-180 AC O27699 #=GS O27699/5-180 OS Methanothermobacter thermautotrophicus str. Delta H #=GS O27699/5-180 DE Adenylate kinase homolog MTH_1663 #=GS O27699/5-180 DR GENE3D; b1006be7d5f4035aa4ee73715ddf359a/5-180; #=GS O27699/5-180 DR ORG; Archaea; Euryarchaeota; Methanobacteria; Methanobacteriales; Methanobacteriaceae; Methanothermobacter; Methanothermobacter thermautotrophicus; #=GS T1DIC7/2-180 AC T1DIC7 #=GS T1DIC7/2-180 OS mine drainage metagenome #=GS T1DIC7/2-180 DE Adenylate kinase #=GS T1DIC7/2-180 DR GENE3D; 1453cc75333f80012f81faf6759bfc05/2-180; #=GS T1DIC7/2-180 DR ORG; mine drainage metagenome; #=GS X1G3S1/2-188 AC X1G3S1 #=GS X1G3S1/2-188 OS marine sediment metagenome #=GS X1G3S1/2-188 DE Uncharacterized protein #=GS X1G3S1/2-188 DR GENE3D; c48232c393ebe42c52dee5fb34b4e696/2-188; #=GS X1G3S1/2-188 DR ORG; marine sediment metagenome; #=GF TC 163.5 2.5E-50 #=GF SQ 249 3h86A00/1-192 MKNKVVVVTGVPGVGGTTVTQKAMDILSEE-GLNYKMVNFGSAMFDVANEEGLASDRDQMR-KLDPETQKRIQKMAGRKIAEMAK-----ESPVAVDTHSTVKTPKGYLPGLPAWVLTELNPDIVIVVETDGDEILMRRLSD-ESR-KR-DLE--TTASIEEHQFMNRAAAMSYGVLTGATVKIVKNK-------NGLVDNAVEELMSVLR 1khtA00/1-192 MKNKVVVVTGVPGVGSTTSSQLAMDNLRKE-GVNYKMVSFGSVMFEVAKEENLVSDRDQMR-KMDPETQKRIQKMAGRKIAEMAK-----ESPVAVDTHSTVSTPKGYLPGLPSWVLNELNPDLIIVVETTGDEILMRRMSD-ETR-VR-DLD--TASTIEQHQFMNRCAAMSYGVLTGATVKIVQNR-------NGLLDQAVEELTNVLR 1ki9A00/1-192 MKNKLVVVTGVPGVGGTTITQKAMEKLSEE-GINYKMVNFGTVMFEVAQEENLVEDRDQMR-KLDPDTQKRIQKLAGRKIAEMVK-----ESPVVVDTHSTIKTPKGYLPGLPVWVLNELNPDIIIVVETSGDEILIRRLND-ETR-NR-DLE--TTAGIEEHQIMNRAAAMTYGVLTGATVKIIQNK-------NNLLDYAVEELISVLR 1nksA00/1-194 --MKIGIVTGIPGVGKSTVLAKVKEILDNQ-GINNKIINYGDFMLATALKLGYAKDRDEMR-KLSVEKQKKLQIDAAKGIAEEARA--GGEGYLFIDTHAVIRTPSGYLPGLPSYVITEINPSVIFLLEADPKIILSRQKRD-TTR-NRNDYS--DESVILETINFARYAATASAVLAGSTVKVIVNV-------EGDPSIAANEIIRSMK 3h86B00/1-192 MKNKVVVVTGVPGVGGTTVTQKAMDILSEE-GLNYKMVNFGSAMFDVANEEGLASDRDQMR-KLDPETQKRIQKMAGRKIAEMAK-----ESPVAVDTHSTVKTPKGYLPGLPAWVLTELNPDIVIVVETDGDEILMRRLSD-ESR-KR-DLE--TTASIEEHQFMNRAAAMSYGVLTGATVKIVKNK-------NGLVDNAVEELMSVLR 3h86C00/1-192 MKNKVVVVTGVPGVGGTTVTQKAMDILSEE-GLNYKMVNFGSAMFDVANEEGLASDRDQMR-KLDPETQKRIQKMAGRKIAEMAK-----ESPVAVDTHSTVKTPKGYLPGLPAWVLTELNPDIVIVVETDGDEILMRRLSD-ESR-KR-DLE--TTASIEEHQFMNRAAAMSYGVLTGATVKIVKNK-------NGLVDNAVEELMSVLR 3h86G00/1-192 MKNKVVVVTGVPGVGGTTVTQKAMDILSEE-GLNYKMVNFGSAMFDVANEEGLASDRDQMR-KLDPETQKRIQKMAGRKIAEMAK-----ESPVAVDTHSTVKTPKGYLPGLPAWVLTELNPDIVIVVETDGDEILMRRLSD-ESR-KR-DLE--TTASIEEHQFMNRAAAMSYGVLTGATVKIVKNK-------NGLVDNAVEELMSVLR 1khtB00/1-192 MKNKVVVVTGVPGVGSTTSSQLAMDNLRKE-GVNYKMVSFGSVMFEVAKEENLVSDRDQMR-KMDPETQKRIQKMAGRKIAEMAK-----ESPVAVDTHSTVSTPKGYLPGLPSWVLNELNPDLIIVVETTGDEILMRRMSD-ETR-VR-DLD--TASTIEQHQFMNRCAAMSYGVLTGATVKIVQNR-------NGLLDQAVEELTNVLR 1khtC00/1-192 MKNKVVVVTGVPGVGSTTSSQLAMDNLRKE-GVNYKMVSFGSVMFEVAKEENLVSDRDQMR-KMDPETQKRIQKMAGRKIAEMAK-----ESPVAVDTHSTVSTPKGYLPGLPSWVLNELNPDLIIVVETTGDEILMRRMSD-ETR-VR-DLD--TASTIEQHQFMNRCAAMSYGVLTGATVKIVQNR-------NGLLDQAVEELTNVLR 1ki9B00/1-192 MKNKLVVVTGVPGVGGTTITQKAMEKLSEE-GINYKMVNFGTVMFEVAQEENLVEDRDQMR-KLDPDTQKRIQKLAGRKIAEMVK-----ESPVVVDTHSTIKTPKGYLPGLPVWVLNELNPDIIIVVETSGDEILIRRLND-ETR-NR-DLE--TTAGIEEHQIMNRAAAMTYGVLTGATVKIIQNK-------NNLLDYAVEELISVLR 1ki9C00/1-192 MKNKLVVVTGVPGVGGTTITQKAMEKLSEE-GINYKMVNFGTVMFEVAQEENLVEDRDQMR-KLDPDTQKRIQKLAGRKIAEMVK-----ESPVVVDTHSTIKTPKGYLPGLPVWVLNELNPDIIIVVETSGDEILIRRLND-ETR-NR-DLE--TTAGIEEHQIMNRAAAMTYGVLTGATVKIIQNK-------NNLLDYAVEELISVLR 1nksB00/1-194 --MKIGIVTGIPGVGKSTVLAKVKEILDNQ-GINNKIINYGDFMLATALKLGYAKDRDEMR-KLSVEKQKKLQIDAAKGIAEEARA--GGEGYLFIDTHAVIRTPSGYLPGLPSYVITEINPSVIFLLEADPKIILSRQKRD-TTR-NRNDYS--DESVILETINFARYAATASAVLAGSTVKVIVNV-------EGDPSIAANEIIRSMK 1nksC00/1-194 --MKIGIVTGIPGVGKSTVLAKVKEILDNQ-GINNKIINYGDFMLATALKLGYAKDRDEMR-KLSVEKQKKLQIDAAKGIAEEARA--GGEGYLFIDTHAVIRTPSGYLPGLPSYVITEINPSVIFLLEADPKIILSRQKRD-TTR-NRNDYS--DESVILETINFARYAATASAVLAGSTVKVIVNV-------EGDPSIAANEIIRSMK 1nksD00/1-194 --MKIGIVTGIPGVGKSTVLAKVKEILDNQ-GINNKIINYGDFMLATALKLGYAKDRDEMR-KLSVEKQKKLQIDAAKGIAEEARA--GGEGYLFIDTHAVIRTPSGYLPGLPSYVITEINPSVIFLLEADPKIILSRQKRD-TTR-NRNDYS--DESVILETINFARYAATASAVLAGSTVKVIVNV-------EGDPSIAANEIIRSMK 1nksE00/1-194 --MKIGIVTGIPGVGKSTVLAKVKEILDNQ-GINNKIINYGDFMLATALKLGYAKDRDEMR-KLSVEKQKKLQIDAAKGIAEEARA--GGEGYLFIDTHAVIRTPSGYLPGLPSYVITEINPSVIFLLEADPKIILSRQKRD-TTR-NRNDYS--DESVILETINFARYAATASAVLAGSTVKVIVNV-------EGDPSIAANEIIRSMK 1nksF00/1-194 --MKIGIVTGIPGVGKSTVLAKVKEILDNQ-GINNKIINYGDFMLATALKLGYAKDRDEMR-KLSVEKQKKLQIDAAKGIAEEARA--GGEGYLFIDTHAVIRTPSGYLPGLPSYVITEINPSVIFLLEADPKIILSRQKRD-TTR-NRNDYS--DESVILETINFARYAATASAVLAGSTVKVIVNV-------EGDPSIAANEIIRSMK O26135/1-184 --MKVVVVAGIPGSGSTTVLENTLKE------LDYLNVNYGDVMLEIAVEKGLVENRDQMR-TLPPEVQKDIQRAAAKSIRERSL-----ENNIIVDTHCTIKTPAGFLPGLPVWVLEELEPDMFVLVEADAEEIFTRRISD-KTR-DR-DVE--SLQEIDLHQQMNRAAAMAYATLTGATVKIVKNH-------NNQLESAVSEMKSVL- A2BME3/9-202 ----TVIVTGVPGVGKTTVLGRVAEKLRSK-GVRFEIVNFGDYMFREASAAGLVRHRDEMR-HLPLRRQLELQESAARAIIADASSKLGGDGVLLVDTHAVIRTSTGFWPGLPENVVRELKPDSIVLIEAPPEIIVARQQRD-KSR-VRSDVA--SVETVRELLEMARKAAMASAVLVAASVYPVENV-------EGNPDIAAEKIVELIE Q5JJH2/3-189 ---FVVVITGIPGVGKSTITKLALKKTR----AKFRLVNFGDLMFEEAVNMGLVKHRDEMR-KLDPLTQKELQLKVAQRIVEIAR-----KEPVLLDTHATIRTPAGYLLGFPREVIEILNPNFIVIIEAAPSEILGRRLRD-LKR-DR-DVE--TEEQIARHQDLNRAAAIAYAMHSNALIKIIENH------EDKGLEEAVNELVKVLD A9A5A0/3-190 -ESKKIVLVGIPGVGKTTLLSKIVDHIKDH-QKSISVVSYGTLMFEVAKENG-LNDRDELR-KLPIGKQQELQKVAAEKIAAHT------EEIVIIDTHAFISSPEGYYPGLPEHVLKIIKPSNFVSVSAKPEEIYSRRMSD-DTR-NR-DKI--TLANVKKELDVQSGMISACAVITGSPVKYILNR-------EGKVDEAANKIINSL- Q8ZWP7/2-190 ----KIVIVALPGSGKTTILNFVKQKL-----PDVKIVNYGDVMLEIAKKRFGIQHRDEMRKKIPVDEYRKVQEEAAEYIASL-------TGDVIIDTHASIKIGGGYYPGLPDRIISKLKPDVILLLEYDPKVILERRKKD-PDR-FR-DLE--SEEEIEMHQQANRYYAFAAANAGESTVHVLNFRGKPESRPFEHAEVAAEYIVNLI- Q9UX83/1-195 --MKIGIVTGIPGVGKTTVLSFADKILTEK-GISHKIVNYGDYMLNTALKEGYVKSRDEIR-KLQIEKQRELQALAARRIVEDLSL-LGDEGIGLIDTHAVIRTPAGYLPGLPRHVIEVLSPKVIFLLEADPKIILERQKRD-SSR-ARTDYS--DTAVINEVIQFARYSAMASAVLVGASVKVVVNQ-------EGDPSIAASEIINSLM A5UL64/1-185 --MKLVVLTGIPGSGSTTLLNKALEE------VDYVHLNYGDIMTEIAIEEKIVDDRDALR-KLSPDVQKEIQEKAAKRIKERSE-----SENVIVDTHCTINTPSGFLPGLPIWVLNELQPNLFVMIEANPDEIIYRRLND-DTR-SR-DIE--RAKDIQLHQEMNRAASMAYATLTGATVKIIENH-------DNHLPSTVSKLVDVLN Q6LYG0/1-192 MKNKVVVVTGVPGVGGTTVTQKAMDILSEE-GLNYKMVNFGSAMFDVANEEGLASDRDQMR-RLDPETQKRIQKMAGRKIAEMAK-----ESPVAVDTHSTVKTPKGYLPGLPAWVLTELNPDIVIVVETDGDEILMRRLSD-ESR-KR-DLE--TTASIEEHQFMNRAAAMSYGVLTGATVKIVKNK-------NGLVDNAVEELMSVLR P43409/1-192 MKNKVVVIVGVPGVGSTTVTNKAIEELKKE-GIEYKIVNFGTVMFEIAKEEGLVEHRDQLR-KLPPEEQKRIQKLAGKKIAEMAK-----EFNIVVDTHSTIKTPKGYLPGLPAWVLEELNPDIIVLVEAENDEILMRRLKD-ETR-QR-DFE--STEDIGEHIFMNRCAAMTYAVLTGATVKIIKNR-------DFLLDKAVQELIEVLK Q9YDD2/5-200 --FKVVVVTGVPGVGKTTVIKELQGLAEKE-GVKLHIVNFGSFMLDTAVKLGLVEDRDKIR-TLPLRRQLELQREAAKRIVAEASKALGGDGVLIIDTHALVKTVAGYWPGLPKHVLDELKPDMIAVVEASPEEVAARQARD-TTR-YRVDIG--GVEGVKRLMENARAASIASAIQYASTVAIVENR-------EGEAAKAAEELLRLIK Q9HIT1/2-181 ----RSVITGVAGVGKTTVLDIVSKE------TGIKIVNYGTLMFDLAKKRGLVENRDQMR-KLSRDIQIDLQKNAATEIGRM--------EDVIVDTHMSIKTPFGYLPGLPEWVLREINASAFIIIEADPELILRRRQND-PTR-AR-DED--SVESIREHQEINRAFAAAYSIFSGATVKIITNE-------EGKPDKAAHDIIKVIA Q8TZB0/3-189 ---YVIVATGVPGVGATTVTTEAVKEL-----EGYEHVNYGDVMLEIAKEEGLVEHRDEIR-KLPAEKQREIQRLAARRIAKMAEE----KEGIIVDTHCTIKTPAGYLPGLPIWVLEELQPDVIVLIEADPDEIMMRRVKDSEER-QR-DYD--RAHEIEEHQKMNRMAAMAYAALTGATVKIIENH-------DDRLEEAVREFVETVR O59443/3-189 ---FVVIITGIPGVGKSTITKLALQRTR----AKFKLINFGDLMFEEALKLKLVKHRDEMR-KLPLEVQRELQMNAAKKIAEMAK-----NYPILLDTHATIKTPHGYLLGLPYEVIKILNPNFIVIIEATPSEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAITYAMHSNALIKIIENH------EDKGLEEAVNELVKILD K2RT60/1-184 --MKVVVVAGIPGSGSTTVLQHALKE------TDYVHVNYGDVMLEIAQEMQLVEDRDSIR-KLPPETQKEVQKKAAGTIRERAK-----VANTIVDTHCTIKTPSGFLPGLPKWVLDELQPDMFILLEADGDEILMRRVND-TTR-TR-DTE--RLQDINLHQEMNRATAMAYAVYTGATVKIIENH-------NDHLESSVEEMKNTL- Q2FTU6/1-190 MTGKKVIITGVPGVGKTSVITESIRRLEEE-GVPYQSINFGTFMFEVAQKENIVKDRDEMR-KLDKNSQKRLQQLASQAIARI-------DGNIIIDTHASVKTPVGFLAGLPEWVLKELKPDLIILVETDSDQILKRRLSD-TSR-IR-DIE--GYQDIQDHQDFNRAVAASYAMLTGCTVRYIKNP-------DFLLEKAVEEMVQVLR L0HMF5/2-181 ----RVVAAGVPGVGKTSILEEVAKR------ANYPIVNFGTLMFEMAKEEGLVEHRDQMR-KLPIEIQRDLQKRAAERISGM--------SDVIVDTHFTIKTPSGYFPGLPRWVLEAMNPEMLVVIEASPEEIYGRRMKD-ATR-DR-DVE--GVDEINEHLQVNRYSAFACSMYTGATVLILKNN-------DGQLDRAVERFMEALR D9PZX5/12-207 --FKVIVVTGVPGVGKTTVLSLLQEKAKER-GLRLRVLNFGDFMLDNAVRKGLIKNRDQIR-YLSFREQLELQDIAASSIIEEAGSDLKEGDYLIVDTHAIIKTPLGYLPGLPSNVINSLRPDMIVVIEADPKEIVARQQRD-ATR-YRSDFG--GEEGVRQLMDIARSAAMASAVQAGSLLTIIINR-------EGRASEAAEQLLNAIS A0A1J5THU3/1-177 --MSIVIVTGVPGVGKSTVMNAAKD-------FGYNIVNFGTTMFEEAQKEG-VSKRDDLR-KLPVDVQKRLQRQAGEKIGQM--------DNVIVDTHASILTPSGYLPGLPEWTVKAIMPNTIVLVEALPDEIENRRSKD-TSR-AR-DSD-----DIGLHQRINREYAIAAAFMTGATVGFVPNN-------DNKIDLAVEEFKKILE A8ABS2/5-200 --MRVVIATGVPGVGKTTVTSKAVEMLKEK-GYKVKVANFGDYMLKVAKERGWVQHRDEMR-KLNLSQQRELQALAAKAIIEEAKAELGDEGVLIVDTHAAINTPTGVWPGLPKHVIENLNPAIIFVIEASPEEIVERQRGD-KGR-VRSDYS--DVDFLKRFMELARNAAIASAVLVGAAVNVIYNR-------QGAVEEAAAKFVEAVE A0A0P9I162/3-192 ---RVIVITGIPGTGKTTVCNELAKLAEQI-GRKVEVINYGTVMVELSHKSGKSLHRDKLR-KSGLTLQRNLQAEAAKIISKKAAE---IEGDIIVDTHMSIKTVGGYLAGLPSHVLQLLNPDMFVLVEAEPREVLSRRLKD-VTR-KR-DKA--LEGGIAEEILFSRLMAAACAVLTGASVKTVKNP-------AGKQVEAAEEVLKSL- A0A097QTI9/3-189 ---FVVMITGIPGVGKSTITKLALKRTR----AKFRLVNFGDLMFEEAVRAGLVKHRDEMR-KLDPATQKELQLKAAQKVVEIAR-----EEPVLLDTHATIKTPVGYLLGFPREVIEVINPNFIVIIEATPSEILGRRLRD-LKR-DR-DVE--TEEQIERHQDLNRAAAISYAMHSNALIKIIENH------EDKGLEEAVNELVQVLD E1RKM1/2-189 --GKRVVITGVPGVGKTTVIDGTKEKLKEE-NIDYTSINFGTCMFEVACEQGKVKNRDEMR-KLDQMEQKELQKTAAQLIAKI-------QDNVIVDTHCTVSTPGGYLPGLPSWVLQEMKPDMVILVETDVDQILMRRMKD-DTR-ER-DTE--GYISIKDHQDYNRFMAAAYSMYTGCTVKIIKNQ-------DFLLEKSIEEMMDILR F0LHL0/3-189 ---FVVMITGIPGVGKSTITRLALRRTR----AKFRLINFGDLMFEEAVKLGWVRHRDEMR-KLDLPKQRILQQKAAEKIAEIAK-----KEPVLLDTHATIRTPLGYLLGFPRKVIETINPTFIVIIEATPSEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAISYAMHSNALIKIIENH------EDKGLEEAVNELVKILD A0A0S1X8J4/3-189 ---FVVMITGIPGVGKSTITRLALRRTR----AKFRLINFGDLMFEEAVKLGWVRHRDEMR-KLDLPKQRILQQKAAEKIAEIAK-----KEPVLLDTHATIRTPLGYLLGFPRKVIETINPTFIVIIEATPSEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAISYAMHSNALIKIIENH------EDKGLEEAVNELVKILD T0M5P4/1-180 ---MRVVISGVAGVGKSTILDIVKSR------TNYDIINFGTLMFEMARNINLVRDRDELR-KLPVDTQMNLQKKASAAIGKM--------NNVIIDTHMTIKTPDGYLPGLPEWVLRELKVASYYLIEALPSQILSRRQHD-STR-SR-DSD--NEEDIRQHQEVNRYYAASYSVYTGATITFIQNI-------DGKPDIAAENIVRRL- A9AAR7/1-192 MKNKVVVVTGVPGVGGTTVTQKAMDILSEE-GLNYKMVNFGSAMFDVANEEGLASDRDQMR-KLDPETQKRIQKMAGRKIAEMAK-----ESPVAVDTHSTVKTPKGYLPGLPAWVLTELNPDIVIVVETDGDEILMRRLSD-ESR-KR-DLE--TTASIEEHQFMNRAAAMSYGVLTGATVKIVKNK-------NGLVDKAVEELISVLR V9S7L7/1-194 --MKIGIVTGIPGVGKSTVLAKVKEILDNQ-SINNKIINYGDFMLATALKLGYAKDRDEMR-KLSVEKQKKLQIDAAKGIAEEARV--GGDGYLFIDTHAVIRTPSGYLPGLPSYVITEINPSVIFLLEADPKIILSRQKRD-TTR-NRNDYS--DESVILETINFARYAATASAVLAGSTVKVIINV-------EGDPSIAANEIIRSMK A0A0Q1B620/1-180 ---MRVIVSGIPGVGKSTVIDLVSQR------SDYSVKNFGTIMFETARTMYQINNRDEMR-KLDIKAQIELQRNAAIELGKM--------DNIIIDTHMSIKSPSGYLPGLPEWVLKELNISSYFLIEADPDKILTHRLND-PTR-IR-DND--TEKDIKEHQEINRYYAVAYSVYSGATVNFIYNP-------ENHPEEAAENILRRL- A0A0D8DL73/1-180 ---MRVIVSGIPGVGKSTVIDLVSQR------SDYSVKNFGTIMFETARTMYQINNRDEMR-KLDIKAQIELQRNAAIELGKM--------DNIIIDTHMSIKSPSGYLPGLPEWVLKELNISSYFLIEADPDKILTHRLND-PTR-IR-DND--TEKDIKEHQEINRYYAVAYSVYSGATVNFIYNP-------ENHPEEAAENILRRL- A0A0P9CTW9/1-180 ---MRVIVSGIPGVGKSTVIDLVSQR------SDYSVKNFGTIMFETARTMYQINNRDEMR-KLDIKAQIELQRNAAIELGKM--------DNIIIDTHMSIKSPSGYLPGLPEWVLKELNISSYFLIEADPDKILTHRLND-PTR-IR-DND--TEKDIKEHQEINRYYAVAYSVYSGATVNFIYNP-------ENHPEEAAENILRRL- A4WLW3/2-187 ----KVVLVAVPGSGKTTIMNYVRQKL-----PDVKIVNYGDVMLEISKKKFGIQHRDEMRKKIPIEEYRKIQEEAAEYIASL-------PGDVLIDTHASIKIGGGYYPGLPDRVVSKLKPDVILLVEYDPKDILERRKKD-PDR-FR-DEE--SPEDIEMHQQANRYYAFAAANASESTVHVLSFRGKPQSRPYEHAEIAAEYIV---- A0A1M4MQR8/1-184 --MKVVVVAGIPGSGSTTVLENTLEE------LDYISVNYGDVMLEIVIEKGLVEHRDEIR-TLSPDIQKDIQRAAAKSIRERSR-----ENNIIVDTHCTIKTPAGFLPGLPVWVLEELEPDMFILIEADAEEIFTRRISD-KTR-NR-DME--SLQEIDLHQQMNRAAAMAYATLTGATVKIVKNH-------NNQLESAVGEMKSVL- A0A098E738/2-182 ----KIVVTGIPGTGKTTVLEKAIAESE----KKYAHVNYGNVMFDEAKSKGLVKDRDEMR-KLDPKIQKDIQKNAAKKIGKM--------ENVIIDTHASILTPNGYLPGLPEWVLKEIMPNTIVILEASPEEISRRRSKD-ISR-KR-DAE--DIGGIKEHQEMNRAIAMAYGVITGATIKIIQNH-------DNGLEEAAKNLSKIL- A3MW37/2-192 ---ARIILVAVPGVGKSTILKFLTERR-----RDVQVVNYGDVMLEIAKARFGIANRDEMRKKIPLEQYREVQREAAERIAQM-------QGHVVVDTHASIKIAGGYYPGLPHRIITLMKPHAIVLIEADPQVVLKRRASD-ATRPTR-DVE--TPEDVERHQEANRHYAYAACEAAECIVYIIDLRKVPETRPFEHAEYAAGKLSELI- A4FXE7/1-192 MKNKVVVVTGVPGVGGTTVTQKAMDILSEE-GLTYKMVNFGSAMFDVANEEGIASDRDQMR-KLDPETQKRIQKMAGRKIAEMAK-----ESPVAVDTHSTVKTPKGYLPGLPAWVLTELNPDIVIVVETDGDEILMRRLSD-ESR-KR-DLE--TTASIEEHQFMNRAAAMSYGVLTGATVKIVKNK-------NGLVDNAVEELISVLR A0A0Q0VSM3/1-190 MLGKTVVITGVPGVGKTTVINGAIDLLRNE-GVVYNPINFGTFMFDIASREGLVTDRDEMR-KLDQDVQRRVQRLAAQGIAQT-------GGNIIVDTHCTVSTPRGFLAGLPEWVLRELKPDIFVLVETDEDQILTRRLSD-ESR-VR-DRE--GYIGIRDHQQFNRSIAASYAMLSGCTVKIIRNA-------DFLLDKAVADMADILR A0A1D8MTD6/2-186 --SSVNIVVGLSGVGKSTVLEKATEKSG----EEYEVINYGDRMVETAKDRGLVEHRDEMK-DLDVETYKDIQKKAAESIVEDSE-----DGNVIVDTHATIKSPFGYIPGLPKWTIENLMPDKLVMLTADSEAIFKR-SQE-GGR-DR-EHE--SVEDIEEYQEVAREMAATGSVLTGAYLQIIENR-------EGKADEAAEKLVETL- F4HJN3/2-189 --SFVVIITGIPGVGKSTITKLALQRTK----AKFKLVNFGDLMFEEAVKEGLVKHRDEMR-KLPLEIQRKLQMKVAEKIVAMSK-----EQPILVDTHATIKTPHGYLLGLPYEVIKTLNPNFIVIIEATPAEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAIAYAMHSNALIKIIENH------EDKGLEEAVNELVKILD A0A1F2PBC1/1-189 --MSVIVLTGIPGVGSSTVAREALNMMDDDAASRFRSVNYGDVMFEVAQQKGLVKSRDEMR-KLESSIQRAIQQKAAKKIASI-------EGRVILDTHITIKTPQGYLPGLPRWVLDGLEPDLIILVEADPEEIYQRRVKD-KSR-SR-DSD--SVELIDEHQQINRATGMAYAALSGATVKIIANH-------DNGLKDAASELLEVIS A0A172WHC7/3-189 ---FVVMITGIPGVGKSTITKLALKKAR----MKFKLVNFGDLMFEEAVKAGLVKHRDEMR-KLNPNVQKDLQMKAARRIVEMAK-----TEPILIDTHATIRTPVGYLLGFPKEVIEVINPNFIVIIEATPSEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAVSYAMHSNALIKIIENH------EDKGLKEAVHELVEVLD A0A0C5BTU0/6-193 -ESKKIILVGIPGVGKTTLLSKILDHIKSQ-QKSVNVVSYGTLMFEVAKQNG-LNDRDELR-KLPVTKQQELQKIAAENIAACT------EEIVIIDTHAFISSPEGYYPGLPEHVLKIIKPSNFISVSAKPEEIYSRRMTD-ETR-NR-DKN--TLANVKTELDVQSGMISACSVITGSPVKYILNR-------EGKVDEAADKIIQSL- A0A151ECL5/2-181 ---VVIVVTGIPGVGKTTVMQKAAEG------MDIKFVTFGTIMEEIAKDLGLVKERDEMR-KLTLEQQKDLQIKSAKKIASM--------GNVILDTHCTIKTPKGYMPGLPEWVIKKLNPTAIVVVEADPEEIFNRRAND-PTR-NR-DPD--TKEQINEHQMINRAAAMAYAALSGSTVKIVFNH-------DNAIDAAVEQAAPVL- Q97BV2/2-181 ----RSVITGVAGVGKTTVLDIVARE------SGIPVVNYGTLMFEVAKRRGLVENRDQIR-KLSRETQVDLQKLAGEEIGKM--------ENAIVDTHMSIKTPFGYLPGLPEWVLRSINASVFVIIEADPAIIKRRRDND-PTR-AR-DDE--GVDSIREHQEMNRYFAAAYSIFSGATVKIVKNE-------EGKPEQAADEIVRVIK D2PC95/1-195 --MKIGIVTGIPGVGKTTVLSFADKILTEK-GIPHKIANYGDYMLNTALKEGYVNSRDEIR-KLQIEKQRELQALAARRIVEDLSL-LGDEGIGLIDTHAVIRTPAGYLPGLPRHVIEVLSPKVIFLLEADPRIILERQKRD-NSR-ARADYS--DTTVINEVIQFARYSAMASAVLVGASVKVVINQ-------EGDPSIAASDIINSLM C3MQ83/1-195 --MKIGIVTGIPGVGKTTVLSFADKILTEK-GIPHKIANYGDYMLNTALKEGYVNSRDEIR-KLQIEKQRELQALAARRIVEDLSL-LGDEGIGLIDTHAVIRTPAGYLPGLPRHVIEVLSPKVIFLLEADPRIILERQKRD-NSR-ARADYS--DTTVINEVIQFARYSAMASAVLVGASVKVVINQ-------EGDPSIAASDIINSLM F0NM56/1-195 --MKIGIVTGIPGVGKTTVLSFADKILTEK-GIPHKIANYGDYMLNTALKEGYVNSRDEIR-KLQIEKQRELQALAARRIVEDLSL-LGDEGIGLIDTHAVIRTPAGYLPGLPRHVIEVLSPKVIFLLEADPRIILERQKRD-NSR-ARADYS--DTTVINEVIQFARYSAMASAVLVGASVKVVINQ-------EGDPSIAASDIINSLM M9UDW7/1-195 --MKIGIVTGIPGVGKTTVLSFADKILTEK-GIPHKIANYGDYMLNTALKEGYVNSRDEIR-KLQIEKQRELQALAARRIVEDLSL-LGDEGIGLIDTHAVIRTPAGYLPGLPRHVIEVLSPKVIFLLEADPRIILERQKRD-NSR-ARADYS--DTTVINEVIQFARYSAMASAVLVGASVKVVINQ-------EGDPSIAASDIINSLM C3N5V1/1-195 --MKIGIVTGIPGVGKTTVLSFADKILTEK-GIPHKIANYGDYMLNTALKEGYVNSRDEIR-KLQIEKQRELQALAARRIVEDLSL-LGDEGIGLIDTHAVIRTPAGYLPGLPRHVIEVLSPKVIFLLEADPRIILERQKRD-NSR-ARADYS--DTTVINEVIQFARYSAMASAVLVGASVKVVINQ-------EGDPSIAASDIINSLM C3NEG7/1-195 --MKIGIVTGIPGVGKTTVLSFADKILTEK-GIPHKIANYGDYMLNTALKEGYVNSRDEIR-KLQIEKQRELQALAARRIVEDLSL-LGDEGIGLIDTHAVIRTPAGYLPGLPRHVIEVLSPKVIFLLEADPRIILERQKRD-NSR-ARADYS--DTTVINEVIQFARYSAMASAVLVGASVKVVINQ-------EGDPSIAASDIINSLM C4KHI0/1-195 --MKIGIVTGIPGVGKTTVLSFADKILTEK-GIPHKIANYGDYMLNTALKEGYVNSRDEIR-KLQIEKQRELQALAARRIVEDLSL-LGDEGIGLIDTHAVIRTPAGYLPGLPRHVIEVLSPKVIFLLEADPRIILERQKRD-NSR-ARADYS--DTTVINEVIQFARYSAMASAVLVGASVKVVINQ-------EGDPSIAASDIINSLM F0NHL5/1-195 --MKIGIVTGIPGVGKTTVLSFADKILTEK-GIPHKIANYGDYMLNTALKEGYVNSRDEIR-KLQIEKQRELQALAARRIVEDLSL-LGDEGIGLIDTHAVIRTPAGYLPGLPRHVIEVLSPKVIFLLEADPRIILERQKRD-NSR-ARADYS--DTTVINEVIQFARYSAMASAVLVGASVKVVINQ-------EGDPSIAASDIINSLM C3NH85/1-195 --MKIGIVTGIPGVGKTTVLSFADKILTEK-GIPHKIANYGDYMLNTALKEGYVNSRDEIR-KLQIEKQRELQALAARRIVEDLSL-LGDEGIGLIDTHAVIRTPAGYLPGLPRHVIEVLSPKVIFLLEADPRIILERQKRD-NSR-ARADYS--DTTVINEVIQFARYSAMASAVLVGASVKVVINQ-------EGDPSIAASDIINSLM C3MVK2/1-195 --MKIGIVTGIPGVGKTTVLSFADKILTEK-GIPHKIANYGDYMLNTALKEGYVNSRDEIR-KLQIEKQRELQALAARRIVEDLSL-LGDEGIGLIDTHAVIRTPAGYLPGLPRHVIEVLSPKVIFLLEADPRIILERQKRD-NSR-ARADYS--DTTVINEVIQFARYSAMASAVLVGASVKVVINQ-------EGDPSIAASDIINSLM C6A184/3-189 ---FVVVITGIPGVGKSTITRLALQRTR----AKFRVVNFGDIMFQEAVKAGWVSHRDEVR-KLSLKVQRELQLKAAQRILEISQ-----KEPVLLDTHATIKTPLGYMLGFPREVIEVINPRFMVIIEANPSEILGRRLRD-LKR-DR-DVE--TEDQIQRHQDLNRAATISYAMHSNALIKIIENH------EDKGLEEAVNELVKILD A0A063ZEH0/1-192 MLGKKVVVTGVPGVGKTTVINGAMERLAAE-GVAYEAVNFGTFMFEVAKKEDLVSDRDEMR-KLEKDVQKRLQQAAASGIAAMSG-----EANIIIDTHSSVKTPTGFLAGLPEWVLRELMPDIVVLVETDPDQILMRRLGD-ASR-AR-DME--GYRAIAEHQEFNRAVSAAYAMYTGCTIKIVRNE-------NFLLEQGIDDLVSVLR D3TB24/2-180 ----RVVAAGVPGVGKTSILNEVAKR------SRYPIVNYGTLMFEMAQAEGLVNDRDEMR-KLPVSTQRDLQRRAAEEIAKM--------NDVIVDTHLTIKTPAGYFPGLPKWVLDAMKPEMIVVIEASAAEIFERRKRD-ATR-KR-DFE--GIEDIEEHLKVNRYTAFACSIYTGATVLILKNN-------EGELEKAVDRFMGAL- B6YSN8/3-189 ---FVVMITGIPGVGKSTITRLALRKAR----AKFRLVNFGDLMFEEAVRAGLVEHRDEMR-KLNPNVQKELQMKAARRIVEMAK-----TEPILIDTHATIRTPVGYLLGFPKEVIEVINPNFIVIIEATPSEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAVSYAMHSNALIKIIENH------EDKGLEEAVHELVEVLD H3ZNK3/3-189 ---FVVVITGIPGVGKSTITRLALKRTR----AKFRVVNFGDIMFEEAVKAKLVTHRDEMR-RLSLKVQRELQLKAAQRILEISR-----EEPVLLDTHATIKTPLGYMLGFPKEVIEVINPRFVVIIEATPSEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAISYAMHSNALIKIIENH------EDKGLEEAVNELVKILD V4KFL3/11-206 --FKVVVVTGVPGVGKTTVLSIAEKKARER-GIKLKVLNFGDFMLNKAVAEGLLKDRDEIR-RASLRQQLELQSYAAKAMVEEASRELGTDGFLIIDTHAVVRTPVGLLPGLPKHVVDELKPDAIVLIEADPREVAARQQKD-TTR-YRADFG--GEEGVKLLMEQARMAAFSSATLYGSIVTTIINR-------EGKAEEAAEELLRVLE P43411/1-192 MKNKVVVVTGVPGVGSTTSSQLAMDNLRKE-GVNYKMVSFGSVMFEVAKEENLVSDRDQMR-KMDPETQKRIQKMAGRKIAEMAK-----ESPVAVDTHSTVSTPKGYLPGLPSWVLNELNPDLIIVVETTGDEILMRRMSD-ETR-VR-DLD--TASTIEQHQFMNRCAAMSYGVLTGATVKIVQNR-------NGLLDQAVEELTNVLR K6T1M1/1-184 --MKVVVVAGIPGSGSTTVLQHALKE------TDYVHVNYGDVMLEIAQEMKLVEDRDSMR-KLPPETQKEVQKKAAGTIRARAE-----VANTIVDTHCTIKTPSGFLPGLPQWVLEELQPDMFILIEADGDEILMRRVSD-TTR-TR-DTE--RLQDINLHQEMNRATAMAYAVYTGATVKIIENH-------NDHLESSVEEMKKTL- A6UP41/1-192 MKNNVVVVTGVPGVGSTTVMQKAMDKLIEE-KISYKMVNFGSMMFEVAKEEGLAEERDQMR-KLNPETQKRIQKMAGRKIAELSK-----HSPVAVDTHSTVKTPKGYLPGLPAWVLNELNPDMVIVVETDGDEILMRRMGD-ESR-NR-DLE--TTKSIEEHQFMNRCAAMAYGVLTGATVKIVKNK-------NGLVDNAVEELISVLR T0LFZ5/1-180 ---MRVVISGVAGVGKSTILELVEKG------TNYDVINYGTLMYEMAKEIGLIAHRDELR-KLNVDTQINLQKKASSAIGQM--------DDVIVDTHMAIKSPKGYIPGLPEWVLRELKISSYFIIESDYREIKKRRTAD-TTR-FR-DDD--SEEDIKIHQELNRYFAAVYAVYTAATVNFVNNV-------QGAPEVAANEIIRKL- A0A0V8RWD5/9-201 ----TIIVTGVPGVGKTTVLNHVSEMIRER-GGEILVVNFGDYMFRVASEQGLVKHRDEMR-HLPLRKQLELQEHAARSIRSDAEQGLSERGFLFIDTHAVIKTSTGYWPGLPENVVKELRPDSIVLVEAPPEVILARQQRD-KTR-VRSDIG--GVEAIKLLLDMARSAAMSSAVLVAASVYIVENV-------EGNPRVAAGKVVELA- A0A0H1R2J6/2-191 --GKKVVVTGVPGVGKTTVINGAMERLAAE-GVAYKAVNFGTFMFEVAKKENLVSDRDEMR-KLEKDVQKRLQQAAASGIAAMSG-----DANIIIDTHSSVKTPTGFLAGLPEWVLRELMPDIVVLVETDPDQILMRRLGD-ASR-AR-DME--GYRAIAEHQEFNRAVSAAYAMYTGCTIKIVRNE-------NFLLEQGIDDLVSVLR A0A0U3FHL4/2-197 --LKVVIATGVPGVGKTTVTTKAVEILKEK-GVKVKVSNFGDYMFKVAKERGWVEHRDEMR-KLNLSQQRELQALAAKAIVEDAKKELGDDGVLIVDTHAAINTPTGVWPGLPKHVVEGLNPAIIFVIEASPEEIAARQAKD-VGR-VRKDYS--DVEFLRRFMEFARNSAIASAVLVGAAVNVVYNR-------EGAVEEAAKKVVEAIE G0ECG9/10-203 ----TVIVTGVPGVGKTTVLGKLVEMAAAE-GLKLKLVNFGDYMFRVASEKGLVKHRDEIR-KLQLQVQLELQKWAAEAIISDAKKELGQGGVLIVDTHAVIKTSSGYWPGLPKHVIEVLKPDSIVVIEANPELIIARRQRD-KGR-YREDMG--GVEELRELMSMARTAAMASAVLTASSVFIVENP-------EGKPEEAAQRILELIR Q9V1V9/2-189 --SFVVIITGIPGVGKSTITRLALQRTK----AKFKLINFGDLMFEEAVKAGLVNHRDEMR-KLPLEIQRDLQMKVAKKISEMAR-----QQPILLDTHATIKTPHGYLLGLPYEVIKTLNPNFIVIIEATPSEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAIAYAMHSNALIKIIENH------EDKGLEEAVNELVEILD D5VRS8/1-189 ---MLVVVVGVPGVGSTTVTNKAVEKLREE-GINYKIVNFGTVMLEIAKEEGLVENRDQLR-KLPPEKQKEIQRLAGKRIAEMAK-----EEDIIVDTHSTIKTPKGYLPGLPIWVLEELKPDIIVLVEADSNEVLMRRLKD-ETR-QR-DFE--STEDIDEHLFMNRAAAITYAVLTGATVKIIKNR-------DDLLDKAVEEMVKVLK A0A0U3DN81/1-185 --MKLVVLTGIPGSGSTTVLNKALEE------VDYVHLNYGDIMTELAIEEKIVDDRDALR-KLPAETQKEIQAKAAKRIKERSE-----ENNVIVDTHCTINTPSGFLPGLPIWVLEQLQPDLFIMVEANPDEIIYRRMND-DTR-SR-DVE--KASDIQLHQEMNRAASMAYATLTGATVKIIANH-------DNHLPKTISKLVEVLK I6US44/3-189 ---FVVIITGIPGVGKSTITRLALQRTK----AKFRLINFGDLMFEEAVKAGLVKHRDEMR-KLPLKIQRELQMKAAKKITEMAK-----EHPILVDTHATIKTPHGYMLGLPYEVVKTLNPNFIVIIEATPSEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAIAYAMHSNALIKIIENH------EDKGLEEAVNELVKILD Q8U020/3-189 ---FVVIITGIPGVGKSTITRLALQRTK----AKFRLINFGDLMFEEAVKAGLVKHRDEMR-KLPLKIQRELQMKAAKKITEMAK-----EHPILVDTHATIKTPHGYMLGLPYEVVKTLNPNFIVIIEATPSEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAIAYAMHSNALIKIIENH------EDKGLEEAVNELVKILD D0KTA1/1-195 --MKIGIVTGIPGVGKTTVLSFADKILTEK-GISHKIVNYGDYMLNTALKEGYVKSRDEIR-KLQIEKQRELQALAARRIVEDLSL-LGDEGIGLIDTHAVIRTPAGYLPGLPRHVIEVLSPKVIFLLEADPKIILERQKRD-SSR-ARTDYS--DTAVINEVIQFARYSAMASAVLVGASVKVVVNQ-------EGDPSIAASEIINSLM A0A0E3MJD3/1-195 --MKIGIVTGIPGVGKTTVLSFADKILTEK-GISHKIVNYGDYMLNTALKEGYVKSRDEIR-KLQIEKQRELQALAARRIVEDLSL-LGDEGIGLIDTHAVIRTPAGYLPGLPRHVIEVLSPKVIFLLEADPKIILERQKRD-SSR-ARTDYS--DTAVINEVIQFARYSAMASAVLVGASVKVVVNQ-------EGDPSIAASEIINSLM S0APE0/1-180 ---MRVVISGIPGVGKSTILDMVSKK------SMYEIINFGSLMFDMARDLDLVKSRDDIR-RLDVDTQRNLQKKTSNQLGKM--------DNIIIDTHMSIKSPAGYLPGLPAWVLNELMVSSYFLIESTPAEIKRRRDND-STR-SR-DED--TINDIEEHQQVNRYYAAAYSVYSGATIKYIYNP-------DNHPEIAAEAILRGL- W8NWV3/3-189 ---FVVMITGIPGVGKSTITRLALKRTR----AKFRLVNFGDLMFEEAVKAGLVKHRDEMR-KLDPKTQRELQLKAAQKIVEIAR-----EEPVLLDTHATIRTPVGYLLGFPREVIEVINPNFIVIIEATPSEILGRRLRD-LKR-DR-DVE--TEEQIERHQDLNRAAAISYAMHSNALIKIIENH------EDKGLEEAVNELVQVLD A0A1J5TLG5/1-179 MEMGVVIVTGVPGVGKSTVMNAAKD-------YGYEIVNFGSTMFEEAQKEG-VNDRDDMR-KLPVEKQQDLQRQAGDRISKM--------GNVVVDTHASILTPSGYMPGLPEWTIRALNPNIIVLVEATAQEIAGRRSKD-PSR-LR-DAD-----DIDMHQKVNRDYAATAASIVGATVSIVENH-------DNEVDIAVEQFRKVLN