# STOCKHOLM 1.0 #=GF ID 1.10.238.10/FF/000021 #=GF DE Mitochondrial Rho GTPase #=GF AC 1.10.238.10/FF/000021 #=GF TP FunFam #=GF DR CATH: v4.3 #=GF DR DOPS: 93.729 #=GS 5ku1A02/106-299_403-404 AC Q8IXI2 #=GS 5ku1A02/106-299_403-404 OS Homo sapiens #=GS 5ku1A02/106-299_403-404 DE Mitochondrial Rho GTPase 1 #=GS 5ku1A02/106-299_403-404 DR CATH; 5ku1; A:282-475; A:579-580; #=GS 5ku1A02/106-299_403-404 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Homo; Homo sapiens; #=GS 5ku1A02/106-299_403-404 DR GO; GO:0005515; GO:0005739; GO:0005741; GO:0005829; GO:0005886; GO:0016020; GO:0016579; GO:0019725; GO:0031307; GO:0047497; GO:0051056; GO:0097345; #=GS Q8IXI1/282-473 AC Q8IXI1 #=GS Q8IXI1/282-473 OS Homo sapiens #=GS Q8IXI1/282-473 DE Mitochondrial Rho GTPase 2 #=GS Q8IXI1/282-473 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Homo; Homo sapiens; #=GS Q8IXI1/282-473 DR GO; GO:0005515; GO:0005829; GO:0005886; GO:0016020; GO:0019725; GO:0031307; GO:0047497; GO:0051056; GO:0097345; #=GS Q8BG51/295-489 AC Q8BG51 #=GS Q8BG51/295-489 OS Mus musculus #=GS Q8BG51/295-489 DE Mitochondrial Rho GTPase 1 #=GS Q8BG51/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Rodentia; Myomorpha; Muridae; Murinae; Mus; Mus; Mus musculus; #=GS Q8BG51/295-489 DR GO; GO:0005739; GO:0019725; GO:0031307; GO:0034640; GO:0046928; GO:0047497; GO:0097345; GO:1902513; #=GS Q8JZN7/282-475 AC Q8JZN7 #=GS Q8JZN7/282-475 OS Mus musculus #=GS Q8JZN7/282-475 DE Mitochondrial Rho GTPase 2 #=GS Q8JZN7/282-475 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Rodentia; Myomorpha; Muridae; Murinae; Mus; Mus; Mus musculus; #=GS Q8JZN7/282-475 DR GO; GO:0005739; GO:0005743; GO:0005829; GO:0019725; GO:0031307; GO:0047497; GO:0097345; #=GS Q32LU1/282-476 AC Q32LU1 #=GS Q32LU1/282-476 OS Danio rerio #=GS Q32LU1/282-476 DE Mitochondrial Rho GTPase 2 #=GS Q32LU1/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Otomorpha; Ostariophysi; Cypriniphysae; Cypriniformes; Cyprinoidei; Cyprinidae; Danio; Danio rerio; #=GS Q32LU1/282-476 DR GO; GO:0005739; GO:0019725; GO:0031307; GO:0047497; GO:0097345; #=GS Q2HJF8/295-489 AC Q2HJF8 #=GS Q2HJF8/295-489 OS Bos taurus #=GS Q2HJF8/295-489 DE Mitochondrial Rho GTPase 1 #=GS Q2HJF8/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Bovinae; Bos; Bos taurus; #=GS Q2HJF8/295-489 DR GO; GO:0019725; GO:0031307; GO:0047497; GO:0097345; #=GS A0A0G2K777/295-489 AC A0A0G2K777 #=GS A0A0G2K777/295-489 OS Rattus norvegicus #=GS A0A0G2K777/295-489 DE Ras homolog family member T1 #=GS A0A0G2K777/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Rodentia; Myomorpha; Muridae; Murinae; Rattus; Rattus norvegicus; #=GS A0A0G2K777/295-489 DR GO; GO:0005515; GO:0034640; GO:0046928; GO:1902513; #=GS A0A0R4IVN5/282-476 AC A0A0R4IVN5 #=GS A0A0R4IVN5/282-476 OS Danio rerio #=GS A0A0R4IVN5/282-476 DE Mitochondrial Rho GTPase #=GS A0A0R4IVN5/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Otomorpha; Ostariophysi; Cypriniphysae; Cypriniformes; Cyprinoidei; Cyprinidae; Danio; Danio rerio; #=GS A0A0R4IVN5/282-476 DR GO; GO:0005739; #=GS 5ktyA02/106-299_403-404 AC Q8IXI2 #=GS 5ktyA02/106-299_403-404 OS Homo sapiens #=GS 5ktyA02/106-299_403-404 DE Mitochondrial Rho GTPase 1 #=GS 5ktyA02/106-299_403-404 DR CATH; 5kty; A:282-475; A:579-580; #=GS 5ktyA02/106-299_403-404 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Homo; Homo sapiens; #=GS 5ktyA02/106-299_403-404 DR GO; GO:0005515; GO:0005739; GO:0005741; GO:0005829; GO:0005886; GO:0016020; GO:0016579; GO:0019725; GO:0031307; GO:0047497; GO:0051056; GO:0097345; #=GS 5kszA02/106-299_403-404 AC Q8IXI2 #=GS 5kszA02/106-299_403-404 OS Homo sapiens #=GS 5kszA02/106-299_403-404 DE Mitochondrial Rho GTPase 1 #=GS 5kszA02/106-299_403-404 DR CATH; 5ksz; A:282-475; A:579-580; #=GS 5kszA02/106-299_403-404 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Homo; Homo sapiens; #=GS 5kszA02/106-299_403-404 DR GO; GO:0005515; GO:0005739; GO:0005741; GO:0005829; GO:0005886; GO:0016020; GO:0016579; GO:0019725; GO:0031307; GO:0047497; GO:0051056; GO:0097345; #=GS Q8IXI2/282-476 AC Q8IXI2 #=GS Q8IXI2/282-476 OS Homo sapiens #=GS Q8IXI2/282-476 DE Mitochondrial Rho GTPase 1 #=GS Q8IXI2/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Homo; Homo sapiens; #=GS Q8IXI2/282-476 DR GO; GO:0005515; GO:0005739; GO:0005741; GO:0005829; GO:0005886; GO:0016020; GO:0016579; GO:0019725; GO:0031307; GO:0047497; GO:0051056; GO:0097345; #=GS H7BXZ6/261-455 AC H7BXZ6 #=GS H7BXZ6/261-455 OS Homo sapiens #=GS H7BXZ6/261-455 DE Mitochondrial Rho GTPase #=GS H7BXZ6/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Homo; Homo sapiens; #=GS E9H688/286-481 AC E9H688 #=GS E9H688/286-481 OS Daphnia pulex #=GS E9H688/286-481 DE Mitochondrial Rho GTPase #=GS E9H688/286-481 DR ORG; Eukaryota; Metazoa; Arthropoda; Crustacea; Branchiopoda; Phyllopoda; Diplostraca; Cladocera; Anomopoda; Daphniidae; Daphnia; Daphnia pulex; #=GS W4ZII9/285-480 AC W4ZII9 #=GS W4ZII9/285-480 OS Strongylocentrotus purpuratus #=GS W4ZII9/285-480 DE Mitochondrial Rho GTPase #=GS W4ZII9/285-480 DR ORG; Eukaryota; Metazoa; Echinodermata; Echinozoa; Echinoidea; Euechinoidea; Echinacea; Echinoida; Strongylocentrotidae; Strongylocentrotus; Strongylocentrotus purpuratus; #=GS B7PAT4/274-463 AC B7PAT4 #=GS B7PAT4/274-463 OS Ixodes scapularis #=GS B7PAT4/274-463 DE Rho, putative #=GS B7PAT4/274-463 DR ORG; Eukaryota; Metazoa; Arthropoda; Chelicerata; Arachnida; Acari; Parasitiformes; Ixodida; Ixodoidea; Ixodidae; Ixodinae; Ixodes; Ixodes scapularis; #=GS Q5ZM73/282-477 AC Q5ZM73 #=GS Q5ZM73/282-477 OS Gallus gallus #=GS Q5ZM73/282-477 DE Mitochondrial Rho GTPase 1 #=GS Q5ZM73/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Galloanserae; Galliformes; Phasianidae; Phasianinae; Gallus; Gallus gallus; #=GS Q5ZM73/282-477 DR GO; GO:0019725; GO:0031307; GO:0047497; GO:0097345; #=GS Q6DIS1/282-476 AC Q6DIS1 #=GS Q6DIS1/282-476 OS Xenopus tropicalis #=GS Q6DIS1/282-476 DE Mitochondrial Rho GTPase 2 #=GS Q6DIS1/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Amphibia; Batrachia; Anura; Pipoidea; Pipidae; Xenopodinae; Xenopus; Silurana; Xenopus tropicalis; #=GS Q6DIS1/282-476 DR GO; GO:0019725; GO:0031307; GO:0047497; GO:0097345; #=GS A0A1U8DQH8/282-476 AC A0A1U8DQH8 #=GS A0A1U8DQH8/282-476 OS Alligator sinensis #=GS A0A1U8DQH8/282-476 DE Mitochondrial Rho GTPase #=GS A0A1U8DQH8/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Crocodylia; Alligatoridae; Alligatorinae; Alligator; Alligator sinensis; #=GS K7GBS5/261-455 AC K7GBS5 #=GS K7GBS5/261-455 OS Pelodiscus sinensis #=GS K7GBS5/261-455 DE Mitochondrial Rho GTPase #=GS K7GBS5/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Testudines; Cryptodira; Trionychia; Trionychidae; Pelodiscus; Pelodiscus sinensis; #=GS R4GCA6/261-455 AC R4GCA6 #=GS R4GCA6/261-455 OS Anolis carolinensis #=GS R4GCA6/261-455 DE Mitochondrial Rho GTPase #=GS R4GCA6/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Lepidosauria; Squamata; Iguania; Dactyloidae; Anolis; Anolis carolinensis; #=GS F7FLX5/214-408 AC F7FLX5 #=GS F7FLX5/214-408 OS Ornithorhynchus anatinus #=GS F7FLX5/214-408 DE Ras homolog family member T2 #=GS F7FLX5/214-408 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Monotremata; Ornithorhynchidae; Ornithorhynchus; Ornithorhynchus anatinus; #=GS A0A2Y9E3F0/295-489 AC A0A2Y9E3F0 #=GS A0A2Y9E3F0/295-489 OS Trichechus manatus latirostris #=GS A0A2Y9E3F0/295-489 DE Mitochondrial Rho GTPase #=GS A0A2Y9E3F0/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Afrotheria; Sirenia; Trichechidae; Trichechus; Trichechus manatus; Trichechus manatus latirostris; #=GS A0A099ZIQ0/261-451 AC A0A099ZIQ0 #=GS A0A099ZIQ0/261-451 OS Tinamus guttatus #=GS A0A099ZIQ0/261-451 DE Mitochondrial Rho GTPase 1 #=GS A0A099ZIQ0/261-451 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Palaeognathae; Tinamiformes; Tinamidae; Tinamus; Tinamus guttatus; #=GS F7FMB3/282-476 AC F7FMB3 #=GS F7FMB3/282-476 OS Monodelphis domestica #=GS F7FMB3/282-476 DE Mitochondrial Rho GTPase #=GS F7FMB3/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Didelphimorphia; Didelphidae; Didelphinae; Monodelphis; Monodelphis domestica; #=GS G3X2V8/298-492 AC G3X2V8 #=GS G3X2V8/298-492 OS Sarcophilus harrisii #=GS G3X2V8/298-492 DE Mitochondrial Rho GTPase #=GS G3X2V8/298-492 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Dasyuromorphia; Dasyuridae; Sarcophilus; Sarcophilus harrisii; #=GS A0A1S3WL05/295-489 AC A0A1S3WL05 #=GS A0A1S3WL05/295-489 OS Erinaceus europaeus #=GS A0A1S3WL05/295-489 DE Mitochondrial Rho GTPase #=GS A0A1S3WL05/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Eulipotyphla; Erinaceidae; Erinaceinae; Erinaceus; Erinaceus europaeus; #=GS A0A287A323/295-489 AC A0A287A323 #=GS A0A287A323/295-489 OS Sus scrofa #=GS A0A287A323/295-489 DE Mitochondrial Rho GTPase #=GS A0A287A323/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Suina; Suidae; Sus; Sus scrofa; #=GS A0A2U3VW24/295-489 AC A0A2U3VW24 #=GS A0A2U3VW24/295-489 OS Odobenus rosmarus divergens #=GS A0A2U3VW24/295-489 DE Mitochondrial Rho GTPase #=GS A0A2U3VW24/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Odobenidae; Odobenus; Odobenus rosmarus; Odobenus rosmarus divergens; #=GS A0A2Y9T1K5/378-572 AC A0A2Y9T1K5 #=GS A0A2Y9T1K5/378-572 OS Physeter catodon #=GS A0A2Y9T1K5/378-572 DE mitochondrial Rho GTPase 1 isoform X3 #=GS A0A2Y9T1K5/378-572 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A3Q2H385/295-489 AC A0A3Q2H385 #=GS A0A3Q2H385/295-489 OS Equus caballus #=GS A0A3Q2H385/295-489 DE Mitochondrial Rho GTPase #=GS A0A3Q2H385/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Perissodactyla; Equidae; Equus; Equus; Equus caballus; #=GS A0A218UX69/282-476 AC A0A218UX69 #=GS A0A218UX69/282-476 OS Lonchura striata domestica #=GS A0A218UX69/282-476 DE Mitochondrial Rho GTPase #=GS A0A218UX69/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Passeriformes; Passeroidea; Estrildidae; Estrildinae; Lonchura; Lonchura striata; Lonchura striata domestica; #=GS G1T3H3/295-489 AC G1T3H3 #=GS G1T3H3/295-489 OS Oryctolagus cuniculus #=GS G1T3H3/295-489 DE Mitochondrial Rho GTPase #=GS G1T3H3/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Lagomorpha; Leporidae; Oryctolagus; Oryctolagus cuniculus; #=GS A0A1V4KVN0/282-476 AC A0A1V4KVN0 #=GS A0A1V4KVN0/282-476 OS Patagioenas fasciata monilis #=GS A0A1V4KVN0/282-476 DE Mitochondrial Rho GTPase #=GS A0A1V4KVN0/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Columbiformes; Columbidae; Patagioenas; Patagioenas fasciata; Patagioenas fasciata monilis; #=GS G1PKX2/297-491 AC G1PKX2 #=GS G1PKX2/297-491 OS Myotis lucifugus #=GS G1PKX2/297-491 DE Mitochondrial Rho GTPase #=GS G1PKX2/297-491 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Chiroptera; Microchiroptera; Vespertilionidae; Myotis; Myotis lucifugus; #=GS A0A0Q3MAH4/282-476 AC A0A0Q3MAH4 #=GS A0A0Q3MAH4/282-476 OS Amazona aestiva #=GS A0A0Q3MAH4/282-476 DE Mitochondrial Rho GTPase #=GS A0A0Q3MAH4/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Psittaciformes; Psittacidae; Amazona; Amazona aestiva; #=GS A0A091IY30/269-463 AC A0A091IY30 #=GS A0A091IY30/269-463 OS Egretta garzetta #=GS A0A091IY30/269-463 DE Mitochondrial Rho GTPase 1 #=GS A0A091IY30/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Pelecaniformes; Ardeidae; Egretta; Egretta garzetta; #=GS A0A093G3I7/269-463 AC A0A093G3I7 #=GS A0A093G3I7/269-463 OS Picoides pubescens #=GS A0A093G3I7/269-463 DE Mitochondrial Rho GTPase 1 #=GS A0A093G3I7/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Piciformes; Picidae; Picoides; Picoides pubescens; #=GS A0A0A0A2Y5/292-486 AC A0A0A0A2Y5 #=GS A0A0A0A2Y5/292-486 OS Charadrius vociferus #=GS A0A0A0A2Y5/292-486 DE Mitochondrial Rho GTPase 1 #=GS A0A0A0A2Y5/292-486 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Charadriiformes; Charadriidae; Charadrius; Charadrius vociferus; #=GS A0A091G8Y7/269-463 AC A0A091G8Y7 #=GS A0A091G8Y7/269-463 OS Cuculus canorus #=GS A0A091G8Y7/269-463 DE Mitochondrial Rho GTPase 1 #=GS A0A091G8Y7/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Cuculiformes; Cuculidae; Cuculus; Cuculus canorus; #=GS A0A452H079/282-476 AC A0A452H079 #=GS A0A452H079/282-476 OS Gopherus agassizii #=GS A0A452H079/282-476 DE Mitochondrial Rho GTPase #=GS A0A452H079/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Testudines; Cryptodira; Testudinoidea; Testudinidae; Gopherus; Gopherus agassizii; #=GS A0A087RI99/269-463 AC A0A087RI99 #=GS A0A087RI99/269-463 OS Aptenodytes forsteri #=GS A0A087RI99/269-463 DE Mitochondrial Rho GTPase 1 #=GS A0A087RI99/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Sphenisciformes; Spheniscidae; Aptenodytes; Aptenodytes forsteri; #=GS G3TJM3/295-489 AC G3TJM3 #=GS G3TJM3/295-489 OS Loxodonta africana #=GS G3TJM3/295-489 DE Mitochondrial Rho GTPase #=GS G3TJM3/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Afrotheria; Proboscidea; Elephantidae; Loxodonta; Loxodonta africana; #=GS A0A091WDM4/269-463 AC A0A091WDM4 #=GS A0A091WDM4/269-463 OS Opisthocomus hoazin #=GS A0A091WDM4/269-463 DE Mitochondrial Rho GTPase 1 #=GS A0A091WDM4/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Opisthocomiformes; Opisthocomidae; Opisthocomus; Opisthocomus hoazin; #=GS A0A093JYE9/269-463 AC A0A093JYE9 #=GS A0A093JYE9/269-463 OS Struthio camelus australis #=GS A0A093JYE9/269-463 DE Mitochondrial Rho GTPase 1 #=GS A0A093JYE9/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Palaeognathae; Struthioniformes; Struthionidae; Struthio; Struthio camelus; Struthio camelus australis; #=GS W5N8K8/282-476 AC W5N8K8 #=GS W5N8K8/282-476 OS Lepisosteus oculatus #=GS W5N8K8/282-476 DE Mitochondrial Rho GTPase #=GS W5N8K8/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Holostei; Semionotiformes; Lepisosteidae; Lepisosteus; Lepisosteus oculatus; #=GS A0A091ITZ1/269-463 AC A0A091ITZ1 #=GS A0A091ITZ1/269-463 OS Calypte anna #=GS A0A091ITZ1/269-463 DE Mitochondrial Rho GTPase 2 #=GS A0A091ITZ1/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Apodiformes; Trochilidae; Calypte; Calypte anna; #=GS A0A091NQY6/251-445 AC A0A091NQY6 #=GS A0A091NQY6/251-445 OS Apaloderma vittatum #=GS A0A091NQY6/251-445 DE Mitochondrial Rho GTPase 2 #=GS A0A091NQY6/251-445 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Trogoniformes; Trogonidae; Apaloderma; Apaloderma vittatum; #=GS A0A3B3I0G3/282-476 AC A0A3B3I0G3 #=GS A0A3B3I0G3/282-476 OS Oryzias latipes #=GS A0A3B3I0G3/282-476 DE Mitochondrial Rho GTPase #=GS A0A3B3I0G3/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A2I2U3T8/295-489 AC A0A2I2U3T8 #=GS A0A2I2U3T8/295-489 OS Felis catus #=GS A0A2I2U3T8/295-489 DE Mitochondrial Rho GTPase #=GS A0A2I2U3T8/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Feliformia; Felidae; Felinae; Felis; Felis catus; #=GS A0A384ASU8/261-455 AC A0A384ASU8 #=GS A0A384ASU8/261-455 OS Balaenoptera acutorostrata scammoni #=GS A0A384ASU8/261-455 DE Mitochondrial Rho GTPase #=GS A0A384ASU8/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Mysticeti; Balaenopteridae; Balaenoptera; Balaenoptera acutorostrata; Balaenoptera acutorostrata scammoni; #=GS A0A286X882/295-489 AC A0A286X882 #=GS A0A286X882/295-489 OS Cavia porcellus #=GS A0A286X882/295-489 DE Mitochondrial Rho GTPase #=GS A0A286X882/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Rodentia; Hystricomorpha; Caviidae; Cavia; Cavia porcellus; #=GS A0A2K6EYI6/295-489 AC A0A2K6EYI6 #=GS A0A2K6EYI6/295-489 OS Propithecus coquereli #=GS A0A2K6EYI6/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K6EYI6/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Strepsirrhini; Lemuriformes; Indriidae; Propithecus; Propithecus coquereli; #=GS U3JHY1/261-455 AC U3JHY1 #=GS U3JHY1/261-455 OS Ficedula albicollis #=GS U3JHY1/261-455 DE Mitochondrial Rho GTPase #=GS U3JHY1/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Passeriformes; Muscicapidae; Ficedula; Ficedula albicollis; #=GS I3MHX3/295-489 AC I3MHX3 #=GS I3MHX3/295-489 OS Ictidomys tridecemlineatus #=GS I3MHX3/295-489 DE Mitochondrial Rho GTPase #=GS I3MHX3/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Rodentia; Sciuromorpha; Sciuridae; Xerinae; Marmotini; Ictidomys; Ictidomys tridecemlineatus; #=GS U3IHD1/282-476 AC U3IHD1 #=GS U3IHD1/282-476 OS Anas platyrhynchos platyrhynchos #=GS U3IHD1/282-476 DE Mitochondrial Rho GTPase #=GS U3IHD1/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Galloanserae; Anseriformes; Anatidae; Anatinae; Anas; Anas platyrhynchos; Anas platyrhynchos platyrhynchos; #=GS A0A091F0S9/269-460 AC A0A091F0S9 #=GS A0A091F0S9/269-460 OS Corvus brachyrhynchos #=GS A0A091F0S9/269-460 DE Mitochondrial Rho GTPase 1 #=GS A0A091F0S9/269-460 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Passeriformes; Corvoidea; Corvidae; Corvus; Corvus brachyrhynchos; #=GS A0A093RVY6/269-463 AC A0A093RVY6 #=GS A0A093RVY6/269-463 OS Manacus vitellinus #=GS A0A093RVY6/269-463 DE Mitochondrial Rho GTPase 1 #=GS A0A093RVY6/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Passeriformes; Pipridae; Manacus; Manacus vitellinus; #=GS A0A091V5W3/269-463 AC A0A091V5W3 #=GS A0A091V5W3/269-463 OS Nipponia nippon #=GS A0A091V5W3/269-463 DE Mitochondrial Rho GTPase 1 #=GS A0A091V5W3/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Pelecaniformes; Threskiornithidae; Nipponia; Nipponia nippon; #=GS L5JS96/295-489 AC L5JS96 #=GS L5JS96/295-489 OS Pteropus alecto #=GS L5JS96/295-489 DE Mitochondrial Rho GTPase 1 #=GS L5JS96/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Chiroptera; Megachiroptera; Pteropodidae; Pteropodinae; Pteropus; Pteropus alecto; #=GS A0A1W5AAH7/282-477 AC A0A1W5AAH7 #=GS A0A1W5AAH7/282-477 OS Scleropages formosus #=GS A0A1W5AAH7/282-477 DE Mitochondrial Rho GTPase #=GS A0A1W5AAH7/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Osteoglossiformes; Osteoglossidae; Scleropages; Scleropages formosus; #=GS A0A3M0KXH9/271-465 AC A0A3M0KXH9 #=GS A0A3M0KXH9/271-465 OS Hirundo rustica rustica #=GS A0A3M0KXH9/271-465 DE Uncharacterized protein #=GS A0A3M0KXH9/271-465 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Passeriformes; Sylvioidea; Hirundinidae; Hirundo; Hirundo rustica; Hirundo rustica rustica; #=GS A0A093BES2/265-459 AC A0A093BES2 #=GS A0A093BES2/265-459 OS Chaetura pelagica #=GS A0A093BES2/265-459 DE Mitochondrial Rho GTPase 2 #=GS A0A093BES2/265-459 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Apodiformes; Apodidae; Chaetura; Chaetura pelagica; #=GS A0A3Q0DQJ3/261-455 AC A0A3Q0DQJ3 #=GS A0A3Q0DQJ3/261-455 OS Carlito syrichta #=GS A0A3Q0DQJ3/261-455 DE Mitochondrial Rho GTPase #=GS A0A3Q0DQJ3/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Tarsiiformes; Tarsiidae; Carlito; Carlito syrichta; #=GS A0A3Q7S179/295-489 AC A0A3Q7S179 #=GS A0A3Q7S179/295-489 OS Vulpes vulpes #=GS A0A3Q7S179/295-489 DE Mitochondrial Rho GTPase #=GS A0A3Q7S179/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Canidae; Vulpes; Vulpes vulpes; #=GS A0A340WXQ7/295-489 AC A0A340WXQ7 #=GS A0A340WXQ7/295-489 OS Lipotes vexillifer #=GS A0A340WXQ7/295-489 DE Mitochondrial Rho GTPase #=GS A0A340WXQ7/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Lipotidae; Lipotes; Lipotes vexillifer; #=GS A0A384CFG0/285-479 AC A0A384CFG0 #=GS A0A384CFG0/285-479 OS Ursus maritimus #=GS A0A384CFG0/285-479 DE Mitochondrial Rho GTPase #=GS A0A384CFG0/285-479 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Ursidae; Ursus; Ursus maritimus; #=GS A0A2Y9JVT1/281-475 AC A0A2Y9JVT1 #=GS A0A2Y9JVT1/281-475 OS Enhydra lutris kenyoni #=GS A0A2Y9JVT1/281-475 DE Mitochondrial Rho GTPase #=GS A0A2Y9JVT1/281-475 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Mustelidae; Lutrinae; Enhydra; Enhydra lutris; Enhydra lutris kenyoni; #=GS A0A2U4ANV7/295-489 AC A0A2U4ANV7 #=GS A0A2U4ANV7/295-489 OS Tursiops truncatus #=GS A0A2U4ANV7/295-489 DE Mitochondrial Rho GTPase #=GS A0A2U4ANV7/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Delphinidae; Tursiops; Tursiops truncatus; #=GS A0A151N310/282-476 AC A0A151N310 #=GS A0A151N310/282-476 OS Alligator mississippiensis #=GS A0A151N310/282-476 DE Mitochondrial Rho GTPase #=GS A0A151N310/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Crocodylia; Alligatoridae; Alligatorinae; Alligator; Alligator mississippiensis; #=GS A0A2Y9Q1G4/295-489 AC A0A2Y9Q1G4 #=GS A0A2Y9Q1G4/295-489 OS Delphinapterus leucas #=GS A0A2Y9Q1G4/295-489 DE Mitochondrial Rho GTPase #=GS A0A2Y9Q1G4/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Monodontidae; Delphinapterus; Delphinapterus leucas; #=GS A0A2I0M7F9/472-666 AC A0A2I0M7F9 #=GS A0A2I0M7F9/472-666 OS Columba livia #=GS A0A2I0M7F9/472-666 DE Ras homolog family member T1, transcript variant X3 #=GS A0A2I0M7F9/472-666 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Columbiformes; Columbidae; Columba; Columba livia; #=GS A0A3Q0D1Q5/295-489 AC A0A3Q0D1Q5 #=GS A0A3Q0D1Q5/295-489 OS Mesocricetus auratus #=GS A0A3Q0D1Q5/295-489 DE Mitochondrial Rho GTPase #=GS A0A3Q0D1Q5/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Rodentia; Myomorpha; Cricetidae; Cricetinae; Mesocricetus; Mesocricetus auratus; #=GS H0WI36/271-465 AC H0WI36 #=GS H0WI36/271-465 OS Otolemur garnettii #=GS H0WI36/271-465 DE Mitochondrial Rho GTPase #=GS H0WI36/271-465 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Strepsirrhini; Lorisiformes; Galagidae; Otolemur; Otolemur garnettii; #=GS A0A3P9BXY3/251-446 AC A0A3P9BXY3 #=GS A0A3P9BXY3/251-446 OS Maylandia zebra #=GS A0A3P9BXY3/251-446 DE Mitochondrial Rho GTPase #=GS A0A3P9BXY3/251-446 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Maylandia; Maylandia zebra complex; Maylandia zebra; #=GS G3PFL1/283-478 AC G3PFL1 #=GS G3PFL1/283-478 OS Gasterosteus aculeatus #=GS G3PFL1/283-478 DE Mitochondrial Rho GTPase #=GS G3PFL1/283-478 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Perciformes; Cottioidei; Gasterosteales; Gasterosteidae; Gasterosteus; Gasterosteus aculeatus; #=GS A0A3P8SK47/274-469 AC A0A3P8SK47 #=GS A0A3P8SK47/274-469 OS Amphiprion percula #=GS A0A3P8SK47/274-469 DE Mitochondrial Rho GTPase #=GS A0A3P8SK47/274-469 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Pomacentridae; Amphiprion; Amphiprion percula; #=GS A0A1S3S1P5/282-477 AC A0A1S3S1P5 #=GS A0A1S3S1P5/282-477 OS Salmo salar #=GS A0A1S3S1P5/282-477 DE Mitochondrial Rho GTPase #=GS A0A1S3S1P5/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Salmoniformes; Salmonidae; Salmoninae; Salmo; Salmo salar; #=GS A0A3Q3N5Q3/291-486 AC A0A3Q3N5Q3 #=GS A0A3Q3N5Q3/291-486 OS Mastacembelus armatus #=GS A0A3Q3N5Q3/291-486 DE Mitochondrial Rho GTPase #=GS A0A3Q3N5Q3/291-486 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Synbranchiformes; Mastacembeloidei; Mastacembelidae; Mastacembelus; Mastacembelus armatus; #=GS A0A3B4YSN1/282-477 AC A0A3B4YSN1 #=GS A0A3B4YSN1/282-477 OS Seriola lalandi dorsalis #=GS A0A3B4YSN1/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B4YSN1/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Carangiformes; Carangidae; Seriola; Seriola lalandi; Seriola lalandi dorsalis; #=GS H3CCA4/173-368 AC H3CCA4 #=GS H3CCA4/173-368 OS Tetraodon nigroviridis #=GS H3CCA4/173-368 DE Ras homolog family member T1a #=GS H3CCA4/173-368 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Tetraodontiformes; Tetraodontoidei; Tetradontoidea; Tetraodontidae; Tetraodon; Tetraodon nigroviridis; #=GS A0A3Q1JRG5/282-477 AC A0A3Q1JRG5 #=GS A0A3Q1JRG5/282-477 OS Anabas testudineus #=GS A0A3Q1JRG5/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q1JRG5/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Anabantiformes; Anabantoidei; Anabantidae; Anabas; Anabas testudineus; #=GS A0A3B3RW76/282-476 AC A0A3B3RW76 #=GS A0A3B3RW76/282-476 OS Paramormyrops kingsleyae #=GS A0A3B3RW76/282-476 DE Mitochondrial Rho GTPase #=GS A0A3B3RW76/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Osteoglossiformes; Mormyridae; Paramormyrops; Paramormyrops kingsleyae; #=GS A0A3P8W0Q3/282-477 AC A0A3P8W0Q3 #=GS A0A3P8W0Q3/282-477 OS Cynoglossus semilaevis #=GS A0A3P8W0Q3/282-477 DE Mitochondrial Rho GTPase #=GS A0A3P8W0Q3/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Pleuronectiformes; Pleuronectoidei; Cynoglossidae; Cynoglossinae; Cynoglossus; Cynoglossus semilaevis; #=GS A0A3Q3L0I7/286-481 AC A0A3Q3L0I7 #=GS A0A3Q3L0I7/286-481 OS Labrus bergylta #=GS A0A3Q3L0I7/286-481 DE Mitochondrial Rho GTPase #=GS A0A3Q3L0I7/286-481 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Labriformes; Labridae; Labrus; Labrus bergylta; #=GS A0A3Q2ZJB0/282-477 AC A0A3Q2ZJB0 #=GS A0A3Q2ZJB0/282-477 OS Hippocampus comes #=GS A0A3Q2ZJB0/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q2ZJB0/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Syngnathiformes; Syngnathoidei; Syngnathidae; Hippocampinae; Hippocampus; Hippocampus comes; #=GS A0A226MXQ9/261-455 AC A0A226MXQ9 #=GS A0A226MXQ9/261-455 OS Callipepla squamata #=GS A0A226MXQ9/261-455 DE Mitochondrial Rho GTPase #=GS A0A226MXQ9/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Galloanserae; Galliformes; Odontophoridae; Callipepla; Callipepla squamata; #=GS A0A2K5EWF2/276-470 AC A0A2K5EWF2 #=GS A0A2K5EWF2/276-470 OS Aotus nancymaae #=GS A0A2K5EWF2/276-470 DE Mitochondrial Rho GTPase #=GS A0A2K5EWF2/276-470 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Aotidae; Aotus; Aotus nancymaae; #=GS A0A452ERV0/295-489 AC A0A452ERV0 #=GS A0A452ERV0/295-489 OS Capra hircus #=GS A0A452ERV0/295-489 DE Mitochondrial Rho GTPase #=GS A0A452ERV0/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Caprinae; Capra; Capra hircus; #=GS G1N7I2/264-458 AC G1N7I2 #=GS G1N7I2/264-458 OS Meleagris gallopavo #=GS G1N7I2/264-458 DE Mitochondrial Rho GTPase #=GS G1N7I2/264-458 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Galloanserae; Galliformes; Phasianidae; Meleagridinae; Meleagris; Meleagris gallopavo; #=GS G1LG95/297-491 AC G1LG95 #=GS G1LG95/297-491 OS Ailuropoda melanoleuca #=GS G1LG95/297-491 DE Mitochondrial Rho GTPase #=GS G1LG95/297-491 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Ursidae; Ailuropoda; Ailuropoda melanoleuca; #=GS F1PP14/282-476 AC F1PP14 #=GS F1PP14/282-476 OS Canis lupus familiaris #=GS F1PP14/282-476 DE Mitochondrial Rho GTPase #=GS F1PP14/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Canidae; Canis; Canis lupus; Canis lupus familiaris; #=GS A0A3L8SAZ3/282-476 AC A0A3L8SAZ3 #=GS A0A3L8SAZ3/282-476 OS Erythrura gouldiae #=GS A0A3L8SAZ3/282-476 DE Mitochondrial Rho GTPase #=GS A0A3L8SAZ3/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Passeriformes; Passeroidea; Estrildidae; Erythrura; Erythrura gouldiae; #=GS M3YTD4/261-455 AC M3YTD4 #=GS M3YTD4/261-455 OS Mustela putorius furo #=GS M3YTD4/261-455 DE Mitochondrial Rho GTPase #=GS M3YTD4/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Mustelidae; Mustelinae; Mustela; Mustela putorius; Mustela putorius furo; #=GS A0A1A6GS43/227-417 AC A0A1A6GS43 #=GS A0A1A6GS43/227-417 OS Neotoma lepida #=GS A0A1A6GS43/227-417 DE Uncharacterized protein #=GS A0A1A6GS43/227-417 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Rodentia; Myomorpha; Cricetidae; Neotominae; Neotoma; Neotoma lepida; #=GS A0A3B1KIE1/232-427 AC A0A3B1KIE1 #=GS A0A3B1KIE1/232-427 OS Astyanax mexicanus #=GS A0A3B1KIE1/232-427 DE Uncharacterized protein #=GS A0A3B1KIE1/232-427 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Otomorpha; Ostariophysi; Characiphysae; Characiformes; Characoidei; Characidae; Stethaprioninae; Astyanax; Astyanax mexicanus; #=GS A0A3P9MX86/288-481 AC A0A3P9MX86 #=GS A0A3P9MX86/288-481 OS Poecilia reticulata #=GS A0A3P9MX86/288-481 DE Mitochondrial Rho GTPase #=GS A0A3P9MX86/288-481 