F8ALZ1/1-192 MKNKLVVITGVPGVGGTTITQKAIDVLKEE-GINYKMVNFGTVMFEVAKAENLVEDRDQMR-KLDPDTQKRIQKMAGRKIAEMAM-----QSPVAVDTHSTVKTPKGYLPGLPIWVLDELQPDIIVVVETTGDEILMRRLGD-ETR-NR-DLE--MTKNIEEHQFMNRCAAMAYGVLTGATVKIVKNR-------NKLLDDAIEELVSVLR L0HJZ5/1-190 MEGKKVIITGVPGVGKTTVVNEALKKLKSE-GIEYQSLNFGTFMFEVAKADNIVKDRDQMR-TLDRAVQKRLQQRAGQAIAKI-------TGNVLIDTHASVKTPKGYLAGLPEWVLREIMPDIIVLVETDDDQILMRRLTD-ETR-SR-DKE--GSRSIAEHQQFNRSIAAAYAMLTGCTIRIITNA-------DFLLERSAADLADVLR B9AE68/1-185 --MKLVVLTGIPGSGSTTLLNKALEE------VDYVHLNYGDIMTEIAIEEKIVDDRDALR-KLSPDVQKEIQEKAAKRIKERSE-----SENVIVDTHCTINTPSGFLPGLPIWVLNELQPNLFVMIEANPDEIIYRRLND-DTR-SR-DIE--RAKDIQLHQEMNRAASMAYATLTGATVKIIENH-------DNHLPSTVSKLVDVLN A0A1D2WRW6/1-185 --MKLVVLTGIPGSGSTTLLNKALEE------VDYVHLNYGDIMTEIAIEEKIVDDRDALR-KLSPDVQKEIQEKAAKRIKERSE-----SENVIVDTHCTINTPSGFLPGLPIWVLNELQPNLFVMIEANPDEIIYRRLND-DTR-SR-DIE--RAKDIQLHQEMNRAASMAYATLTGATVKIIENH-------DNHLPSTVSKLVDVLN R7PUE8/1-185 --MKLVVLTGIPGSGSTTLLNKALEE------VDYVHLNYGDIMTEIAIEEKIVDDRDALR-KLSPDVQKEIQEKAAKRIKERSE-----SENVIVDTHCTINTPSGFLPGLPIWVLNELQPNLFVMIEANPDEIIYRRLND-DTR-SR-DIE--RAKDIQLHQEMNRAASMAYATLTGATVKIIENH-------DNHLPSTVSKLVDVLN W7KM92/1-195 --MKMGIVTGIPGVGKTTVLSTVAEILQEK-KIPFKVMNFGDYMLRTAVEKKYVNNRDEIR-KLPLEKQRELQQEAARQIVKDAES-LGENGLSFIDTHAVIRTASGYLPGLPKHIIEILSPLVIFLIESDPNEILKRQQKD-SSR-QRADYS--NADVINEVMNFARYAAMASAVLVGASVKIVNNV-------EGDPKVAANEIIRTLM A0A0P8XAI2/3-189 ---FVVVITGIPGVGKSTITRLALQRTR----ARFRVINFGDIMFEEAVRANLVSHRDEMR-RLSLKTQRELQLKAAQRILEISR-----KEPVLLDTHATIKTPLGYMLGFPKEVIEVINPKFMVIIEANPSEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAISYAMHSNALIKIIENH------EDKGLEEAVNELVKILD A7I5R3/1-190 MAGKKVIITGVPGVGKTTVINEALAKLKSE-GVDYQPINFGSFMFEVAKNEGLVANRDQMR-TLDRADQKRLQQHAAQAIAKI-------PGNVMIDTHASVKTPKGYLAGLPEWVLRELMPDVIILVETDNDQILMRRLTD-DTR-NR-DKE--GARSISEHQEFNRSIAAAYAMMTGCTIKIIINS-------DHLLDFAAAEMADVLR A0A075H8H9/2-176 ---GVVVVTGVPGVGKSTVMAGASE-------AGYGSVNFGDMMFEVAQAEG-VSDRDQMR-KLSIDAQQRLQKLAGERIAAM--------GDVVVDTHASIRTAQGFMPGLPEWTLRAMAPTIIVLVEAAPAEIAGRRAKD-ATR-QR-DAN-----DVALHQEVNRAFAAAGAVMVGATVAIIENH-------DGGVDAAAAQFRSLL- A0A1J5TH15/2-176 ---GVVVVTGVPGVGKSTVMAGASE-------AGYGSVNFGDMMFEVAQAEG-VSDRDQMR-KLSIDAQQRLQKLAGERIAAM--------GDVVVDTHASIRTAQGFMPGLPEWTLRAMAPTIIVLVEAAPAEIAGRRAKD-ATR-QR-DAN-----DVALHQEVNRAFAAAGAVMVGATVAIIENH-------DGGVDAAAAQFRSLL- A0A075HPS2/2-176 ---GVVVVTGVPGVGKSTVMAGASE-------AGYGSVNFGDMMFEVAQAEG-VSDRDQMR-KLSIDAQQRLQKLAGERIAAM--------GDVVVDTHASIRTAQGFMPGLPEWTLRAMAPTIIVLVEAAPAEIAGRRAKD-ATR-QR-DAN-----DVALHQEVNRAFAAAGAVMVGATVAIIENH-------DGGVDAAAAQFRSLL- A0A075GQR4/2-176 ---GVVVVTGVPGVGKSTVMAGASE-------AGYGSVNFGDMMFEVAQAEG-VSDRDQMR-KLSIDAQQRLQKLAGERIAAM--------GDVVVDTHASIRTAQGFMPGLPEWTLRAMAPTIIVLVEAAPAEIAGRRAKD-ATR-QR-DAN-----DVALHQEVNRAFAAAGAVMVGATVAIIENH-------DGGVDAAAAQFRSLL- A0A163BSD3/2-191 --GKKVVVTGVPGVGKTTVINGAMERLAAE-GIAYEAVNFGTCMFDVACKESLVSDRDEMR-KLGKDDQKRLQQAAASEIAAMSA-----DANIIIDTHSSVKTPAGFLAGLPEWVLRELMPDVVVLVETDPDQILMRRLGD-ESR-VR-DME--GARAIAGHQEFNRAIAAAYAMYTGCTVKIVGNE-------NFLLERAIDDLVNVLR A0A0X3BN33/2-191 --GKKVVVTGVPGVGKTTVINGAMERLAAE-GIAYEAVNFGTCMFDVACKESLVSDRDEMR-KLGKDDQKRLQQAAASEIAAMSA-----DANIIIDTHSSVKTPAGFLAGLPEWVLRELMPDVVVLVETDPDQILMRRLGD-ESR-VR-DME--GARAIAGHQEFNRAIAAAYAMYTGCTVKIVGNE-------NFLLERAIDDLVNVLR D3E2G6/1-185 --MKLVVLTGIPGSGSTTVLKKALEE------VDYLHLNYGDIMTEIAVEKGLVETRDELR-KLPADTQKEIQKAAGIRIKEKSE-----SENVIVDTHCTISTPSGFLPGLPKWVLEGLNPDHFVLIEAYPDEIRVRRTND-DTR-QR-DAE--SAEAIQLHQEMNRAASMAYATLTGATVKIVYNH-------DNELDDTVAGLVEFLK F2L4X0/1-189 ---MRIILVAVPGSGKTTIMGYVKKKL-----PDVQIVNFGDVMLEISRKKYGIENRDDMRRKIPVEEYRKVQEEAADYIASL-------PGDVIVDTHASIKMMGGYYPGLPDRVVARLKPDSIVLVEYDPKDILERRRGD-PTR-FR-DVE--TEEEIELHQMANRYYAFAAANAAECTVHIINFRGRPQSRPFEHAEIAADYIVNL-- A0A147JUD1/1-192 MSEKLVIVTGVPGSGKTTLIKEALKVLRAM-GVDYHHVNYGDVMLEIIRSKKGEVDRDALR-EMPLAFYSRVQREAARRISRLAR-----LKPVLVDTHCLVKKPEGYYPGLPRWVLEELKPESLILVEADPEEIGRRRTKD-KSR-RR-ARE--LTEEIAEHQQLNRAAAIAYAALSGASVLIVQNS-------DKGFKKAVDNIVSALR A0A1J5TCA0/1-176 --MSVVVVTGVPGVGKSTVMNAAEE-------FGFKIVNFGSIMFEQGSKDE-VRDRDAMR-KLPVSSQRKYQKMAGEAISKM--------GDVVVDTHASILTPAGYMPGLPEWTVRALNPDIIVLVEADAEEIERRRNKD-SSR-IR-DSD-----DIELHQRVNREYAAVAAVMTGATVAIVENH-------DNQVEVAAKRFREIL- A0A124EBM9/3-189 ---FVVMITGIPGVGKSTITKLALKKSR----AKFRLVNFGDLMFDEAVGAGLVRHRDEMR-KLDPNVQKELQMKAARRIVEMSQ-----REPVLIDTHATIRTPVGYLLGFPREVIEVINPNFIVIIEAAPSEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAVSYAMHSNALIKIIENH------EDKGLQEAVHELVEVLD G0HIS4/3-189 ---FVVMITGIPGVGKSTITKLALKKSR----AKFRLVNFGDLMFDEAVGAGLVRHRDEMR-KLDPNVQKELQMKAARRIVEMSQ-----REPVLIDTHATIRTPVGYLLGFPREVIEVINPNFIVIIEAAPSEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAVSYAMHSNALIKIIENH------EDKGLQEAVHELVEVLD V4JMR7/11-206 --FKVVVVTGVPGVGKTTVLSIAEKKARER-GIKLKVLNFGDFMLNKAVAEGLLKNRDEIR-RASLRQQLELQSYAAKAMVEEASRELGTDGFLIIDTHAVVRTPVGLLPGLPKHVVDELKPDAIVLIEADPREVAARQQKD-TTR-YRADFG--GEEGVKLLMEQARMAAFSSATLYGSIVTTIINR-------EGKAEEAAEELLRVLE A0A133VRS7/1-173 -------------------MDKALEKLREE-GVDYQLLNYGDLMLEIAKEEKGVKDRDKMK-DIKLETYRDIQKEAAYSIAEVRE-----EIPVLVDTHCTIKKPEGYYPGLPQWVLERLQPEEILIIEALPKEIAGRREKD-ASR-KR-KKE--LEEAISEHQELNRAIATSYAMMVGAGVRIIKNR-------EGKIGEAVQKVVEALK A0A133UY24/1-173 -------------------MDKALEKLREE-GVDYQLLNYGDLMLEIAKEEKGVKDRDKMK-DIKLETYRDIQKEAAYSIAEVRE-----EIPVLVDTHCTIKKPEGYYPGLPQWVLERLQPEEILIIEALPKEIAGRREKD-ASR-KR-KKE--LEEAISEHQELNRAIATSYAMMVGAGVRIIKNR-------EGKIGEAVQKVVEALK A0A133V415/1-173 -------------------MDKALEKLREE-GVDYQLLNYGDLMLEIAKEEKGVKDRDKMK-DIKLETYRDIQKEAAYSIAEVRE-----EIPVLVDTHCTIKKPEGYYPGLPQWVLERLQPEEILIIEALPKEIAGRREKD-ASR-KR-KKE--LEEAISEHQELNRAIATSYAMMVGAGVRIIKNR-------EGKIGEAVQKVVEALK A0A133V950/1-173 -------------------MDKALEKLREE-GVDYQLLNYGDLMLEIAKEEKGVKDRDKMK-DIKLETYRDIQKEAAYSIAEVRE-----EIPVLVDTHCTIKKPEGYYPGLPQWVLERLQPEEILIIEALPKEIAGRREKD-ASR-KR-KKE--LEEAISEHQELNRAIATSYAMMVGAGVRIIKNR-------EGKIGEAVQKVVEALK A0A133V9F3/1-173 -------------------MDKALEKLREE-GVDYQLLNYGDLMLEIAKEEKGVKDRDKMK-DIKLETYRDIQKEAAYSIAEVRE-----EIPVLVDTHCTIKKPEGYYPGLPQWVLERLQPEEILIIEALPKEIAGRREKD-ASR-KR-KKE--LEEAISEHQELNRAIATSYAMMVGAGVRIIKNR-------EGKIGEAVQKVVEALK A0A133V802/1-173 -------------------MDKALEKLREE-GVDYQLLNYGDLMLEIAKEEKGVKDRDKMK-DIKLETYRDIQKEAAYSIAEVRE-----EIPVLVDTHCTIKKPEGYYPGLPQWVLERLQPEEILIIEALPKEIAGRREKD-ASR-KR-KKE--LEEAISEHQELNRAIATSYAMMVGAGVRIIKNR-------EGKIGEAVQKVVEALK G0H0I2/1-192 MKNKVVVVTGVPGVGGTTVTQKAMDILSEE-GLNYKMVNFGSAMFDVANEEGLASDRDQMR-RLDPETQKRIQKMAGRKIAEMAK-----ESPVAVDTHSTVKTPKGYLPGLPAWVLTELNPDIVIVVETDGDEILMRRLSD-ESR-KR-DLE--TTASIEEHQFMNRAAAMSYGVLTGATVKIVKNK-------NGLVDNAVEELMSVLR A0A147JYB0/1-192 MVSRVVVVTGVPGAGKSTVVQEALKQLKAQ-DVEYEFMNYGDVMLELMREREGVADRDEMR-KVPTGSYREIQREAGKRIARAAQ-----RKFVLVDTHCLIKKPEGYYPGLPRWVIEELNPESIVIIEATPEEVARRRTKD-TTR-RR-DKE--LLDEVVEHQLLNRATATAYATLTGATVRIIHNR-------DGKLSKAVKEMVEVLR L0A8J4/8-203 --FKVIIVTGVPGVGKTTVLSVLQEKAKAS-NIKLKVLNFGTFMLETALKEKLVNNRDELR-HLTLRKQLDLQQLAAKRIIEETLKDLDENGYLIIDTHAIVKTSSGYLPGLPKHVLDELKPDMITVIEADAKEIFNRQVKD-SSR-NRSDFG--TEKDIEKLMEYARMASFSSAVHYASTVAIITNK-------ENKANEAAEELLQFIQ A6UW35/1-192 MEHKLVVVTGVPGVGGTTITQKAMEILKEE-NINYKMVNFGTAMFEVAQSQNIVEDRDEMR-KLDADTQKRIQKMAGRKIAEMVK-----EQPIVVDTHSTVKTPKGYLAGLPKWVLDELNPNMIVVVETTGDEILMRRMSD-ETR-KR-DLE--TASDIEEHQFMNRCAAMTYGVLTGATVKIVKNK-------NGLLDEGVEELVSILR A0A1D2WCE6/1-185 --MKVGVIAGIPGSGSTTVLTKALEA------LDYVHVNYGDVMLEIAQKEGLVEDRDALR-KLSPDVQKEIQKNAAKSIREMSE-----DNNIIVDTHCTIKTPAGFLPGLPKWVLDELQPDIFILIEADSDEILMRRLND-TTR-TR-DME--KLSDIQLHQEMNRSMSMAYAALTGATVKIIENH-------DNRLEEPVENMITTLK I3RG92/3-189 ---FVVIITGIPGVGKSTITRLALQRTK----AKFKLVNFGDLMFEEALRIGLVKHRDEMR-KLPLEVQRELQKKVAEKIVEMAK-----SEPILIDTHATIKTPHGYLLGLPYDVIRTLNPNFIVIIEATPAEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAIAYAMHSNALIKIIENH------EDKGLEEAVNELVKILD D7DTV1/1-192 MKNKVVVVTGVPGVGSTTSTQLAMDNLRKE-GVNYKMVSFGSIMFEVAKEENLVSDRDQMR-KMDPETQKRIQKMAGRKIAEMAK-----ESPVAVDTHSTVSTPKGYLPGLPAWVLNELNPDLIIVVETTGDEILMRRMGD-ETR-VR-DID--SASTIEQHQFMNRCAAMSYGVLTGATVKIVQNR-------NGLLDQAVEELTSVLR G0QHX2/2-187 --SNVNIVVGLSGVGKSTVLEEAMKLSE----NEYEIINYGDRMLEVAMDEGLVDSRDEIK-TISSGKQKEIQKKAADSILVDSE-----DKNVVVDTHAAIQTPHGYLPGLPQWTIQGLQPENIIIIDAPSKAIYERSTDD-DGR-SR-EHD--SVEGVDEYRQVAREMAASGSVLTGAYLKIIENK-------DGMIKEASQELVELL- A0A126QZA2/1-185 --MKLVVLTGIPGSGSTTLLNSALKE------VDYLHLNYGDIMTEIALEKGLVENRDELR-KLPANTQKEIQKEAGIRIKEKSE-----SDNVIVDTHCTISTPAGFLPGLPKWVLEGLNPDTFILVEAHPDEIMVRRLND-ETR-QR-DAE--KAKDIHLHQEMNRAAAMAYATLTGATVKIISNH-------DNHLPSTVRKMVDLLK B5ICT9/1-183 MIKMRVVAAGVPGVGKTSILNEVAKR------SRYPIVNYGTLMFEMAQAEGLVNDRDEMR-KLPVSTQRDLQRRAAEEIAKM--------NDVIVDTHLTIKTPAGYFPGLPKWVLDAMKPEMIVVIEASAAEIFERRKRD-ATR-KR-DFE--GIEDIEEHLKVNRYTAFACSIYTGATVLILKNN-------EGELEKAVDRFMGAL- A0A1D3L2M3/1-185 --MKVVVVAGIPGSGSTTVLGNALKD------LDYLHVNYGDVMLEIAQKEGLVEDRDSIR-KLSPDIQKEIQRKAAKNIRERSE-----ESNIIVDTHCTIKTPKGFLPGLPNWVLEELQPDMFILLEADGDEILMRRIND-TTR-TR-DME--KLKEIELHQEMNRAASMAYAVITGATVKIIENH-------DNKLEASVGEMINTLK D9PV64/1-185 --MKVVVVAGIPGSGSTTVLENTLRE------LDYLNVNYGDVMLEIAREKGLVENRDQMR-TLEPGVQKEIQRAAAKSIRERSL-----ENNIIVDTHCTIKTPAGFLPGLPVWVLEELEPDMFVLVEADPEEIFTRRISD-TSR-NR-DME--SLQEIDLHQQMNRAAAMAYATLTGATVKIVKNH-------NNQLESAVSEMKNILE P43410/1-192 MKNKLVVVTGVPGVGGTTITQKAMEKLSEE-GINYKMVNFGTVMFEVAQEENLVEDRDQMR-KLDPDTQKRIQKLAGRKIAEMVK-----ESPVVVDTHSTIKTPKGYLPGLPVWVLNELNPDIIIVVETSGDEILIRRLND-ETR-NR-DLE--TTAGIEEHQIMNRAAAMTYGVLTGATVKIIQNK-------NNLLDYAVEELISVLR T0LJG8/2-180 ----KVIIGGIPGVGKTTVLDELVK-------EGFRVENYGDAMLKEAISRDYAKNRDELR-KLPVEKQKEIQKVAADKLAQIS--------DVIIDTHFSINTKGGYLPGLPVKVLEAINPDLFISIEADPLEIFERRKND-PRR-NR-DKD--SLERIRAHLDANRSYGITYSAMTGSPFLVVMNE-------NGKVKEASAKIISVIR A0A101HFN3/1-185 --MKVVVVAGIPGSGSTTVLQHALKE------TDYVHLNYGDVMLEIAMEMELVEDRDSIR-RLPPETQKEIQRKAAETIRIRAE-----ESNTIVDTHCTIKTPSGFLPGLPKWVLEALQPDMFILIEADGDEILLRRVSD-TTR-TR-DME--RLQDINLHQEMNRATAMAYAVYTGATVKIIENH-------NDLLESSVEEMKKALK A0A090I174/1-185 --MKVVVVAGIPGSGSTTVLQHALKE------TDYVHLNYGDVMLEIAMEMELVEDRDSIR-RLPPETQKEIQRKAAETIRIRAE-----ESNTIVDTHCTIKTPSGFLPGLPKWVLEALQPDMFILIEADGDEILLRRVSD-TTR-TR-DME--RLQDINLHQEMNRATAMAYAVYTGATVKIIENH-------NDLLESSVEEMKKALK A0A135VM46/4-194 -SRNVVIVTGIPGVGKTTVINTAVEQVKEKLGETVLVLNIGTEMFEVASKAGHVKDRDELR-KLPTSIQREVQKKAGAAIAKKAE-----RGKTIVDTHTLIQTNNGFLIGLPEWVVTAINPKTVVLVEADSEKIASRRTGD-ETR-IR-DAQ--AIADIQIHQEMCRAAAVAIGTITGATVRIIKNR-------EGLVEEAASELAATL- A0A0D5C3S9/3-190 -GNKRIILVGIPGVGKTTILKKMVDILKDH-NKTVHVVSFGTLMFEVAKENG-LKDRDELR-HLPVDRQQHLQKLAAEKIAAFD------EQVVIVDTHAFINSPEGYYPGLPEHVLKIIQPTNFVSVSAKPEEIYNRRMTD-ETR-NR-DKI--TLLTINKELDIQSAMISACTVLTGSPVKHILNR-------EGKIDEAIDKIINAL- A0A087RU76/6-193 -ESKKIILVGIPGVGKTTLLSKIVDHIKGH-QKSISVVSYGTLMFEVAKQNG-LNDRDELR-KLPLAKQQELQKLAAEKIAAHT------EEIVIIDTHAFISSPEGYYPGLPEHVLKIIKPSNFVSVSAKPEEIYSRRMSD-DTR-NR-DKI--TLANVKKELDVQSGMISACAVITGSPVKYVLNR-------EGKVDEAADKIINSL- A0A087S077/6-193 -ESKKIILVGIPGVGKTTLLSKIVDHIKGH-QKSISVVSYGTLMFEVAKQNG-LNDRDELR-KLPLAKQQELQKLAAEKIAAHT------EEIVIIDTHAFISSPEGYYPGLPEHVLKIIKPSNFVSVSAKPEEIYSRRMSD-DTR-NR-DKI--TLANVKKELDVQSGMISACAVITGSPVKYVLNR-------EGKVDEAADKIINSL- A0A081RP58/6-193 -ESKKIILVGIPGVGKTTLLSKIVDHIKGH-QKSISVVSYGTLMFEVAKQNG-LNDRDELR-KLPLAKQQELQKLAAEKIAAHT------EEIVIIDTHAFISSPEGYYPGLPEHVLKIIKPSNFVSVSAKPEEIYSRRMSD-DTR-NR-DKI--TLANVKKELDVQSGMISACAVITGSPVKYVLNR-------EGKVDEAADKIINSL- F6BD75/1-192 MKNKVVVVTGVPGVGGTTLTQKTIEKLKEE-GIEYKMVNFGTVMFEVAKEEGLVEDRDQMR-KLDPDTQKRIQKLAGRKIAEMAK-----ESNVIVDTHSTVKTPKGYLAGLPIWVLEELNPDIIVIVETSSDEILMRRLGD-ATR-NR-DIE--LTSDIDEHQFMNRCAAMAYGVLTGATVKIIKNR-------DGLLDKAVEELISVLK P43408/1-192 MKNKVVVVTGVPGVGGTTLTQKTIEKLKEE-GIEYKMVNFGTVMFEVAKEEGLVEDRDQMR-KLDPDTQKRIQKLAGRKIAEMAK-----ESNVIVDTHSTVKTPKGYLAGLPIWVLEELNPDIIVIVETSSDEILMRRLGD-ATR-NR-DIE--LTSDIDEHQFMNRCAAMAYGVLTGATVKIIKNR-------DGLLDKAVEELISVLK A0A1J5J9X9/2-182 ----KIVVTGIPGTGKTTVLEKAIAKSE----KKYTHINYGNVMFDEAKSKGLVKDRDEMR-KLDPKIQKEIQKNAAKKIGKM--------ENVIIDTHASILTPNGYLPGLPEWVLKEIMPNTVVILEASSEEISKRRSKD-VSR-KR-DAE--DIEGIKEHQEMNRAIAMAYGVLTGATVKIIKNP-------DNGLEDAAKNLANIF- G4RKQ2/1-177 ---MRIILVAVPGSGKTTIMGYVRKKV-----PDVQIVNFGDVMLEISKKKYGITNRDEMRKKIPVEEYRKVQEEAAEYIASL-------PGDVLVDTHASIKMMGGYYPGLPDRVVSKLKPDAIVLIEYDSKDILERRKGD-PTR-FR-DQE--TEEEIEMHQMANRYYAFAAANAAECMVHIINFRGRPQSRPFE-------------- A0A1D2WMY5/1-185 --MKLVVLTGIPGSGSTTLLNKALEQ------VDYVHLNYGDIMTEIAINENIADNRDSLR-KLPAETQKKIQAKAAKEIKQRSE-----NDNVIVDTHCTINTPAGFLPGLPNWVLEQLQPDLFILIEANADEIIYRRLND-DTR-QR-DVQ--KAKEIQLHQEMNRATSMAYATLTGATVKIVENH-------DNHLDSSVSKLVDVLN A0A076LH61/1-192 MKNKVVVIVGVPGVGSTTVTNKAIEELKKE-GIEYKIVNFGTVMFEIAKEEGLVEHRDQLR-KLDPETQKRIQKLAGKKIAEMAK-----ESNIVVDTHSTIKTPKGYLPGLPAWVLEELNPDIIVLVEAENDEILMRRLKD-ETR-QR-DFE--STVDIGEHIFMNRCAAMTYAVLTGATVKIIKNR-------DFLLDKAVQELVEVLK A0A1G5UZG8/1-185 --MKLVVLTGIPGSGSTTILNKALEE------VDYLHLNYGDIMTELAIEEKLVEDRDALR-KLPAETQKEIQAKAAKRINEKSQ-----ENNVIVDTHCTINTPSGFLPGLPIWVLEQLQPDLFILVEANPDEIIYRRMND-DTR-SR-DVE--KAKNIQLHQEMNRAASMAYATMTGATVKIIENH-------DNHLDQTISKLVDVLK A0A0X1KIZ1/3-189 ---FVVMITGIPGVGKSTITRLALKRTA----IKFRLVNFGDLMFEEAVRQGLVKHRDEMR-RLDPTIQKQLQLSAAQRVVEMAR-----EEPILLDTHATIKTPMGYLLGFPKEVIEILRPNFIVIIEAAPSEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAITYAMHSDALIKIIENH------EDKGLEEAVNELVQVLN A6VFX9/1-192 MKNKVVVVTGVPGVGGTTVTQKAMDILSEE-GLNYKMVNFGSAMFEVANEEGLASDRDQMR-KLDPETQKRIQKMAGRKIAEMAK-----EYPVAVDTHSTVKTPKGYLPGLPAWVLTELNPDMVIVVETDGDEILMRRLSD-ESR-KR-DLE--TTASIEEHQFMNRAAAMSYGVLTGATVKIVKNK-------NGLVDNAVEELISVLR A0A117SQV8/1-187 ---MRIILVAVPGGGKTTIMNYVKKKL-----PDVQIVNFGDVMLEISRKKYGIENRDDMRRKIPVEEYRKVQEEAADRIASL-------PGDVIVDTHASIKMSGGYYPGLPDRVAARLKPDAIVLVEYDPKDVLERRRGD-PTR-FR-DVE--TEEDVEMHQMANRYYAFAAANAAECTVHILSFRGKPQSRPFEHAEMAADYIV---- A0A101F0Y1/3-189 ---FVVVITGIPGVGKSTITRLALQRTR----AKFRVVNFGDIMFQEAVKAGWVSHRDEVR-KLSLKVQRELQLKVAQRILEISQ-----KEPVLLDTHATIKTPLGYMLGFPREVIEVINPRFMVIIEANPSEILGRRLRD-LKR-DR-DVE--TEDQIQRHQDLNRAATISYAMHSNALIKIIENH------EDKGLEEAVNELVKILD A0A1F5DIC0/2-191 --GSLVIITGTPGVGKTSVLNKLAKEAEKE-KIALRIVNFGTTMNNLLESSGNNVHRDELR-KQNLGKQKAVQLEAAKLISKMKN-----HYVLVVDTHMFIRTSVGAFPGLPEYVIKELDPSMLVLIEADPEDITKRREKD-QTR-KR-DAQ--TFQDVESDLEWGRKTAAACAIMTGAPVSIINNE-------EGSPDNAVKQILDMIK A0A075LR56/3-189 ---FVVVITGIPGVGKSTITRLALKRTR----AKFRLLNFGDLMFEEAVRIGLVRHRDEMR-KLSLQTQKKLQLKAAQKIADLAK-----REPILLDTHCTIKTPLGYLLGLPRDVIETISPNFVVIIEAFPSEILGRRLRD-LKR-DR-DVE--TEEQIKRHQDLNRAAAIVYAMYSNALIKIIENH------EDKGLEEAVEELVKILD A0A1F2P3X7/1-188 --MSVIILTGIPGVGSSTVVKEALRMMGDG-SESFRPVNFGDVMFEIAEKRGLVKTRDEMR-KLNSEEQRDIQLIAAERISKM-------GGRVILDTHCTVKTPQGYLPGLPAWVLDTLKPEQIILIEADPEEIHQRRLKD-RSR-SR-DPD--PVELINEHQQVNRMIAMAYAARTGATVKFIANH-------NNGLEEAANELLKVIS D2ZQD7/1-185 --MKLVVLTGIPGSGSTTLLNKALEE------VDYVHLNYGDIMTEIAIEEKIVDDRDALR-KLSPDVQKEIQEKAAKRIKERSE-----SENVIVDTHCTINTPSGFLPGLPIWVLNELQPNLFVMIEANSDEIIYRRLND-DTR-SR-DIE--RAKDIQLHQEMNRAASMAYATLTGATVKIIENH-------DNHLPSTVSKLVDVLN H1YWP2/4-191 --GRKVVITGVPGVGKTTVINASLEALKEE-GINYTSINFGTCMFEVACEQENVHDRDEMR-RLDQDIQCSLQKTAAQVIARI-------NENVIVDTHCTVSTPSGYLAGLPAWVLNELKPDIIVLVETDEDQILKRRLSD-MSR-QR-DME--GYAAIKDHQRYNRYMAASYSMMTGCTVKIIKNL-------DYLLDNAISEMVTLLR