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poecilia; Poecilia reticulata; #=GS A0A3B4ZQZ7/238-432 AC A0A3B4ZQZ7 #=GS A0A3B4ZQZ7/238-432 OS Stegastes partitus #=GS A0A3B4ZQZ7/238-432 DE Uncharacterized protein #=GS A0A3B4ZQZ7/238-432 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Pomacentridae; Stegastes; Stegastes partitus; #=GS A0A3Q1GGQ7/282-477 AC A0A3Q1GGQ7 #=GS A0A3Q1GGQ7/282-477 OS Acanthochromis polyacanthus #=GS A0A3Q1GGQ7/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q1GGQ7/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Pomacentridae; Acanthochromis; Acanthochromis polyacanthus; #=GS A0A226P4Y2/270-464 AC A0A226P4Y2 #=GS A0A226P4Y2/270-464 OS Colinus virginianus #=GS A0A226P4Y2/270-464 DE Mitochondrial Rho GTPase #=GS A0A226P4Y2/270-464 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Galloanserae; Galliformes; Odontophoridae; Colinus; Colinus virginianus; #=GS A0A165A658/298-493 AC A0A165A658 #=GS A0A165A658/298-493 OS Daphnia magna #=GS A0A165A658/298-493 DE Mitochondrial Rho GTPase #=GS A0A165A658/298-493 DR ORG; Eukaryota; Metazoa; Arthropoda; Crustacea; Branchiopoda; Phyllopoda; Diplostraca; Cladocera; Anomopoda; Daphniidae; Daphnia; Daphnia magna; #=GS G7PU10/295-489 AC G7PU10 #=GS G7PU10/295-489 OS Macaca fascicularis #=GS G7PU10/295-489 DE Mitochondrial Rho GTPase #=GS G7PU10/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca fascicularis; #=GS A0A452QCD7/282-476 AC A0A452QCD7 #=GS A0A452QCD7/282-476 OS Ursus americanus #=GS A0A452QCD7/282-476 DE Mitochondrial Rho GTPase #=GS A0A452QCD7/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Ursidae; Ursus; Ursus americanus; #=GS A0A2R8MYU1/295-485 AC A0A2R8MYU1 #=GS A0A2R8MYU1/295-485 OS Callithrix jacchus #=GS A0A2R8MYU1/295-485 DE Mitochondrial Rho GTPase #=GS A0A2R8MYU1/295-485 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Callitrichinae; Callithrix; Callithrix; Callithrix jacchus; #=GS A0A3Q7XG66/295-489 AC A0A3Q7XG66 #=GS A0A3Q7XG66/295-489 OS Ursus arctos horribilis #=GS A0A3Q7XG66/295-489 DE Mitochondrial Rho GTPase #=GS A0A3Q7XG66/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Ursidae; Ursus; Ursus arctos; Ursus arctos horribilis; #=GS H0Z3A5/294-488 AC H0Z3A5 #=GS H0Z3A5/294-488 OS Taeniopygia guttata #=GS H0Z3A5/294-488 DE Mitochondrial Rho GTPase #=GS H0Z3A5/294-488 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Passeriformes; Passeroidea; Estrildidae; Estrildinae; Taeniopygia; Taeniopygia guttata; #=GS W5PP34/297-491 AC W5PP34 #=GS W5PP34/297-491 OS Ovis aries #=GS W5PP34/297-491 DE Mitochondrial Rho GTPase #=GS W5PP34/297-491 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Caprinae; Ovis; Ovis aries; #=GS A0A2I4BRL8/282-477 AC A0A2I4BRL8 #=GS A0A2I4BRL8/282-477 OS Austrofundulus limnaeus #=GS A0A2I4BRL8/282-477 DE Mitochondrial Rho GTPase #=GS A0A2I4BRL8/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Rivulidae; Austrofundulus; Austrofundulus limnaeus; #=GS A0A2D0PX15/282-477 AC A0A2D0PX15 #=GS A0A2D0PX15/282-477 OS Ictalurus punctatus #=GS A0A2D0PX15/282-477 DE Mitochondrial Rho GTPase #=GS A0A2D0PX15/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Otomorpha; Ostariophysi; Characiphysae; Siluriformes; Siluroidei; Ictaluridae; Ictalurus; Ictalurus punctatus; #=GS A0A3Q1CQX2/282-477 AC A0A3Q1CQX2 #=GS A0A3Q1CQX2/282-477 OS Amphiprion ocellaris #=GS A0A3Q1CQX2/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q1CQX2/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Pomacentridae; Amphiprion; Amphiprion ocellaris; #=GS L8IGR5/269-463 AC L8IGR5 #=GS L8IGR5/269-463 OS Bos mutus #=GS L8IGR5/269-463 DE Mitochondrial Rho GTPase 1 #=GS L8IGR5/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Bovinae; Bos; Bos mutus; #=GS G1R1V1/282-476 AC G1R1V1 #=GS G1R1V1/282-476 OS Nomascus leucogenys #=GS G1R1V1/282-476 DE Mitochondrial Rho GTPase #=GS G1R1V1/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hylobatidae; Nomascus; Nomascus leucogenys; #=GS A0A2K5QAM4/282-476 AC A0A2K5QAM4 #=GS A0A2K5QAM4/282-476 OS Cebus capucinus imitator #=GS A0A2K5QAM4/282-476 DE Mitochondrial Rho GTPase #=GS A0A2K5QAM4/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Cebinae; Cebus; Cebus capucinus; Cebus capucinus imitator; #=GS A0A2K6UDF6/282-476 AC A0A2K6UDF6 #=GS A0A2K6UDF6/282-476 OS Saimiri boliviensis boliviensis #=GS A0A2K6UDF6/282-476 DE Mitochondrial Rho GTPase #=GS A0A2K6UDF6/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Saimiriinae; Saimiri; Saimiri boliviensis; Saimiri boliviensis boliviensis; #=GS A0A3Q2TZS7/277-471 AC A0A3Q2TZS7 #=GS A0A3Q2TZS7/277-471 OS Fundulus heteroclitus #=GS A0A3Q2TZS7/277-471 DE Mitochondrial Rho GTPase #=GS A0A3Q2TZS7/277-471 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Fundulidae; Fundulus; Fundulus heteroclitus; #=GS A0A3Q2FER5/282-477 AC A0A3Q2FER5 #=GS A0A3Q2FER5/282-477 OS Cyprinodon variegatus #=GS A0A3Q2FER5/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q2FER5/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Cyprinodontidae; Cyprinodontinae; Cyprinodontini; Cyprinodon; Cyprinodon variegatus; #=GS A0A3B4T9Y9/282-477 AC A0A3B4T9Y9 #=GS A0A3B4T9Y9/282-477 OS Seriola dumerili #=GS A0A3B4T9Y9/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B4T9Y9/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Carangiformes; Carangidae; Seriola; Seriola dumerili; #=GS A0A3Q0RD04/285-480 AC A0A3Q0RD04 #=GS A0A3Q0RD04/285-480 OS Amphilophus citrinellus #=GS A0A3Q0RD04/285-480 DE Mitochondrial Rho GTPase #=GS A0A3Q0RD04/285-480 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Cichlasomatinae; Heroini; Amphilophus; Amphilophus citrinellus; #=GS A0A1L8ENC3/285-479 AC A0A1L8ENC3 #=GS A0A1L8ENC3/285-479 OS Xenopus laevis #=GS A0A1L8ENC3/285-479 DE Mitochondrial Rho GTPase #=GS A0A1L8ENC3/285-479 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Amphibia; Batrachia; Anura; Pipoidea; Pipidae; Xenopodinae; Xenopus; Xenopus; Xenopus laevis; #=GS A0A2K6KCZ7/295-489 AC A0A2K6KCZ7 #=GS A0A2K6KCZ7/295-489 OS Rhinopithecus bieti #=GS A0A2K6KCZ7/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K6KCZ7/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Rhinopithecus; Rhinopithecus bieti; #=GS H2NTA0/295-489 AC H2NTA0 #=GS H2NTA0/295-489 OS Pongo abelii #=GS H2NTA0/295-489 DE Mitochondrial Rho GTPase #=GS H2NTA0/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Ponginae; Pongo; Pongo abelii; #=GS A0A3Q4GKV8/282-477 AC A0A3Q4GKV8 #=GS A0A3Q4GKV8/282-477 OS Neolamprologus brichardi #=GS A0A3Q4GKV8/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q4GKV8/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Lamprologini; Neolamprologus; Neolamprologus brichardi; #=GS A0A3B4D322/285-480 AC A0A3B4D322 #=GS A0A3B4D322/285-480 OS Pygocentrus nattereri #=GS A0A3B4D322/285-480 DE Mitochondrial Rho GTPase #=GS A0A3B4D322/285-480 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Otomorpha; Ostariophysi; Characiphysae; Characiformes; Characoidei; Serrasalmidae; Pygocentrus; Pygocentrus nattereri; #=GS I3J1I5/282-477 AC I3J1I5 #=GS I3J1I5/282-477 OS Oreochromis niloticus #=GS I3J1I5/282-477 DE Mitochondrial Rho GTPase #=GS I3J1I5/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Oreochromini; Oreochromis; Oreochromis niloticus; #=GS A0A3Q3BGJ6/282-477 AC A0A3Q3BGJ6 #=GS A0A3Q3BGJ6/282-477 OS Kryptolebias marmoratus #=GS A0A3Q3BGJ6/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q3BGJ6/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Rivulidae; Kryptolebias; Kryptolebias marmoratus; #=GS H2TZZ3/276-471 AC H2TZZ3 #=GS H2TZZ3/276-471 OS Takifugu rubripes #=GS H2TZZ3/276-471 DE Mitochondrial Rho GTPase #=GS H2TZZ3/276-471 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Tetraodontiformes; Tetraodontoidei; Tetradontoidea; Tetraodontidae; Takifugu; Takifugu rubripes; #=GS A0A2I3SYK2/282-476 AC A0A2I3SYK2 #=GS A0A2I3SYK2/282-476 OS Pan troglodytes #=GS A0A2I3SYK2/282-476 DE Mitochondrial Rho GTPase #=GS A0A2I3SYK2/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Pan; Pan troglodytes; #=GS A0A2K5MLC8/295-489 AC A0A2K5MLC8 #=GS A0A2K5MLC8/295-489 OS Cercocebus atys #=GS A0A2K5MLC8/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K5MLC8/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Cercocebus; Cercocebus atys; #=GS A0A2I2YSS3/295-489 AC A0A2I2YSS3 #=GS A0A2I2YSS3/295-489 OS Gorilla gorilla gorilla #=GS A0A2I2YSS3/295-489 DE Mitochondrial Rho GTPase #=GS A0A2I2YSS3/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Gorilla; Gorilla gorilla; Gorilla gorilla gorilla; #=GS A0A2K5JE21/295-489 AC A0A2K5JE21 #=GS A0A2K5JE21/295-489 OS Colobus angolensis palliatus #=GS A0A2K5JE21/295-489 DE Uncharacterized protein #=GS A0A2K5JE21/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Colobus; Colobus angolensis; Colobus angolensis palliatus; #=GS A0A2K5Z8H0/295-489 AC A0A2K5Z8H0 #=GS A0A2K5Z8H0/295-489 OS Mandrillus leucophaeus #=GS A0A2K5Z8H0/295-489 DE Uncharacterized protein #=GS A0A2K5Z8H0/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Mandrillus; Mandrillus leucophaeus; #=GS A0A2I3M8A3/282-476 AC A0A2I3M8A3 #=GS A0A2I3M8A3/282-476 OS Papio anubis #=GS A0A2I3M8A3/282-476 DE Mitochondrial Rho GTPase #=GS A0A2I3M8A3/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Papio; Papio anubis; #=GS A0A3B4GB31/282-477 AC A0A3B4GB31 #=GS A0A3B4GB31/282-477 OS Pundamilia nyererei #=GS A0A3B4GB31/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B4GB31/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Pundamilia; Pundamilia nyererei; #=GS A0A3B5Q655/346-541 AC A0A3B5Q655 #=GS A0A3B5Q655/346-541 OS Xiphophorus maculatus #=GS A0A3B5Q655/346-541 DE Uncharacterized protein #=GS A0A3B5Q655/346-541 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Xiphophorus; Xiphophorus maculatus; #=GS A0A3P8NAB4/282-477 AC A0A3P8NAB4 #=GS A0A3P8NAB4/282-477 OS Astatotilapia calliptera #=GS A0A3P8NAB4/282-477 DE Mitochondrial Rho GTPase #=GS A0A3P8NAB4/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Astatotilapia; Astatotilapia calliptera; #=GS A0A3Q2VLM0/282-477 AC A0A3Q2VLM0 #=GS A0A3Q2VLM0/282-477 OS Haplochromis burtoni #=GS A0A3Q2VLM0/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q2VLM0/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Haplochromis; Haplochromis burtoni; #=GS A0A0D9RIU9/282-474 AC A0A0D9RIU9 #=GS A0A0D9RIU9/282-474 OS Chlorocebus sabaeus #=GS A0A0D9RIU9/282-474 DE Mitochondrial Rho GTPase #=GS A0A0D9RIU9/282-474 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Chlorocebus; Chlorocebus sabaeus; #=GS A0A3B3DQ04/282-471 AC A0A3B3DQ04 #=GS A0A3B3DQ04/282-471 OS Oryzias melastigma #=GS A0A3B3DQ04/282-471 DE Mitochondrial Rho GTPase #=GS A0A3B3DQ04/282-471 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias melastigma; #=GS A0A2K6DZA9/249-443 AC A0A2K6DZA9 #=GS A0A2K6DZA9/249-443 OS Macaca nemestrina #=GS A0A2K6DZA9/249-443 DE Mitochondrial Rho GTPase #=GS A0A2K6DZA9/249-443 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca nemestrina; #=GS F6V3R1/269-463 AC F6V3R1 #=GS F6V3R1/269-463 OS Macaca mulatta #=GS F6V3R1/269-463 DE Mitochondrial Rho GTPase #=GS F6V3R1/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca mulatta; #=GS A0A2K6R253/295-489 AC A0A2K6R253 #=GS A0A2K6R253/295-489 OS Rhinopithecus roxellana #=GS A0A2K6R253/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K6R253/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Rhinopithecus; Rhinopithecus roxellana; #=GS A0A2R8ZW75/282-476 AC A0A2R8ZW75 #=GS A0A2R8ZW75/282-476 OS Pan paniscus #=GS A0A2R8ZW75/282-476 DE Mitochondrial Rho GTPase #=GS A0A2R8ZW75/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Pan; Pan paniscus; #=GS A0A096M200/294-489 AC A0A096M200 #=GS A0A096M200/294-489 OS Poecilia formosa #=GS A0A096M200/294-489 DE Mitochondrial Rho GTPase #=GS A0A096M200/294-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poecilia; Poecilia formosa; #=GS A0A3B3XP73/282-477 AC A0A3B3XP73 #=GS A0A3B3XP73/282-477 OS Poecilia mexicana #=GS A0A3B3XP73/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B3XP73/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poecilia; Poecilia mexicana; #=GS A0A3B3VYX8/282-477 AC A0A3B3VYX8 #=GS A0A3B3VYX8/282-477 OS Poecilia latipinna #=GS A0A3B3VYX8/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B3VYX8/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poecilia; Poecilia latipinna; #=GS A0A3B5MJY8/269-464 AC A0A3B5MJY8 #=GS A0A3B5MJY8/269-464 OS Xiphophorus couchianus #=GS A0A3B5MJY8/269-464 DE Mitochondrial Rho GTPase #=GS A0A3B5MJY8/269-464 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Xiphophorus; Xiphophorus couchianus; #=GS Q6NVC5/282-477 AC Q6NVC5 #=GS Q6NVC5/282-477 OS Danio rerio #=GS Q6NVC5/282-477 DE Mitochondrial Rho GTPase 1-A #=GS Q6NVC5/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Otomorpha; Ostariophysi; Cypriniphysae; Cypriniformes; Cyprinoidei; Cyprinidae; Danio; Danio rerio; #=GS Q6NVC5/282-477 DR GO; GO:0005739; GO:0019725; GO:0031307; GO:0047497; GO:0097345; #=GS A1L1L6/295-489 AC A1L1L6 #=GS A1L1L6/295-489 OS Rattus norvegicus #=GS A1L1L6/295-489 DE Mitochondrial Rho GTPase #=GS A1L1L6/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Rodentia; Myomorpha; Muridae; Murinae; Rattus; Rattus norvegicus; #=GS A1L1L6/295-489 DR GO; GO:0005515; GO:0034640; GO:0046928; GO:1902513; #=GS Q7TSA0/282-477 AC Q7TSA0 #=GS Q7TSA0/282-477 OS Rattus norvegicus #=GS Q7TSA0/282-477 DE Mitochondrial Rho GTPase 2 #=GS Q7TSA0/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Rodentia; Myomorpha; Muridae; Murinae; Rattus; Rattus norvegicus; #=GS Q7TSA0/282-477 DR GO; GO:0019725; GO:0031307; GO:0047497; GO:0097345; #=GS Q5E9M9/282-473 AC Q5E9M9 #=GS Q5E9M9/282-473 OS Bos taurus #=GS Q5E9M9/282-473 DE Mitochondrial Rho GTPase 2 #=GS Q5E9M9/282-473 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Bovinae; Bos; Bos taurus; #=GS Q5E9M9/282-473 DR GO; GO:0019725; GO:0031307; GO:0047497; GO:0097345; #=GS Q5ZM83/282-476 AC Q5ZM83 #=GS Q5ZM83/282-476 OS Gallus gallus #=GS Q5ZM83/282-476 DE Mitochondrial Rho GTPase 2 #=GS Q5ZM83/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Galloanserae; Galliformes; Phasianidae; Phasianinae; Gallus; Gallus gallus; #=GS Q5ZM83/282-476 DR GO; GO:0019725; GO:0031307; GO:0047497; GO:0097345; #=GS A0A286Y9M7/282-476 AC A0A286Y9M7 #=GS A0A286Y9M7/282-476 OS Danio rerio #=GS A0A286Y9M7/282-476 DE Mitochondrial Rho GTPase #=GS A0A286Y9M7/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Otomorpha; Ostariophysi; Cypriniphysae; Cypriniformes; Cyprinoidei; Cyprinidae; Danio; Danio rerio; #=GS A0A286Y9M7/282-476 DR GO; GO:0005739; #=GS A0A0R4IGX0/282-476 AC A0A0R4IGX0 #=GS A0A0R4IGX0/282-476 OS Danio rerio #=GS A0A0R4IGX0/282-476 DE Mitochondrial Rho GTPase #=GS A0A0R4IGX0/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Otomorpha; Ostariophysi; Cypriniphysae; Cypriniformes; Cyprinoidei; Cyprinidae; Danio; Danio rerio; #=GS A0A0R4IGX0/282-476 DR GO; GO:0005739; #=GS B3DI88/282-476 AC B3DI88 #=GS B3DI88/282-476 OS Danio rerio #=GS B3DI88/282-476 DE Mitochondrial Rho GTPase #=GS B3DI88/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Otomorpha; Ostariophysi; Cypriniphysae; Cypriniformes; Cyprinoidei; Cyprinidae; Danio; Danio rerio; #=GS B3DI88/282-476 DR GO; GO:0005739; #=GS A0A0P5AW19/298-493 AC A0A0P5AW19 #=GS A0A0P5AW19/298-493 OS Daphnia magna #=GS A0A0P5AW19/298-493 DE Mitochondrial Rho GTPase 1-A #=GS A0A0P5AW19/298-493 DR ORG; Eukaryota; Metazoa; Arthropoda; Crustacea; Branchiopoda; Phyllopoda; Diplostraca; Cladocera; Anomopoda; Daphniidae; Daphnia; Daphnia magna; #=GS A0A0P5YQL9/360-555 AC A0A0P5YQL9 #=GS A0A0P5YQL9/360-555 OS Daphnia magna #=GS A0A0P5YQL9/360-555 DE Mitochondrial Rho GTPase 1-A #=GS A0A0P5YQL9/360-555 DR ORG; Eukaryota; Metazoa; Arthropoda; Crustacea; Branchiopoda; Phyllopoda; Diplostraca; Cladocera; Anomopoda; Daphniidae; Daphnia; Daphnia magna; #=GS A0A0P5DEB1/329-524 AC A0A0P5DEB1 #=GS A0A0P5DEB1/329-524 OS Daphnia magna #=GS A0A0P5DEB1/329-524 DE Mitochondrial Rho GTPase 1-A #=GS A0A0P5DEB1/329-524 DR ORG; Eukaryota; Metazoa; Arthropoda; Crustacea; Branchiopoda; Phyllopoda; Diplostraca; Cladocera; Anomopoda; Daphniidae; Daphnia; Daphnia magna; #=GS A0A3P9KNY8/282-476 AC A0A3P9KNY8 #=GS A0A3P9KNY8/282-476 OS Oryzias latipes #=GS A0A3P9KNY8/282-476 DE Mitochondrial Rho GTPase #=GS A0A3P9KNY8/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A3B3H8P2/282-476 AC A0A3B3H8P2 #=GS A0A3B3H8P2/282-476 OS Oryzias latipes #=GS A0A3B3H8P2/282-476 DE Mitochondrial Rho GTPase #=GS A0A3B3H8P2/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS H2LU00/248-442 AC H2LU00 #=GS H2LU00/248-442 OS Oryzias latipes #=GS H2LU00/248-442 DE Mitochondrial Rho GTPase #=GS H2LU00/248-442 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A3P9KNU8/282-476 AC A0A3P9KNU8 #=GS A0A3P9KNU8/282-476 OS Oryzias latipes #=GS A0A3P9KNU8/282-476 DE Mitochondrial Rho GTPase #=GS A0A3P9KNU8/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A3P9HM23/282-477 AC A0A3P9HM23 #=GS A0A3P9HM23/282-477 OS Oryzias latipes #=GS A0A3P9HM23/282-477 DE Mitochondrial Rho GTPase #=GS A0A3P9HM23/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A3P9HLT7/283-477 AC A0A3P9HLT7 #=GS A0A3P9HLT7/283-477 OS Oryzias latipes #=GS A0A3P9HLT7/283-477 DE Mitochondrial Rho GTPase #=GS A0A3P9HLT7/283-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A2U3VWC8/295-489 AC A0A2U3VWC8 #=GS A0A2U3VWC8/295-489 OS Odobenus rosmarus divergens #=GS A0A2U3VWC8/295-489 DE Mitochondrial Rho GTPase #=GS A0A2U3VWC8/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Odobenidae; Odobenus; Odobenus rosmarus; Odobenus rosmarus divergens; #=GS A0A1S3A825/295-489 AC A0A1S3A825 #=GS A0A1S3A825/295-489 OS Erinaceus europaeus #=GS A0A1S3A825/295-489 DE Mitochondrial Rho GTPase #=GS A0A1S3A825/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Eulipotyphla; Erinaceidae; Erinaceinae; Erinaceus; Erinaceus europaeus; #=GS G1K237/295-489 AC G1K237 #=GS G1K237/295-489 OS Bos taurus #=GS G1K237/295-489 DE Mitochondrial Rho GTPase #=GS G1K237/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Bovinae; Bos; Bos taurus; #=GS A0A337SHB2/295-489 AC A0A337SHB2 #=GS A0A337SHB2/295-489 OS Felis catus #=GS A0A337SHB2/295-489 DE Mitochondrial Rho GTPase #=GS A0A337SHB2/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Feliformia; Felidae; Felinae; Felis; Felis catus; #=GS A0A455BXW3/378-572 AC A0A455BXW3 #=GS A0A455BXW3/378-572 OS Physeter catodon #=GS A0A455BXW3/378-572 DE mitochondrial Rho GTPase 1 isoform X4 #=GS A0A455BXW3/378-572 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A2Y9EQ53/378-572 AC A0A2Y9EQ53 #=GS A0A2Y9EQ53/378-572 OS Physeter catodon #=GS A0A2Y9EQ53/378-572 DE mitochondrial Rho GTPase 1 isoform X1 #=GS A0A2Y9EQ53/378-572 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A1D5P0T2/261-455 AC A0A1D5P0T2 #=GS A0A1D5P0T2/261-455 OS Gallus gallus #=GS A0A1D5P0T2/261-455 DE Mitochondrial Rho GTPase #=GS A0A1D5P0T2/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Galloanserae; Galliformes; Phasianidae; Phasianinae; Gallus; Gallus gallus; #=GS A0A2K5DU42/295-489 AC A0A2K5DU42 #=GS A0A2K5DU42/295-489 OS Aotus nancymaae #=GS A0A2K5DU42/295-489 DE Uncharacterized protein #=GS A0A2K5DU42/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Aotidae; Aotus; Aotus nancymaae; #=GS A0A2Y9FZZ9/295-489 AC A0A2Y9FZZ9 #=GS A0A2Y9FZZ9/295-489 OS Trichechus manatus latirostris #=GS A0A2Y9FZZ9/295-489 DE Mitochondrial Rho GTPase #=GS A0A2Y9FZZ9/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Afrotheria; Sirenia; Trichechidae; Trichechus; Trichechus manatus; Trichechus manatus latirostris; #=GS A0A452ETC5/295-489 AC A0A452ETC5 #=GS A0A452ETC5/295-489 OS Capra hircus #=GS A0A452ETC5/295-489 DE Mitochondrial Rho GTPase #=GS A0A452ETC5/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Caprinae; Capra; Capra hircus; #=GS A0A452UJ48/276-470 AC A0A452UJ48 #=GS A0A452UJ48/276-470 OS Ursus maritimus #=GS A0A452UJ48/276-470 DE Mitochondrial Rho GTPase #=GS A0A452UJ48/276-470 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Ursidae; Ursus; Ursus maritimus; #=GS A0A1U8DSX9/282-476 AC A0A1U8DSX9 #=GS A0A1U8DSX9/282-476 OS Alligator sinensis #=GS A0A1U8DSX9/282-476 DE Mitochondrial Rho GTPase #=GS A0A1U8DSX9/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Crocodylia; Alligatoridae; Alligatorinae; Alligator; Alligator sinensis; #=GS F7I9C8/295-489 AC F7I9C8 #=GS F7I9C8/295-489 OS Callithrix jacchus #=GS F7I9C8/295-489 DE Mitochondrial Rho GTPase #=GS F7I9C8/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Callitrichinae; Callithrix; Callithrix; Callithrix jacchus; #=GS A0A2K5MLD3/295-489 AC A0A2K5MLD3 #=GS A0A2K5MLD3/295-489 OS Cercocebus atys #=GS A0A2K5MLD3/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K5MLD3/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Cercocebus; Cercocebus atys; #=GS M3WMH4/295-489 AC M3WMH4 #=GS M3WMH4/295-489 OS Felis catus #=GS M3WMH4/295-489 DE Mitochondrial Rho GTPase #=GS M3WMH4/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Feliformia; Felidae; Felinae; Felis; Felis catus; #=GS A0A2K6R277/252-446 AC A0A2K6R277 #=GS A0A2K6R277/252-446 OS Rhinopithecus roxellana #=GS A0A2K6R277/252-446 DE Mitochondrial Rho GTPase #=GS A0A2K6R277/252-446 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Rhinopithecus; Rhinopithecus roxellana; #=GS A0A2K6R264/282-476 AC A0A2K6R264 #=GS A0A2K6R264/282-476 OS Rhinopithecus roxellana #=GS A0A2K6R264/282-476 DE Mitochondrial Rho GTPase #=GS A0A2K6R264/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Rhinopithecus; Rhinopithecus roxellana; #=GS A0A2Y9SZ23/295-489 AC A0A2Y9SZ23 #=GS A0A2Y9SZ23/295-489 OS Physeter catodon #=GS A0A2Y9SZ23/295-489 DE Mitochondrial Rho GTPase #=GS A0A2Y9SZ23/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A2Y9SZ17/378-572 AC A0A2Y9SZ17 #=GS A0A2Y9SZ17/378-572 OS Physeter catodon #=GS A0A2Y9SZ17/378-572 DE mitochondrial Rho GTPase 1 isoform X7 #=GS A0A2Y9SZ17/378-572 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A2Y9T5L8/318-512 AC A0A2Y9T5L8 #=GS A0A2Y9T5L8/318-512 OS Physeter catodon #=GS A0A2Y9T5L8/318-512 DE mitochondrial Rho GTPase 1 isoform X14 #=GS A0A2Y9T5L8/318-512 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A2K6KCY8/295-489 AC A0A2K6KCY8 #=GS A0A2K6KCY8/295-489 OS Rhinopithecus bieti #=GS A0A2K6KCY8/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K6KCY8/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Rhinopithecus; Rhinopithecus bieti; #=GS A0A2K6EYI2/295-489 AC A0A2K6EYI2 #=GS A0A2K6EYI2/295-489 OS Propithecus coquereli #=GS A0A2K6EYI2/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K6EYI2/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Strepsirrhini; Lemuriformes; Indriidae; Propithecus; Propithecus coquereli; #=GS F7IE46/295-489 AC F7IE46 #=GS F7IE46/295-489 OS Callithrix jacchus #=GS F7IE46/295-489 DE Mitochondrial Rho GTPase #=GS F7IE46/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Callitrichinae; Callithrix; Callithrix; Callithrix jacchus; #=GS A0A3Q1MKH9/295-489 AC A0A3Q1MKH9 #=GS A0A3Q1MKH9/295-489 OS Bos taurus #=GS A0A3Q1MKH9/295-489 DE Mitochondrial Rho GTPase #=GS A0A3Q1MKH9/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Bovinae; Bos; Bos taurus; #=GS A0A2Y9Q1G8/295-489 AC A0A2Y9Q1G8 #=GS A0A2Y9Q1G8/295-489 OS Delphinapterus leucas #=GS A0A2Y9Q1G8/295-489 DE Mitochondrial Rho GTPase #=GS A0A2Y9Q1G8/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Monodontidae; Delphinapterus; Delphinapterus leucas; #=GS F7ENK1/288-482 AC F7ENK1 #=GS F7ENK1/288-482 OS Ornithorhynchus anatinus #=GS F7ENK1/288-482 DE Mitochondrial Rho GTPase #=GS F7ENK1/288-482 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Monotremata; Ornithorhynchidae; Ornithorhynchus; Ornithorhynchus anatinus; #=GS A0A2J8LIX8/282-476 AC A0A2J8LIX8 #=GS A0A2J8LIX8/282-476 OS Pan troglodytes #=GS A0A2J8LIX8/282-476 DE Mitochondrial Rho GTPase #=GS A0A2J8LIX8/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Pan; Pan troglodytes; #=GS A0A2K6R272/252-446 AC A0A2K6R272 #=GS A0A2K6R272/252-446 OS Rhinopithecus roxellana #=GS A0A2K6R272/252-446 DE Mitochondrial Rho GTPase #=GS A0A2K6R272/252-446 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Rhinopithecus; Rhinopithecus roxellana; #=GS A0A2Y9T3L6/300-494 AC A0A2Y9T3L6 #=GS A0A2Y9T3L6/300-494 OS Physeter catodon #=GS A0A2Y9T3L6/300-494 DE Mitochondrial Rho GTPase #=GS A0A2Y9T3L6/300-494 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A455BXW7/378-572 AC A0A455BXW7 #=GS A0A455BXW7/378-572 OS Physeter catodon #=GS A0A455BXW7/378-572 DE mitochondrial Rho GTPase 1 isoform X5 #=GS A0A455BXW7/378-572 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A452ET91/295-489 AC A0A452ET91 #=GS A0A452ET91/295-489 OS Capra hircus #=GS A0A452ET91/295-489 DE Mitochondrial Rho GTPase #=GS A0A452ET91/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Caprinae; Capra; Capra hircus; #=GS A0A2K5WGS8/295-489 AC A0A2K5WGS8 #=GS A0A2K5WGS8/295-489 OS Macaca fascicularis #=GS A0A2K5WGS8/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K5WGS8/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca fascicularis; #=GS A0A151N2I7/282-476 AC A0A151N2I7 #=GS A0A151N2I7/282-476 OS Alligator mississippiensis #=GS A0A151N2I7/282-476 DE Mitochondrial Rho GTPase #=GS A0A151N2I7/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Crocodylia; Alligatoridae; Alligatorinae; Alligator; Alligator mississippiensis; #=GS A0A2K6DZ80/266-460 AC A0A2K6DZ80 #=GS A0A2K6DZ80/266-460 OS Macaca nemestrina #=GS A0A2K6DZ80/266-460 DE Mitochondrial Rho GTPase #=GS A0A2K6DZ80/266-460 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca nemestrina; #=GS A0A1S3WLN8/295-489 AC A0A1S3WLN8 #=GS A0A1S3WLN8/295-489 OS Erinaceus europaeus #=GS A0A1S3WLN8/295-489 DE Mitochondrial Rho GTPase #=GS A0A1S3WLN8/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Eulipotyphla; Erinaceidae; Erinaceinae; Erinaceus; Erinaceus europaeus; #=GS A0A2K6EYI5/283-477 AC A0A2K6EYI5 #=GS A0A2K6EYI5/283-477 OS Propithecus coquereli #=GS A0A2K6EYI5/283-477 DE Mitochondrial Rho GTPase #=GS A0A2K6EYI5/283-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Strepsirrhini; Lemuriformes; Indriidae; Propithecus; Propithecus coquereli; #=GS G7NGU1/295-489 AC G7NGU1 #=GS G7NGU1/295-489 OS Macaca mulatta #=GS G7NGU1/295-489 DE Mitochondrial Rho GTPase #=GS G7NGU1/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca mulatta; #=GS A0A2U3ZEY2/261-455 AC A0A2U3ZEY2 #=GS A0A2U3ZEY2/261-455 OS Odobenus rosmarus divergens #=GS A0A2U3ZEY2/261-455 DE Mitochondrial Rho GTPase #=GS A0A2U3ZEY2/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Odobenidae; Odobenus; Odobenus rosmarus; Odobenus rosmarus divergens; #=GS A0A3Q1M400/295-489 AC A0A3Q1M400 #=GS A0A3Q1M400/295-489 OS Bos taurus #=GS A0A3Q1M400/295-489 DE Mitochondrial Rho GTPase #=GS A0A3Q1M400/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Bovinae; Bos; Bos taurus; #=GS A0A1S3A853/295-489 AC A0A1S3A853 #=GS A0A1S3A853/295-489 OS Erinaceus europaeus #=GS A0A1S3A853/295-489 DE Mitochondrial Rho GTPase #=GS A0A1S3A853/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Eulipotyphla; Erinaceidae; Erinaceinae; Erinaceus; Erinaceus europaeus; #=GS A0A2Y9K5S0/295-489 AC A0A2Y9K5S0 #=GS A0A2Y9K5S0/295-489 OS Enhydra lutris kenyoni #=GS A0A2Y9K5S0/295-489 DE Mitochondrial Rho GTPase #=GS A0A2Y9K5S0/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Mustelidae; Lutrinae; Enhydra; Enhydra lutris; Enhydra lutris kenyoni; #=GS A0A2I3TWP7/295-489 AC A0A2I3TWP7 #=GS A0A2I3TWP7/295-489 OS Pan troglodytes #=GS A0A2I3TWP7/295-489 DE Ras homolog family member T1 #=GS A0A2I3TWP7/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Pan; Pan troglodytes; #=GS A0A286Y3M8/295-489 AC A0A286Y3M8 #=GS A0A286Y3M8/295-489 OS Cavia porcellus #=GS A0A286Y3M8/295-489 DE Mitochondrial Rho GTPase #=GS A0A286Y3M8/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Rodentia; Hystricomorpha; Caviidae; Cavia; Cavia porcellus; #=GS F1NSQ4/282-476 AC F1NSQ4 #=GS F1NSQ4/282-476 OS Gallus gallus #=GS F1NSQ4/282-476 DE Mitochondrial Rho GTPase #=GS F1NSQ4/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Galloanserae; Galliformes; Phasianidae; Phasianinae; Gallus; Gallus gallus; #=GS A0A3Q2HE92/295-489 AC A0A3Q2HE92 #=GS A0A3Q2HE92/295-489 OS Equus caballus #=GS A0A3Q2HE92/295-489 DE Mitochondrial Rho GTPase #=GS A0A3Q2HE92/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Perissodactyla; Equidae; Equus; Equus; Equus caballus; #=GS A0A3Q2I0K1/295-489 AC A0A3Q2I0K1 #=GS A0A3Q2I0K1/295-489 OS Equus caballus #=GS A0A3Q2I0K1/295-489 DE Mitochondrial Rho GTPase #=GS A0A3Q2I0K1/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Perissodactyla; Equidae; Equus; Equus; Equus caballus; #=GS A0A452UJ27/276-470 AC A0A452UJ27 #=GS A0A452UJ27/276-470 OS Ursus maritimus #=GS A0A452UJ27/276-470 DE Mitochondrial Rho GTPase #=GS A0A452UJ27/276-470 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Ursidae; Ursus; Ursus maritimus; #=GS A0A384CFN9/285-479 AC A0A384CFN9 #=GS A0A384CFN9/285-479 OS Ursus maritimus #=GS A0A384CFN9/285-479 DE Mitochondrial Rho GTPase #=GS A0A384CFN9/285-479 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Ursidae; Ursus; Ursus maritimus; #=GS A0A2K6DZA7/249-443 AC A0A2K6DZA7 #=GS A0A2K6DZA7/249-443 OS Macaca nemestrina #=GS A0A2K6DZA7/249-443 DE Mitochondrial Rho GTPase #=GS A0A2K6DZA7/249-443 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca nemestrina; #=GS U3F887/282-476 AC U3F887 #=GS U3F887/282-476 OS Callithrix jacchus #=GS U3F887/282-476 DE Mitochondrial Rho GTPase #=GS U3F887/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Callitrichinae; Callithrix; Callithrix; Callithrix jacchus; #=GS A0A2K6EYH3/295-489 AC A0A2K6EYH3 #=GS A0A2K6EYH3/295-489 OS Propithecus coquereli #=GS A0A2K6EYH3/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K6EYH3/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Strepsirrhini; Lemuriformes; Indriidae; Propithecus; Propithecus coquereli; #=GS F7I728/295-489 AC F7I728 #=GS F7I728/295-489 OS Callithrix jacchus #=GS F7I728/295-489 DE Mitochondrial Rho GTPase #=GS F7I728/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Callitrichinae; Callithrix; Callithrix; Callithrix jacchus; #=GS A0A2K5QAR4/282-476 AC A0A2K5QAR4 #=GS A0A2K5QAR4/282-476 OS Cebus capucinus imitator #=GS A0A2K5QAR4/282-476 DE Mitochondrial Rho GTPase #=GS A0A2K5QAR4/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Cebinae; Cebus; Cebus capucinus; Cebus capucinus imitator; #=GS A0A2U3ZEY5/281-475 AC A0A2U3ZEY5 #=GS A0A2U3ZEY5/281-475 OS Odobenus rosmarus divergens #=GS A0A2U3ZEY5/281-475 DE Mitochondrial Rho GTPase #=GS A0A2U3ZEY5/281-475 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Odobenidae; Odobenus; Odobenus rosmarus; Odobenus rosmarus divergens; #=GS A0A3Q0DMS7/261-455 AC A0A3Q0DMS7 #=GS A0A3Q0DMS7/261-455 OS Carlito syrichta #=GS A0A3Q0DMS7/261-455 DE Mitochondrial Rho GTPase #=GS A0A3Q0DMS7/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Tarsiiformes; Tarsiidae; Carlito; Carlito syrichta; #=GS A0A2I0M7F8/472-666 AC A0A2I0M7F8 #=GS A0A2I0M7F8/472-666 OS Columba livia #=GS A0A2I0M7F8/472-666 DE Ras homolog family member T1, transcript variant X2 #=GS A0A2I0M7F8/472-666 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Columbiformes; Columbidae; Columba; Columba livia; #=GS A0A2Y9JVA6/275-469 AC A0A2Y9JVA6 #=GS A0A2Y9JVA6/275-469 OS Enhydra lutris kenyoni #=GS A0A2Y9JVA6/275-469 DE Mitochondrial Rho GTPase #=GS A0A2Y9JVA6/275-469 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Mustelidae; Lutrinae; Enhydra; Enhydra lutris; Enhydra lutris kenyoni; #=GS A0A455CA08/378-572 AC A0A455CA08 #=GS A0A455CA08/378-572 OS Physeter catodon #=GS A0A455CA08/378-572 DE mitochondrial Rho GTPase 1 isoform X6 #=GS A0A455CA08/378-572 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A455C1M9/378-572 AC A0A455C1M9 #=GS A0A455C1M9/378-572 OS Physeter catodon #=GS A0A455C1M9/378-572 DE mitochondrial Rho GTPase 1 isoform X2 #=GS A0A455C1M9/378-572 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A2U4ANW1/295-489 AC A0A2U4ANW1 #=GS A0A2U4ANW1/295-489 OS Tursiops truncatus #=GS A0A2U4ANW1/295-489 DE Mitochondrial Rho GTPase #=GS A0A2U4ANW1/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Delphinidae; Tursiops; Tursiops truncatus; #=GS A0A2U4ANW6/295-489 AC A0A2U4ANW6 #=GS A0A2U4ANW6/295-489 OS Tursiops truncatus #=GS A0A2U4ANW6/295-489 DE Mitochondrial Rho GTPase #=GS A0A2U4ANW6/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Delphinidae; Tursiops; Tursiops truncatus; #=GS A0A2I2ZJJ7/282-476 AC A0A2I2ZJJ7 #=GS A0A2I2ZJJ7/282-476 OS Gorilla gorilla gorilla #=GS A0A2I2ZJJ7/282-476 DE Mitochondrial Rho GTPase #=GS A0A2I2ZJJ7/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Gorilla; Gorilla gorilla; Gorilla gorilla gorilla; #=GS A0A2I2ZEP6/295-489 AC A0A2I2ZEP6 #=GS A0A2I2ZEP6/295-489 OS Gorilla gorilla gorilla #=GS A0A2I2ZEP6/295-489 DE Mitochondrial Rho GTPase #=GS A0A2I2ZEP6/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Gorilla; Gorilla gorilla; Gorilla gorilla gorilla; #=GS A0A2K5WGU1/295-489 AC A0A2K5WGU1 #=GS A0A2K5WGU1/295-489 OS Macaca fascicularis #=GS A0A2K5WGU1/295-489 DE Uncharacterized protein #=GS A0A2K5WGU1/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca fascicularis; #=GS A0A2K6KD26/295-489 AC A0A2K6KD26 #=GS A0A2K6KD26/295-489 OS Rhinopithecus bieti #=GS A0A2K6KD26/295-489 DE Uncharacterized protein #=GS A0A2K6KD26/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Rhinopithecus; Rhinopithecus bieti; #=GS A0A2K6KCT8/277-471 AC A0A2K6KCT8 #=GS A0A2K6KCT8/277-471 OS Rhinopithecus bieti #=GS A0A2K6KCT8/277-471 DE Mitochondrial Rho GTPase #=GS A0A2K6KCT8/277-471 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Rhinopithecus; Rhinopithecus bieti; #=GS A0A384AS61/261-455 AC A0A384AS61 #=GS A0A384AS61/261-455 OS Balaenoptera acutorostrata scammoni #=GS A0A384AS61/261-455 DE Mitochondrial Rho GTPase #=GS A0A384AS61/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Mysticeti; Balaenopteridae; Balaenoptera; Balaenoptera acutorostrata; Balaenoptera acutorostrata scammoni; #=GS A0A3Q7WKB7/295-489 AC A0A3Q7WKB7 #=GS A0A3Q7WKB7/295-489 OS Ursus arctos horribilis #=GS A0A3Q7WKB7/295-489 DE Mitochondrial Rho GTPase #=GS A0A3Q7WKB7/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Ursidae; Ursus; Ursus arctos; Ursus arctos horribilis; #=GS A0A3Q7Y0E3/261-455 AC A0A3Q7Y0E3 #=GS A0A3Q7Y0E3/261-455 OS Ursus arctos horribilis #=GS A0A3Q7Y0E3/261-455 DE Mitochondrial Rho GTPase #=GS A0A3Q7Y0E3/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Ursidae; Ursus; Ursus arctos; Ursus arctos horribilis; #=GS A0A384AS95/261-455 AC A0A384AS95 #=GS A0A384AS95/261-455 OS Balaenoptera acutorostrata scammoni #=GS A0A384AS95/261-455 DE Mitochondrial Rho GTPase #=GS A0A384AS95/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Mysticeti; Balaenopteridae; Balaenoptera; Balaenoptera acutorostrata; Balaenoptera acutorostrata scammoni; #=GS A0A384AS34/275-469 AC A0A384AS34 #=GS A0A384AS34/275-469 OS Balaenoptera acutorostrata scammoni #=GS A0A384AS34/275-469 DE Mitochondrial Rho GTPase #=GS A0A384AS34/275-469 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Mysticeti; Balaenopteridae; Balaenoptera; Balaenoptera acutorostrata; Balaenoptera acutorostrata scammoni; #=GS A0A2K5QAK5/295-489 AC A0A2K5QAK5 #=GS A0A2K5QAK5/295-489 OS Cebus capucinus imitator #=GS A0A2K5QAK5/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K5QAK5/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Cebinae; Cebus; Cebus capucinus; Cebus capucinus imitator; #=GS A0A2Y9JVA1/295-489 AC A0A2Y9JVA1 #=GS A0A2Y9JVA1/295-489 OS Enhydra lutris kenyoni #=GS A0A2Y9JVA1/295-489 DE Mitochondrial Rho GTPase #=GS A0A2Y9JVA1/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Mustelidae; Lutrinae; Enhydra; Enhydra lutris; Enhydra lutris kenyoni; #=GS H0VB69/295-489 AC H0VB69 #=GS H0VB69/295-489 OS Cavia porcellus #=GS H0VB69/295-489 DE Mitochondrial Rho GTPase #=GS H0VB69/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Rodentia; Hystricomorpha; Caviidae; Cavia; Cavia porcellus; #=GS H9GFJ7/299-493 AC H9GFJ7 #=GS H9GFJ7/299-493 OS Anolis carolinensis #=GS H9GFJ7/299-493 DE Mitochondrial Rho GTPase #=GS H9GFJ7/299-493 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Lepidosauria; Squamata; Iguania; Dactyloidae; Anolis; Anolis carolinensis; #=GS A0A2Y9E225/295-489 AC A0A2Y9E225 #=GS A0A2Y9E225/295-489 OS Trichechus manatus latirostris #=GS A0A2Y9E225/295-489 DE Mitochondrial Rho GTPase #=GS A0A2Y9E225/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Afrotheria; Sirenia; Trichechidae; Trichechus; Trichechus manatus; Trichechus manatus latirostris; #=GS A0A3Q2GSV3/295-489 AC A0A3Q2GSV3 #=GS A0A3Q2GSV3/295-489 OS Equus caballus #=GS A0A3Q2GSV3/295-489 DE Ras homolog family member T1 #=GS A0A3Q2GSV3/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Perissodactyla; Equidae; Equus; Equus; Equus caballus; #=GS A0A286ZWW1/295-489 AC A0A286ZWW1 #=GS A0A286ZWW1/295-489 OS Sus scrofa #=GS A0A286ZWW1/295-489 DE Mitochondrial Rho GTPase #=GS A0A286ZWW1/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Suina; Suidae; Sus; Sus scrofa; #=GS A0A2K6KD17/282-476 AC A0A2K6KD17 #=GS A0A2K6KD17/282-476 OS Rhinopithecus bieti #=GS A0A2K6KD17/282-476 DE Mitochondrial Rho GTPase #=GS A0A2K6KD17/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Rhinopithecus; Rhinopithecus bieti; #=GS U3CXX6/282-476 AC U3CXX6 #=GS U3CXX6/282-476 OS Callithrix jacchus #=GS U3CXX6/282-476 DE Mitochondrial Rho GTPase #=GS U3CXX6/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Callitrichinae; Callithrix; Callithrix; Callithrix jacchus; #=GS A0A384CFI0/285-479 AC A0A384CFI0 #=GS A0A384CFI0/285-479 OS Ursus maritimus #=GS A0A384CFI0/285-479 DE Mitochondrial Rho GTPase #=GS A0A384CFI0/285-479 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Ursidae; Ursus; Ursus maritimus; #=GS A0A2K6UDC2/413-607 AC A0A2K6UDC2 #=GS A0A2K6UDC2/413-607 OS Saimiri boliviensis boliviensis #=GS A0A2K6UDC2/413-607 DE Ras homolog family member T1 #=GS A0A2K6UDC2/413-607 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Saimiriinae; Saimiri; Saimiri boliviensis; Saimiri boliviensis boliviensis; #=GS F6V3N6/282-476 AC F6V3N6 #=GS F6V3N6/282-476 OS Macaca mulatta #=GS F6V3N6/282-476 DE Uncharacterized protein #=GS F6V3N6/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca mulatta; #=GS A0A1D5R439/269-463 AC A0A1D5R439 #=GS A0A1D5R439/269-463 OS Macaca mulatta #=GS A0A1D5R439/269-463 DE Mitochondrial Rho GTPase #=GS A0A1D5R439/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca mulatta; #=GS A0A286Y1E2/295-489 AC A0A286Y1E2 #=GS A0A286Y1E2/295-489 OS Cavia porcellus #=GS A0A286Y1E2/295-489 DE Uncharacterized protein #=GS A0A286Y1E2/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Rodentia; Hystricomorpha; Caviidae; Cavia; Cavia porcellus; #=GS A0A340WU10/287-481 AC A0A340WU10 #=GS A0A340WU10/287-481 OS Lipotes vexillifer #=GS A0A340WU10/287-481 DE Mitochondrial Rho GTPase #=GS A0A340WU10/287-481 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Lipotidae; Lipotes; Lipotes vexillifer; #=GS A0A2R8ZZU1/295-489 AC A0A2R8ZZU1 #=GS A0A2R8ZZU1/295-489 OS Pan paniscus #=GS A0A2R8ZZU1/295-489 DE Mitochondrial Rho GTPase #=GS A0A2R8ZZU1/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Pan; Pan paniscus; #=GS A0A2K5Z8B0/295-489 AC A0A2K5Z8B0 #=GS A0A2K5Z8B0/295-489 OS Mandrillus leucophaeus #=GS A0A2K5Z8B0/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K5Z8B0/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Mandrillus; Mandrillus leucophaeus; #=GS A0A2K5WGS5/295-489 AC A0A2K5WGS5 #=GS A0A2K5WGS5/295-489 OS Macaca fascicularis #=GS A0A2K5WGS5/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K5WGS5/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca fascicularis; #=GS K7D6R4/295-489 AC K7D6R4 #=GS K7D6R4/295-489 OS Pan troglodytes #=GS K7D6R4/295-489 DE Mitochondrial Rho GTPase #=GS K7D6R4/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Pan; Pan troglodytes; #=GS A0A3Q7X7P5/295-489 AC A0A3Q7X7P5 #=GS A0A3Q7X7P5/295-489 OS Ursus arctos horribilis #=GS A0A3Q7X7P5/295-489 DE Mitochondrial Rho GTPase #=GS A0A3Q7X7P5/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Ursidae; Ursus; Ursus arctos; Ursus arctos horribilis; #=GS A0A2K6EYH6/282-476 AC A0A2K6EYH6 #=GS A0A2K6EYH6/282-476 OS Propithecus coquereli #=GS A0A2K6EYH6/282-476 DE Mitochondrial Rho GTPase #=GS A0A2K6EYH6/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Strepsirrhini; Lemuriformes; Indriidae; Propithecus; Propithecus coquereli; #=GS F7I725/295-489 AC F7I725 #=GS F7I725/295-489 OS Callithrix jacchus #=GS F7I725/295-489 DE Mitochondrial Rho GTPase #=GS F7I725/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Callitrichinae; Callithrix; Callithrix; Callithrix jacchus; #=GS H9ENC6/282-476 AC H9ENC6 #=GS H9ENC6/282-476 OS Macaca mulatta #=GS H9ENC6/282-476 DE Mitochondrial Rho GTPase #=GS H9ENC6/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca mulatta; #=GS A0A2Y9Q243/295-489 AC A0A2Y9Q243 #=GS A0A2Y9Q243/295-489 OS Delphinapterus leucas #=GS A0A2Y9Q243/295-489 DE Mitochondrial Rho GTPase #=GS A0A2Y9Q243/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Monodontidae; Delphinapterus; Delphinapterus leucas; #=GS A0A1S3WL28/295-489 AC A0A1S3WL28 #=GS A0A1S3WL28/295-489 OS Erinaceus europaeus #=GS A0A1S3WL28/295-489 DE Mitochondrial Rho GTPase #=GS A0A1S3WL28/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Eulipotyphla; Erinaceidae; Erinaceinae; Erinaceus; Erinaceus europaeus; #=GS A0A2Y9JUZ6/295-489 AC A0A2Y9JUZ6 #=GS A0A2Y9JUZ6/295-489 OS Enhydra lutris kenyoni #=GS A0A2Y9JUZ6/295-489 DE Mitochondrial Rho GTPase #=GS A0A2Y9JUZ6/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Mustelidae; Lutrinae; Enhydra; Enhydra lutris; Enhydra lutris kenyoni; #=GS A0A2K5MLC9/295-489 AC A0A2K5MLC9 #=GS A0A2K5MLC9/295-489 OS Cercocebus atys #=GS A0A2K5MLC9/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K5MLC9/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Cercocebus; Cercocebus atys; #=GS A0A2I2UK72/261-455 AC A0A2I2UK72 #=GS A0A2I2UK72/261-455 OS Felis catus #=GS A0A2I2UK72/261-455 DE Mitochondrial Rho GTPase #=GS A0A2I2UK72/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Feliformia; Felidae; Felinae; Felis; Felis catus; #=GS A0A2K6R288/280-474 AC A0A2K6R288 #=GS A0A2K6R288/280-474 OS Rhinopithecus roxellana #=GS A0A2K6R288/280-474 DE Mitochondrial Rho GTPase #=GS A0A2K6R288/280-474 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Rhinopithecus; Rhinopithecus roxellana; #=GS A0A340WSF4/295-489 AC A0A340WSF4 #=GS A0A340WSF4/295-489 OS Lipotes vexillifer #=GS A0A340WSF4/295-489 DE Mitochondrial Rho GTPase #=GS A0A340WSF4/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Lipotidae; Lipotes; Lipotes vexillifer; #=GS A0A1V4KVU6/282-476 AC A0A1V4KVU6 #=GS A0A1V4KVU6/282-476 OS Patagioenas fasciata monilis #=GS A0A1V4KVU6/282-476 DE Mitochondrial Rho GTPase #=GS A0A1V4KVU6/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Columbiformes; Columbidae; Patagioenas; Patagioenas fasciata; Patagioenas fasciata monilis; #=GS A0A2Y9RJS6/295-489 AC A0A2Y9RJS6 #=GS A0A2Y9RJS6/295-489 OS Trichechus manatus latirostris #=GS A0A2Y9RJS6/295-489 DE Mitochondrial Rho GTPase #=GS A0A2Y9RJS6/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Afrotheria; Sirenia; Trichechidae; Trichechus; Trichechus manatus; Trichechus manatus latirostris; #=GS F7BQG6/276-470 AC F7BQG6 #=GS F7BQG6/276-470 OS Equus caballus #=GS F7BQG6/276-470 DE Mitochondrial Rho GTPase #=GS F7BQG6/276-470 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Perissodactyla; Equidae; Equus; Equus; Equus caballus; #=GS A0A2K5Z8B5/295-489 AC A0A2K5Z8B5 #=GS A0A2K5Z8B5/295-489 OS Mandrillus leucophaeus #=GS A0A2K5Z8B5/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K5Z8B5/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Mandrillus; Mandrillus leucophaeus; #=GS A0A287A1F4/261-455 AC A0A287A1F4 #=GS A0A287A1F4/261-455 OS Sus scrofa #=GS A0A287A1F4/261-455 DE Mitochondrial Rho GTPase #=GS A0A287A1F4/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Suina; Suidae; Sus; Sus scrofa; #=GS A0A2K5WGT8/282-476 AC A0A2K5WGT8 #=GS A0A2K5WGT8/282-476 OS Macaca fascicularis #=GS A0A2K5WGT8/282-476 DE Mitochondrial Rho GTPase #=GS A0A2K5WGT8/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca fascicularis; #=GS A0A2K6KD11/295-489 AC A0A2K6KD11 #=GS A0A2K6KD11/295-489 OS Rhinopithecus bieti #=GS A0A2K6KD11/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K6KD11/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Rhinopithecus; Rhinopithecus bieti; #=GS K7AT87/295-489 AC K7AT87 #=GS K7AT87/295-489 OS Pan troglodytes #=GS K7AT87/295-489 DE Mitochondrial Rho GTPase #=GS K7AT87/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Pan; Pan troglodytes; #=GS A0A286ZRP2/295-489 AC A0A286ZRP2 #=GS A0A286ZRP2/295-489 OS Sus scrofa #=GS A0A286ZRP2/295-489 DE Mitochondrial Rho GTPase #=GS A0A286ZRP2/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Suina; Suidae; Sus; Sus scrofa; #=GS A0A2K6UDB1/413-607 AC A0A2K6UDB1 #=GS A0A2K6UDB1/413-607 OS Saimiri boliviensis boliviensis #=GS A0A2K6UDB1/413-607 DE Ras homolog family member T1 #=GS A0A2K6UDB1/413-607 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Saimiriinae; Saimiri; Saimiri boliviensis; Saimiri boliviensis boliviensis; #=GS F6V3Q2/282-476 AC F6V3Q2 #=GS F6V3Q2/282-476 OS Macaca mulatta #=GS F6V3Q2/282-476 DE Mitochondrial Rho GTPase #=GS F6V3Q2/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca mulatta; #=GS A0A2K5QAP8/292-486 AC A0A2K5QAP8 #=GS A0A2K5QAP8/292-486 OS Cebus capucinus imitator #=GS A0A2K5QAP8/292-486 DE Mitochondrial Rho GTPase #=GS A0A2K5QAP8/292-486 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Cebinae; Cebus; Cebus capucinus; Cebus capucinus imitator; #=GS A0A2U3ZEY3/281-475 AC A0A2U3ZEY3 #=GS A0A2U3ZEY3/281-475 OS Odobenus rosmarus divergens #=GS A0A2U3ZEY3/281-475 DE Mitochondrial Rho GTPase #=GS A0A2U3ZEY3/281-475 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Odobenidae; Odobenus; Odobenus rosmarus; Odobenus rosmarus divergens; #=GS A0A2U3VW25/295-489 AC A0A2U3VW25 #=GS A0A2U3VW25/295-489 OS Odobenus rosmarus divergens #=GS A0A2U3VW25/295-489 DE Mitochondrial Rho GTPase #=GS A0A2U3VW25/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Odobenidae; Odobenus; Odobenus rosmarus; Odobenus rosmarus divergens; #=GS A0A3Q7RYF2/295-489 AC A0A3Q7RYF2 #=GS A0A3Q7RYF2/295-489 OS Vulpes vulpes #=GS A0A3Q7RYF2/295-489 DE Mitochondrial Rho GTPase #=GS A0A3Q7RYF2/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Canidae; Vulpes; Vulpes vulpes; #=GS A0A2Y9JZJ5/281-475 AC A0A2Y9JZJ5 #=GS A0A2Y9JZJ5/281-475 OS Enhydra lutris kenyoni #=GS A0A2Y9JZJ5/281-475 DE Mitochondrial Rho GTPase #=GS A0A2Y9JZJ5/281-475 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Mustelidae; Lutrinae; Enhydra; Enhydra lutris; Enhydra lutris kenyoni; #=GS A0A2K5MLD9/295-489 AC A0A2K5MLD9 #=GS A0A2K5MLD9/295-489 OS Cercocebus atys #=GS A0A2K5MLD9/295-489 DE Uncharacterized protein #=GS A0A2K5MLD9/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Cercocebus; Cercocebus atys; #=GS A0A337SGP4/295-489 AC A0A337SGP4 #=GS A0A337SGP4/295-489 OS Felis catus #=GS A0A337SGP4/295-489 DE Mitochondrial Rho GTPase #=GS A0A337SGP4/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Feliformia; Felidae; Felinae; Felis; Felis catus; #=GS A0A2R8ZW76/278-472 AC A0A2R8ZW76 #=GS A0A2R8ZW76/278-472 OS Pan paniscus #=GS A0A2R8ZW76/278-472 DE Mitochondrial Rho GTPase #=GS A0A2R8ZW76/278-472 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Pan; Pan paniscus; #=GS F1RKW4/295-489 AC F1RKW4 #=GS F1RKW4/295-489 OS Sus scrofa #=GS F1RKW4/295-489 DE Mitochondrial Rho GTPase #=GS F1RKW4/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Suina; Suidae; Sus; Sus scrofa; #=GS A0A2K5Z8A8/282-476 AC A0A2K5Z8A8 #=GS A0A2K5Z8A8/282-476 OS Mandrillus leucophaeus #=GS A0A2K5Z8A8/282-476 DE Mitochondrial Rho GTPase #=GS A0A2K5Z8A8/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Mandrillus; Mandrillus leucophaeus; #=GS G3QUU7/295-489 AC G3QUU7 #=GS G3QUU7/295-489 OS Gorilla gorilla gorilla #=GS G3QUU7/295-489 DE Ras homolog family member T1 #=GS G3QUU7/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Gorilla; Gorilla gorilla; Gorilla gorilla gorilla; #=GS G3UNY2/285-480 AC G3UNY2 #=GS G3UNY2/285-480 OS Meleagris gallopavo #=GS G3UNY2/285-480 DE Mitochondrial Rho GTPase #=GS G3UNY2/285-480 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Galloanserae; Galliformes; Phasianidae; Meleagridinae; Meleagris; Meleagris gallopavo; #=GS A0A3Q7Y6K4/295-489 AC A0A3Q7Y6K4 #=GS A0A3Q7Y6K4/295-489 OS Ursus arctos horribilis #=GS A0A3Q7Y6K4/295-489 DE Mitochondrial Rho GTPase #=GS A0A3Q7Y6K4/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Ursidae; Ursus; Ursus arctos; Ursus arctos horribilis; #=GS A0A2K6EYH9/295-489 AC A0A2K6EYH9 #=GS A0A2K6EYH9/295-489 OS Propithecus coquereli #=GS A0A2K6EYH9/295-489 DE Uncharacterized protein #=GS A0A2K6EYH9/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Strepsirrhini; Lemuriformes; Indriidae; Propithecus; Propithecus coquereli; #=GS A0A1U7T3A2/261-455 AC A0A1U7T3A2 #=GS A0A1U7T3A2/261-455 OS Carlito syrichta #=GS A0A1U7T3A2/261-455 DE Mitochondrial Rho GTPase #=GS A0A1U7T3A2/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Tarsiiformes; Tarsiidae; Carlito; Carlito syrichta; #=GS A0A1S3A8A6/261-455 AC A0A1S3A8A6 #=GS A0A1S3A8A6/261-455 OS Erinaceus europaeus #=GS A0A1S3A8A6/261-455 DE Mitochondrial Rho GTPase #=GS A0A1S3A8A6/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Eulipotyphla; Erinaceidae; Erinaceinae; Erinaceus; Erinaceus europaeus; #=GS A0A2Y9JZJ9/275-469 AC A0A2Y9JZJ9 #=GS A0A2Y9JZJ9/275-469 OS Enhydra lutris kenyoni #=GS A0A2Y9JZJ9/275-469 DE Mitochondrial Rho GTPase #=GS A0A2Y9JZJ9/275-469 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Mustelidae; Lutrinae; Enhydra; Enhydra lutris; Enhydra lutris kenyoni; #=GS A0A2K6R267/282-476 AC A0A2K6R267 #=GS A0A2K6R267/282-476 OS Rhinopithecus roxellana #=GS A0A2K6R267/282-476 DE Mitochondrial Rho GTPase #=GS A0A2K6R267/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Rhinopithecus; Rhinopithecus roxellana; #=GS A0A455BXX2/295-489 AC A0A455BXX2 #=GS A0A455BXX2/295-489 OS Physeter catodon #=GS A0A455BXX2/295-489 DE mitochondrial Rho GTPase 1 isoform X15 #=GS A0A455BXX2/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A2K5DU67/295-489 AC A0A2K5DU67 #=GS A0A2K5DU67/295-489 OS Aotus nancymaae #=GS A0A2K5DU67/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K5DU67/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Aotidae; Aotus; Aotus nancymaae; #=GS A0A2I3MN01/295-489 AC A0A2I3MN01 #=GS A0A2I3MN01/295-489 OS Papio anubis #=GS A0A2I3MN01/295-489 DE Mitochondrial Rho GTPase #=GS A0A2I3MN01/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Papio; Papio anubis; #=GS A0A096P3R7/295-489 AC A0A096P3R7 #=GS A0A096P3R7/295-489 OS Papio anubis #=GS A0A096P3R7/295-489 DE Mitochondrial Rho GTPase #=GS A0A096P3R7/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Papio; Papio anubis; #=GS A0A2I3MQD2/280-474 AC A0A2I3MQD2 #=GS A0A2I3MQD2/280-474 OS Papio anubis #=GS A0A2I3MQD2/280-474 DE Uncharacterized protein #=GS A0A2I3MQD2/280-474 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Papio; Papio anubis; #=GS A0A2R8ZXB7/282-476 AC A0A2R8ZXB7 #=GS A0A2R8ZXB7/282-476 OS Pan paniscus #=GS A0A2R8ZXB7/282-476 DE Mitochondrial Rho GTPase #=GS A0A2R8ZXB7/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Pan; Pan paniscus; #=GS A0A2U4ANW4/261-455 AC A0A2U4ANW4 #=GS A0A2U4ANW4/261-455 OS Tursiops truncatus #=GS A0A2U4ANW4/261-455 DE Mitochondrial Rho GTPase #=GS A0A2U4ANW4/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Delphinidae; Tursiops; Tursiops truncatus; #=GS A0A287CYA5/295-489 AC A0A287CYA5 #=GS A0A287CYA5/295-489 OS Ictidomys tridecemlineatus #=GS A0A287CYA5/295-489 DE Mitochondrial Rho GTPase #=GS A0A287CYA5/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Rodentia; Sciuromorpha; Sciuridae; Xerinae; Marmotini; Ictidomys; Ictidomys tridecemlineatus; #=GS A0A2K5WGT5/282-476 AC A0A2K5WGT5 #=GS A0A2K5WGT5/282-476 OS Macaca fascicularis #=GS A0A2K5WGT5/282-476 DE Mitochondrial Rho GTPase #=GS A0A2K5WGT5/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca fascicularis; #=GS A0A384CGQ2/285-479 AC A0A384CGQ2 #=GS A0A384CGQ2/285-479 OS Ursus maritimus #=GS A0A384CGQ2/285-479 DE Mitochondrial Rho GTPase #=GS A0A384CGQ2/285-479 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Ursidae; Ursus; Ursus maritimus; #=GS A0A2K6KCT1/295-489 AC A0A2K6KCT1 #=GS A0A2K6KCT1/295-489 OS Rhinopithecus bieti #=GS A0A2K6KCT1/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K6KCT1/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Rhinopithecus; Rhinopithecus bieti; #=GS A0A455C1N6/261-455 AC A0A455C1N6 #=GS A0A455C1N6/261-455 OS Physeter catodon #=GS A0A455C1N6/261-455 DE mitochondrial Rho GTPase 1 isoform X12 #=GS A0A455C1N6/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A2K6UDH6/292-486 AC A0A2K6UDH6 #=GS A0A2K6UDH6/292-486 OS Saimiri boliviensis boliviensis #=GS A0A2K6UDH6/292-486 DE Mitochondrial Rho GTPase #=GS A0A2K6UDH6/292-486 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Saimiriinae; Saimiri; Saimiri boliviensis; Saimiri boliviensis boliviensis; #=GS A0A3Q0G125/282-476 AC A0A3Q0G125 #=GS A0A3Q0G125/282-476 OS Alligator sinensis #=GS A0A3Q0G125/282-476 DE Mitochondrial Rho GTPase #=GS A0A3Q0G125/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Crocodylia; Alligatoridae; Alligatorinae; Alligator; Alligator sinensis; #=GS F6V3M4/282-476 AC F6V3M4 #=GS F6V3M4/282-476 OS Macaca mulatta #=GS F6V3M4/282-476 DE Uncharacterized protein #=GS F6V3M4/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca mulatta; #=GS A0A2K5QAN6/295-489 AC A0A2K5QAN6 #=GS A0A2K5QAN6/295-489 OS Cebus capucinus imitator #=GS A0A2K5QAN6/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K5QAN6/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Cebinae; Cebus; Cebus capucinus; Cebus capucinus imitator; #=GS A0A1U7SKE9/261-455 AC A0A1U7SKE9 #=GS A0A1U7SKE9/261-455 OS Carlito syrichta #=GS A0A1U7SKE9/261-455 DE Mitochondrial Rho GTPase #=GS A0A1U7SKE9/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Tarsiiformes; Tarsiidae; Carlito; Carlito syrichta; #=GS A0A2K5MLF1/282-476 AC A0A2K5MLF1 #=GS A0A2K5MLF1/282-476 OS Cercocebus atys #=GS A0A2K5MLF1/282-476 DE Mitochondrial Rho GTPase #=GS A0A2K5MLF1/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Cercocebus; Cercocebus atys; #=GS A0A2K6R2A8/252-446 AC A0A2K6R2A8 #=GS A0A2K6R2A8/252-446 OS Rhinopithecus roxellana #=GS A0A2K6R2A8/252-446 DE Mitochondrial Rho GTPase #=GS A0A2K6R2A8/252-446 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Rhinopithecus; Rhinopithecus roxellana; #=GS A0A2I3MAR7/295-489 AC A0A2I3MAR7 #=GS A0A2I3MAR7/295-489 OS Papio anubis #=GS A0A2I3MAR7/295-489 DE Mitochondrial Rho GTPase #=GS A0A2I3MAR7/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Papio; Papio anubis; #=GS A0A2K5DU59/295-489 AC A0A2K5DU59 #=GS A0A2K5DU59/295-489 OS Aotus nancymaae #=GS