A0A147JS17/2-191 --GKLVVVTGVPGVGKSTVVAGALENLKAE-GLVYELVNYGDVMLELMQERMGVTDRDEMR-KIPFEPYQEIQRAAAERIAAKAK-----LKPVLLDTQCSVKKPEGYLPGLPKWVLEGLQPKSIVVIEAEAKEVAARRTKD-VAR-RR-DKE--LLAEVAEHQQLNRALAMAYATFVGATVKIVKNR-------SGKLSEAVNDMVATLR A0A0Q2XLV4/3-189 ---FVVMITGIPGVGKSTITRMALRKTK----VKFRLVNFGDLMFEEAVKAGLVKHRDEMR-RLDPNVQKDLQMKAARRIVEMAE-----KEPILLDTHATIRTPVGYLLGFPKEVIEVINPNFIVIIEATPSEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAVSYAMHSNALIKIIENH------EDKGLEEAVHELVEVLN A0A0P0N356/9-201 ----TVVVTGVPGVGKTTVLGKVVEIMKNN-GEQVLVVNFGDYMFRVASEQGLVKHRDEMR-HLPLRKQLELQEMAAESIRRDAEQKLSEKGFLFIDTHAVIKTSTGYWPGLPENVVKELRPDSIVLVEAAPEIILARQQRD-KGR-VRSDIG--NVEAIKLLIEMARVAAMASAVRVAASVYLVENV-------EGDPGIAAQKIVELA- I3ZSX6/3-189 ---FVVMITGIPGVGKSTITRLALKKAR----AKFRLVNFGDIMFEEAVKAGLVKHRDEMR-KLNPNVQKDLQMKAARRIVEMAQ-----SEPILIDTHATIRTPVGYLLGFPREVIEVINPNFIVIIEATPSEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAVSYAMHSNALIKIIENH------EDKGLEEAVHELVEVLD Q6L1A3/1-180 ---MRVVIAGVAGVGKSTVLDIVSSR------SGYTVKNFGSVMLDLAISSNLVKDRDEIR-KLPVERQIELQRSASQKLGTM--------DNIIIDTHMSIKSPGGYLPGLPEWVLRELNVSSYFLIEADPKEIKKRREED-PTR-HR-DDD--TIDDIYEHQMVNRQFAISYSVFSGATVNFITNP-------TGHPELAAENIIRRL- T2GGL2/1-185 --MKVVVVAGIPGSGSTTVLENTLRD------LDYLNVNYGDVMLEIARERGLVENRDQMR-TLEPGVQKEIQRAAAKSIRERSR-----ENNIIVDTHCTIKTPAGFLPGLPVWVLEELEPDMFVLVEADPEEIFTRRISD-TSR-NR-DME--SLQEIDLHQQMNRAAAMAYATLTGATVKIVKNH-------NNQLESAVSEMKNILE A0A101ENW7/3-189 ---FVVVITGIPGVGKSTITRLALQRTR----AKFRVVNFGDIMFQEAVKAGWVSHRDEVR-KLSLKVQRELQLKVAQRILEISQ-----KEPVLLDTHATIKTPLGYMLGFPREVIEVINPRFIVIIEANPSEILGRRLRD-LKR-DR-DVE--TEDQIQRHQDLNRAATISYAMHSNALIKIIENH------EDKGLEEAVNELVKILD F4B8F5/1-195 --MKMGIVTGIPGVGKTTVLSKVSEILSLE-NRKYKIMNYGDYMLNTAISEGFVSNRDEMR-KLPLSKQRELQLIAAKKIVEDAEK-LGEDGLAFIDTHAVIRTPAGYLPGLPKHVIEILSPQVIFLLESSPEDILNRQKRD-KGR-IRSDYA--DINVINETINFARYAAMASAVLVGASVKIVINK-------EGDPSIAAKEIISSMM A3CT21/1-192 MLGKKVVVTGVPGVGKTTVINGAMERLATE-GVAYKAVNFGTFMFEVAKKENLASDRDEMR-KLEKDVQKRLQQAAATGIAAMSG-----EANIIIDTHSTVKTPTGFLAGLPEWVLRELMPDIVVLVETDPDQILMRRLGD-ASR-AR-DME--GYRAIAEHQEFNRAVSAAYAMYTGCTIKIVRNE-------NFLLEQGIDDLVSVLR N6WK53/2-181 ---GVVVVTGIPGVGKTTVMKEAAEG------LDIQFVTFGTVMTDIALEMNLVQDRDEMR-KLTLDQQKELQIKTAEKVAKM--------GNVIVDTHATVKTPKGYMPGLPEWVIKKLNPTVIVLVEADPEEIYNRRLKD-ITR-DR-DSD--SKEKIAEHQQMNRAAAMAYATLSGATVKIVFNH-------DNAIEDAVKDAAPVL- C9RES2/1-192 MKNKVVVIVGVPGVGSTTVTNKAIEELKKE-GINYEIVNFGTVMFEIAKEEGLVEHRDQLR-KLPPEEQKRIQRLAGRRIAEMAK-----TSNIVVDTHSTIKTPKGYLPGLPAWVLEELKPDIIVLVEADNDEILMRRLKD-ETR-QR-DFE--STEDIAEHMFMNRCAAMTYAVLTGATVKIIKNN-------DFLLDKAVKELVEVLK A4YCZ0/1-193 --MKLGIVTGIPGVGKTTILNTIKEILSKE-NSKFLIMNYGDYMLKTAMEMKYVSNRDEMR-KLPLNVQRQLQLEAAKNIYKDASS-LG-DGLSFLDTHAVVRTPGGYLPGLPKHIVEILQPQVIFLIESDPELILKRQEND-KTR-ARTDYS--DPAVIKETMDFARYSAMASAVLVGASVKVVKNV-------EGDPSIAAHQIIKSL- A0A088E1D6/1-193 --MKLGIVTGIPGVGKTTILNTIKEILSKE-NSKFLIMNYGDYMLKTAMEMKYVSNRDEMR-KLPLNVQRQLQLEAAKNIYKDASS-LG-DGLSFLDTHAVVRTPGGYLPGLPKHIVEILQPQVIFLIESDPELILKRQEND-KTR-ARTDYS--DPAVIKETMDFARYSAMASAVLVGASVKVVKNV-------EGDPSIAAHQIIKSL- V4K1H3/11-206 --FKVVVVTGVPGVGKTTVLSIAEKKARER-GIKLKVLNFGDFMLNKAVAEGLLKNRDEIR-RASLRQQLELQSYAAKAMVEEASRELGTDGFLIIDTHAVVRTPVGLLPGLPRHVVDELKPDAIVLIEADPREVAARQQKD-TTR-YRADFG--GEEGVKLLMEQARMAAFSSATLYGSIVTVIINR-------EGKAEDAAEELLRVLE D3S6F7/1-192 MKNKVVVIVGVPGVGSTTVTNKAIEELKKE-GIEYKIVNFGTVMFEIAKEEGLVEHRDQLR-KLPPEEQKRIQKLAGKKIAEMAK-----ESNIVVDTHSTIKTPKGYLPGLPAWVLEELNPDIIVLVEAENDEILMRRLKD-ETR-QR-DFE--STEDIGEHIFMNRCAAMTYAVLTGATVKIIKNR-------DFLLDKAVKELIEVLK A0A162FK61/1-184 --MKLIVLTGIPGSGSTTVLSKALEE------VDFLHLNYGDIMIELSREEGLAEDRDDLR-KLSPEIQKDIQKIAAARIKEQSL-----SQNVIVDTHCTISTSAGFLPGLPSWVLEELNPDTFIIVEADPDEIILRRISD-ETR-NR-DSQ--RASDINLHQEINRATAMAYATLTGATVKILENH-------NGELDKVVPMLVETL- A0A166FK15/1-185 --MKLVILTGIPGSGSTTVLEKTLEE------VDYLHLNYGDVMTKIAKDKSIVKDRDDLR-KLSPEIQKNIQKEAAKHIKDVSQ-----NENVIVDTHCTISTPLGFLPGLPKWVLDELNPDTFILIEADPDEIILRRISD-ISR-TR-DME--KYDEIRLHQEINRSTAMSYSTLTGATVKILENH-------DDQLDIIVDNLVATLK A0A109V759/9-204 --FKVVIVTGVPGVGKTTVLSLAQRKANER-GLKLKVLNFGDYMLENAVKKGLLSNRDQIR-YLSFRGQLELQAAAATAMVEEAGRELSERDFLMVDTHAVVKTPLGYLPGLPSHVITILKPDMIVLVEADPKEIAARQQRD-STR-YRSDFG--GEEGVREIIEMSRYAAIASAVEVGSLVTIIRNA-------EGKAGEAAEQLINMIS E3GZE3/1-185 --MKTVVITGVPGSGTTTVLKNALKN------LNYVNVNYGDVMLEIAKEKKLVEDRDQIR-KLPSDIQREIQKEAARKIRKIAE-----KENVIVDTHCTIKTPTGFLPGLPKWVLDELNPQLFILVEADPEEILVRRIND-KSR-SR-DME--KINEIKLHQEMNRAAAMAYAVLTGASVKIIENH-------DEKLDEAVNELVNILE T0NFW2/2-180 ----RAVISGIPGVGKSTILTMVSKK------SQYEIINFGSLMFDMAKELDLVKTRDDIR-KLEVDTQRNLQKATSNKLGKM--------DNIIIDTHMSIKSPAGYLPGLPAWVLTELMVSSYFLIESTPEEIMRRREND-PTR-SR-DED--TLKDIDEHQQVNRYYAVAYSVYSGATIKYIYNP-------DNHPEIAAENILMGL- C5A261/3-189 ---FVVMITGIPGVGKSTITRLALKRTA----INFRLVNFGDLMFEEAVKQGLVKHRDEMR-KLDPMVQKQLQLRAAQRIVEIAR-----DEPVLLDTHATIRTPMGYLLGFPKEVIETIRPNFIVIIEATPSEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAISYAMHSDALIKIIENH------EDKGLEEAVNELVQVLN A0A0F2L8P7/1-186 ---MRIILVAVPGSGKTTIMNFVKKKL-----PDVQIVNYGDVMLEIARKKFGIENRDEMRKKIPVEEYRKVQEEAAEYIASL-------PGDVIVDTHASIKMQGGYYPGLPDRIAARLRPDAIVLVEYDPKDILERRRGD-PTR-FR-DSE--TEEEIDLHQMANRYYAFAAANAAECPVYILSFRGRPQTRPFEHSEIAAEFI----- K0IH82/4-191 -NNKRAVIVGIPGVGKTTVITRAAEMLNEK--RKTTVVVFGTVMFEEAKKMG-LKSRDEMR-RMPVEEQRRLQEMAAQRIAEMR------DSIVLIDTHLFINTAEGYYPGLPMRLLNIMKPTNMIMVAADANEIAERRRTD-QTR-QR-DIA--SAENIQKELDISRVMVSSCSILTGAPFAIIMNN-------DGQVDEAAANIAKILL W0I5E3/3-189 ---FVVMITGIPGVGKSTITRLALKRTR----AKFRLVNFGDLMFEEAVKLGWVKHRDEMR-RLDLSKQRILQQKAAEKIAEIAK-----KEPVLLDTHATIRTPLGYLLGFPRKVIETINPNFIVIIEATPSEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAISYAIHSNALIKIIENH------EDKGLEEAVNELVKILD A0A0W8FHM8/2-191 --GKKVVVTGVPGVGKTTVVTGALEQLMDE-GITYTSINFGTFMYEVAVREKIVENRDEMR-KLDRTIQKRLQKEAAAGIAAASG-----TMNVIIDTHSSVKTPAGYLAGLPEWVLRELMPDVIVLVETDEDQILQRRLGD-ESR-VR-DME--GARSIAEHQQFNRSLAAAYAMLTGCTVKIVRNE-------DFLLDRAVREMADILR U3T9E3/5-200 --FRVVVVTGVPGVGKTTVIREVQRLAEKE-GVRLHVVNFGSFMLDTAVKLGLVEDRDKIR-TLPLRSQLELQREAAKRIVDEASKTLGGDGVLIVDTHALVKTVAGYWPGLPKHVLDELKPDMIAVVEASPEEVAARQARD-TTR-YRVDIG--GVEGVRRLMENARAASIASAIQYASTVAIIENR-------EGQASKAAEDLLKLIK V4JXU4/11-206 --FKVVVVTGVPGVGKTTVLSIAEKKARER-GIKLKVLNFGDFMLNKAVAEGLLKNRDEIR-RASLRQQLELQSYAAKAMVEEASRDLGSDGFLIVDTHAVVRTPVGLLPGLPKHVVDELKPDAIVLIEADPKEVAARQQKD-TTR-YRADFG--GEEGVKLLMEQARMAAFSSATLYGSIVTTIINR-------EGKAEEAAEELLRVLE A0A1G8ZKH2/27-216 --GKKVVVTGVPGVGKTTVINGAMERLAAE-GIPYKAVNFGTCMFEVAMKENLVSNRDEMR-KLGKDVQKRLQQAAASEIAAMSG-----DSNIIIDTHSSVKTPGGFLAGLPEWVLRELMPDMIVLVETDPDQILTRRLGD-ASR-IR-DME--GFREIAEHQEFNRAISAAYAMYTGCTIKIVRNE-------NFLLEKGIDDLVSALR A0A101DRA7/1-184 --MKVVVVAGIPGSGSTTVLEHALED------LDYINVNYGDVMLEIAQSKGLVEDRDQLR-RLSPEKQKKIQKAAAKNIRERSE-----ETNIIVDTHCTIKTPTGFLPGLPQWVLEELQPNMFVLIEADPEEIFMRRISD-KTR-TR-DME--MLKEIDLHQQMNRAAAMAYATLTGATVKIIENH-------NNRLENAVQEMKKIL- A0A1J5TBM3/1-177 --MSIVIVTGVPGVGKSTVMNAAKD-------FGYNIVNFGTTMFEEAQKEG-VSNRDDLR-KLPVDVQKRLQKQAGEKIGQM--------DNVIVDTHASILTPSGYLPGLPEWTVKAIMPNTIVLVEALPEEIENRRSKD-TSR-AR-DKD-----DIGLHQRINREYAIAAAFMTGATVGFVPNN-------DNKIEIAVEKFKKILN A0A133VDH4/1-173 -------------------MDKALEKLREE-GQDYQLLNYGDLMLEIAKEEKGVKDRDKMK-NIKLETYRDIQKEAADSIAEVRK-----EIPVLVDTHCTIKKPEGYYPGLPQWVLERLQPEEILIIEALPKEIAGRREKD-ASR-KR-KKE--LGEAIAEHQELNRAIATSYAMMVGAGVRIIKNR-------EGKIGEAVQKVVEALK I7L024/2-191 --GKKVVVTGVPGVGKTTVINGAMERLAAE-GIAYKAVNFGTCMFDVACKENLVSDRDEMR-KLGKDDQKRLQQAAASEIAAMSA-----DANIIIDTHSSVSTPAGFLAGLPEWVLRKLMPDVVVLVETDPDQILMRRLGD-ESR-VR-DME--GARAIAGHQEFNRAIAAAYAMYTGCTVKIVGNE-------NFLLERAIDDLVNVLR