A0A2K5DU59/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K5DU59/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Aotidae; Aotus; Aotus nancymaae; #=GS I3NGH0/295-489 AC I3NGH0 #=GS I3NGH0/295-489 OS Ictidomys tridecemlineatus #=GS I3NGH0/295-489 DE Mitochondrial Rho GTPase #=GS I3NGH0/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Rodentia; Sciuromorpha; Sciuridae; Xerinae; Marmotini; Ictidomys; Ictidomys tridecemlineatus; #=GS A0A2K6DZB4/249-443 AC A0A2K6DZB4 #=GS A0A2K6DZB4/249-443 OS Macaca nemestrina #=GS A0A2K6DZB4/249-443 DE Mitochondrial Rho GTPase #=GS A0A2K6DZB4/249-443 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca nemestrina; #=GS H9ENC4/282-476 AC H9ENC4 #=GS H9ENC4/282-476 OS Macaca mulatta #=GS H9ENC4/282-476 DE Mitochondrial Rho GTPase #=GS H9ENC4/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca mulatta; #=GS A0A2K6UDJ7/282-476 AC A0A2K6UDJ7 #=GS A0A2K6UDJ7/282-476 OS Saimiri boliviensis boliviensis #=GS A0A2K6UDJ7/282-476 DE Mitochondrial Rho GTPase #=GS A0A2K6UDJ7/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Saimiriinae; Saimiri; Saimiri boliviensis; Saimiri boliviensis boliviensis; #=GS A0A2K6UDI4/282-476 AC A0A2K6UDI4 #=GS A0A2K6UDI4/282-476 OS Saimiri boliviensis boliviensis #=GS A0A2K6UDI4/282-476 DE Mitochondrial Rho GTPase #=GS A0A2K6UDI4/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Saimiriinae; Saimiri; Saimiri boliviensis; Saimiri boliviensis boliviensis; #=GS A0A3Q0FWY9/261-455 AC A0A3Q0FWY9 #=GS A0A3Q0FWY9/261-455 OS Alligator sinensis #=GS A0A3Q0FWY9/261-455 DE Mitochondrial Rho GTPase #=GS A0A3Q0FWY9/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Crocodylia; Alligatoridae; Alligatorinae; Alligator; Alligator sinensis; #=GS A0A3Q0G1Z0/282-476 AC A0A3Q0G1Z0 #=GS A0A3Q0G1Z0/282-476 OS Alligator sinensis #=GS A0A3Q0G1Z0/282-476 DE Mitochondrial Rho GTPase #=GS A0A3Q0G1Z0/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Crocodylia; Alligatoridae; Alligatorinae; Alligator; Alligator sinensis; #=GS F7I9F0/288-482 AC F7I9F0 #=GS F7I9F0/288-482 OS Callithrix jacchus #=GS F7I9F0/288-482 DE Mitochondrial Rho GTPase #=GS F7I9F0/288-482 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Callitrichinae; Callithrix; Callithrix; Callithrix jacchus; #=GS A0A1D5QY45/261-455 AC A0A1D5QY45 #=GS A0A1D5QY45/261-455 OS Macaca mulatta #=GS A0A1D5QY45/261-455 DE Mitochondrial Rho GTPase #=GS A0A1D5QY45/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca mulatta; #=GS W5PP38/261-455 AC W5PP38 #=GS W5PP38/261-455 OS Ovis aries #=GS W5PP38/261-455 DE Mitochondrial Rho GTPase #=GS W5PP38/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Caprinae; Ovis; Ovis aries; #=GS A0A2I0M7G3/472-666 AC A0A2I0M7G3 #=GS A0A2I0M7G3/472-666 OS Columba livia #=GS A0A2I0M7G3/472-666 DE Ras homolog family member T1, transcript variant X1 #=GS A0A2I0M7G3/472-666 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Columbiformes; Columbidae; Columba; Columba livia; #=GS A0A2Y9SXM0/295-489 AC A0A2Y9SXM0 #=GS A0A2Y9SXM0/295-489 OS Physeter catodon #=GS A0A2Y9SXM0/295-489 DE Mitochondrial Rho GTPase #=GS A0A2Y9SXM0/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A2Y9T5L4/378-572 AC A0A2Y9T5L4 #=GS A0A2Y9T5L4/378-572 OS Physeter catodon #=GS A0A2Y9T5L4/378-572 DE Mitochondrial Rho GTPase #=GS A0A2Y9T5L4/378-572 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A2Y9SXL5/295-489 AC A0A2Y9SXL5 #=GS A0A2Y9SXL5/295-489 OS Physeter catodon #=GS A0A2Y9SXL5/295-489 DE Mitochondrial Rho GTPase #=GS A0A2Y9SXL5/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A2I3N6B7/282-476 AC A0A2I3N6B7 #=GS A0A2I3N6B7/282-476 OS Papio anubis #=GS A0A2I3N6B7/282-476 DE Mitochondrial Rho GTPase #=GS A0A2I3N6B7/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Papio; Papio anubis; #=GS A0A340WZG1/295-489 AC A0A340WZG1 #=GS A0A340WZG1/295-489 OS Lipotes vexillifer #=GS A0A340WZG1/295-489 DE Mitochondrial Rho GTPase #=GS A0A340WZG1/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Lipotidae; Lipotes; Lipotes vexillifer; #=GS A0A2R8ZZW9/252-446 AC A0A2R8ZZW9 #=GS A0A2R8ZZW9/252-446 OS Pan paniscus #=GS A0A2R8ZZW9/252-446 DE Mitochondrial Rho GTPase #=GS A0A2R8ZZW9/252-446 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Pan; Pan paniscus; #=GS A0A2U4ANY9/295-489 AC A0A2U4ANY9 #=GS A0A2U4ANY9/295-489 OS Tursiops truncatus #=GS A0A2U4ANY9/295-489 DE Mitochondrial Rho GTPase #=GS A0A2U4ANY9/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Delphinidae; Tursiops; Tursiops truncatus; #=GS A0A2U4APB4/295-489 AC A0A2U4APB4 #=GS A0A2U4APB4/295-489 OS Tursiops truncatus #=GS A0A2U4APB4/295-489 DE Mitochondrial Rho GTPase #=GS A0A2U4APB4/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Delphinidae; Tursiops; Tursiops truncatus; #=GS A0A2K5Z897/295-489 AC A0A2K5Z897 #=GS A0A2K5Z897/295-489 OS Mandrillus leucophaeus #=GS A0A2K5Z897/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K5Z897/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Mandrillus; Mandrillus leucophaeus; #=GS A0A2I3G2I5/282-476 AC A0A2I3G2I5 #=GS A0A2I3G2I5/282-476 OS Nomascus leucogenys #=GS A0A2I3G2I5/282-476 DE Mitochondrial Rho GTPase #=GS A0A2I3G2I5/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hylobatidae; Nomascus; Nomascus leucogenys; #=GS J9NUJ0/295-489 AC J9NUJ0 #=GS J9NUJ0/295-489 OS Canis lupus familiaris #=GS J9NUJ0/295-489 DE Mitochondrial Rho GTPase #=GS J9NUJ0/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Canidae; Canis; Canis lupus; Canis lupus familiaris; #=GS G1LGA4/282-476 AC G1LGA4 #=GS G1LGA4/282-476 OS Ailuropoda melanoleuca #=GS G1LGA4/282-476 DE Mitochondrial Rho GTPase #=GS G1LGA4/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Ursidae; Ailuropoda; Ailuropoda melanoleuca; #=GS K7BZ39/295-489 AC K7BZ39 #=GS K7BZ39/295-489 OS Pan troglodytes #=GS K7BZ39/295-489 DE Mitochondrial Rho GTPase #=GS K7BZ39/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Pan; Pan troglodytes; #=GS A0A452H036/282-476 AC A0A452H036 #=GS A0A452H036/282-476 OS Gopherus agassizii #=GS A0A452H036/282-476 DE Mitochondrial Rho GTPase #=GS A0A452H036/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Testudines; Cryptodira; Testudinoidea; Testudinidae; Gopherus; Gopherus agassizii; #=GS A0A452QCE3/282-476 AC A0A452QCE3 #=GS A0A452QCE3/282-476 OS Ursus americanus #=GS A0A452QCE3/282-476 DE Mitochondrial Rho GTPase #=GS A0A452QCE3/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Ursidae; Ursus; Ursus americanus; #=GS A0A384AS66/261-455 AC A0A384AS66 #=GS A0A384AS66/261-455 OS Balaenoptera acutorostrata scammoni #=GS A0A384AS66/261-455 DE Mitochondrial Rho GTPase #=GS A0A384AS66/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Mysticeti; Balaenopteridae; Balaenoptera; Balaenoptera acutorostrata; Balaenoptera acutorostrata scammoni; #=GS F6WI26/282-476 AC F6WI26 #=GS F6WI26/282-476 OS Macaca mulatta #=GS F6WI26/282-476 DE Mitochondrial Rho GTPase #=GS F6WI26/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca mulatta; #=GS F7E515/269-463 AC F7E515 #=GS F7E515/269-463 OS Macaca mulatta #=GS F7E515/269-463 DE Mitochondrial Rho GTPase #=GS F7E515/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca mulatta; #=GS A0A2K5JDY1/295-489 AC A0A2K5JDY1 #=GS A0A2K5JDY1/295-489 OS Colobus angolensis palliatus #=GS A0A2K5JDY1/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K5JDY1/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Colobus; Colobus angolensis; Colobus angolensis palliatus; #=GS A0A2K5JE34/295-489 AC A0A2K5JE34 #=GS A0A2K5JE34/295-489 OS Colobus angolensis palliatus #=GS A0A2K5JE34/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K5JE34/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Colobus; Colobus angolensis; Colobus angolensis palliatus; #=GS A0A2K5JE28/295-489 AC A0A2K5JE28 #=GS A0A2K5JE28/295-489 OS Colobus angolensis palliatus #=GS A0A2K5JE28/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K5JE28/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Colobus; Colobus angolensis; Colobus angolensis palliatus; #=GS A0A2U3VW94/295-489 AC A0A2U3VW94 #=GS A0A2U3VW94/295-489 OS Odobenus rosmarus divergens #=GS A0A2U3VW94/295-489 DE Mitochondrial Rho GTPase #=GS A0A2U3VW94/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Odobenidae; Odobenus; Odobenus rosmarus; Odobenus rosmarus divergens; #=GS A0A3Q1MEL1/295-489 AC A0A3Q1MEL1 #=GS A0A3Q1MEL1/295-489 OS Bos taurus #=GS A0A3Q1MEL1/295-489 DE Mitochondrial Rho GTPase #=GS A0A3Q1MEL1/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Bovinae; Bos; Bos taurus; #=GS A0A2Y9Q237/295-489 AC A0A2Y9Q237 #=GS A0A2Y9Q237/295-489 OS Delphinapterus leucas #=GS A0A2Y9Q237/295-489 DE Mitochondrial Rho GTPase #=GS A0A2Y9Q237/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Monodontidae; Delphinapterus; Delphinapterus leucas; #=GS K7EU55/295-489 AC K7EU55 #=GS K7EU55/295-489 OS Pongo abelii #=GS K7EU55/295-489 DE Uncharacterized protein #=GS K7EU55/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Ponginae; Pongo; Pongo abelii; #=GS A0A2Y9T3M2/295-489 AC A0A2Y9T3M2 #=GS A0A2Y9T3M2/295-489 OS Physeter catodon #=GS A0A2Y9T3M2/295-489 DE Mitochondrial Rho GTPase #=GS A0A2Y9T3M2/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A2K5DUA4/295-489 AC A0A2K5DUA4 #=GS A0A2K5DUA4/295-489 OS Aotus nancymaae #=GS A0A2K5DUA4/295-489 DE Mitochondrial Rho GTPase #=GS A0A2K5DUA4/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Aotidae; Aotus; Aotus nancymaae; #=GS A0A2R8ZZV3/282-476 AC A0A2R8ZZV3 #=GS A0A2R8ZZV3/282-476 OS Pan paniscus #=GS A0A2R8ZZV3/282-476 DE Mitochondrial Rho GTPase #=GS A0A2R8ZZV3/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Pan; Pan paniscus; #=GS A0A287DC35/295-489 AC A0A287DC35 #=GS A0A287DC35/295-489 OS Ictidomys tridecemlineatus #=GS A0A287DC35/295-489 DE Mitochondrial Rho GTPase #=GS A0A287DC35/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Rodentia; Sciuromorpha; Sciuridae; Xerinae; Marmotini; Ictidomys; Ictidomys tridecemlineatus; #=GS G3UIM1/297-491 AC G3UIM1 #=GS G3UIM1/297-491 OS Loxodonta africana #=GS G3UIM1/297-491 DE Mitochondrial Rho GTPase #=GS G3UIM1/297-491 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Afrotheria; Proboscidea; Elephantidae; Loxodonta; Loxodonta africana; #=GS A0A2I3GXB1/282-476 AC A0A2I3GXB1 #=GS A0A2I3GXB1/282-476 OS Nomascus leucogenys #=GS A0A2I3GXB1/282-476 DE Mitochondrial Rho GTPase #=GS A0A2I3GXB1/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hylobatidae; Nomascus; Nomascus leucogenys; #=GS G3SDU7/295-489 AC G3SDU7 #=GS G3SDU7/295-489 OS Gorilla gorilla gorilla #=GS G3SDU7/295-489 DE Mitochondrial Rho GTPase #=GS G3SDU7/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Gorilla; Gorilla gorilla; Gorilla gorilla gorilla; #=GS A0A452QCG5/282-476 AC A0A452QCG5 #=GS A0A452QCG5/282-476 OS Ursus americanus #=GS A0A452QCG5/282-476 DE Mitochondrial Rho GTPase #=GS A0A452QCG5/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Ursidae; Ursus; Ursus americanus; #=GS A0A1D5QL28/269-463 AC A0A1D5QL28 #=GS A0A1D5QL28/269-463 OS Macaca mulatta #=GS A0A1D5QL28/269-463 DE Mitochondrial Rho GTPase #=GS A0A1D5QL28/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca mulatta; #=GS A0A2K5JE61/282-476 AC A0A2K5JE61 #=GS A0A2K5JE61/282-476 OS Colobus angolensis palliatus #=GS A0A2K5JE61/282-476 DE Mitochondrial Rho GTPase #=GS A0A2K5JE61/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Colobus; Colobus angolensis; Colobus angolensis palliatus; #=GS A0A3Q1M503/295-489 AC A0A3Q1M503 #=GS A0A3Q1M503/295-489 OS Bos taurus #=GS A0A3Q1M503/295-489 DE Mitochondrial Rho GTPase #=GS A0A3Q1M503/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Bovinae; Bos; Bos taurus; #=GS A0A2Y9Q7V7/295-489 AC A0A2Y9Q7V7 #=GS A0A2Y9Q7V7/295-489 OS Delphinapterus leucas #=GS A0A2Y9Q7V7/295-489 DE Mitochondrial Rho GTPase #=GS A0A2Y9Q7V7/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Monodontidae; Delphinapterus; Delphinapterus leucas; #=GS A0A2Y9Q7T9/295-489 AC A0A2Y9Q7T9 #=GS A0A2Y9Q7T9/295-489 OS Delphinapterus leucas #=GS A0A2Y9Q7T9/295-489 DE Mitochondrial Rho GTPase #=GS A0A2Y9Q7T9/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Monodontidae; Delphinapterus; Delphinapterus leucas; #=GS A0A2Y9Q7V1/295-489 AC A0A2Y9Q7V1 #=GS A0A2Y9Q7V1/295-489 OS Delphinapterus leucas #=GS A0A2Y9Q7V1/295-489 DE Mitochondrial Rho GTPase #=GS A0A2Y9Q7V1/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Monodontidae; Delphinapterus; Delphinapterus leucas; #=GS A0A3Q7SAD9/295-489 AC A0A3Q7SAD9 #=GS A0A3Q7SAD9/295-489 OS Vulpes vulpes #=GS A0A3Q7SAD9/295-489 DE Mitochondrial Rho GTPase #=GS A0A3Q7SAD9/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Canidae; Vulpes; Vulpes vulpes; #=GS A0A3Q7S7R7/295-489 AC A0A3Q7S7R7 #=GS A0A3Q7S7R7/295-489 OS Vulpes vulpes #=GS A0A3Q7S7R7/295-489 DE Mitochondrial Rho GTPase #=GS A0A3Q7S7R7/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Caniformia; Canidae; Vulpes; Vulpes vulpes; #=GS A0A2J8LIY5/282-476 AC A0A2J8LIY5 #=GS A0A2J8LIY5/282-476 OS Pan troglodytes #=GS A0A2J8LIY5/282-476 DE Mitochondrial Rho GTPase #=GS A0A2J8LIY5/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Pan; Pan troglodytes; #=GS A0A286XLE7/295-489 AC A0A286XLE7 #=GS A0A286XLE7/295-489 OS Cavia porcellus #=GS A0A286XLE7/295-489 DE Mitochondrial Rho GTPase #=GS A0A286XLE7/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Rodentia; Hystricomorpha; Caviidae; Cavia; Cavia porcellus; #=GS A0A2I2V273/295-489 AC A0A2I2V273 #=GS A0A2I2V273/295-489 OS Felis catus #=GS A0A2I2V273/295-489 DE Mitochondrial Rho GTPase #=GS A0A2I2V273/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Feliformia; Felidae; Felinae; Felis; Felis catus; #=GS A0A2K5DU66/282-476 AC A0A2K5DU66 #=GS A0A2K5DU66/282-476 OS Aotus nancymaae #=GS A0A2K5DU66/282-476 DE Mitochondrial Rho GTPase #=GS A0A2K5DU66/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Aotidae; Aotus; Aotus nancymaae; #=GS A0A2Y9E1M4/295-489 AC A0A2Y9E1M4 #=GS A0A2Y9E1M4/295-489 OS Trichechus manatus latirostris #=GS A0A2Y9E1M4/295-489 DE Mitochondrial Rho GTPase #=GS A0A2Y9E1M4/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Afrotheria; Sirenia; Trichechidae; Trichechus; Trichechus manatus; Trichechus manatus latirostris; #=GS A0A3Q2IDF9/328-522 AC A0A3Q2IDF9 #=GS A0A3Q2IDF9/328-522 OS Equus caballus #=GS A0A3Q2IDF9/328-522 DE Ras homolog family member T1 #=GS A0A3Q2IDF9/328-522 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Perissodactyla; Equidae; Equus; Equus; Equus caballus; #=GS A0A452ESX3/295-489 AC A0A452ESX3 #=GS A0A452ESX3/295-489 OS Capra hircus #=GS A0A452ESX3/295-489 DE Mitochondrial Rho GTPase #=GS A0A452ESX3/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Caprinae; Capra; Capra hircus; #=GS A0A2I3FUI4/282-476 AC A0A2I3FUI4 #=GS A0A2I3FUI4/282-476 OS Nomascus leucogenys #=GS A0A2I3FUI4/282-476 DE Mitochondrial Rho GTPase #=GS A0A2I3FUI4/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hylobatidae; Nomascus; Nomascus leucogenys; #=GS H2M2M3/282-476 AC H2M2M3 #=GS H2M2M3/282-476 OS Oryzias latipes #=GS H2M2M3/282-476 DE Mitochondrial Rho GTPase #=GS H2M2M3/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A3P9HBT0/282-476 AC A0A3P9HBT0 #=GS A0A3P9HBT0/282-476 OS Oryzias latipes #=GS A0A3P9HBT0/282-476 DE Mitochondrial Rho GTPase #=GS A0A3P9HBT0/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A1W5AIZ7/282-477 AC A0A1W5AIZ7 #=GS A0A1W5AIZ7/282-477 OS Scleropages formosus #=GS A0A1W5AIZ7/282-477 DE Mitochondrial Rho GTPase #=GS A0A1W5AIZ7/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Osteoglossiformes; Osteoglossidae; Scleropages; Scleropages formosus; #=GS A0A3P9MEH8/282-476 AC A0A3P9MEH8 #=GS A0A3P9MEH8/282-476 OS Oryzias latipes #=GS A0A3P9MEH8/282-476 DE Mitochondrial Rho GTPase #=GS A0A3P9MEH8/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A3Q4GF36/282-477 AC A0A3Q4GF36 #=GS A0A3Q4GF36/282-477 OS Neolamprologus brichardi #=GS A0A3Q4GF36/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q4GF36/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Lamprologini; Neolamprologus; Neolamprologus brichardi; #=GS A0A1S3RB92/282-477 AC A0A1S3RB92 #=GS A0A1S3RB92/282-477 OS Salmo salar #=GS A0A1S3RB92/282-477 DE Mitochondrial Rho GTPase #=GS A0A1S3RB92/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Salmoniformes; Salmonidae; Salmoninae; Salmo; Salmo salar; #=GS A0A1S3RBX0/282-477 AC A0A1S3RBX0 #=GS A0A1S3RBX0/282-477 OS Salmo salar #=GS A0A1S3RBX0/282-477 DE Mitochondrial Rho GTPase #=GS A0A1S3RBX0/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Salmoniformes; Salmonidae; Salmoninae; Salmo; Salmo salar; #=GS A0A3P9HBA0/282-476 AC A0A3P9HBA0 #=GS A0A3P9HBA0/282-476 OS Oryzias latipes #=GS A0A3P9HBA0/282-476 DE Mitochondrial Rho GTPase #=GS A0A3P9HBA0/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS W5KSM7/232-427 AC W5KSM7 #=GS W5KSM7/232-427 OS Astyanax mexicanus #=GS W5KSM7/232-427 DE Mitochondrial Rho GTPase #=GS W5KSM7/232-427 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Otomorpha; Ostariophysi; Characiphysae; Characiformes; Characoidei; Characidae; Stethaprioninae; Astyanax; Astyanax mexicanus; #=GS A0A3B4G7J3/250-445 AC A0A3B4G7J3 #=GS A0A3B4G7J3/250-445 OS Pundamilia nyererei #=GS A0A3B4G7J3/250-445 DE Mitochondrial Rho GTPase #=GS A0A3B4G7J3/250-445 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Pundamilia; Pundamilia nyererei; #=GS A0A3P9BXV9/282-477 AC A0A3P9BXV9 #=GS A0A3P9BXV9/282-477 OS Maylandia zebra #=GS A0A3P9BXV9/282-477 DE Mitochondrial Rho GTPase #=GS A0A3P9BXV9/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Maylandia; Maylandia zebra complex; Maylandia zebra; #=GS A0A3B4D3Q8/282-477 AC A0A3B4D3Q8 #=GS A0A3B4D3Q8/282-477 OS Pygocentrus nattereri #=GS A0A3B4D3Q8/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B4D3Q8/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Otomorpha; Ostariophysi; Characiphysae; Characiformes; Characoidei; Serrasalmidae; Pygocentrus; Pygocentrus nattereri; #=GS A0A0P7UD59/250-445 AC A0A0P7UD59 #=GS A0A0P7UD59/250-445 OS Scleropages formosus #=GS A0A0P7UD59/250-445 DE Mitochondrial Rho GTPase 1-A-like #=GS A0A0P7UD59/250-445 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Osteoglossiformes; Osteoglossidae; Scleropages; Scleropages formosus; #=GS A0A3Q4GF53/283-478 AC A0A3Q4GF53 #=GS A0A3Q4GF53/283-478 OS Neolamprologus brichardi #=GS A0A3Q4GF53/283-478 DE Mitochondrial Rho GTPase #=GS A0A3Q4GF53/283-478 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Lamprologini; Neolamprologus; Neolamprologus brichardi; #=GS G3PFL5/265-460 AC G3PFL5 #=GS G3PFL5/265-460 OS Gasterosteus aculeatus #=GS G3PFL5/265-460 DE Mitochondrial Rho GTPase #=GS G3PFL5/265-460 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Perciformes; Cottioidei; Gasterosteales; Gasterosteidae; Gasterosteus; Gasterosteus aculeatus; #=GS G3PFK9/283-478 AC G3PFK9 #=GS G3PFK9/283-478 OS Gasterosteus aculeatus #=GS G3PFK9/283-478 DE Mitochondrial Rho GTPase #=GS G3PFK9/283-478 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Perciformes; Cottioidei; Gasterosteales; Gasterosteidae; Gasterosteus; Gasterosteus aculeatus; #=GS A0A3B5R8U1/346-541 AC A0A3B5R8U1 #=GS A0A3B5R8U1/346-541 OS Xiphophorus maculatus #=GS A0A3B5R8U1/346-541 DE Mitochondrial Rho GTPase #=GS A0A3B5R8U1/346-541 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Xiphophorus; Xiphophorus maculatus; #=GS A0A3B4GB11/282-477 AC A0A3B4GB11 #=GS A0A3B4GB11/282-477 OS Pundamilia nyererei #=GS A0A3B4GB11/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B4GB11/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Pundamilia; Pundamilia nyererei; #=GS A0A3Q2CAP1/282-477 AC A0A3Q2CAP1 #=GS A0A3Q2CAP1/282-477 OS Cyprinodon variegatus #=GS A0A3Q2CAP1/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q2CAP1/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Cyprinodontidae; Cyprinodontinae; Cyprinodontini; Cyprinodon; Cyprinodon variegatus; #=GS A0A3Q2NSW1/277-471 AC A0A3Q2NSW1 #=GS A0A3Q2NSW1/277-471 OS Fundulus heteroclitus #=GS A0A3Q2NSW1/277-471 DE Uncharacterized protein #=GS A0A3Q2NSW1/277-471 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Fundulidae; Fundulus; Fundulus heteroclitus; #=GS A0A3P9IYA8/282-476 AC A0A3P9IYA8 #=GS A0A3P9IYA8/282-476 OS Oryzias latipes #=GS A0A3P9IYA8/282-476 DE Mitochondrial Rho GTPase #=GS A0A3P9IYA8/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A3B3DJT8/282-477 AC A0A3B3DJT8 #=GS A0A3B3DJT8/282-477 OS Oryzias melastigma #=GS A0A3B3DJT8/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B3DJT8/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias melastigma; #=GS A0A1W5AWH2/282-477 AC A0A1W5AWH2 #=GS A0A1W5AWH2/282-477 OS Scleropages formosus #=GS A0A1W5AWH2/282-477 DE Mitochondrial Rho GTPase #=GS A0A1W5AWH2/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Osteoglossiformes; Osteoglossidae; Scleropages; Scleropages formosus; #=GS A0A3B3YYC0/282-477 AC A0A3B3YYC0 #=GS A0A3B3YYC0/282-477 OS Poecilia mexicana #=GS A0A3B3YYC0/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B3YYC0/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poecilia; Poecilia mexicana; #=GS A0A3B3YX43/263-458 AC A0A3B3YX43 #=GS A0A3B3YX43/263-458 OS Poecilia mexicana #=GS A0A3B3YX43/263-458 DE Mitochondrial Rho GTPase #=GS A0A3B3YX43/263-458 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poecilia; Poecilia mexicana; #=GS A0A3B1JXV3/232-427 AC A0A3B1JXV3 #=GS A0A3B1JXV3/232-427 OS Astyanax mexicanus #=GS A0A3B1JXV3/232-427 DE Mitochondrial Rho GTPase #=GS A0A3B1JXV3/232-427 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Otomorpha; Ostariophysi; Characiphysae; Characiformes; Characoidei; Characidae; Stethaprioninae; Astyanax; Astyanax mexicanus; #=GS A0A1W5APG0/282-477 AC A0A1W5APG0 #=GS A0A1W5APG0/282-477 OS Scleropages formosus #=GS A0A1W5APG0/282-477 DE Mitochondrial Rho GTPase #=GS A0A1W5APG0/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Osteoglossiformes; Osteoglossidae; Scleropages; Scleropages formosus; #=GS A0A087Y4P7/282-477 AC A0A087Y4P7 #=GS A0A087Y4P7/282-477 OS Poecilia formosa #=GS A0A087Y4P7/282-477 DE Mitochondrial Rho GTPase #=GS A0A087Y4P7/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poecilia; Poecilia formosa; #=GS A0A3Q2CAI0/282-477 AC A0A3Q2CAI0 #=GS A0A3Q2CAI0/282-477 OS Cyprinodon variegatus #=GS A0A3Q2CAI0/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q2CAI0/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Cyprinodontidae; Cyprinodontinae; Cyprinodontini; Cyprinodon; Cyprinodon variegatus; #=GS A0A3P9L396/282-476 AC A0A3P9L396 #=GS A0A3P9L396/282-476 OS Oryzias latipes #=GS A0A3P9L396/282-476 DE Mitochondrial Rho GTPase #=GS A0A3P9L396/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A3B3IB36/282-476 AC A0A3B3IB36 #=GS A0A3B3IB36/282-476 OS Oryzias latipes #=GS A0A3B3IB36/282-476 DE Mitochondrial Rho GTPase #=GS A0A3B3IB36/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A3P9L318/282-476 AC A0A3P9L318 #=GS A0A3P9L318/282-476 OS Oryzias latipes #=GS A0A3P9L318/282-476 DE Mitochondrial Rho GTPase #=GS A0A3P9L318/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A3B3I5S0/282-476 AC A0A3B3I5S0 #=GS A0A3B3I5S0/282-476 OS Oryzias latipes #=GS A0A3B3I5S0/282-476 DE Mitochondrial Rho GTPase #=GS A0A3B3I5S0/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A3B1JCR8/261-456 AC A0A3B1JCR8 #=GS A0A3B1JCR8/261-456 OS Astyanax mexicanus #=GS A0A3B1JCR8/261-456 DE Mitochondrial Rho GTPase #=GS A0A3B1JCR8/261-456 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Otomorpha; Ostariophysi; Characiphysae; Characiformes; Characoidei; Characidae; Stethaprioninae; Astyanax; Astyanax mexicanus; #=GS A0A3Q3C3I1/270-465 AC A0A3Q3C3I1 #=GS A0A3Q3C3I1/270-465 OS Haplochromis burtoni #=GS A0A3Q3C3I1/270-465 DE Mitochondrial Rho GTPase #=GS A0A3Q3C3I1/270-465 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Haplochromis; Haplochromis burtoni; #=GS A0A3B3RU64/282-476 AC A0A3B3RU64 #=GS A0A3B3RU64/282-476 OS Paramormyrops kingsleyae #=GS A0A3B3RU64/282-476 DE Mitochondrial Rho GTPase #=GS A0A3B3RU64/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Osteoglossiformes; Mormyridae; Paramormyrops; Paramormyrops kingsleyae; #=GS A0A3B3RV70/282-476 AC A0A3B3RV70 #=GS A0A3B3RV70/282-476 OS Paramormyrops kingsleyae #=GS A0A3B3RV70/282-476 DE Mitochondrial Rho GTPase #=GS A0A3B3RV70/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Osteoglossiformes; Mormyridae; Paramormyrops; Paramormyrops kingsleyae; #=GS A0A3Q2DNF7/282-477 AC A0A3Q2DNF7 #=GS A0A3Q2DNF7/282-477 OS Cyprinodon variegatus #=GS A0A3Q2DNF7/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q2DNF7/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Cyprinodontidae; Cyprinodontinae; Cyprinodontini; Cyprinodon; Cyprinodon variegatus; #=GS A0A3B1K5K0/232-427 AC A0A3B1K5K0 #=GS A0A3B1K5K0/232-427 OS Astyanax mexicanus #=GS A0A3B1K5K0/232-427 DE Mitochondrial Rho GTPase #=GS A0A3B1K5K0/232-427 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Otomorpha; Ostariophysi; Characiphysae; Characiformes; Characoidei; Characidae; Stethaprioninae; Astyanax; Astyanax mexicanus; #=GS A0A0R4ILB0/173-368 AC A0A0R4ILB0 #=GS A0A0R4ILB0/173-368 OS Danio rerio #=GS A0A0R4ILB0/173-368 DE Mitochondrial Rho GTPase 1-A #=GS A0A0R4ILB0/173-368 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Otomorpha; Ostariophysi; Cypriniphysae; Cypriniformes; Cyprinoidei; Cyprinidae; Danio; Danio rerio; #=GS A0A3Q2Q8C6/261-455 AC A0A3Q2Q8C6 #=GS A0A3Q2Q8C6/261-455 OS Fundulus heteroclitus #=GS A0A3Q2Q8C6/261-455 DE Mitochondrial Rho GTPase #=GS A0A3Q2Q8C6/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Fundulidae; Fundulus; Fundulus heteroclitus; #=GS A0A3P8NAD0/282-477 AC A0A3P8NAD0 #=GS A0A3P8NAD0/282-477 OS Astatotilapia calliptera #=GS A0A3P8NAD0/282-477 DE Mitochondrial Rho GTPase #=GS A0A3P8NAD0/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Astatotilapia; Astatotilapia calliptera; #=GS I3J1I6/282-477 AC I3J1I6 #=GS I3J1I6/282-477 OS Oreochromis niloticus #=GS I3J1I6/282-477 DE Mitochondrial Rho GTPase #=GS I3J1I6/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Oreochromini; Oreochromis; Oreochromis niloticus; #=GS A0A3B3C6A6/282-477 AC A0A3B3C6A6 #=GS A0A3B3C6A6/282-477 OS Oryzias melastigma #=GS A0A3B3C6A6/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B3C6A6/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias melastigma; #=GS G3PFL2/282-477 AC G3PFL2 #=GS G3PFL2/282-477 OS Gasterosteus aculeatus #=GS G3PFL2/282-477 DE Mitochondrial Rho GTPase #=GS G3PFL2/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Perciformes; Cottioidei; Gasterosteales; Gasterosteidae; Gasterosteus; Gasterosteus aculeatus; #=GS A0A3B5R0Z7/346-541 AC A0A3B5R0Z7 #=GS A0A3B5R0Z7/346-541 OS Xiphophorus maculatus #=GS A0A3B5R0Z7/346-541 DE Mitochondrial Rho GTPase #=GS A0A3B5R0Z7/346-541 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Xiphophorus; Xiphophorus maculatus; #=GS A0A3B5QM69/346-541 AC A0A3B5QM69 #=GS A0A3B5QM69/346-541 OS Xiphophorus maculatus #=GS A0A3B5QM69/346-541 DE Uncharacterized protein #=GS A0A3B5QM69/346-541 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Xiphophorus; Xiphophorus maculatus; #=GS A0A3P8NAE1/251-446 AC A0A3P8NAE1 #=GS A0A3P8NAE1/251-446 OS Astatotilapia calliptera #=GS A0A3P8NAE1/251-446 DE Mitochondrial Rho GTPase #=GS A0A3P8NAE1/251-446 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Astatotilapia; Astatotilapia calliptera; #=GS H2M2M5/282-476 AC H2M2M5 #=GS H2M2M5/282-476 OS Oryzias latipes #=GS H2M2M5/282-476 DE Mitochondrial Rho GTPase #=GS H2M2M5/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A3B1J7L2/232-427 AC A0A3B1J7L2 #=GS A0A3B1J7L2/232-427 OS Astyanax mexicanus #=GS A0A3B1J7L2/232-427 DE Mitochondrial Rho GTPase #=GS A0A3B1J7L2/232-427 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Otomorpha; Ostariophysi; Characiphysae; Characiformes; Characoidei; Characidae; Stethaprioninae; Astyanax; Astyanax mexicanus; #=GS A0A3Q1JRG9/282-477 AC A0A3Q1JRG9 #=GS A0A3Q1JRG9/282-477 OS Anabas testudineus #=GS A0A3Q1JRG9/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q1JRG9/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Anabantiformes; Anabantoidei; Anabantidae; Anabas; Anabas testudineus; #=GS A0A2D0PTT8/282-477 AC A0A2D0PTT8 #=GS A0A2D0PTT8/282-477 OS Ictalurus punctatus #=GS A0A2D0PTT8/282-477 DE Mitochondrial Rho GTPase #=GS A0A2D0PTT8/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Otomorpha; Ostariophysi; Characiphysae; Siluriformes; Siluroidei; Ictaluridae; Ictalurus; Ictalurus punctatus; #=GS A0A3B3RW13/282-476 AC A0A3B3RW13 #=GS A0A3B3RW13/282-476 OS Paramormyrops kingsleyae #=GS A0A3B3RW13/282-476 DE Mitochondrial Rho GTPase #=GS A0A3B3RW13/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Osteoglossiformes; Mormyridae; Paramormyrops; Paramormyrops kingsleyae; #=GS A0A3B4T9X4/282-477 AC A0A3B4T9X4 #=GS A0A3B4T9X4/282-477 OS Seriola dumerili #=GS A0A3B4T9X4/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B4T9X4/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Carangiformes; Carangidae; Seriola; Seriola dumerili; #=GS A0A2D0PVC4/282-477 AC A0A2D0PVC4 #=GS A0A2D0PVC4/282-477 OS Ictalurus punctatus #=GS A0A2D0PVC4/282-477 DE Mitochondrial Rho GTPase #=GS A0A2D0PVC4/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Otomorpha; Ostariophysi; Characiphysae; Siluriformes; Siluroidei; Ictaluridae; Ictalurus; Ictalurus punctatus; #=GS A0A3Q2WVG1/282-477 AC A0A3Q2WVG1 #=GS A0A3Q2WVG1/282-477 OS Haplochromis burtoni #=GS A0A3Q2WVG1/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q2WVG1/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Haplochromis; Haplochromis burtoni; #=GS A0A3Q2Q8E0/277-471 AC A0A3Q2Q8E0 #=GS A0A3Q2Q8E0/277-471 OS Fundulus heteroclitus #=GS A0A3Q2Q8E0/277-471 DE Uncharacterized protein #=GS A0A3Q2Q8E0/277-471 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Fundulidae; Fundulus; Fundulus heteroclitus; #=GS A0A3Q2NT75/273-467 AC A0A3Q2NT75 #=GS A0A3Q2NT75/273-467 OS Fundulus heteroclitus #=GS A0A3Q2NT75/273-467 DE Mitochondrial Rho GTPase #=GS A0A3Q2NT75/273-467 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Fundulidae; Fundulus; Fundulus heteroclitus; #=GS W5N8K4/282-476 AC W5N8K4 #=GS W5N8K4/282-476 OS Lepisosteus oculatus #=GS W5N8K4/282-476 DE Mitochondrial Rho GTPase #=GS W5N8K4/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Holostei; Semionotiformes; Lepisosteidae; Lepisosteus; Lepisosteus oculatus; #=GS A0A3B3RWB8/282-476 AC A0A3B3RWB8 #=GS A0A3B3RWB8/282-476 OS Paramormyrops kingsleyae #=GS A0A3B3RWB8/282-476 DE Mitochondrial Rho GTPase #=GS A0A3B3RWB8/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Osteoglossiformes; Mormyridae; Paramormyrops; Paramormyrops kingsleyae; #=GS A0A3B4G7B7/282-477 AC A0A3B4G7B7 #=GS A0A3B4G7B7/282-477 OS Pundamilia nyererei #=GS A0A3B4G7B7/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B4G7B7/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Pundamilia; Pundamilia nyererei; #=GS A0A3P8W0V2/282-477 AC A0A3P8W0V2 #=GS A0A3P8W0V2/282-477 OS Cynoglossus semilaevis #=GS A0A3P8W0V2/282-477 DE Mitochondrial Rho GTPase #=GS A0A3P8W0V2/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Pleuronectiformes; Pleuronectoidei; Cynoglossidae; Cynoglossinae; Cynoglossus; Cynoglossus semilaevis; #=GS A0A1S3RCP4/282-477 AC A0A1S3RCP4 #=GS A0A1S3RCP4/282-477 OS Salmo salar #=GS A0A1S3RCP4/282-477 DE Mitochondrial Rho GTPase #=GS A0A1S3RCP4/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Salmoniformes; Salmonidae; Salmoninae; Salmo; Salmo salar; #=GS A0A1S3S2A6/297-492 AC A0A1S3S2A6 #=GS A0A1S3S2A6/297-492 OS Salmo salar #=GS A0A1S3S2A6/297-492 DE Mitochondrial Rho GTPase #=GS A0A1S3S2A6/297-492 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Salmoniformes; Salmonidae; Salmoninae; Salmo; Salmo salar; #=GS A0A3P9L344/282-476 AC A0A3P9L344 #=GS A0A3P9L344/282-476 OS Oryzias latipes #=GS A0A3P9L344/282-476 DE Mitochondrial Rho GTPase #=GS A0A3P9L344/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A3Q1JVW9/264-459 AC A0A3Q1JVW9 #=GS A0A3Q1JVW9/264-459 OS Anabas testudineus #=GS A0A3Q1JVW9/264-459 DE Mitochondrial Rho GTPase #=GS A0A3Q1JVW9/264-459 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Anabantiformes; Anabantoidei; Anabantidae; Anabas; Anabas testudineus; #=GS A0A3B4YZK9/282-477 AC A0A3B4YZK9 #=GS A0A3B4YZK9/282-477 OS Seriola lalandi dorsalis #=GS A0A3B4YZK9/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B4YZK9/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Carangiformes; Carangidae; Seriola; Seriola lalandi; Seriola lalandi dorsalis; #=GS A0A3P8W0W9/282-477 AC A0A3P8W0W9 #=GS A0A3P8W0W9/282-477 OS Cynoglossus semilaevis #=GS A0A3P8W0W9/282-477 DE Mitochondrial Rho GTPase #=GS A0A3P8W0W9/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Pleuronectiformes; Pleuronectoidei; Cynoglossidae; Cynoglossinae; Cynoglossus; Cynoglossus semilaevis; #=GS A0A146MVN0/229-423 AC A0A146MVN0 #=GS A0A146MVN0/229-423 OS Fundulus heteroclitus #=GS A0A146MVN0/229-423 DE Mitochondrial Rho GTPase 1 #=GS A0A146MVN0/229-423 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Fundulidae; Fundulus; Fundulus heteroclitus; #=GS A0A146NY10/310-504 AC A0A146NY10 #=GS A0A146NY10/310-504 OS Fundulus heteroclitus #=GS A0A146NY10/310-504 DE Mitochondrial Rho GTPase 1 #=GS A0A146NY10/310-504 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Fundulidae; Fundulus; Fundulus heteroclitus; #=GS A0A3B5AJD1/282-477 AC A0A3B5AJD1 #=GS A0A3B5AJD1/282-477 OS Stegastes partitus #=GS A0A3B5AJD1/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B5AJD1/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Pomacentridae; Stegastes; Stegastes partitus; #=GS H2U296/269-464 AC H2U296 #=GS H2U296/269-464 OS Takifugu rubripes #=GS H2U296/269-464 DE Mitochondrial Rho GTPase #=GS H2U296/269-464 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Tetraodontiformes; Tetraodontoidei; Tetradontoidea; Tetraodontidae; Takifugu; Takifugu rubripes; #=GS A0A3Q4M1I3/270-465 AC A0A3Q4M1I3 #=GS A0A3Q4M1I3/270-465 OS Neolamprologus brichardi #=GS A0A3Q4M1I3/270-465 DE Mitochondrial Rho GTPase #=GS A0A3Q4M1I3/270-465 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Lamprologini; Neolamprologus; Neolamprologus brichardi; #=GS A0A3Q3KP47/282-477 AC A0A3Q3KP47 #=GS A0A3Q3KP47/282-477 OS Mastacembelus armatus #=GS A0A3Q3KP47/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q3KP47/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Synbranchiformes; Mastacembeloidei; Mastacembelidae; Mastacembelus; Mastacembelus armatus; #=GS A0A3P9DCG9/276-471 AC A0A3P9DCG9 #=GS A0A3P9DCG9/276-471 OS Maylandia zebra #=GS A0A3P9DCG9/276-471 DE Mitochondrial Rho GTPase #=GS A0A3P9DCG9/276-471 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Maylandia; Maylandia zebra complex; Maylandia zebra; #=GS A0A3B3VP13/282-477 AC A0A3B3VP13 #=GS A0A3B3VP13/282-477 OS Poecilia latipinna #=GS A0A3B3VP13/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B3VP13/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poecilia; Poecilia latipinna; #=GS A0A3B4T448/279-474 AC A0A3B4T448 #=GS A0A3B4T448/279-474 OS Seriola dumerili #=GS A0A3B4T448/279-474 DE Mitochondrial Rho GTPase #=GS A0A3B4T448/279-474 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Carangiformes; Carangidae; Seriola; Seriola dumerili; #=GS A0A3Q3KNZ3/282-477 AC A0A3Q3KNZ3 #=GS A0A3Q3KNZ3/282-477 OS Mastacembelus armatus #=GS A0A3Q3KNZ3/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q3KNZ3/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Synbranchiformes; Mastacembeloidei; Mastacembelidae; Mastacembelus; Mastacembelus armatus; #=GS A0A3P8NYD0/276-471 AC A0A3P8NYD0 #=GS A0A3P8NYD0/276-471 OS Astatotilapia calliptera #=GS A0A3P8NYD0/276-471 DE Mitochondrial Rho GTPase #=GS A0A3P8NYD0/276-471 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Astatotilapia; Astatotilapia calliptera; #=GS A0A3B5M0G9/295-490 AC A0A3B5M0G9 #=GS A0A3B5M0G9/295-490 OS Xiphophorus couchianus #=GS A0A3B5M0G9/295-490 DE Mitochondrial Rho GTPase #=GS A0A3B5M0G9/295-490 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Xiphophorus; Xiphophorus couchianus; #=GS A0A3Q2W5N0/276-471 AC A0A3Q2W5N0 #=GS A0A3Q2W5N0/276-471 OS Haplochromis burtoni #=GS A0A3Q2W5N0/276-471 DE Mitochondrial Rho GTPase #=GS A0A3Q2W5N0/276-471 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Haplochromis; Haplochromis burtoni; #=GS H2U297/282-477 AC H2U297 #=GS H2U297/282-477 OS Takifugu rubripes #=GS H2U297/282-477 DE Mitochondrial Rho GTPase #=GS H2U297/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Tetraodontiformes; Tetraodontoidei; Tetradontoidea; Tetraodontidae; Takifugu; Takifugu rubripes; #=GS A0A3Q1BIZ7/282-477 AC A0A3Q1BIZ7 #=GS A0A3Q1BIZ7/282-477 OS Amphiprion ocellaris #=GS A0A3Q1BIZ7/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q1BIZ7/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Pomacentridae; Amphiprion; Amphiprion ocellaris; #=GS A0A3Q2VVK9/282-477 AC A0A3Q2VVK9 #=GS A0A3Q2VVK9/282-477 OS Haplochromis burtoni #=GS A0A3Q2VVK9/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q2VVK9/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Haplochromis; Haplochromis burtoni; #=GS A0A3B4YDB1/282-477 AC A0A3B4YDB1 #=GS A0A3B4YDB1/282-477 OS Seriola lalandi dorsalis #=GS A0A3B4YDB1/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B4YDB1/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Carangiformes; Carangidae; Seriola; Seriola lalandi; Seriola lalandi dorsalis; #=GS A0A3P8U7Z8/282-477 AC A0A3P8U7Z8 #=GS A0A3P8U7Z8/282-477 OS Amphiprion percula #=GS A0A3P8U7Z8/282-477 DE Mitochondrial Rho GTPase #=GS A0A3P8U7Z8/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Pomacentridae; Amphiprion; Amphiprion percula; #=GS A0A3P9DBZ9/282-477 AC A0A3P9DBZ9 #=GS A0A3P9DBZ9/282-477 OS Maylandia zebra #=GS A0A3P9DBZ9/282-477 DE Mitochondrial Rho GTPase #=GS A0A3P9DBZ9/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Maylandia; Maylandia zebra complex; Maylandia zebra; #=GS H2LEE1/282-477 AC H2LEE1 #=GS H2LEE1/282-477 OS Oryzias latipes #=GS H2LEE1/282-477 DE Mitochondrial Rho GTPase #=GS H2LEE1/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A3P9PNH4/291-486 AC A0A3P9PNH4 #=GS A0A3P9PNH4/291-486 OS Poecilia reticulata #=GS A0A3P9PNH4/291-486 DE Mitochondrial Rho GTPase #=GS A0A3P9PNH4/291-486 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poecilia; Poecilia reticulata; #=GS A0A3Q2Y955/261-456 AC A0A3Q2Y955 #=GS A0A3Q2Y955/261-456 OS Hippocampus comes #=GS A0A3Q2Y955/261-456 DE Uncharacterized protein #=GS A0A3Q2Y955/261-456 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Syngnathiformes; Syngnathoidei; Syngnathidae; Hippocampinae; Hippocampus; Hippocampus comes; #=GS A0A3B3DSE7/282-477 AC A0A3B3DSE7 #=GS A0A3B3DSE7/282-477 OS Oryzias melastigma #=GS A0A3B3DSE7/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B3DSE7/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias melastigma; #=GS A0A3Q0R6F7/255-450 AC A0A3Q0R6F7 #=GS A0A3Q0R6F7/255-450 OS Amphilophus citrinellus #=GS A0A3Q0R6F7/255-450 DE Mitochondrial Rho GTPase #=GS A0A3Q0R6F7/255-450 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Cichlasomatinae; Heroini; Amphilophus; Amphilophus citrinellus; #=GS A0A3B4EXU1/278-473 AC A0A3B4EXU1 #=GS A0A3B4EXU1/278-473 OS Pundamilia nyererei #=GS A0A3B4EXU1/278-473 DE Mitochondrial Rho GTPase #=GS A0A3B4EXU1/278-473 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Pundamilia; Pundamilia nyererei; #=GS A0A3B4T3F7/282-477 AC A0A3B4T3F7 #=GS A0A3B4T3F7/282-477 OS Seriola dumerili #=GS A0A3B4T3F7/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B4T3F7/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Carangiformes; Carangidae; Seriola; Seriola dumerili; #=GS A0A3P8U4I9/282-477 AC A0A3P8U4I9 #=GS A0A3P8U4I9/282-477 OS Amphiprion percula #=GS A0A3P8U4I9/282-477 DE Mitochondrial Rho GTPase #=GS A0A3P8U4I9/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Pomacentridae; Amphiprion; Amphiprion percula; #=GS A0A3B3CDZ7/282-477 AC A0A3B3CDZ7 #=GS A0A3B3CDZ7/282-477 OS Oryzias melastigma #=GS A0A3B3CDZ7/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B3CDZ7/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias melastigma; #=GS M3ZXC3/282-477 AC M3ZXC3 #=GS M3ZXC3/282-477 OS Xiphophorus maculatus #=GS M3ZXC3/282-477 DE Mitochondrial Rho GTPase #=GS M3ZXC3/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Xiphophorus; Xiphophorus maculatus; #=GS A0A3B3X6C2/282-477 AC A0A3B3X6C2 #=GS A0A3B3X6C2/282-477 OS Poecilia mexicana #=GS A0A3B3X6C2/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B3X6C2/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poecilia; Poecilia mexicana; #=GS A0A3P9DD21/282-477 AC A0A3P9DD21 #=GS A0A3P9DD21/282-477 OS Maylandia zebra #=GS A0A3P9DD21/282-477 DE Mitochondrial Rho GTPase #=GS A0A3P9DD21/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Maylandia; Maylandia zebra complex; Maylandia zebra; #=GS A0A3P9HKD3/282-477 AC A0A3P9HKD3 #=GS A0A3P9HKD3/282-477 OS Oryzias latipes #=GS A0A3P9HKD3/282-477 DE Mitochondrial Rho GTPase #=GS A0A3P9HKD3/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A3P9KML3/282-477 AC A0A3P9KML3 #=GS A0A3P9KML3/282-477 OS Oryzias latipes #=GS A0A3P9KML3/282-477 DE Mitochondrial Rho GTPase #=GS A0A3P9KML3/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A3Q2VWM0/282-477 AC A0A3Q2VWM0 #=GS A0A3Q2VWM0/282-477 OS Haplochromis burtoni #=GS A0A3Q2VWM0/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q2VWM0/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Haplochromis; Haplochromis burtoni; #=GS A0A3B5RFI7/282-477 AC A0A3B5RFI7 #=GS A0A3B5RFI7/282-477 OS Xiphophorus maculatus #=GS A0A3B5RFI7/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B5RFI7/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Xiphophorus; Xiphophorus maculatus; #=GS A0A3B3YKC5/282-477 AC A0A3B3YKC5 #=GS A0A3B3YKC5/282-477 OS Poecilia mexicana #=GS A0A3B3YKC5/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B3YKC5/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poecilia; Poecilia mexicana; #=GS A0A3B3X639/280-475 AC A0A3B3X639 #=GS A0A3B3X639/280-475 OS Poecilia mexicana #=GS A0A3B3X639/280-475 DE Mitochondrial Rho GTPase #=GS A0A3B3X639/280-475 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poecilia; Poecilia mexicana; #=GS A0A146VXH9/282-477 AC A0A146VXH9 #=GS A0A146VXH9/282-477 OS Fundulus heteroclitus #=GS A0A146VXH9/282-477 DE Mitochondrial Rho GTPase #=GS A0A146VXH9/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Fundulidae; Fundulus; Fundulus heteroclitus; #=GS A0A3P9HKS5/272-467 AC A0A3P9HKS5 #=GS A0A3P9HKS5/272-467 OS Oryzias latipes #=GS A0A3P9HKS5/272-467 DE Mitochondrial Rho GTPase #=GS A0A3P9HKS5/272-467 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A3Q3E4N1/286-481 AC A0A3Q3E4N1 #=GS A0A3Q3E4N1/286-481 OS Labrus bergylta #=GS A0A3Q3E4N1/286-481 DE Mitochondrial Rho GTPase #=GS A0A3Q3E4N1/286-481 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Labriformes; Labridae; Labrus; Labrus bergylta; #=GS A0A3P9PN98/282-477 AC A0A3P9PN98 #=GS A0A3P9PN98/282-477 OS Poecilia reticulata #=GS A0A3P9PN98/282-477 DE Mitochondrial Rho GTPase #=GS A0A3P9PN98/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poecilia; Poecilia reticulata; #=GS A0A3Q1GQV3/282-477 AC A0A3Q1GQV3 #=GS A0A3Q1GQV3/282-477 OS Acanthochromis polyacanthus #=GS A0A3Q1GQV3/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q1GQV3/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Pomacentridae; Acanthochromis; Acanthochromis polyacanthus; #=GS A0A3P8NYC0/282-477 AC A0A3P8NYC0 #=GS A0A3P8NYC0/282-477 OS Astatotilapia calliptera #=GS A0A3P8NYC0/282-477 DE Mitochondrial Rho GTPase #=GS A0A3P8NYC0/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Astatotilapia; Astatotilapia calliptera; #=GS A0A3P8NY55/282-477 AC A0A3P8NY55 #=GS A0A3P8NY55/282-477 OS Astatotilapia calliptera #=GS A0A3P8NY55/282-477 DE Mitochondrial Rho GTPase #=GS A0A3P8NY55/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Astatotilapia; Astatotilapia calliptera; #=GS A0A3P9KM84/282-477 AC A0A3P9KM84 #=GS A0A3P9KM84/282-477 OS Oryzias latipes #=GS A0A3P9KM84/282-477 DE Mitochondrial Rho GTPase #=GS A0A3P9KM84/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A3B3UJ98/282-477 AC A0A3B3UJ98 #=GS A0A3B3UJ98/282-477 OS Poecilia latipinna #=GS A0A3B3UJ98/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B3UJ98/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poecilia; Poecilia latipinna; #=GS A0A3Q1HC84/282-477 AC A0A3Q1HC84 #=GS A0A3Q1HC84/282-477 OS Anabas testudineus #=GS A0A3Q1HC84/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q1HC84/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Anabantiformes; Anabantoidei; Anabantidae; Anabas; Anabas testudineus; #=GS A0A3Q1HJ09/282-477 AC A0A3Q1HJ09 #=GS A0A3Q1HJ09/282-477 OS Anabas testudineus #=GS A0A3Q1HJ09/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q1HJ09/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Anabantiformes; Anabantoidei; Anabantidae; Anabas; Anabas testudineus; #=GS A0A3B4ZXL5/282-477 AC A0A3B4ZXL5 #=GS A0A3B4ZXL5/282-477 OS Stegastes partitus #=GS A0A3B4ZXL5/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B4ZXL5/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Pomacentridae; Stegastes; Stegastes partitus; #=GS A0A3B4XZ79/282-477 AC A0A3B4XZ79 #=GS A0A3B4XZ79/282-477 OS Seriola lalandi dorsalis #=GS A0A3B4XZ79/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B4XZ79/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Carangiformes; Carangidae; Seriola; Seriola lalandi; Seriola lalandi dorsalis; #=GS A0A146ZXE7/282-477 AC A0A146ZXE7 #=GS A0A146ZXE7/282-477 OS Fundulus heteroclitus #=GS A0A146ZXE7/282-477 DE Mitochondrial Rho GTPase #=GS A0A146ZXE7/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Fundulidae; Fundulus; Fundulus heteroclitus; #=GS I3KNX0/282-477 AC I3KNX0 #=GS I3KNX0/282-477 OS Oreochromis niloticus #=GS I3KNX0/282-477 DE Mitochondrial Rho GTPase #=GS I3KNX0/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Oreochromini; Oreochromis; Oreochromis niloticus; #=GS A0A3B4T3X4/282-477 AC A0A3B4T3X4 #=GS A0A3B4T3X4/282-477 OS Seriola dumerili #=GS A0A3B4T3X4/282-477 DE Mitochondrial Rho GTPase #=GS A0A3B4T3X4/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Carangiformes; Carangidae; Seriola; Seriola dumerili; #=GS A0A3Q3KZV5/281-476 AC A0A3Q3KZV5 #=GS A0A3Q3KZV5/281-476 OS Mastacembelus armatus #=GS A0A3Q3KZV5/281-476 DE Mitochondrial Rho GTPase #=GS A0A3Q3KZV5/281-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Synbranchiformes; Mastacembeloidei; Mastacembelidae; Mastacembelus; Mastacembelus armatus; #=GS A0A2I4AY46/282-477 AC A0A2I4AY46 #=GS A0A2I4AY46/282-477 OS Austrofundulus limnaeus #=GS A0A2I4AY46/282-477 DE Mitochondrial Rho GTPase #=GS A0A2I4AY46/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Rivulidae; Austrofundulus; Austrofundulus limnaeus; #=GS G3Q6Z7/298-493 AC G3Q6Z7 #=GS G3Q6Z7/298-493 OS Gasterosteus aculeatus #=GS G3Q6Z7/298-493 DE Mitochondrial Rho GTPase #=GS G3Q6Z7/298-493 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Perciformes; Cottioidei; Gasterosteales; Gasterosteidae; Gasterosteus; Gasterosteus aculeatus; #=GS A0A3Q2XAI9/282-477 AC A0A3Q2XAI9 #=GS A0A3Q2XAI9/282-477 OS Haplochromis burtoni #=GS A0A3Q2XAI9/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q2XAI9/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Haplochromini; Haplochromis; Haplochromis burtoni; #=GS A0A2I4AY42/282-477 AC A0A2I4AY42 #=GS A0A2I4AY42/282-477 OS Austrofundulus limnaeus #=GS A0A2I4AY42/282-477 DE Mitochondrial Rho GTPase #=GS A0A2I4AY42/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Rivulidae; Austrofundulus; Austrofundulus limnaeus; #=GS H2LEE0/282-477 AC H2LEE0 #=GS H2LEE0/282-477 OS Oryzias latipes #=GS H2LEE0/282-477 DE Mitochondrial Rho GTPase #=GS H2LEE0/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS A0A3P9J4A5/282-477 AC A0A3P9J4A5 #=GS A0A3P9J4A5/282-477 OS Oryzias latipes #=GS A0A3P9J4A5/282-477 DE Mitochondrial Rho GTPase #=GS A0A3P9J4A5/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Beloniformes; Adrianichthyoidei; Adrianichthyidae; Oryziinae; Oryzias; Oryzias latipes; #=GS I3KNX1/292-487 AC I3KNX1 #=GS I3KNX1/292-487 OS Oreochromis niloticus #=GS I3KNX1/292-487 DE Mitochondrial Rho GTPase #=GS I3KNX1/292-487 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Cichlomorphae; Cichliformes; Cichlidae; Pseudocrenilabrinae; Oreochromini; Oreochromis; Oreochromis niloticus; #=GS A0A3Q3AMP7/282-477 AC A0A3Q3AMP7 #=GS A0A3Q3AMP7/282-477 OS Kryptolebias marmoratus #=GS A0A3Q3AMP7/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q3AMP7/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Rivulidae; Kryptolebias; Kryptolebias marmoratus; #=GS A0A3Q3AMS5/282-477 AC A0A3Q3AMS5 #=GS A0A3Q3AMS5/282-477 OS Kryptolebias marmoratus #=GS A0A3Q3AMS5/282-477 DE Mitochondrial Rho GTPase #=GS A0A3Q3AMS5/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Aplocheiloidei; Rivulidae; Kryptolebias; Kryptolebias marmoratus; #=GS A0A087Y2B0/282-477 AC A0A087Y2B0 #=GS A0A087Y2B0/282-477 OS Poecilia formosa #=GS A0A087Y2B0/282-477 DE Mitochondrial Rho GTPase #=GS A0A087Y2B0/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Poeciliidae; Poeciliinae; Poecilia; Poecilia formosa; #=GS A0A146VYQ4/368-563 AC A0A146VYQ4 #=GS A0A146VYQ4/368-563 OS Fundulus heteroclitus #=GS A0A146VYQ4/368-563 DE Mitochondrial Rho GTPase 1 #=GS A0A146VYQ4/368-563 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Teleostei; Euteleosteomorpha; Atherinomorphae; Cyprinodontiformes; Cyprinodontoidei; Fundulidae; Fundulus; Fundulus heteroclitus; #=GS F6YV49/242-436 AC F6YV49 #=GS F6YV49/242-436 OS Xenopus tropicalis #=GS F6YV49/242-436 DE Ras homolog family member T1 #=GS F6YV49/242-436 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Amphibia; Batrachia; Anura; Pipoidea; Pipidae; Xenopodinae; Xenopus; Silurana; Xenopus tropicalis; #=GS A0A1L8EV40/282-476 AC A0A1L8EV40 #=GS A0A1L8EV40/282-476 OS Xenopus laevis #=GS A0A1L8EV40/282-476 DE Mitochondrial Rho GTPase #=GS A0A1L8EV40/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Amphibia; Batrachia; Anura; Pipoidea; Pipidae; Xenopodinae; Xenopus; Xenopus; Xenopus laevis; #=GS A0A1L8EV22/282-476 AC A0A1L8EV22 #=GS A0A1L8EV22/282-476 OS Xenopus laevis #=GS A0A1L8EV22/282-476 DE Mitochondrial Rho GTPase #=GS A0A1L8EV22/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Amphibia; Batrachia; Anura; Pipoidea; Pipidae; Xenopodinae; Xenopus; Xenopus; Xenopus laevis; #=GS Q08AW2/282-476 AC Q08AW2 #=GS Q08AW2/282-476 OS Xenopus laevis #=GS Q08AW2/282-476 DE Mitochondrial Rho GTPase #=GS Q08AW2/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Amphibia; Batrachia; Anura; Pipoidea; Pipidae; Xenopodinae; Xenopus; Xenopus; Xenopus laevis; #=GS W5M6U2/295-489 AC W5M6U2 #=GS W5M6U2/295-489 OS Lepisosteus oculatus #=GS W5M6U2/295-489 DE Mitochondrial Rho GTPase #=GS W5M6U2/295-489 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Actinopterygii; Actinopteri; Neopterygii; Holostei; Semionotiformes; Lepisosteidae; Lepisosteus; Lepisosteus oculatus; #=GS F6W9X1/282-474 AC F6W9X1 #=GS F6W9X1/282-474 OS Xenopus tropicalis #=GS F6W9X1/282-474 DE Mitochondrial Rho GTPase #=GS F6W9X1/282-474 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Amphibia; Batrachia; Anura; Pipoidea; Pipidae; Xenopodinae; Xenopus; Silurana; Xenopus tropicalis; #=GS A0A1L8ER17/270-465 AC A0A1L8ER17 #=GS A0A1L8ER17/270-465 OS Xenopus laevis #=GS A0A1L8ER17/270-465 DE Uncharacterized protein #=GS A0A1L8ER17/270-465 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Amphibia; Batrachia; Anura; Pipoidea; Pipidae; Xenopodinae; Xenopus; Xenopus; Xenopus laevis; #=GS A0A1L8EYQ4/282-477 AC A0A1L8EYQ4 #=GS A0A1L8EYQ4/282-477 OS Xenopus laevis #=GS A0A1L8EYQ4/282-477 DE Mitochondrial Rho GTPase #=GS A0A1L8EYQ4/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Amphibia; Batrachia; Anura; Pipoidea; Pipidae; Xenopodinae; Xenopus; Xenopus; Xenopus laevis; #=GS A0A452CGP5/256-449 AC A0A452CGP5 #=GS A0A452CGP5/256-449 OS Balaenoptera acutorostrata scammoni #=GS A0A452CGP5/256-449 DE Mitochondrial Rho GTPase #=GS A0A452CGP5/256-449 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Mysticeti; Balaenopteridae; Balaenoptera; Balaenoptera acutorostrata; Balaenoptera acutorostrata scammoni; #=GS A0A384A3M6/282-475 AC A0A384A3M6 #=GS A0A384A3M6/282-475 OS Balaenoptera acutorostrata scammoni #=GS A0A384A3M6/282-475 DE Mitochondrial Rho GTPase #=GS A0A384A3M6/282-475 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Mysticeti; Balaenopteridae; Balaenoptera; Balaenoptera acutorostrata; Balaenoptera acutorostrata scammoni; #=GS A0A452CGN9/253-446 AC A0A452CGN9 #=GS A0A452CGN9/253-446 OS Balaenoptera acutorostrata scammoni #=GS A0A452CGN9/253-446 DE Mitochondrial Rho GTPase #=GS A0A452CGN9/253-446 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Mysticeti; Balaenopteridae; Balaenoptera; Balaenoptera acutorostrata; Balaenoptera acutorostrata scammoni; #=GS A0A452CGN7/282-475 AC A0A452CGN7 #=GS A0A452CGN7/282-475 OS Balaenoptera acutorostrata scammoni #=GS A0A452CGN7/282-475 DE Mitochondrial Rho GTPase #=GS A0A452CGN7/282-475 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Mysticeti; Balaenopteridae; Balaenoptera; Balaenoptera acutorostrata; Balaenoptera acutorostrata scammoni; #=GS A0A340X311/282-477 AC A0A340X311 #=GS A0A340X311/282-477 OS Lipotes vexillifer #=GS A0A340X311/282-477 DE Mitochondrial Rho GTPase #=GS A0A340X311/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Lipotidae; Lipotes; Lipotes vexillifer; #=GS A0A2Y9Q3F4/282-475 AC A0A2Y9Q3F4 #=GS A0A2Y9Q3F4/282-475 OS Delphinapterus leucas #=GS A0A2Y9Q3F4/282-475 DE Mitochondrial Rho GTPase #=GS A0A2Y9Q3F4/282-475 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Monodontidae; Delphinapterus; Delphinapterus leucas; #=GS A0A455AUJ4/235-428 AC A0A455AUJ4 #=GS A0A455AUJ4/235-428 OS Physeter catodon #=GS A0A455AUJ4/235-428 DE mitochondrial Rho GTPase 2 isoform X4 #=GS A0A455AUJ4/235-428 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A2Y9PT81/281-474 AC A0A2Y9PT81 #=GS A0A2Y9PT81/281-474 OS Delphinapterus leucas #=GS A0A2Y9PT81/281-474 DE Mitochondrial Rho GTPase #=GS A0A2Y9PT81/281-474 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Monodontidae; Delphinapterus; Delphinapterus leucas; #=GS A0A2Y9SSD5/282-475 AC A0A2Y9SSD5 #=GS A0A2Y9SSD5/282-475 OS Physeter catodon #=GS A0A2Y9SSD5/282-475 DE Mitochondrial Rho GTPase #=GS A0A2Y9SSD5/282-475 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A2Y9PX53/282-475 AC A0A2Y9PX53 #=GS A0A2Y9PX53/282-475 OS Delphinapterus leucas #=GS A0A2Y9PX53/282-475 DE Mitochondrial Rho GTPase #=GS A0A2Y9PX53/282-475 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Monodontidae; Delphinapterus; Delphinapterus leucas; #=GS F1N6Q3/251-442 AC F1N6Q3 #=GS F1N6Q3/251-442 OS Bos taurus #=GS F1N6Q3/251-442 DE Mitochondrial Rho GTPase #=GS F1N6Q3/251-442 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Ruminantia; Pecora; Bovidae; Bovinae; Bos; Bos taurus; #=GS A0A2Y9SUA2/282-475 AC A0A2Y9SUA2 #=GS A0A2Y9SUA2/282-475 OS Physeter catodon #=GS A0A2Y9SUA2/282-475 DE Mitochondrial Rho GTPase #=GS A0A2Y9SUA2/282-475 