G0QBX7/2-188 --GEVTVVVGISGVGKSTVMEEALLLSE----ADPMVVNYGTRMVELSQERDLVDHRDELQ-SLGADTYIDVQMEAARSIVEDAET----EDSVLVDTHAAIKNPEGYLPGLPKWTLENLEPDTIVIVDATAKEIHNRIESD--ER-DR-EVA--SVEEIEEYRDVMREMASACAVMTGAHLNIIENH-------DGCAEQAAEELVGVID A0A161K9V3/3-189 ---FVVIITGIPGVGKSTITRLALQRTR----AKFRLVNFGDLMFEEAVRAGLVKHRDEMR-KLPLPVQRELQKKVAETIVEMAK-----KEPILIDTHATIKTPHGYLLGLPYDVIRTLNPNFIVIIEATPAEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAIAYAMHSNALIKIIENH------EDKGLEEAVNELVKILD Q975K4/1-193 --MKIGIVTGIPGVGKTTVLSKVKEILEEK-KINNKIVNYGDYMLMTAMKLGYVNNRDEMR-KLPVEKQKQLQIEAARGIANEAKE--GGDGLLFIDTHAVIRTPSGYLPGLPKYVIEEINPRVIFLLEADPKVILDRQKRD-TSR-SRSDYS--DERIISETINFARYAAMASAVLVGATVKIVINV-------EGDPAVAANEIINSM- F6D7J3/1-185 --MKLVVVAGIPGSGSTTVLTKALED------LDYLHINYGDVMLEIAKKDGLVDDRDAMR-KLAPQVQKEIQKNAAKSIKERSK-----QSNIIVDTHCTIKTPKGFLPGLPKWVLDELQPDMFVLLEADGDEILMRRIKD-TTR-IR-DME--KLMDIKLHQEMNRAASMAYAVLTGATVNIIKNH-------DNKLEESVEEMINTLK A0A0U3H6K9/2-189 --SFVVVITGIPGVGKSTITKLALKRTR----AKFRVVNFGDIMFEEALKAKLVTHRDEMR-KLSLRVQRELQLKAAQRILEISR-----EEPVLLDTHATIKTPLGYMLGFPKEVIEIINPRFVVIIEATPSEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAISYAMHSNALIKIIENH------EDKGLEEAVNELVKILD A0A165ZLW7/1-185 --MKLAVLTGIPGSGSTTLLNRALEE------VDYVHLNYGDIMTEIAIEEKIVDDRDSLR-KLPAETQKEIQAKAAKRIKERSQ-----RDNVIVDTHCTINTPSGFLPGLPIWVLEQLQPDLFVLIEANPDEIIYRRLND-ETR-SR-DVQ--KANEIKLHQEMNRAASMAYATLTGATVKIVENH-------DNHLDSSVSKLVNVLK A0A162FBX4/1-185 --MKLVVITGIPGSGSTTVLNKTLEE------VDFIHINYGDMMIEIAKKKDIANHRDDLR-KLSPDVQKIIQKEAAKKIKEKSE-----SENVIVDTHCTISTPSGFLPGLPKWILEELNPSNFVIIEAYPDEIMLRRISD-ETR-NR-DAD--RVKEIDLHQEINRSTAMAYATLTGATVKILENH-------DGELDKIVSQLVEVLN A0A117MIC0/27-216 --GKKVVVTGVPGVGKTTVINGAMERLAAQ-GVSYTAVNFGTFMFDVAQKENLVSNRDEMR-KLGKDAQKRLQQAAASGIAAMSG-----DANIIIDTHSSVKTPTGFLAGLPEWVLRELMPDMVVLVETDPDQILMRRLGD-DSR-VR-DME--GARAITEHQEFNRAVAAAYAMYTGCTIKIVRNE-------NFLLERGIDDLVGVLR B5IBH6/2-180 ----RVVAAGVPGVGKTSILNEVAKR------ARYPIVNYGTLMFEMAQAEGLVNDRDEMR-KLPVSTQRDLQRRAAEKIAKM--------NDVIVDTHLTIKTPAGYFPGLPKWVLDAMKPEMIVVIEASAAEIFERRKRD-ETR-KR-DFE--GIEDIEEHLKVNRYTAFACSIYTGATVLILKNN-------EGELEKAVDRFMGAL- T0LUP3/1-180 ---MRVVIAGVAGVGKSTVLKSVEKL------TSYDIINFGTLMFEMAKEIKLVDSRDEIR-KLSVDTQINLQKKAASAIGKI--------EDVIIDTHMAIKGPRGFLPGLPEWVIRELKVSAFFLLEAEPEEIRKRRNND-PSR-TR-DEE--TIEDITTHQSVNRSFAVSYSVYTGATVSFINNL-------PGLADQVAEKIVERL- H0AER5/2-185 ---SLNIVVGLSGVGKGTVLEEAMLLSD----QEYEIVNYGDKMMETAEYHG-VESRDEMK-ELDVETYKEIQREAAERIFEIAE-----EKDVIVDTHAAIQSPHGYIPGLPKWSIEEMAPEKIIMLTAKPKEVWDR-VKD-DDR-DR-EHD--SPSSIAEYQHIAREMASAGSVLTGAYLKIIENP-------DGKAEQAAEELVKTLK P35028/1-194 --MKIGIVTGIPGVGKSTVLAKVKEILDNQ-GINNKIINYGDFMLATALKLGYAKDRDEMR-KLSVEKQKKLQIDAAKGIAEEARA--GGEGYLFIDTHAVIRTPSGYLPGLPSYVITEINPSVIFLLEADPKIILSRQKRD-TTR-NRNDYS--DESVILETINFARYAATASAVLAGSTVKVIVNV-------EGDPSIAANEIIRSMK A0A0U3GNI1/1-194 --MKIGIVTGIPGVGKSTVLAKVKEILDNQ-GINNKIINYGDFMLATALKLGYAKDRDEMR-KLSVEKQKKLQIDAAKGIAEEARA--GGEGYLFIDTHAVIRTPSGYLPGLPSYVITEINPSVIFLLEADPKIILSRQKRD-TTR-NRNDYS--DESVILETINFARYAATASAVLAGSTVKVIVNV-------EGDPSIAANEIIRSMK M1IW99/1-194 --MKIGIVTGIPGVGKSTVLAKVKEILDNQ-GINNKIINYGDFMLATALKLGYAKDRDEMR-KLSVEKQKKLQIDAAKGIAEEARA--GGEGYLFIDTHAVIRTPSGYLPGLPSYVITEINPSVIFLLEADPKIILSRQKRD-TTR-NRNDYS--DESVILETINFARYAATASAVLAGSTVKVIVNV-------EGDPSIAANEIIRSMK M1IT72/1-194 --MKIGIVTGIPGVGKSTVLAKVKEILDNQ-GINNKIINYGDFMLATALKLGYAKDRDEMR-KLSVEKQKKLQIDAAKGIAEEARA--GGEGYLFIDTHAVIRTPSGYLPGLPSYVITEINPSVIFLLEADPKIILSRQKRD-TTR-NRNDYS--DESVILETINFARYAATASAVLAGSTVKVIVNV-------EGDPSIAANEIIRSMK B1YCY5/2-190 ----KIVLVALSGSGKSTIMNLVKQKL-----GDVQIVNYGDVMLEIAKQKFGIQHRDEMRKKIPIAEYRKIQEEAAEYIASL-------PGDVIVDTHASIKIAGGYYPGLPDRVISKLKPDVILLIEYDPKDIIERRKKD-PQR-FR-DQE--TEEEIEMHQQANRYYAFAAANAGESAVHILNFRGKPQSRPFEHAEMAAEYIVNLI- A2SPM6/1-190 MSGKKVIITGVPGVGKTTVINAAFDKITAE-GVKYQNLNFGSFMFEVAQADGLVTDRDQMR-KLDRIAQKRLQKTAAEKIAAI-------DGNVIVDTHASVKTPNGYLAGLPEWVVSAIMPDVIVLVETDNDQILVRRLSD-ETR-VR-DVE--GSKSIAEHQEMNRAFAAAYSMLTGCTVKIITNA-------DFLLDKAVDDLVATLR F8AFW7/3-189 ---FVVIITGIPGVGKSTITRLALKKTR----AKFKLINFGDVMFEEAVKAGLVKHRDEMR-RLPLEVQRELQHRAAEKIAEMAK-----KEPILLDTHATIKTPHGYLLGLPYDVIRTLNPNFIVIIEATPAEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAIAYAMHSNALIKIIENH------EDKGLEEAVNELVKILD A0A0W8F3B5/1-190 MKGRSVIITGVPGVGKTTVVNGALKRLENE-GISYKTLNFGTFMFEVAQKEGIVADRDEMR-KLDRDVQKRLQKLAAQEMAQQ-------EGNVLIDTHASVKTPKGYLAGLPEWVLAELMPDTIVLVETDEDQILLRRLSD-ETR-TR-DRE--GSYAIGEHQQFNRAIAAAYSMMTGCTVRYITNA-------DLLLDKAVEDMVSVLR A0A1C8ZRW3/1-193 --MKVGIVTGIPGVGKTTVLSLVDKILIEK-EIPHKIVNYGDYMLNTGIKEGYVKSRDEIR-KLPLDKQKELQTLAAKRINEDLSK-I--NGIGLVDTHAVIRTPAGYLPGLPKHVVEVLSPNVIFLIEADPKIILERQKRD-STR-SRVDYS--DINVISEVINFARYAAVASAVLVGASVKVVNNL-------EGDPSVAANEIISTLM A0A0D5ZDQ5/1-181 ---MRVVISGVAGVGKSTVLDLVKKG------TNYDIINFGTLMFEMAKDIGLVENRDGLR-KLSVDTQINLQKKASAAIGKM--------DSVIIDTHMSIKSHGGYLPGLPEWVIRELKVGAYFVIEADPSLVLSRRATD-STR-DR-DAA--TENDIRMDQEINRYYAAAYSVFTGATVNIIENP-------EGKPNIAANTIISRLR A1RV56/2-190 ----KIVLVALPGSGKTTIMNFVKQKL-----PDVQIVNYGDVMLEIAKKRFGIQHRDEMRKKIPIDEYRKVQEEAAEYIASL-------AGDVIIDTHASIKISGGYYPGLPDRVITKLKPDVILLIEYDPKDIIERRKKD-PER-FR-DVE--TEEEVEMHQLANRYYAFAAANAGESAVHILSFRGKPQSRPFEHAEIAAEYIVNLI- K0BB29/3-190 -ESKKIVMVGIPGVGKTTLLSKIVEHIKDH-QKSIQVISFGTLMFEVAKENG-IKDRDELR-RLSIPRQQELQKIAAEKIASQT------EEVVIIDTHAFISSPEGYYPGLPEHVLKIIKPSNFISVSAKPEEIYSRRMTD-ETR-NR-DKN--TIENVKKELDVQSGMISACAVITGSPVKHVLNR-------EGKVDEAADKIIQSL- A0A151DWC8/2-181 ---GVIVVTGIPGVGKTTVMKKAAEG------MDIKFVTFGTVMADLAIEMKLVKDRDEMR-KLTLEQQKELQIKSAEKIASM--------GNVILDTHCTVKTPKGYMPGLPEWVIKRLNPTAIVVVEADSEEIFNRRAND-PSR-NR-DPD--TEDQITEHQMMNRAAAMAYAALSGATVKIVFNH-------DDAIDAAVKQAAPVL- U6EAM3/1-185 --MKVVVVAGIPGSGSTTVLQHALKE------TDYVHLNYGDVMLEIAMEMGLVDDRDSIR-RLPPETQKEIQRKAAETIRTRAE-----ESNTIVDTHCTIKTPSGFLPGLPKWVLEALQPDMFILIEADADEILMRRISD-ATR-TR-DME--RAEDINLHQEMNRATAMAYAVYTGATVKIIENH-------NDLLENSVEEMKKVLN C7P7F9/1-192 MKNKVVVIVGVPGVGSTTVTNKAIEELKKE-GIEYKIVNFGTVMFEIAKEEGLVEHRDQLR-KLPPEEQKRIQKLAGKKIAEMAK-----ETNIVVDTHSTIKTPKGYLPGLPAWVLEELKPDIIVLVEAENDEILMRRLKD-ETR-QR-DFE--STGDIAEHIFMNRCAAMTYAVLTGATVKIIKNR-------DFLLDKAVQELVEVLK B7R319/3-189 ---FVVMITGIPGVGKSTITRLALKRTA----IRFRLVNFGDLMFEEAVKQGLVEHRDEMR-KLDPMVQKQLQLRAAQRIVEIAR-----DEPVLLDTHATIRTPMGYLLGFPKEVIETIRPNFIVIIEATPSEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAISYAMHSDALIKIIENH------EDKGLEEAVNELVQVLN A0A0K1E1E9/2-190 ----KIVLVALSGSGKTTIMNFVRQRL-----PDVQIVNYGDVMLEIAKRKFGIQHRDEMRKKIPVDEYRKIQEEAAEYIASL-------PGDVIVDTHASIKIMGGYYPGLPDRVISRLKPDVILLLEYDPRDIVERRKKD-PDR-FR-DVE--TEEEIDMHQQANRYYAFAAANAGESTVHILNFRGKPQSRPFEHAEMAAEYIANLI- H2C6H9/1-195 --MKLGIVTGIPGVGKTTVLNTISSILSGK-GSKFLIMNYGDYMLKTALELRYVSSRDEMR-KLPLELQRNLQLEAARNIHKDASS-LGEGGLAFLDTHAVIRTPGGYLPGLPKHIVEILQPTVIFLIESEPELILKRQASD-KTR-ARTDYA--DITVIQETMNFARYSAMASAVLVGASVKVVKNV-------EGDPSVAANEIIKSMT A0A1D2X1H7/1-185 --MNIVVLAGIPGTGSTTVLNKVLEK------VDYVNINYGNVMFDIASEKGLVETRDDMR-KLNPNIQKDVQKQAAERIHEMAQ-----NDDVIIDTHCTIKTPKGFLPGLPQWVLEELQPTQFILIEAKPSEIMYRRMTD-DSR-VR-DME--YTDEIDLHQRMSRATAMSYAVLTGCTVAMVQNN-------DDGLDKAVSEIVDILS A0A1F9YP60/1-181 --MSIIVVTGIPGVGKTTVMKKAAEG------MEIDFVTFGTVMSDIAIEQGLVKDRDEMR-KLTLKQQKDLQIKSAEKIARM--------KNVILDTHCTIKTPKGYMPGLPEWVIKKLMPTAIVVVEADPKEIFDRRAND-PTR-NR-DPD--TVEQINEHQMINRAAAMAYAALSGATVKIVFNH-------DNAIEEAVKQASPVL- M7T8N0/2-181 ---GVVVVTGIPGVGKTTVMKKAAEG------IDIQFVTFGTVMIDIAKEMGLVKDRDEMR-RLSLDQQKKLQIKTAEKIAGM--------KNVIVDTHCTIKTPKGYLPGLPEWVVKKLNPMAIVVVEADPEEIYNRRIKD-ATR-NR-DPD--SKEKIDEHQQINRAAAMAYAALTGATVKIVFNH-------DDDIDGAVKEAAPVL- J1L0C3/1-190 