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A2Y9PY33/253-446 AC A0A2Y9PY33 #=GS A0A2Y9PY33/253-446 OS Delphinapterus leucas #=GS A0A2Y9PY33/253-446 DE Mitochondrial Rho GTPase #=GS A0A2Y9PY33/253-446 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Monodontidae; Delphinapterus; Delphinapterus leucas; #=GS A0A455AVC4/282-471 AC A0A455AVC4 #=GS A0A455AVC4/282-471 OS Physeter catodon #=GS A0A455AVC4/282-471 DE mitochondrial Rho GTPase 2 isoform X3 #=GS A0A455AVC4/282-471 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Odontoceti; Physeteridae; Physeter; Physeter catodon; #=GS A0A452CGQ1/282-475 AC A0A452CGQ1 #=GS A0A452CGQ1/282-475 OS Balaenoptera acutorostrata scammoni #=GS A0A452CGQ1/282-475 DE Mitochondrial Rho GTPase #=GS A0A452CGQ1/282-475 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Mysticeti; Balaenopteridae; Balaenoptera; Balaenoptera acutorostrata; Balaenoptera acutorostrata scammoni; #=GS A0A452CGR7/275-468 AC A0A452CGR7 #=GS A0A452CGR7/275-468 OS Balaenoptera acutorostrata scammoni #=GS A0A452CGR7/275-468 DE Mitochondrial Rho GTPase #=GS A0A452CGR7/275-468 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Cetacea; Mysticeti; Balaenopteridae; Balaenoptera; Balaenoptera acutorostrata; Balaenoptera acutorostrata scammoni; #=GS M3W4B0/282-477 AC M3W4B0 #=GS M3W4B0/282-477 OS Felis catus #=GS M3W4B0/282-477 DE Mitochondrial Rho GTPase #=GS M3W4B0/282-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Carnivora; Feliformia; Felidae; Felinae; Felis; Felis catus; #=GS A0A3Q2HQY9/436-631 AC A0A3Q2HQY9 #=GS A0A3Q2HQY9/436-631 OS Equus caballus #=GS A0A3Q2HQY9/436-631 DE Ras homolog family member T2 #=GS A0A3Q2HQY9/436-631 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Perissodactyla; Equidae; Equus; Equus; Equus caballus; #=GS F6SXK8/436-629 AC F6SXK8 #=GS F6SXK8/436-629 OS Equus caballus #=GS F6SXK8/436-629 DE Ras homolog family member T2 #=GS F6SXK8/436-629 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Laurasiatheria; Perissodactyla; Equidae; Equus; Equus; Equus caballus; #=GS A0A2K5IS94/269-461 AC A0A2K5IS94 #=GS A0A2K5IS94/269-461 OS Colobus angolensis palliatus #=GS A0A2K5IS94/269-461 DE Mitochondrial Rho GTPase #=GS A0A2K5IS94/269-461 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Colobus; Colobus angolensis; Colobus angolensis palliatus; #=GS A0A2K6MGS6/281-473 AC A0A2K6MGS6 #=GS A0A2K6MGS6/281-473 OS Rhinopithecus bieti #=GS A0A2K6MGS6/281-473 DE Mitochondrial Rho GTPase #=GS A0A2K6MGS6/281-473 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Rhinopithecus; Rhinopithecus bieti; #=GS A0A2K5NHN6/282-474 AC A0A2K5NHN6 #=GS A0A2K5NHN6/282-474 OS Cercocebus atys #=GS A0A2K5NHN6/282-474 DE Mitochondrial Rho GTPase #=GS A0A2K5NHN6/282-474 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Cercocebus; Cercocebus atys; #=GS A0A2K6D477/282-474 AC A0A2K6D477 #=GS A0A2K6D477/282-474 OS Macaca nemestrina #=GS A0A2K6D477/282-474 DE Mitochondrial Rho GTPase #=GS A0A2K6D477/282-474 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca nemestrina; #=GS A0A2K5NHM8/293-485 AC A0A2K5NHM8 #=GS A0A2K5NHM8/293-485 OS Cercocebus atys #=GS A0A2K5NHM8/293-485 DE Mitochondrial Rho GTPase #=GS A0A2K5NHM8/293-485 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Cercocebus; Cercocebus atys; #=GS A0A2K6ND68/273-465 AC A0A2K6ND68 #=GS A0A2K6ND68/273-465 OS Rhinopithecus roxellana #=GS A0A2K6ND68/273-465 DE Mitochondrial Rho GTPase #=GS A0A2K6ND68/273-465 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Rhinopithecus; Rhinopithecus roxellana; #=GS A0A2R9BIP4/282-474 AC A0A2R9BIP4 #=GS A0A2R9BIP4/282-474 OS Pan paniscus #=GS A0A2R9BIP4/282-474 DE Mitochondrial Rho GTPase #=GS A0A2R9BIP4/282-474 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Pan; Pan paniscus; #=GS A0A2K6SQC5/282-474 AC A0A2K6SQC5 #=GS A0A2K6SQC5/282-474 OS Saimiri boliviensis boliviensis #=GS A0A2K6SQC5/282-474 DE Mitochondrial Rho GTPase #=GS A0A2K6SQC5/282-474 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Saimiriinae; Saimiri; Saimiri boliviensis; Saimiri boliviensis boliviensis; #=GS A0A2K6MGP2/275-467 AC A0A2K6MGP2 #=GS A0A2K6MGP2/275-467 OS Rhinopithecus bieti #=GS A0A2K6MGP2/275-467 DE Mitochondrial Rho GTPase #=GS A0A2K6MGP2/275-467 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Rhinopithecus; Rhinopithecus bieti; #=GS A0A2K5R552/282-474 AC A0A2K5R552 #=GS A0A2K5R552/282-474 OS Cebus capucinus imitator #=GS A0A2K5R552/282-474 DE Mitochondrial Rho GTPase #=GS A0A2K5R552/282-474 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Cebinae; Cebus; Cebus capucinus; Cebus capucinus imitator; #=GS A0A2I3N787/273-465 AC A0A2I3N787 #=GS A0A2I3N787/273-465 OS Papio anubis #=GS A0A2I3N787/273-465 DE Mitochondrial Rho GTPase #=GS A0A2I3N787/273-465 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Papio; Papio anubis; #=GS A0A2R9BIP6/273-465 AC A0A2R9BIP6 #=GS A0A2R9BIP6/273-465 OS Pan paniscus #=GS A0A2R9BIP6/273-465 DE Mitochondrial Rho GTPase #=GS A0A2R9BIP6/273-465 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Pan; Pan paniscus; #=GS G7Q031/207-399 AC G7Q031 #=GS G7Q031/207-399 OS Macaca fascicularis #=GS G7Q031/207-399 DE Mitochondrial Rho GTPase 2 #=GS G7Q031/207-399 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca fascicularis; #=GS H2NPK9/282-474 AC H2NPK9 #=GS H2NPK9/282-474 OS Pongo abelii #=GS H2NPK9/282-474 DE Mitochondrial Rho GTPase #=GS H2NPK9/282-474 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Ponginae; Pongo; Pongo abelii; #=GS A0A2I3TCN8/273-465 AC A0A2I3TCN8 #=GS A0A2I3TCN8/273-465 OS Pan troglodytes #=GS A0A2I3TCN8/273-465 DE Mitochondrial Rho GTPase #=GS A0A2I3TCN8/273-465 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Pan; Pan troglodytes; #=GS G3RDA3/282-474 AC G3RDA3 #=GS G3RDA3/282-474 OS Gorilla gorilla gorilla #=GS G3RDA3/282-474 DE Mitochondrial Rho GTPase #=GS G3RDA3/282-474 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Gorilla; Gorilla gorilla; Gorilla gorilla gorilla; #=GS U3D3G7/282-474 AC U3D3G7 #=GS U3D3G7/282-474 OS Callithrix jacchus #=GS U3D3G7/282-474 DE Mitochondrial Rho GTPase #=GS U3D3G7/282-474 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Cebidae; Callitrichinae; Callithrix; Callithrix; Callithrix jacchus; #=GS F6RI93/282-474 AC F6RI93 #=GS F6RI93/282-474 OS Macaca mulatta #=GS F6RI93/282-474 DE Mitochondrial Rho GTPase #=GS F6RI93/282-474 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca mulatta; #=GS A0A2K5NHY4/272-464 AC A0A2K5NHY4 #=GS A0A2K5NHY4/272-464 OS Cercocebus atys #=GS A0A2K5NHY4/272-464 DE Mitochondrial Rho GTPase #=GS A0A2K5NHY4/272-464 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Cercocebus; Cercocebus atys; #=GS A0A2K5WQQ3/289-481 AC A0A2K5WQQ3 #=GS A0A2K5WQQ3/289-481 OS Macaca fascicularis #=GS A0A2K5WQQ3/289-481 DE Mitochondrial Rho GTPase #=GS A0A2K5WQQ3/289-481 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Macaca; Macaca fascicularis; #=GS A0A096NKH4/282-474 AC A0A096NKH4 #=GS A0A096NKH4/282-474 OS Papio anubis #=GS A0A096NKH4/282-474 DE Mitochondrial Rho GTPase #=GS A0A096NKH4/282-474 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Cercopithecinae; Papio; Papio anubis; #=GS K6ZVR3/282-474 AC K6ZVR3 #=GS K6ZVR3/282-474 OS Pan troglodytes #=GS K6ZVR3/282-474 DE Mitochondrial Rho GTPase #=GS K6ZVR3/282-474 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Hominoidea; Hominidae; Homininae; Pan; Pan troglodytes; #=GS A0A2K6ND64/282-474 AC A0A2K6ND64 #=GS A0A2K6ND64/282-474 OS Rhinopithecus roxellana #=GS A0A2K6ND64/282-474 DE Mitochondrial Rho GTPase #=GS A0A2K6ND64/282-474 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Catarrhini; Cercopithecoidea; Cercopithecidae; Colobinae; Rhinopithecus; Rhinopithecus roxellana; #=GS A0A2K5E568/282-474 AC A0A2K5E568 #=GS A0A2K5E568/282-474 OS Aotus nancymaae #=GS A0A2K5E568/282-474 DE Mitochondrial Rho GTPase #=GS A0A2K5E568/282-474 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Euarchontoglires; Primates; Haplorrhini; Simiiformes; Platyrrhini; Aotidae; Aotus; Aotus nancymaae; #=GS F7BZ68/282-475 AC F7BZ68 #=GS F7BZ68/282-475 OS Monodelphis domestica #=GS F7BZ68/282-475 DE Mitochondrial Rho GTPase #=GS F7BZ68/282-475 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Didelphimorphia; Didelphidae; Didelphinae; Monodelphis; Monodelphis domestica; #=GS G3W9Z9/203-397 AC G3W9Z9 #=GS G3W9Z9/203-397 OS Sarcophilus harrisii #=GS G3W9Z9/203-397 DE Mitochondrial Rho GTPase #=GS G3W9Z9/203-397 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Dasyuromorphia; Dasyuridae; Sarcophilus; Sarcophilus harrisii; #=GS G3W9Z8/282-478 AC G3W9Z8 #=GS G3W9Z8/282-478 OS Sarcophilus harrisii #=GS G3W9Z8/282-478 DE Mitochondrial Rho GTPase #=GS G3W9Z8/282-478 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Mammalia; Dasyuromorphia; Dasyuridae; Sarcophilus; Sarcophilus harrisii; #=GS A0A099ZXA7/269-463 AC A0A099ZXA7 #=GS A0A099ZXA7/269-463 OS Charadrius vociferus #=GS A0A099ZXA7/269-463 DE Mitochondrial Rho GTPase 2 #=GS A0A099ZXA7/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Charadriiformes; Charadriidae; Charadrius; Charadrius vociferus; #=GS A0A091US71/269-463 AC A0A091US71 #=GS A0A091US71/269-463 OS Nipponia nippon #=GS A0A091US71/269-463 DE Mitochondrial Rho GTPase 2 #=GS A0A091US71/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Pelecaniformes; Threskiornithidae; Nipponia; Nipponia nippon; #=GS A0A2I0LP24/181-375 AC A0A2I0LP24 #=GS A0A2I0LP24/181-375 OS Columba livia #=GS A0A2I0LP24/181-375 DE Ras homolog family member T2, transcript variant X2 #=GS A0A2I0LP24/181-375 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Columbiformes; Columbidae; Columba; Columba livia; #=GS A0A091FPX0/269-463 AC A0A091FPX0 #=GS A0A091FPX0/269-463 OS Corvus brachyrhynchos #=GS A0A091FPX0/269-463 DE Mitochondrial Rho GTPase 2 #=GS A0A091FPX0/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Passeriformes; Corvoidea; Corvidae; Corvus; Corvus brachyrhynchos; #=GS A0A087QIA7/269-463 AC A0A087QIA7 #=GS A0A087QIA7/269-463 OS Aptenodytes forsteri #=GS A0A087QIA7/269-463 DE Mitochondrial Rho GTPase 2 #=GS A0A087QIA7/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Sphenisciformes; Spheniscidae; Aptenodytes; Aptenodytes forsteri; #=GS A0A093PFQ9/269-463 AC A0A093PFQ9 #=GS A0A093PFQ9/269-463 OS Manacus vitellinus #=GS A0A093PFQ9/269-463 DE Mitochondrial Rho GTPase 2 #=GS A0A093PFQ9/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Passeriformes; Pipridae; Manacus; Manacus vitellinus; #=GS A0A2I0LP19/261-455 AC A0A2I0LP19 #=GS A0A2I0LP19/261-455 OS Columba livia #=GS A0A2I0LP19/261-455 DE Mitochondrial Rho GTPase #=GS A0A2I0LP19/261-455 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Columbiformes; Columbidae; Columba; Columba livia; #=GS F1P578/282-476 AC F1P578 #=GS F1P578/282-476 OS Gallus gallus #=GS F1P578/282-476 DE Mitochondrial Rho GTPase #=GS F1P578/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Galloanserae; Galliformes; Phasianidae; Phasianinae; Gallus; Gallus gallus; #=GS A0A1V4KT39/282-476 AC A0A1V4KT39 #=GS A0A1V4KT39/282-476 OS Patagioenas fasciata monilis #=GS A0A1V4KT39/282-476 DE Mitochondrial Rho GTPase #=GS A0A1V4KT39/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Columbiformes; Columbidae; Patagioenas; Patagioenas fasciata; Patagioenas fasciata monilis; #=GS G1NBM4/250-444 AC G1NBM4 #=GS G1NBM4/250-444 OS Meleagris gallopavo #=GS G1NBM4/250-444 DE Mitochondrial Rho GTPase #=GS G1NBM4/250-444 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Galloanserae; Galliformes; Phasianidae; Meleagridinae; Meleagris; Meleagris gallopavo; #=GS A0A0Q3PS74/249-443 AC A0A0Q3PS74 #=GS A0A0Q3PS74/249-443 OS Amazona aestiva #=GS A0A0Q3PS74/249-443 DE Mitochondrial Rho GTPase #=GS A0A0Q3PS74/249-443 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Psittaciformes; Psittacidae; Amazona; Amazona aestiva; #=GS A0A218UQC7/282-476 AC A0A218UQC7 #=GS A0A218UQC7/282-476 OS Lonchura striata domestica #=GS A0A218UQC7/282-476 DE Mitochondrial Rho GTPase #=GS A0A218UQC7/282-476 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Passeriformes; Passeroidea; Estrildidae; Estrildinae; Lonchura; Lonchura striata; Lonchura striata domestica; #=GS A0A091GAP3/269-463 AC A0A091GAP3 #=GS A0A091GAP3/269-463 OS Cuculus canorus #=GS A0A091GAP3/269-463 DE Mitochondrial Rho GTPase 2 #=GS A0A091GAP3/269-463 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Cuculiformes; Cuculidae; Cuculus; Cuculus canorus; #=GS A0A091IQ37/271-465 AC A0A091IQ37 #=GS A0A091IQ37/271-465 OS Egretta garzetta #=GS A0A091IQ37/271-465 DE Mitochondrial Rho GTPase 2 #=GS A0A091IQ37/271-465 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Pelecaniformes; Ardeidae; Egretta; Egretta garzetta; #=GS A0A093I2W2/251-445 AC A0A093I2W2 #=GS A0A093I2W2/251-445 OS Struthio camelus australis #=GS A0A093I2W2/251-445 DE Mitochondrial Rho GTPase 2 #=GS A0A093I2W2/251-445 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Palaeognathae; Struthioniformes; Struthionidae; Struthio; Struthio camelus; Struthio camelus australis; #=GS A0A099Z4X1/251-445 AC A0A099Z4X1 #=GS A0A099Z4X1/251-445 OS Tinamus guttatus #=GS A0A099Z4X1/251-445 DE Mitochondrial Rho GTPase 2 #=GS A0A099Z4X1/251-445 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Palaeognathae; Tinamiformes; Tinamidae; Tinamus; Tinamus guttatus; #=GS U3JPK6/279-473 AC U3JPK6 #=GS U3JPK6/279-473 OS Ficedula albicollis #=GS U3JPK6/279-473 DE Mitochondrial Rho GTPase #=GS U3JPK6/279-473 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Passeriformes; Muscicapidae; Ficedula; Ficedula albicollis; #=GS U3I7C4/183-377 AC U3I7C4 #=GS U3I7C4/183-377 OS Anas platyrhynchos platyrhynchos #=GS U3I7C4/183-377 DE Mitochondrial Rho GTPase #=GS U3I7C4/183-377 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Aves; Neognathae; Galloanserae; Anseriformes; Anatidae; Anatinae; Anas; Anas platyrhynchos; Anas platyrhynchos platyrhynchos; #=GS R4GCC6/203-397 AC R4GCC6 #=GS R4GCC6/203-397 OS Anolis carolinensis #=GS R4GCC6/203-397 DE Uncharacterized protein #=GS R4GCC6/203-397 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Lepidosauria; Squamata; Iguania; Dactyloidae; Anolis; Anolis carolinensis; #=GS H9G4K2/283-477 AC H9G4K2 #=GS H9G4K2/283-477 OS Anolis carolinensis #=GS H9G4K2/283-477 DE Mitochondrial Rho GTPase #=GS H9G4K2/283-477 DR ORG; Eukaryota; Metazoa; Chordata; Craniata; Sarcopterygii; Lepidosauria; Squamata; Iguania; Dactyloidae; Anolis; Anolis carolinensis; #=GF SQ 580 5ku1A02/106-299_403-404 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAVT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDYP Q8IXI1/282-473 LTADYLSPLIHVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPVELQSLFSVFPAAPWGPELPRTVRT-EAG-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCEQD-QAHAIT--VTREKRLDQEKGQTQRSVLLCKVVGARGVGKSAFLQAFLGRGLGHQDTRE---QPPGYAIDTVQVNGQEKYLILCEVG Q8BG51/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFQVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKGCGKTGVLQSLLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- Q8JZN7/282-475 LTPDYLYPALHVPPGCSTELNHRGYQFVQRMFEKHDQDHDGVLSPTELQNLFSVFSGAPWGPELLHTVPT-QAG-CLPLHGYLCQWTLMTYLDVQQCLAHLGYLGYP-TLCEQDSQAQAIT--VTREKKLDQEKGQTQRSVLMCKVLGARGVGKSAFLQAFLGNSLGEA--RDPPEKFPLHTINTVRVNGQEKYLILCEVN Q32LU1/282-476 LTDDYLYPVLRVSVGCTTELNHLGHQFLLKLFEKYDEDKDSALSPAELKNLFSVLPYMPWSSTVYSNIPLTDDC-YISQHGYLCQWMLLAYLDVHRCLEHLGYLGYP-ILMEQECQTSAIT--VTREKALDLDNRQTQRTVFLCKVIGPRGTGKTDFLRAFLQRSTERSD-RD-PGAPSIYAINTVSIANQDKYLILEEVD Q2HJF8/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLTRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A0G2K777/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFQVFPYIPWGPDVNNTVCTNESG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKGCGKTGVLQSLLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A0R4IVN5/282-476 LHQDYLFPPLKIPPDSTTELNHDAYLFLQSVFDKHDKDRDGSLSPGELIDLFDVFPYVPWGLDVNSTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQASAIT--VTRDKKLDLQKKQTQRNVFRCHVFGITGSGKTGFLQGFLGRNLVHQR-AIREEHKSYYAISTAHVYGQEKYLLLHKV- 5ktyA02/106-299_403-404 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAVT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDYP 5kszA02/106-299_403-404 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAVT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDYP Q8IXI2/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAVT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- H7BXZ6/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAVT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- E9H688/286-481 LSRDYLHPPLRVPPGCNTEFSASGWAFLVQLFEQHDKDKDGALNTQELASLFSPCSIMPWGQNLKYSVPTNTQG-WPTLKGYMAQWSLMTYLDVRRTCELLAYLGYH--TAGTDNQLSAIT--VTKAQRSGGSKKRNTRTVFMGHVIGPPGVGKTTFCQGLLGRTIDEIDTSNLWCELPRYVARQLSVYGQSKILLLHDVD W4ZII9/285-480 LNSDYLQPKLRVGRGCSTELSHLGYQFLTSHFEKYDKDRDGALSPAELQTLFQTCPMMPWGPDVNMTVCTNEKG-WITLHGYLSQWTLTTLLDIQRTLEFLAYFGYRYVMADHENQLSAII--VTRDKKVDLQKRQTSRNVFRCNVIGPRGAGKSAFLQGLTERSLDSP--VIMRDNLSAYAINTIQVYGQEKYLLLREID B7PAT4/274-463 -PREYLCPPIRVPPGSSTELSSKGFQFVTALFEKHDQDEDGCLSPVELRSLFGVCPCSPWAPDLVGTVATDHRG-WLTLQGYLAHWALTTALDVHKTFECLAYLGY--LGAGEESQLSAVH--VTREKQLEVQQRQTSRQVLHCHVLGPQGAGKTSFLRGLLGCGLDRG--SHPG---SKYAVDRLPVYGQDKYLLLHEVD Q5ZM73/282-477 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNGKGGWITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLMRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- Q6DIS1/282-476 LTDDYLYPPLRIPHESSTELNHFGYQFLQKAFEKHDLDEDGALSPSELQSFFSVFPYTPWGPELASTVCTAQGG-YLPLHGYLCQWTLVAYLDVHRCLEHLGYLGYP-ILCEQESQTHAIT--VTREKSIDLEKGQTQRNVFLCRVIGPRGTGKSAFLRAFLGQSLEEQ--QQSNKPPSFYSVNTVLVGGQEKYLILFEVD A0A1U8DQH8/282-476 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPEELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASALT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKNGVLQALLGRNLMRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- K7GBS5/261-455 LTPEYLFPPLKIPSDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAII--VTRDKKIDLQKKQTQRNVFRCNVIGMKGCGKSGVLQALLGRSLMRQR-QIRAEHKSYYAMNTVYVYGQEKYLLLHDV- R4GCA6/261-455 LTPEYLFSLLKIPSDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKIFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNLIGVKGCGKSGILQSLLGRNLMRQK-HIRPDHKSYYAINTVYVYGQEKYLLLHNV- F7FLX5/214-408 LTEDYLFPPIRVPPGSTTELSHFGYQFLQRMFEKHDQDQDGALSPSELESFFSVFPSEPWGPGLHRTVCTNAKG-LLSLHGFLCQWTLVAYLNVHHCLEHLGYLAYP-ILAQQDSQLHAIA--VTREKRIDLEKGQTQRSVFLCKVFGSRGVGKSAFLQAFLGRSLAAP--REPPGEQAPYTINTVQVSGQEKYLILCEVD A0A2Y9E3F0/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFQVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDEHKSYYAINTVYVYGQEKYLLLHDI- A0A099ZIQ0/261-451 I-PLY---KLKIPSDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLIRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- F7FMB3/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKGCGKSGVLQALLGRNLMRQK-HIRDDHKSYYAINTVYVYGQEKYLLLHDI- G3X2V8/298-492 LTTEYLFPLLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKGCGKSGVLQALLGRNLMRQK-HIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A1S3WL05/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKTCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A287A323/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKTGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2U3VW24/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9T1K5/378-572 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQSLLGRNLTRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q2H385/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLSRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A218UX69/282-476 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLIRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- G1T3H3/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMKQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A1V4KVN0/282-476 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPNELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLIRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- G1PKX2/297-491 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLMHDI- A0A0Q3MAH4/282-476 LTPEYLFPPLKIPQDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFLCNVVGMKGCGKSGVLQALLGRNLFRQR-QIRAEHKSYYAIHTVYVYGQEKYLLLHDV- A0A091IY30/269-463 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLIRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- A0A093G3I7/269-463 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLMRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- A0A0A0A2Y5/292-486 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLMRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- A0A091G8Y7/269-463 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPEELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRNKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLVRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- A0A452H079/282-476 LTPEYLFPPLKIPSDCTTELNHHVYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKGCGKSGVLQALLGRNLMRQR-QIRAEHKSYYAMNTVYVYGQEKYLLLHDV- A0A087RI99/269-463 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPEELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLIRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- G3TJM3/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--ITRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A091WDM4/269-463 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALCPDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLIRQR-QVRAEHRSYYAINTVYVYGQEKYLLLHDV- A0A093JYE9/269-463 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLSYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLIRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- W5N8K8/282-476 LTQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYMGYLGYS-IICEQESQAAAIT--VTRDKKIDLQKRQTQRNVFRCNVIGMRGCGKSGFLQAFLGRNLMRQR-QIREDHKSYYAISTTYVYGQEKYLLLHEV- A0A091ITZ1/269-463 LTDDYLYPPFRLPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSPAELQNFFNVFPRVPWGPELYSTVHTTDTG-LLPLHGFLCQWTLVAYLDVQHCLECLGYLGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAVQ--KENPGVPSLYTINTVQVNGQEKYLILYEVS A0A091NQY6/251-445 LTDDYLYPQFRVPPGCSTELNHLGYQFLQRMFEKHDKDQDGALSPTELQNFFSVFPHVPWGPELYNTVCTTDKG-LLSLHGFLCQWTLTAYLDIRRCLEYLGYLGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFFCKVLGARGAGKSAFLQAFLGRSLAAQ--RENPGKPSLYTVNTVQVNGQEKYLILCEVG A0A3B3I0G3/282-476 MTDDYLYPELRVPVGCTTELNHYGHQFLQRLFEKYDEDKDSALSQMELKNLFCVCPYMPWGPDVYMTVPTTDKG-YISNHGYHCQWMLSAYLDIHRCLEHLGYLGYP-ILTEQESQTAAVT--VTRAKELDLEKRQTQRTVFLCKVIGPRGTGKTVFLQSFVGRNVLTK--GNPSSAFSPYVINLVQVGNQEIYLILNEVD A0A2I2U3T8/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A384ASU8/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAVT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGILQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A286X882/295-489 LTPEYLFPMLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKSCGKSGVLQALLGRNLTRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6EYI6/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- U3JHY1/261-455 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPEELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLMRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- I3MHX3/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKSCGKSGILQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- U3IHD1/282-476 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKGCGKSGVLQALLGRNLIRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- A0A091F0S9/269-460 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLIRQR-QIRAEHKSYYAINTVYVYGQEKYLLL---- A0A093RVY6/269-463 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKGGVLQALLGRNLMRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- A0A091V5W3/269-463 LIPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLIRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- L5JS96/295-489 LTPEYLFPLLKIPSDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLLRQK-NIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A1W5AAH7/282-477 LTQEYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELKDLFRVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCSVFGAKGSGKSGFLQGFLGRNITRQK-NIREDHKSYYAISTTYVYGQEKYLLLHEVL A0A3M0KXH9/271-465 LTDDYLYPQFRVPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSHTELQNFFSVFPRVPWGPELYNTVCTTDKG-LLSLHGFLCQWTLVAYLDVRHCLECLGYLGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAAQ--RESPGQPSLYTINTVQVNGQEKYLILYEVS A0A093BES2/265-459 LTDEYLHPQFRLPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSPSELQSFFSVFPCVPWGPELSSTVCTTDTG-LLSLHGFLCQWTLVAYLDVQHCLECLGYLGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAVQ--RESPGEPSRYAINTVQVGGQEKYLILYEVS A0A3Q0DQJ3/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIHDDHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q7S179/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNSGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A340WXQ7/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A384CFG0/285-479 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9JVT1/281-475 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2U4ANV7/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A151N310/282-476 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPEELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASALT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKNGVLQALLGRNLMRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- A0A2Y9Q1G4/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2I0M7F9/472-666 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPNELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLIRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- A0A3Q0D1Q5/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKGCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- H0WI36/271-465 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A3P9BXY3/251-446 LTQEYLFPLIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WLTYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREEHKSFYAISTTYVYGQEKYLLLHEVM G3PFL1/283-478 LTQEYLFPMIKMPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDEVKDLFKVFPYMPWGPDVNHTVCTNEQG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGGRGSGKSAFLQAFLGKNLQGQR-RIREDHKSFYAISTTYVYGQEKYLLLHEVM A0A3P8SK47/274-469 LTQEYLFPMIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDEVKDLFKVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAMT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-QIREDHKSFYAISTTYVYGQEKYLLLHEVM A0A1S3S1P5/282-477 LHQEYLFPLLKIPADCTTELNHNAYLFLQSVFDKHDKDRDCALSPDEVKDLFKVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IICEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNILGARGSGKTSFLQAFLGRNLLKQR-KIREDHKSFYSINTTYVYGQEKYLLLHEVM A0A3Q3N5Q3/291-486 LTQEYLFPMIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNILGAQGSGKSGFLQAFLGRNLQQQR-RIREDHKSFYAISTTYVYGQEKYLLLHEVM A0A3B4YSN1/282-477 LTQEYLFPLLKVPGDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDEVKDLFKVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREDHKSLYAISTTYVYGQEKYLLLHEVM H3CCA4/173-368 LTQEYLYPLIKIPSDCTTELNHNAYLFLQSIFDKHDKDRDCALSPEELKDLFKVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEHDSQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGKNLQRQR-RIREDHKSLYAINTTYVYGQEKYLLLHEVM A0A3Q1JRG5/282-477 LTQEYLFPIIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREDHKSFYAISTTYVYGQEKYLLLHEMM A0A3B3RW76/282-476 LTQEYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELKDLFSVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYP-ILCEQESQAAALT--VTRNKRIDLQKKQTQRNVFLCNVFGARGSGKSGFLQGFLGRNLMRQK--IRHEHKSYYAISTAYVYGQEKYLLLHEVL A0A3P8W0Q3/282-477 LTQEYLFPLIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYVPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGERGSGKTGFLQAFLGRNLQRQK-RIREDHKSLYAISTSYVYGQEKYLLLHEVM