MAGKRVIITGVPGVGKTTVIEESMKRLAEE-NVPYRAINFGSCMFETAKSEGFAEDRDQMR-NLDRDVQKDLQKLAARRIGAM-------EGNIIIDTHASVKTPAGYLPGLPAWVLTEIHPDTVVLVETDEDQILMRRMGD-ESR-RR-DAE--GCRSIAEHQAFNRAFAASYAMMTGCTVHIVRNE-------NFLLDHAIDALVAVLR A0A151ED78/2-181 ---GVIVVTGLPGVGKTTVMKKAAEG------MDIKFVTFGTVMADIAIETELVKDRDEMR-KLNLEQQKKLQIKSAEKVASM--------GNVILDTHCTVKTPKGYMPGLPEWVIKKLNPTSIVVVEADSKEIYNRRAND-PSR-NR-DPD--TIEQISEHQMINRAAAMAYAALSGATVKIVFNH-------DNAIDAAVKQAAPVL- F4G1N8/1-194 --MKLGIVTGIPGVGKTTVLNTIKEILYKE-NIKFLIMNYGDYMLKTAIEMKYVKNRDEMR-KLPLNIQRELQLEAAKNIHKDASS-LS-EGLSFLDTHAVIRTPGGYLPGLPKHIIEILQPQVIFLIESEPELILKRQEAD-KTR-ARSDYS--DPNVIKETMDFARLAAMSSAVLVGASVKVIKNI-------EGDPSIAATQIIRSLM A0A0Q1FC79/1-190 MTDRRVIITGVPGVGKTTVVNGALKILEDE-GITYKSLNFGTYMFEVARKDGIVKDRDEMR-RLDRDVQKELQRAAAKAMAME-------KGNILIDTHASVKTPRGYLAGLPEWVLRELMPDTIVLVETDEDQILLRRLTD-ETR-SR-DME--GSAGIGQHQQFNRSIAASYAMITGATIKIVVNA-------DFLLDKAAEDLAQTLR H1KXW6/1-192 MRNKVVVITGVPGVGGTTLTQKTIEKLKEE-GVKYRMVNFGTIMFEVAKEEGLVEDRDQMR-KLDPDTQKRIQKLAGRKIADMAK-----ESNIIVDTHSTVKTPKGYLAGLPIWVLEELNPDVIVVVETSSDEILMRRLGD-ATR-NR-DIE--LTSDIDEHQFMNRCAAMAYGVLTGATIKIIKNK-------NGLLDKAVDELISVLK A0A109UUP2/1-185 --MKLVVLTGIPGSGSTTLLKKALEE------VDYVHLNYGDIMTEIAIKEGLVEDRDSLR-KLPAETQKEIQAKAAKEIKERSE-----NDNVIVDTHCTINTPAGFLPGLPIWVLEQLQPDLFILIEANPDEIIYRRLND-ETR-QR-DVQ--KAKDIKLHQEMNRATSMAYATLTGATVKIVENH-------DNHLNSSVSKLVNVLN A0A101X8R0/1-186 ---MRIILVAVPGGGKTTIMNYVKKKL-----PDVQIVNFGDVMLEISRKKYGIENRDDMRKKIPVEEYRKVQEEAADRIASL-------PGDVIVDTHASIKMSGGYYPGLPDRVAARLKPDAIVLVEYDPKDVLERRRGD-PTR-FR-DVE--TEEDVEMHQMANRYYAFAAANAAECTVHILSFRGKPQSRPFEHAEMAADYI----- Q2NFY1/1-185 --MNIVVLAGIPGTGSTTVLNKVLEE------VDYVNINYGNVMFDIASEKGLVESRDDMR-KLDPEIQKEVQKQAAERIHDMAQ-----NDNVIIDTHCTIKTPKGFLPGLPKWVLEELQPTQFILIEAEPSEIMYRRMTD-DTR-KR-DME--YADEIDLHQAMSRATAMSYAVLTGCTVAMVQNN-------DDGLDKAVAEIVEILS A0A1D2W763/1-185 --MNIVVLAGIPGTGSTTVLNKVLEE------VDYVNINYGNVMFDIASEKGLVESRDDMR-KLDPEIQKEVQKQAAERIHDMAQ-----NDNVIIDTHCTIKTPKGFLPGLPKWVLEELQPTQFILIEAEPSEIMYRRMTD-DTR-KR-DME--YADEIDLHQAMSRATAMSYAVLTGCTVAMVQNN-------DDGLDKAVAEIVEILS A0A1D2R6M1/2-182 ----RAVLTGVPGTGKTTVLRRATEKGGD---KKYEIVNYGDVMFKEAKSRGLADDRDDMR-KLNSGVQKDIQKNAAEKIGAM--------EDVIVDTHCTVLTPKGYLPGLPQWVLKALNPDLIVLVEAKPEEIAWRRRND-STR-IR-KAD---PEEVKSHQEMNRAAAISYAVLTGATVKIIMNA-------NNKLDEAASELRGVL- A0A151E3Y9/2-181 ---GVIVVTGIPGVGKTTVMQKAAEG------MDISFVTFGSVMIDIAKELKLVKDRDEMR-KLSLEQQKQLQIKTAGKVGKM--------KNVIVDTHCTVKTPKGYMPGLPEWVLKELQPTAIVIVEADPQEIYNRRAKD-TTR-DR-DPD--TVEKIMEHQMMNRAAAMSYATLTGATVKIVYNH-------DNALDVAVKEAEPVI- B8GKF7/4-190 ---RKIIITGVPGVGKTTVINESILRLKEE-GIDYQSISFGSFMFEMAVSKGLVKDRDEMR-KLSRDDQKHLQQLAAAAIGKI-------NGDVIIDTHASVKTPKGYLAGLPEWVLRELKPDVFVIVETDEDQILIRRLSD-ITR-VR-DVD--GFRALSEHQEFNRAIAASYAMVTGCTVKIIQNP-------DHLLERAVTDMVNLLR A0A031LP16/1-195 --MKIGIVTGIPGVGKTTVLSKVSEILKEN-KVRFKIMNYGDYMLNSALQGQYVSNRDEMR-KLPLSTQRELQLIAAKKIVEESIT-LGEEGIAFVDTHAIIKTPSGYLPGLPRHIVEILSPRVIFLLESDPQNIINRQSKD-RER-IRSDYN--DINVISETMDFARYAAVASAVLVGASVKVVNNR-------EGDPSIAAKEIISSMS F0TB99/1-185 --MKLVVLAGIPGSGSTTVLTKSLEQ------LDFVHVNYGDVMLEIAKAKNLVEDRDSLR-KLSPELQKEVQREAAQTIRAKSE-----QSNIIVDTHCTINTPSGFLPGLPKWVLEQLMPNMFVLLEADGDEILKRRISD-TTR-AR-DSE--NLKDINLHQEMNRAASMAYAVLTGATVKIIENH-------DNKLDESVEEMVKTLK M7TB48/2-181 ---GVIIVTGIPGVGKTTVMKKATEG------MDIQFVTFGTIMADIAEKKGLVKNRDKMR-KLSLEQQKDLQIKSAEKIASM--------GNVILDTHCTIKTPQGYMPGLPEWVIKKLQPQTIVIVEADPEEIWQRRTKD-ITR-NR-DLD--TKDEIAEHQQVNRAIAMAYASLSGATVKIVFNH-------DNAIDEAVKQAAPVL- A0A087S7Z1/6-193 -ESKKIILVGIPGVGKTTLLSKIVDHIKDH-QKSIRVVSYGTLMFEVAKQNS-LNDRDELR-KLPLAKQQELQKLAAEKIAAHT------EEIVIIDTHAFISSPEGYYPGLPEHVLKIVKPSNFVSVSAKPEEIYSRRMSD-DTR-NR-DKI--TLANVKKELDVQSGMISACAVITGSPVKYVLNR-------EGKVDEAADKIINSL- A0A142CW91/3-189 ---FVVVITGIPGVGKSTITKLALKKTR----AKFRLVNFGDLMFEEAVNMGLVKHRDEMR-KLDPLTQKELQLKVAQRIVEIAR-----TEPVLLDTHATIRTPAGYLLGFPREVIEILNPNFIVIIEAAPSEILGRRLRD-LKR-DR-DVE--TEEQIARHQDLNRAAAVAYAMHSNALIKIIENH------EDKGLEEAVNELVKVLD A0A117LUN9/1-190 MAGKKIIITGVPGVGKTTVINQAMEILTTE-GISYQNINFGSFMFEVAQSEGLAEDRDQMR-RLDRTVQKRLQKLAAEKVAAI-------DGNVIIDTHASVKTPAGYLAGLPEWVLTALMPDTIVLVETDDDQILLRRLSD-ASR-VR-DME--GAGSIREHQQMNRSFATAYAMLTGCTVAIVTNA-------DHLLEQGVKDLVAVLK A0A101IYR7/1-190 MAGKKIIITGVPGVGKTTVINQAMEILTTE-GISYQNINFGSFMFEVAQSEGLAEDRDQMR-RLDRTVQKRLQKLAAEKVAAI-------DGNVIIDTHASVKTPAGYLAGLPEWVLTALMPDTIVLVETDDDQILLRRLSD-ASR-VR-DME--GAGSIREHQQMNRSFATAYAMLTGCTVAIVTNA-------DHLLEQGVKDLVAVLK H6Q6U8/2-187 ----KVVLVAVPGSGKTTIMNYVRQKL-----PDVKIVNYGDVMLEISKKKFGIQHRDEMRKKIPIEEYRKIQEEAAEYIASL-------PGDVLIDTHASIKIGGGYYPGLPDRVVSKLKPDVILLVEYDPKDILERRKKD-PDR-FR-DEE--SPEDIEMHQQANRYYAFAAANASESTVHVLSFRGKAESRPYEHAEIAAEYIV---- G7VDS8/2-190 ----KIVVVALPGSGKTTIMNFIRQRL-----PDVKIVNYGDVMFEIAKQRFGIQHRDEMRKKIPVEEYRKIQEEAAEYIASL-------PGDVLIDTHASIKIGGGYYPGLPDRIISKLKPDVILLIEYDPKVILERRRKD-PGR-FR-DVE--SEEEIEMQQQANRLFAFAAANAGESTVHVLSFRGRPESRPFEHAEAAADYIANLI- A0A127BB58/3-189 ---FVVIITGIPGVGKSTITRLALQRTR----AKFKLVNFGDLMFEEAVRAGLVKHRDEMR-KLPLSVQRELQKKVAEKIVEMAK-----KEPILIDTHATIKTPHGYLLGLPYDVIRTLNPNFIVIIEATPAEILGRRLRD-LKR-DR-DVE--TEEQIQRHQDLNRAAAIAYAMHSNALIKIIENH------EDKGLEEAVNELVKILD A0A135VCR2/4-195 -TRNVVIVTGIPGVGKTTVIDTAVEMVKSQHGEEVRILNIGTEMLEVAVEKGLIKDRDELR-KMPTARQREVQRLAGESIARKAK-----TARIIVDTHTLIQTKNGFLIGLPEWVAKPLQPKTVVLVEADPEKIASRRSSD-ETR-TR-DEQ--IVDEIDTHQRMCRAAAVSVGTITGATVRVIKNR-------EGKVEEAATELASTLM I0A0H9/7-203 --FKTIIVTGVPGVGKTTVLNELKLEASKK-SIYIKVLNFGDYMFFEAQKSKLVNNRDELR-KLPHRVQLQLQEVAARKIIDEANVSLKANDVLIIDTHAVVKTKTGFWPGLPQHVITQLYPDSIVLIEAEPREIIDRQAKD-TTR-ERKDISGKGIQDLVELMNMARIAAMSSATLVGASVFIVENP-------QGKANEAAQKILELA- R9SLW1/2-184 ---TLVVLTGIPGSGSTTILNKTLEK------VDYLHLNYGDVMTQIALDEGIVENRDQLR-KLSPDTQKEIQKLAAAKISEQAQ-----DGNVIVDTHCTISTPKGFLPGLPKWVLEELNPDLFILIEADPDEIIYRRLND-DSR-ER-DIE--KAKDIQLHQEMNRAASMAYATLTGATVKIIKNH-------DNHLPSTIKKMVNLL- O27699/5-180 --PRTVAVVGVPGTGKTTVCRILSGM------VRHTYINYGELMLRVAGEWNLAETLEDLF-KLPMDQQHLIWLEAAHRIRRL--------DYVLMDLHGLDRSPLGYLISLP---VDIISPDIIVILESDPQSILWRRMAD--SK-MR-VRE--SLESLREHMEMLRTSMFVCSAVLGSVVSIVENH-------D--PEEAALDILGIIE T1DIC7/2-180 ----RSIISGVAGVGKSTILYLVEKG------TNYDIINFGTLMYEMARDIGLIAHRDELR-KLNVDTQINLQKKASNAIGQM--------DEVIVDTHMSIRSPKGYIPGLPEWVLRELKINSYFVIESDYKEIKKRRASD-SNR-FR-DEE--SEDDIKLHQELNRYFVAAYAIYSAATVNFVNNV-------QDAPEVAANEIIRKL- X1G3S1/2-188 ---TLVVVTGLPGAGSSTVIKEAREL-KKE-GVAFTPLNYGDVMFEAAREEGFVEKRDELR-KLPGEKQRGIQMLACNKISKMKK-----SMNLLIDTHCTIKTPLGYLPGLPEYVLRELKPDLFVLIEANPAEIFERRQRD-KTR-ER-DVE--DEKGIEEHQFMNRAMSMAYACLTGASVKIIENH-------DGELGKAAEVFFALM- #=GC scorecons 0013456567678685686543535321110134534587954956483435364588568077444375468338744844321000003435569884475673976688934764474843655686464585387348035803908350033337345534684474656544665756638400000005434537545543462 #=GC scorecons_70 ______*__****_*__**___________________***__*___*_____*__**_**_**____*__**__**__*_______________****__*_**_**_****__*___*_*_____***____*__**__*___*__*_*________*_______*__*_*_*___**_*_**_*______________*_______*_ #=GC scorecons_80 _________*_**_*__*____________________***__*___*________**__*__*____*___*__*___*________________***__*__*_**__***__*_____*______*_____*__**__*___*__*_*________*_______*__*__________*____*______________*_________ #=GC scorecons_90 ____________*_*__*______________________*__*___*________**__*___________*__*___*________________***_______*___***________*______*_____*__*___*___*__*_*________________*___________________________________________ //