A0A3Q3L0I7/286-481 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSIFDKHDKDRDCALSPEELKDLFDVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IVAEQESHAAGIT--VTRAKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQAFLGSNLMHQK-TIKEEHKSYYAISTTYVYGQEKYLLLHEVF A0A3Q2ZJB0/282-477 LNQDYLFPPLKVPADCTTELNHTAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQTAGIT--VTRDKKIDLQKKQTQRGVFRCNIFGDVGSGKSGFLQALLGRNLMHQQ-MIKEEHKSYYAISTTFVYGQEKYLLLHEVF A0A226MXQ9/261-455 LTEDYLYPQFRLPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSPAELQNFFSVFPCMPWGPELYNTVCTTDKG-LLSLHGFLCQWTLVAYLDVQHCLECLGYLGYP-FLSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAAQ--KENPGEPSVYTVNTVQVNGQEKYLILHEVS A0A2K5EWF2/276-470 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRHVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A452ERV0/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLTRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- G1N7I2/264-458 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSTDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLMRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- G1LG95/297-491 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMENCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- F1PP14/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNSGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A3L8SAZ3/282-476 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLIRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- M3YTD4/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A1A6GS43/227-417 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKGCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLL----- A0A3B1KIE1/232-427 LTQEYLFPLLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIHEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGAQGSGKSGFLQAFLGRNVTRQK-KIRDDHKSYYAISTTYVYGQEKYLLLHEVL A0A3P9MX86/288-481 LTQEYLFPLIKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFNVFPYMPWGPDVNNTVCTNDEG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IICEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNL--QM-RIREDHKSYYAISTTYVYGQEKYLLLHEVM A0A3B4ZQZ7/238-432 LTQEYLFPLIKIPADCTTELNHNAYLFLQSVFDKHDKDRDCALSPDEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREDHKSFYAISTTYVYGQEKYLLVMPD- A0A3Q1GGQ7/282-477 LNQDYLFPPLKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELKDLFDVFPYMPWGADVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQAFLGRNLMRQK-MIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A226P4Y2/270-464 LTEDYLYPQFRLPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSPAELQNFFSVFPCMPWGPELYNTVCTTDKG-LLSLHGFLCQWTLVAYLDVQHCLECLGYLGYP-FLSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAAQ--RENPGEPSVYTINTVQVNGQEKYLILHEIS A0A165A658/298-493 LCRDYLHPPLRVPPGCNTEFSASGWAFLVQLFEQHDKDKDGALNTEELASLFSPCSIMPWGQNLKYSVPTNGQG-WPTLKGYMAQWSLMTYLDVRRTCELLAYLGYH--TAGTDNQLSAIT--VTKAQRSGGSKKRNTRTVFMCHVIGPPGVGKTTFCQGLLGRTVDEIDTSNLWCELPRYVARQLSVYGQSKILLLHDVD G7PU10/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A452QCD7/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2R8MYU1/295-485 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLL----- A0A3Q7XG66/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- H0Z3A5/294-488 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPEELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLIRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- W5PP34/297-491 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2I4BRL8/282-477 LTQEYLFPLVKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDKG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGAQDSGKSGFLQAFLGRNLQRQT-WIREDHKSFYAINTTYVYGQEKYLLLHEVM A0A2D0PX15/282-477 LTQEYLFPLLKIPPHCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFKVFPYMPWGPDVNNTVYTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIHEQDSQAAAIT--ITRNKHIDLQKKQTQRSVFRCNVLGARGSGKSGLLQAFLGRNLARQK-QIREDHKSYYAISTAYVYGQEKYLLLHEIL A0A3Q1CQX2/282-477 LNQDYLFPPLKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELKDLFDVFPYMPWGADVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDVGSGKSGFLQAFLGRNLMRQK-MIKEEHRSYYAISTTYVYGQEKYLLLHEVF L8IGR5/269-463 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLTRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- G1R1V1/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5QAM4/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKSCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6UDF6/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q2TZS7/277-471 LTQEYLFPLIKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNENG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREDHKSYYAISTTYVYGQEKYLLLHEA- A0A3Q2FER5/282-477 LTQEYLFPLVKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDKG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREDHKSYYAISTTYVYGQEKYLLLHEVM A0A3B4T9Y9/282-477 LTQEYLFPLLKIPGDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDEVKDLFKVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRSVEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREDHKSLYAISTTYVYGQEKYLLLHEVM A0A3Q0RD04/285-480 LTQEYLFPMIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGTGKSGFLQAFLGRNLQRQR-RIREEHKSYYAISTTYVYGQEKYLLLHELM A0A1L8ENC3/285-479 LTPEYLFPQLKVHIDCTTELNHHAYLFLQSIFDKHDQDRDCALSPEELKDLFQVFPYMPWGPDVNNTVYTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQAMAVT--VTRDKKIDLQKRQTQRNVFRCNVIGSQSSGKSGILQSHLGRNLMRQK-RIREEHKSFYAINPVYVYGQEKYLLLHHV- A0A2K6KCZ7/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLVRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- H2NTA0/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q4GKV8/282-477 LTQEYLFPLIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WLTYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREEHKSFYAISTTYVYGQEKYLLLHEMM A0A3B4D322/285-480 LTQEYLFPLLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIHEQESQAAAIT--VTRNKRIDLQKKQTQRNVFRCNILGARGSGKSGFLQAFLGRNLARQR-RIREEHKSYYAISTAYVYGQEKYLLLHEVL I3J1I5/282-477 LTQEYLFPMIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WLTYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREEHKSFYAISTTYVYGQEKYLLLHEVM A0A3Q3BGJ6/282-477 LTQEYLFPMVKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDKD-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARDSGKSGFLQAFLGRNLQRQR-RIREDHKSFYAINTTYVYGQEKYLLLHEVM H2TZZ3/276-471 LTQEYLFPLIKIPPDCTTELNHNAYLFLQSIFDKHDKDRDCALSPEELKDLFKVFPYMPWGPDVKNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEHESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGAQGSGKSGFLQAFLGKNLQRQQ-RIREDHKSLYAINTTYVYGQEKYLLLHEVM A0A2I3SYK2/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5MLC8/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2I2YSS3/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5JE21/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5Z8H0/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2I3M8A3/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A3B4GB31/282-477 LTQEYLFPLIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WLTYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREEHKSFYAISTTYVYGQEKYLLLHEVM A0A3B5Q655/346-541 LTQEYLFPLIKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFNVFPYMPWGPDVNNTVCTNDEG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQM-RIREDHKSYYAISTTYVYGQEKYLLLHEVM A0A3P8NAB4/282-477 LTQEYLFPLIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WLTYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREEHKSFYAISTTYVYGQEKYLLLHEVM A0A3Q2VLM0/282-477 LTQEYLFPLIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WLTYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARSSGKSGFLQAFLGRNLQRQR-RIREEHKSFYAISTTYVYGQEKYLLLHEVM A0A0D9RIU9/282-474 LTADYLFPPLHVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPTELQSLFSVFPAAPWGPELPRTVRT-EAG-QLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCDQDSQTRAIT--VTREKRLDQEKGQTLRSVLLCKVVGARGVGKSAFLQAFLGHSLGHQDTRE---QPPGYTIDTVQVNGQEKYLILCEVG A0A3B3DQ04/282-471 MTDDYLYPELRVPVGCTTELNHVGHQFLQRLFDKYDEDKDSALSQMELKNLFCVCPYMPWGADVYLTVPTTDKG-YISNHGYHCQWMLSAYLDIHRCLEHLGYLGYP-ILTEQESQTAAVT--VTREKELDLEKRQTQRTVFLCKVIGPRGTGKTAFLQSFVGRNT-K---ENPSSAFTSYVINTVQVSNQEVYLI---VS A0A2K6DZA9/249-443 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- F6V3R1/269-463 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6R253/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLVRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2R8ZW75/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A096M200/294-489 LTQEYLFPLIKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFNVFPYMPWGPDVNNTVCTNDEG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IICEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQM-RIREDHKSYYAISTTYVYGQEKYLLLHEVM A0A3B3XP73/282-477 LTQEYLFPLIKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFNVFPYMPWGPDVNNTVCTNDEG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IICEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQM-RIREDHKSYYAISTTYVYGQEKYLLLHEVM A0A3B3VYX8/282-477 LTQEYLFPLIKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFNVFPYMPWGPDVNNTVCTNDEG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IICEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQM-RIREDHKSYYAISTTYVYGQEKYLLLHEVM A0A3B5MJY8/269-464 LTQEYLFPLIKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFNVFPYMPWGPDVNNTVCTNDEG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQM-RIREDHKSYYAISTTYVYGQEKYLLLHEVM Q6NVC5/282-477 LTQEYLFPLFKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIQEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGCGKSGFLQAFLGRNLVRQK-RIREDHKSYYAISTTYVYGQEKYLLLHEVL A1L1L6/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFQVFPYIPWGPDVNNTVCTNESG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKGCGKTGVLQSLLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- Q7TSA0/282-477 LTPDYLCPPLYVPPGCSTELNHRGYQFVQRVFEKHDQDHDGVLSPTELESLFSVFSVAPWGPELLHTVPT-EAG-CLSLRGYLCQWTLVTYLDVQHCLAHLGYLGYP-TLCEQDSQAQAIT--VTREKRLDQEKGQTQRSVLMCKVLGARGVGKSAFLQAFLGHSLGEARDRDAPEKLPTHTINTVRVSGQEKYLILCEVN Q5E9M9/282-473 LTADYLCPPLRVPPGCSAELNHRGYQFVQRMFEKHDQDRDGALSPAELQSLFSVFPAAPWGPHLPSTVRT-KAG-RLPLHGYLCQWTLVTYLDVRRSLEHLGYLGYP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRNVLLCKVVGARGVGKSSFLRAFLGHSLGHQDAG----EPSVYAIDTVQVNGQEKYLILCEVA Q5ZM83/282-476 LTDDYLYPQFRLPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSPAELQNFFSVFPCMPWGPELYNTVCTTDKG-LLSLHGFLCQWTLIAYLDVRHCLECLGYLGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAAQ--RESPGEPSPYTINTVQVNGQEKYLILHEVS A0A286Y9M7/282-476 LHQDYLFPPLKIPPDSTTELNHDAYLFLQSVFDKHDKDRDGSLSPGELIDLFDVFPYVPWGLDVNSTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQASAIT--VTRDKKLDLQKKQTQRNVFRCHVFGITGSGKTGFLQGFLGRNLVHQR-AIREEHKSYYAISTAHVYGQEKYLLLHKV- A0A0R4IGX0/282-476 LHQDYLFPPLKIPPDSTTELNHDAYLFLQSVFDKHDKDRDGSLSPGELIDLFDVFPYVPWGLDVNSTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQASAIT--VTRDKKLDLQKKQTQRNVFCCHVFGITGSGKTGFLQGFLGRNLVHQR-AIREEHKSYYAISTAHVYGQEKYLLLHKV- B3DI88/282-476 LHQDYLFPPLKIPPDSTTELNHDAYLFLQSVFDKHDKDRDGSLSPGELIDLFDVFPYVPWGLDVNSTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQASAIT--VTRDKKLDLQKKQTQRNVFRCHVFGITGSGKTGFLQGFLGRNLVHQR-AIREEHKSYYAISTAHVYGQEKYLLLHKV- A0A0P5AW19/298-493 LCRDYLHPPLRVPPGCNTEFSASGWAFLVQLFEQHDKDKDGALNTEELASLFSPCSIMPWGQNLKYSVPTNGQG-WPTLKGYMAQWSLMTYLDVRRTCELLAYLGYH--TAGTDNQLSAIT--VTKAQRSGGSKKRNTRTVFMCHVIGPPGVGKTTFCQGLLGRTVDEIDTSNLWCELPRYVARQLSVYGQSKILLLHDVD A0A0P5YQL9/360-555 LCRDYLHPPLRVPPGCNTEFSASGWAFLVQLFEQHDKDKDGALNTEELASLFSPCSIMPWGQNLKYSVPTNGQG-WPTLKGYMAQWSLMTYLDVRRTCELLAYLGYH--TAGTDNQLSAIT--VTKAQRSGGSKKRNTRTVFMCHVIGPPGVGKTTFCQGLLGRTVDEIDTSNLWCELPRYVARQLSVYGQSKILLLHDVD A0A0P5DEB1/329-524 LCREYLHPPLRVPPGCNTEFSASGWAFLVQLFEQHDKDKDGALNTEELASLFSPCSIMPWGQNLKYSVPTNGQG-WPTLKGYMAQWSLMTYLDVRRTCELLAYLGYH--TAGTDNQLSAIT--VTKAQRSGGSKKRNTRTVFMCHVIGPPGVGKTTFCQGLLGRTVDEIDTSNLWCELPRYVARQLSVYGQSKILLLHDVD A0A3P9KNY8/282-476 MTDDYLYPELRVPVGCTTELNHYGHQFLQRLFEKYDEDKDSALSQMELKNLFCVCPYMPWGPDVYMTVPTTDKG-YISNHGYHCQWMLSAYLDIHRCLEHLGYLGYP-ILTEQESQTAAVT--VTRAKELDLEKRQTQRTVFLCKVIGPRGTGKTVFLQSFVGRNVLTK--GNPSSAFSPYVINLVHVGNQEIYLILNEVD A0A3B3H8P2/282-476 MTDDYLYPELRVPVGCTTELNHYGHQFLQRLFEKYDEDKDSALSQMELKNLFCVCPYMPWGPDVYMTVPTTDKG-YISNHGYHCQWMLSAYLDIHRCLEHLGYLGYP-ILTEQESQTAAVT--VTRAKELDLEKRQTQRTVFLCKVIGPRGTGKTVFLQSFVGRNVLTK--GNPSSAFSPYVINLVQVGNQEIYLILNEVD H2LU00/248-442 MTDDYLYPELRVPVGCTTELNHYGHQFLQRLFEKYDEDKDSALSQMELKNLFCVCPYMPWGPDVYMTVPTTDKG-YISNHGYHCQWMLSAYLDIHRCLEHLGYLGYP-ILTEQESQTAAVT--VTRAKELDLEKRQTQRTVFLCKVIGPRGTGKTVFLQSFVGRNVLTK--GNPSSAFSPYVINLVQVGNQEIYLILNEVD A0A3P9KNU8/282-476 MTDDYLYPELRVPVGCTTELNHYGHQFLQRLFEKYDEDKDSALSQMELKNLFCVCPYMPWGPDVYMTVPTTDKG-YISNHGYHCQWMLSAYLDIHRCLEHLGYLGYP-ILTEQESQTAAVT--VTRAKELDLEKRQTQRTVFLCKVIGPRGTGKTVFLQSFVGRNVLTK--GNPSSAFSPYVINLVHVGNQEIYLILNEVD A0A3P9HM23/282-477 MTDDYLYPELRVPVGCTTELNHYGHQFLQRLFEKYDEDKDSALSQMELKNLFCVCPYMPWGPDVYMTVPTTDKG-YISNHGYHCQWMLSAYLDIHRCLEHLGYLGYP-ILTEQESQTAAVT--VTRAKELDLEKRQTQRTVFLCKVIGPRGTGKTVFLQSFVGRNVLVCH-RNPSSAFSPYVINLVQVGNQEIYLILNEVD A0A3P9HLT7/283-477 MTDDYLYPELRVPVGCTTELNHYGHQFLQRLFEKYDEDKDSALSQMELKNLFCVCPYMPWGPDVYMTVPTTDKG-YISNHGYHCQWMLSAYLDIHRCLEHLGYLGYP-ILTEQESQTAAVT--VTRAKELDLEKRQTQRTVFLCKVIGPRGTGKTVFLQSFVGRNVLTK--GNPSSAFSPYVINLVQVGNQEIYLILNEVD A0A2U3VWC8/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A1S3A825/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKTCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- G1K237/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVGTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLTRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A337SHB2/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A455BXW3/378-572 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQSLLGRNLTRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9EQ53/378-572 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQSLLGRNLTRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A1D5P0T2/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLMRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- A0A2K5DU42/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9FZZ9/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFQVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDEHKSYYAINTVYVYGQEKYLLLHDI- A0A452ETC5/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLTRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A452UJ48/276-470 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A1U8DSX9/282-476 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPEELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASALT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKNGVLQALLGRNLMRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- F7I9C8/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5MLD3/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- M3WMH4/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6R277/252-446 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLVRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6R264/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLVRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9SZ23/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQSLLGRNLTRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9SZ17/378-572 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQSLLGRNLTRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9T5L8/318-512 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQSLLGRNLTRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6KCY8/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLVRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6EYI2/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- F7IE46/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q1MKH9/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLTRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9Q1G8/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- F7ENK1/288-482 LTPEYLFPPLRIPSDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFRVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKSCGKSGVLQALLGRNLMRQR-HIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2J8LIX8/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6R272/252-446 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLVRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9T3L6/300-494 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQSLLGRNLTRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A455BXW7/378-572 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQSLLGRNLTRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A452ET91/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLTRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5WGS8/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A151N2I7/282-476 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPEELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASALT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKNGVLQALLGRNLMRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- A0A2K6DZ80/266-460 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A1S3WLN8/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKTCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6EYI5/283-477 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- G7NGU1/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2U3ZEY2/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q1M400/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLTRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A1S3A853/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKTCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9K5S0/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2I3TWP7/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A286Y3M8/295-489 LTPEYLFPMLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKSCGKSGVLQALLGRNLTRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- F1NSQ4/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLMRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- A0A3Q2HE92/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLSRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q2I0K1/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLSRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A452UJ27/276-470 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A384CFN9/285-479 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6DZA7/249-443 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- U3F887/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6EYH3/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- F7I728/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5QAR4/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKSCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2U3ZEY5/281-475 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q0DMS7/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIHDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2I0M7F8/472-666 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPNELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLIRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- A0A2Y9JVA6/275-469 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A455CA08/378-572 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQSLLGRNLTRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A455C1M9/378-572 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQSLLGRNLTRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2U4ANW1/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2U4ANW6/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2I2ZJJ7/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2I2ZEP6/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5WGU1/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6KD26/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLVRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6KCT8/277-471 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLVRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A384AS61/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAVT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGILQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q7WKB7/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q7Y0E3/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A384AS95/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAVT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGILQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A384AS34/275-469 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAVT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGILQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5QAK5/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKSCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9JVA1/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- H0VB69/295-489 LTPEYLFPMLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKSCGKSGVLQALLGRNLTRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- H9GFJ7/299-493 LTPEYLFSLLKIPSDCTTELNHHAYLFLQSIFDKHDLDRDCALSPDELKDLFKIFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNLIGVKGCGKSGILQSLLGRNLMRQK-HIRPDHKSYYAINTVYVYGQEKYLLLHNV- A0A2Y9E225/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFQVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDEHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q2GSV3/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLSRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A286ZWW1/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKTGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6KD17/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLVRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- U3CXX6/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A384CFI0/285-479 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6UDC2/413-607 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- F6V3N6/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A1D5R439/269-463 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A286Y1E2/295-489 LTPEYLFPMLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKSCGKSGVLQALLGRNLTRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A340WU10/287-481 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2R8ZZU1/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5Z8B0/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5WGS5/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- K7D6R4/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q7X7P5/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6EYH6/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- F7I725/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- H9ENC6/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9Q243/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A1S3WL28/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKTCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9JUZ6/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5MLC9/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2I2UK72/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6R288/280-474 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLVRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A340WSF4/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A1V4KVU6/282-476 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPNELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLIRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- A0A2Y9RJS6/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFQVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDEHKSYYAINTVYVYGQEKYLLLHDI- F7BQG6/276-470 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLSRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5Z8B5/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A287A1F4/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKTGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5WGT8/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6KD11/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLVRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- K7AT87/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A286ZRP2/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKTGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6UDB1/413-607 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- F6V3Q2/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5QAP8/292-486 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKSCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2U3ZEY3/281-475 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2U3VW25/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q7RYF2/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNSGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9JZJ5/281-475 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5MLD9/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A337SGP4/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2R8ZW76/278-472 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- F1RKW4/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKTGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5Z8A8/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- G3QUU7/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- G3UNY2/285-480 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSTDELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT-EVTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLMRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- A0A3Q7Y6K4/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6EYH9/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A1U7T3A2/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIHDDHKSYYAINTVYVYGQEKYLLLHDI- A0A1S3A8A6/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKTCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9JZJ9/275-469 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6R267/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLVRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A455BXX2/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQSLLGRNLTRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5DU67/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2I3MN01/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A096P3R7/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2I3MQD2/280-474 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2R8ZXB7/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2U4ANW4/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A287CYA5/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKSCGKSGILQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5WGT5/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A384CGQ2/285-479 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6KCT1/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLVRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A455C1N6/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQSLLGRNLTRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6UDH6/292-486 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q0G125/282-476 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPEELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASALT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKNGVLQALLGRNLMRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- F6V3M4/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5QAN6/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKSCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A1U7SKE9/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIHDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5MLF1/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6R2A8/252-446 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLVRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2I3MAR7/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5DU59/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- I3NGH0/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKSCGKSGILQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6DZB4/249-443 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- H9ENC4/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6UDJ7/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K6UDI4/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q0FWY9/261-455 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPEELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASALT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKNGVLQALLGRNLMRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- A0A3Q0G1Z0/282-476 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPEELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASALT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKNGVLQALLGRNLMRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- F7I9F0/288-482 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A1D5QY45/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- W5PP38/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2I0M7G3/472-666 LTPEYLFPPLKIPPDCTTELNHHAYLFLQSIFDKHDLDRDCALSPNELKDLFKVFPYMPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILAEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVVGMKGCGKSGVLQALLGRNLIRQR-QIRAEHKSYYAINTVYVYGQEKYLLLHDV- A0A2Y9SXM0/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQSLLGRNLTRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9T5L4/378-572 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQSLLGRNLTRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9SXL5/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQSLLGRNLTRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2I3N6B7/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A340WZG1/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2R8ZZW9/252-446 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2U4ANY9/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2U4APB4/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5Z897/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2I3G2I5/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- J9NUJ0/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNSGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- G1LGA4/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMENCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- K7BZ39/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A452H036/282-476 LTPEYLFPPLKIPSDCTTELNHHVYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKGCGKSGVLQALLGRNLMRQR-QIRAEHKSYYAMNTVYVYGQEKYLLLHDV- A0A452QCE3/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A384AS66/261-455 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAVT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGILQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- F6WI26/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- F7E515/269-463 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5JDY1/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5JE34/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5JE28/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2U3VW94/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q1MEL1/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLTRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9Q237/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- K7EU55/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9T3M2/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQSLLGRNLTRQR-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5DUA4/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2R8ZZV3/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A287DC35/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKSCGKSGILQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- G3UIM1/297-491 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--ITRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2I3GXB1/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- G3SDU7/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A452QCG5/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A1D5QL28/269-463 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5JE61/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q1M503/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLTRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9Q7V7/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9Q7T9/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9Q7V1/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q7SAD9/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNSGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q7S7R7/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNSGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2J8LIY5/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A286XLE7/295-489 LTPEYLFPMLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKSCGKSGVLQALLGRNLTRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2I2V273/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2K5DU66/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- A0A2Y9E1M4/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFQVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLMRQK-KIRDEHKSYYAINTVYVYGQEKYLLLHDI- A0A3Q2IDF9/328-522 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLSRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A452ESX3/295-489 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGMKNCGKSGVLQALLGRNLTRQK-KIRDDHKSYYAINTVYVYGQEKYLLLHDI- A0A2I3FUI4/282-476 LTPEYLFPLLKIPPDCTTELNHHAYLFLQSTFDKHDLDRDCALSPDELKDLFKVFPYIPWGPDVNNTVCTNERG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQASAIT--VTRDKKIDLQKKQTQRNVFRCNVIGVKNCGKSGVLQALLGRNLMRQK-KIREDHKSYYAINTVYVYGQEKYLLLHDI- H2M2M3/282-476 LTQEYLFPIVKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDKG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IVYEQESQAAAIT--VTRSKRIDLQKKQTQRSVFRCNVFGAAGSGKSGFLQAFLGRNLQRQK-QIREAHKSYYAISTTYVYGQEKYLLLHEA- A0A3P9HBT0/282-476 LTQEYLFPIIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDKG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IVYEQESQAAAIT--VTRSKRIDLQKKQTQRSVFRCNVFGAAGSGKSGFLQAFLGRNLQRQN-QIREAHKSYYAISTTYVYGQEKYLLLHEA- A0A1W5AIZ7/282-477 LTQEYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELKDLFRVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCSVFGAKGSGKSGFLQGFLGRNITRQK-NIREDHKSYYAISTTYVYGQEKYLLLHEVL A0A3P9MEH8/282-476 LTQEYLFPIIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDKG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IVYEQESQAAAIT--VTRSKRIDLQKKQTQRSVFRCNVFGAAGSGKSGFLQAFLGRNLQRQK-QIREAHKSYYAISTTYVYGQEKYLLLHEA- A0A3Q4GF36/282-477 LTQEYLFPLIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WLTYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREEHKSFYAISTTYVYGQEKYLLLHEMM A0A1S3RB92/282-477 LHQEYLFPLLKIPADCTTELNHNAYLFLQSVFDKHDKDRDCALSPDEVKDLFKVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IICEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNILGARGSGKTSFLQAFLGRNLLKQR-KIREDHKSFYSINTTYVYGQEKYLLLHEVM A0A1S3RBX0/282-477 LHQEYLFPLLKIPADCTTELNHNAYLFLQSVFDKHDKDRDCALSPDEVKDLFKVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IICEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNILGARGSGKTSFLQAFLGRNLLKQR-KIREDHKSFYSINTTYVYGQEKYLLLHEVM A0A3P9HBA0/282-476 LTQEYLFPIIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDKG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IVYEQESQAAAIT--VTRSKRIDLQKKQTQRSVFRCNVFGAAGSGKSGFLQAFLGRNLQRQN-QIREAHKSYYAISTTYVYGQEKYLLLHEA- W5KSM7/232-427 LTQEYLFPLLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIHEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGAQGSGKSGFLQAFLGRNVTRQK-KIRDDHKSYYAISTTYVYGQEKYLLLHEVL A0A3B4G7J3/250-445 LTQEYLFPLIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WLTYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREEHKSFYAISTTYVYGQEKYLLLHEVM A0A3P9BXV9/282-477 LTQEYLFPLIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WLTYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREEHKSFYAISTTYVYGQEKYLLLHEVM A0A3B4D3Q8/282-477 LTQEYLFPLLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIHEQESQAAAIT--VTRNKRIDLQKKQTQRNVFRCNILGARGSGKSGFLQAFLGRNLARQR-RIREEHKSYYAISTAYVYGQEKYLLLHEVL A0A0P7UD59/250-445 LTQEYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELKDLFRVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCSVFGAKGSGKSGFLQGFLGRNITRQK-NIREDHKSYYAISTTYVYGQEKYLLLHEVL A0A3Q4GF53/283-478 LTQEYLFPLIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WLTYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREEHKSFYAISTTYVYGQEKYLLLHEMM G3PFL5/265-460 LTQEYLFPMIKMPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDEVKDLFKVFPYMPWGPDVNHTVCTNEQG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGGRGSGKSAFLQAFLGKNLQGQR-RIREDHKSFYAISTTYVYGQEKYLLLHEVM G3PFK9/283-478 LTQEYLFPMIKMPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDEVKDLFKVFPYMPWGPDVNHTVCTNEQG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGGRGSGKSAFLQAFLGKNLQGQR-RIREDHKSFYAISTTYVYGQEKYLLLHEVM A0A3B5R8U1/346-541 LTQEYLFPLIKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFNVFPYMPWGPDVNNTVCTNDEG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQM-RIREDHKSYYAISTTYVYGQEKYLLLHEVM A0A3B4GB11/282-477 LTQEYLFPLIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WLTYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREEHKSFYAISTTYVYGQEKYLLLHEVM A0A3Q2CAP1/282-477 LTQEYLFPLVKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDKG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREDHKSYYAISTTYVYGQEKYLLLHEVM A0A3Q2NSW1/277-471 LTQEYLFPLIKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNENG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREDHKSYYAISTTYVYGQEKYLLLHEA- A0A3P9IYA8/282-476 LTQEYLFPIIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDKG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IVYEQESQAAAIT--VTRSKRIDLQKKQTQRSVFRCNVFGAAGSGKSGFLQAFLGRNLQRQN-QIREAHKSYYAISTTYVYGQEKYLLLHEA- A0A3B3DJT8/282-477 LTQEYLFPMIKIPSDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEKG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IVYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGAPGSGKSGFLQAFLGRNLQRQK-QIKENHKSYYAISTTYVYGQEKYLLLHEVM A0A1W5AWH2/282-477 LTQEYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELKDLFRVFPYMPWGPDVNSTVCTSDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IICEQESQAAAIT--VTRDKKIDLQKKQTQRNVFCCNVFGASGSGKSGFLQAFLGRNLVRQK-TIREDHRSYYAISTTYVYGQEKYLLLHEVF A0A3B3YYC0/282-477 LTQEYLFPLIKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFNVFPYMPWGPDVNNTVCTNDEG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IICEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQM-RIREDHKSYYAISTTYVYGQEKYLLLHEVM A0A3B3YX43/263-458 LTQEYLFPLIKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFNVFPYMPWGPDVNNTVCTNDEG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IICEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQM-RIREDHKSYYAISTTYVYGQEKYLLLHEVM A0A3B1JXV3/232-427 LTQEYLFPLLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIHEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGAQGSGKSGFLQAFLGRNVTRQK-KIRDDHKSYYAISTTYVYGQEKYLLLHEVL A0A1W5APG0/282-477 LTQEYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELKDLFRVFPYMPWGPDVNSTVCTSDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IICEQESQAAAIT--VTRDKKIDLQKKQTQRNVFCCNVFGASGSGKSGFLQAFLGRNLVRQK-TIREDHRSYYAISTTYVYGQEKYLLLHEVF A0A087Y4P7/282-477 LTQEYLFPLIKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFNVFPYMPWGPDVNNTVCTNDEG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IICEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQM-RIREDHKSYYAISTTYVYGQEKYLLLHEVM A0A3Q2CAI0/282-477 LTQEYLFPLVKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDKG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREDHKSYYAISTTYVYGQEKYLLLHEVM A0A3P9L396/282-476 LTQEYLFPIIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDKG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IVYEQESQAAAIT--VTRSKRIDLQKKQTQRSVFRCNVFGAAGSGKSGFLQAFLGRNLQRQK-QIREAHKSYYAISTTYVYGQEKYLLLHEA- A0A3B3IB36/282-476 LTQEYLFPIVKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDKG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IVYEQESQAAAIT--VTRSKRIDLQKKQTQRSVFRCNVFGAAGSGKSGFLQAFLGRNLQRQK-QIREAHKSYYAISTTYVYGQEKYLLLHEA- A0A3P9L318/282-476 LTQEYLFPIIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDKG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IVYEQESQAAAIT--VTRSKRIDLQKKQTQRSVFRCNVFGAAGSGKSGFLQAFLGRNLQRQK-QIREAHKSYYAISTTYVYGQEKYLLLHEA- A0A3B3I5S0/282-476 LTQEYLFPIVKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDKG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IVYEQESQAAAIT--VTRSKRIDLQKKQTQRSVFRCNVFGAAGSGKSGFLQAFLGRNLQRQK-QIREAHKSYYAISTTYVYGQEKYLLLHEA- A0A3B1JCR8/261-456 LTQEYLFPLLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIHEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGAQGSGKSGFLQAFLGRNVTRQK-KIRDDHKSYYAISTTYVYGQEKYLLLHEVL A0A3Q3C3I1/270-465 LTQEYLFPLIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WLTYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARSSGKSGFLQAFLGRNLQRQR-RIREEHKSFYAISTTYVYGQEKYLLLHEVM A0A3B3RU64/282-476 LTQEYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELKDLFSVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYP-ILCEQESQAAALT--VTRNKRIDLQKKQTQRNVFLCNVFGARGSGKSGFLQGFLGRNLMRQK--IRHEHKSYYAISTAYVYGQEKYLLLHEVL A0A3B3RV70/282-476 LTQEYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELKDLFSVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYP-ILCEQESQAAALT--VTRNKRIDLQKKQTQRNVFLCNVFGARGSGKSGFLQGFLGRNLMRQK--IRHEHKSYYAISTAYVYGQEKYLLLHEVL A0A3Q2DNF7/282-477 LTQEYLFPLVKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDKG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREDHKSYYAISTTYVYGQEKYLLLHEVM A0A3B1K5K0/232-427 LTQEYLFPLLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIHEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGAQGSGKSGFLQAFLGRNVTRQK-KIRDDHKSYYAISTTYVYGQEKYLLLHEVL A0A0R4ILB0/173-368 LTQEYLFPLFKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIQEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGCGKSGFLQAFLGRNLVRQK-RIREDHKSYYAISTTYVYGQEKYLLLHEVL A0A3Q2Q8C6/261-455 LTQEYLFPLIKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNENG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREDHKSYYAISTTYVYGQEKYLLLHEA- A0A3P8NAD0/282-477 LTQEYLFPLIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WLTYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREEHKSFYAISTTYVYGQEKYLLLHEVM I3J1I6/282-477 LTQEYLFPMIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WLTYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREEHKSFYAISTTYVYGQEKYLLLHEVM A0A3B3C6A6/282-477 LTQEYLFPMIKIPSDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEKG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IVYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGAPGSGKSGFLQAFLGRNLQRQK-QIKENHKSYYAISTTYVYGQEKYLLLHEVM G3PFL2/282-477 LTQEYLFPMIKMPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDEVKDLFKVFPYMPWGPDVNHTVCTNEQG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGGRGSGKSAFLQAFLGKNLQGQR-RIREDHKSFYAISTTYVYGQEKYLLLHEVM A0A3B5R0Z7/346-541 LTQEYLFPLIKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFNVFPYMPWGPDVNNTVCTNDEG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQM-RIREDHKSYYAISTTYVYGQEKYLLLHEVM A0A3B5QM69/346-541 LTQEYLFPLIKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFNVFPYMPWGPDVNNTVCTNDEG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQM-RIREDHKSYYAISTTYVYGQEKYLLLHEVM A0A3P8NAE1/251-446 LTQEYLFPLIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WLTYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREEHKSFYAISTTYVYGQEKYLLLHEVM H2M2M5/282-476 LTQEYLFPIVKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDKG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IVYEQESQAAAIT--VTRSKRIDLQKKQTQRSVFRCNVFGAAGSGKSGFLQAFLGRNLQRQK-QIREAHKSYYAISTTYVYGQEKYLLLHEA- A0A3B1J7L2/232-427 LTQEYLFPLLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIHEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGAQGSGKSGFLQAFLGRNVTRQK-KIRDDHKSYYAISTTYVYGQEKYLLLHEVL A0A3Q1JRG9/282-477 LTQEYLFPIIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREDHKSFYAISTTYVYGQEKYLLLHEMM A0A2D0PTT8/282-477 LTQEYLFPLLKIPPHCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFKVFPYMPWGPDVNNTVYTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIHEQDSQAAAIT--ITRNKHIDLQKKQTQRSVFRCNVLGARGSGKSGLLQAFLGRNLARQK-QIREDHKSYYAISTAYVYGQEKYLLLHEIL A0A3B3RW13/282-476 LTQEYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELKDLFSVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYP-ILCEQESQAAALT--VTRNKRIDLQKKQTQRNVFLCNVFGARGSGKSGFLQGFLGRNLMRQK--IRHEHKSYYAISTAYVYGQEKYLLLHEVL A0A3B4T9X4/282-477 LTQEYLFPLLKIPGDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDEVKDLFKVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRSVEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREDHKSLYAISTTYVYGQEKYLLLHEVM A0A2D0PVC4/282-477 LTQEYLFPLLKIPPHCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFKVFPYMPWGPDVNNTVYTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIHEQDSQAAAIT--ITRNKHIDLQKKQTQRSVFRCNVLGARGSGKSGLLQAFLGRNLARQK-QIREDHKSYYAISTAYVYGQEKYLLLHEIL A0A3Q2WVG1/282-477 LTQEYLFPLIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WLTYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARSSGKSGFLQAFLGRNLQRQR-RIREEHKSFYAISTTYVYGQEKYLLLHEVM A0A3Q2Q8E0/277-471 LTQEYLFPLIKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNENG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREDHKSYYAISTTYVYGQEKYLLLHEA- A0A3Q2NT75/273-467 LTQEYLFPLIKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNENG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREDHKSYYAISTTYVYGQEKYLLLHEA- W5N8K4/282-476 LTQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDLDRDCALSPDELKDLFKVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYMGYLGYS-IICEQESQAAAIT--VTRDKKIDLQKRQTQRNVFRCNVIGMRGCGKSGFLQAFLGRNLMRQR-QIREDHKSYYAISTTYVYGQEKYLLLHEV- A0A3B3RWB8/282-476 LTQEYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELKDLFSVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYP-ILCEQESQAAALT--VTRNKRIDLQKKQTQRNVFLCNVFGARGSGKSGFLQGFLGRNLMRQK--IRHEHKSYYAISTAYVYGQEKYLLLHEVL A0A3B4G7B7/282-477 LTQEYLFPLIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WLTYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREEHKSFYAISTTYVYGQEKYLLLHEVM A0A3P8W0V2/282-477 LTQEYLFPLIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYVPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGERGSGKTGFLQAFLGRNLQRQK-RIREDHKSLYAISTSYVYGQEKYLLLHEVM A0A1S3RCP4/282-477 LHQEYLFPLLKIPADCTTELNHNAYLFLQSVFDKHDKDRDCALSPDEVKDLFKVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IICEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNILGARGSGKTSFLQAFLGRNLLKQR-KIREDHKSFYSINTTYVYGQEKYLLLHEVM A0A1S3S2A6/297-492 LHQEYLFPLLKIPADCTTELNHNAYLFLQSVFDKHDKDRDCALSPDEVKDLFKVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IICEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNILGARGSGKTSFLQAFLGRNLLKQR-KIREDHKSFYSINTTYVYGQEKYLLLHEVM A0A3P9L344/282-476 LTQEYLFPIIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDKG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IVYEQESQAAAIT--VTRSKRIDLQKKQTQRSVFRCNVFGAAGSGKSGFLQAFLGRNLQRQK-QIREAHKSYYAISTTYVYGQEKYLLLHEA- A0A3Q1JVW9/264-459 LTQEYLFPIIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREDHKSFYAISTTYVYGQEKYLLLHEMM A0A3B4YZK9/282-477 LTQEYLFPLLKVPGDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDEVKDLFKVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREDHKSLYAISTTYVYGQEKYLLLHEVM A0A3P8W0W9/282-477 LTQEYLFPLIKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYVPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGERGSGKTGFLQAFLGRNLQRQK-RIREDHKSLYAISTSYVYGQEKYLLLHEVM A0A146MVN0/229-423 LTQEYLFPLIKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREDHKSYYAISTTYVYGQEKYLLLHEA- A0A146NY10/310-504 LTQEYLFPLIKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEEVKDLFKVFPYMPWGPDVNNTVCTNENG-WITYQGYLSQWTLTTYLDVQRSLEYLGYLGYS-IIYEQESQAAAIT--VTRNKRIDLQKKQTQRSVFRCNVLGARGSGKSGFLQAFLGRNLQRQR-RIREDHKSYYAISTTYVYGQEKYLLLHEA- A0A3B5AJD1/282-477 LNQDYLFPPLKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELKDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQSFLGRNLMRQK-TVKEEHRSYYAISTTYVYGQEKYLLLHEVF H2U296/269-464 LNQDYLFPLLKIPPDSTTELNHNAYLFLQSVFDKHDKDQDCALSPEELADLFDVFPYMPWGADVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGFS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDGGSGKSSFLQAFLGRNLTDQK-LIKEEHKSYYAINTTYVYGQEKYLLLHEVF A0A3Q4M1I3/270-465 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELKDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQAFLGRNLVLQK-TIKEEHRSYYAINTTYVYGQEKYLLLHEVF A0A3Q3KP47/282-477 LNQDYLFPPLKIPPDCTTELNHKAYLFLQGVFDKHDKDRDCALSPEELKDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQECQASGIT--VTRDKKIDLQKKQTQRSVFHCNVFGDIGSGKSGFLQGFLGRNLMRQK-MIREEHRSYYSISTTYVYGQEKYLLLHEVF A0A3P9DCG9/276-471 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQAFLGRNLMRQK-TIKEEHRSYYAINTTYVYGQEKYLLLHEVF A0A3B3VP13/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRAKKIDLQKKQTQRNVFRCNVFGDMSSGKSGFLQAFLGRNFVRQK-MIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3B4T448/279-474 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQASGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQSFLGRNLTLQK-TIREEHRSYYAISTTYVYGQEKYLLLHEVF A0A3Q3KNZ3/282-477 LNQDYLFPPLKIPPDCTTELNHKAYLFLQGVFDKHDKDRDCALSPEELKDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQECQASGIT--VTRDKKIDLQKKQTQRSVFHCNVFGDIGSGKSGFLQGFLGRNLMRQK-MIREEHRSYYSISTTYVYGQEKYLLLHEVF A0A3P8NYD0/276-471 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYFGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQAFLGRNLMRQK-TIKEEHRSYYAINTTYVYGQEKYLLLHEVF A0A3B5M0G9/295-490 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQTAGIT--ATRAKKIDLQKKQTQRNVFRCNVFGDMSSGKSGFLQAFLGRNLVRQK-MIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3Q2W5N0/276-471 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQAFLGRNLMRQK-TIKEEHRSYYAINTTYVYGQEKYLLLHEVF H2U297/282-477 LNQDYLFPLLKIPPDSTTELNHNAYLFLQSVFDKHDKDQDCALSPEELADLFDVFPYMPWGADVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGFS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDGGSGKSSFLQAFLGRNLTDQK-LIKEEHKSYYAINTTYVYGQEKYLLLHEVF A0A3Q1BIZ7/282-477 LNQDYLFPPLKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELKDLFDVFPYMPWGADVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDVGSGKSGFLQAFLGRNLMRQK-MIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3Q2VVK9/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQAFLGRNLMRQK-TIKEEHRSYYAINTTYVYGQEKYLLLHEVF A0A3B4YDB1/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESHASGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQSFLGRNLTLQK-TIREEHRSYYAISTTYVYGQEKYLLLHEVF A0A3P8U7Z8/282-477 LNQDYLFPPLKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELKDLFDVFPYMPWGADVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDLGSGKSGFLQAFLGRNLMRQK-MIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3P9DBZ9/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQAFLGRNLMRQK-TIKEEHRSYYAINTTYVYGQEKYLLLHEVF H2LEE1/282-477 LNQDYLFPPLKVPPDCTTELNYNAYLFLQSVFDKHDKDRDCALSPEELEDLFDVFPYMPWGADVNNTVCTNERG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQADGIT--VTRDKKIDLQKKQTQRSVFRCNVFGEVGSGKSGFLQAFLGRNLSRQK-TIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3P9PNH4/291-486 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRAKKIDLQKKQTQRNVFRCNVFGDMGSGKSGFLQAFLGRNLVRQK-MIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3Q2Y955/261-456 LNQDYLFPPLKVPADCTTELNHTAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQTAGIT--VTRDKKIDLQKKQTQRGVFRCNIFGDVGSGKSGFLQALLGRNLMHQQ-MIKEEHKSYYAISTTFVYGQEKYLLLHEVF A0A3B3DSE7/282-477 LNQDYLFPPLKVPPDCTTELNYNAYLFLQSVFDKHDKDRDCALSPEELEDLFDVFPYMPWGADVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQADGIT--VTRDKKIDLQKKQTQRSVFRCNVFGEGGSGKSGFLQAFLGRNLLRQK-TIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3Q0R6F7/255-450 LNQDYLFPPLKIPPGCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELKDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQASGIT--VTRDKKIDLQKKQTQRGVFRCNVFGDIGSGKSGFLQAFLGRNLVRQK-TIKEEHRSYYAINTTYVYGQEKYLLLHEVF A0A3B4EXU1/278-473 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQAFLGRNLMRQK-TIKEEHRSYYAINTTYVYGQEKYLLLHEVF A0A3B4T3F7/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQASGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQSFLGRNLTLQK-TIREEHRSYYAISTTYVYGQEKYLLLHEVF A0A3P8U4I9/282-477 LNQDYLFPPLKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELKDLFDVFPYMPWGADVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDLGSGKSGFLQAFLGRNLMRQK-MIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3B3CDZ7/282-477 LNQDYLFPPLKVPPDCTTELNYNAYLFLQSVFDKHDKDRDCALSPEELEDLFDVFPYMPWGADVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQADGIT--VTRDKKIDLQKKQTQRSVFRCNVFGEGGSGKSGFLQAFLGRNLLRQK-TIKEEHRSYYAISTTYVYGQEKYLLLHEVF M3ZXC3/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQTAGIT--ATRAKKIDLQKKQTQRNVFRCNVFGDMSSGKSGFLQAFLGRNLVRQK-MIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3B3X6C2/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRAKKIDLQKKQTQRNVFRCNVFGDMSSGKSGFLQAFLGRNLVRQK-MIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3P9DD21/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQAFLGRNLMRQK-TIKEEHRSYYAINTTYVYGQEKYLLLHEVF A0A3P9HKD3/282-477 LNQDYLFPPLKVPPDCTTELNYNAYLFLQSVFDKHDKDRDCALSPEELEDLFDVFPYMPWGADVNNTVCTNERG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQADGIT--VTRDKKIDLQKKQTQRSVFRCNVFGEVGSGKSGFLQAFLGRNLSRQK-TIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3P9KML3/282-477 LNQDYLFPPLKVPPDCTTELNYNAYLFLQSVFDKHDKDRDCALSPEELEDLFDVFPYMPWGADVNNTVCTNERG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQADGIT--VTRDKKIDLQKKQTQRSVFRCNVFGEVGSGKSGFLQAFLGRNLSRQK-TIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3Q2VWM0/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQAFLGRNLMRQK-TIKEEHRSYYAINTTYVYGQEKYLLLHEVF A0A3B5RFI7/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQTAGIT--ATRAKKIDLQKKQTQRNVFRCNVFGDMSSGKSGFLQAFLGRNLVRQK-MIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3B3YKC5/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRAKKIDLQKKQTQRNVFRCNVFGDMSSGKSGFLQAFLGRNLVRQK-MIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3B3X639/280-475 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRAKKIDLQKKQTQRNVFRCNVFGDMSSGKSGFLQAFLGRNLVRQK-MIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A146VXH9/282-477 LNQDYLFPPLKITPDCTTELNHNAYLFLQSIFDKHDKDRDCALSPDELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRAKKIDLQKKQTQRNVFRCNVFGDMASGKSGFLQAFLGKNLERQK-IIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3P9HKS5/272-467 LNQDYLFPPLKVPPDCTTELNYNAYLFLQSVFDKHDKDRDCALSPEELEDLFDVFPYMPWGADVNNTVCTNERG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQADGIT--VTRDKKIDLQKKQTQRSVFRCNVFGEVGSGKSGFLQAFLGRNLSRQK-TIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3Q3E4N1/286-481 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSIFDKHDKDRDCALSPEELKDLFDVFPYMPWGPDVNNTVCTNEQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IVAEQESHAAGIT--VTRAKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQAFLGSNLMHQK-TIKEEHKSYYAISTTYVYGQEKYLLLHEVF A0A3P9PN98/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRAKKIDLQKKQTQRNVFRCNVFGDMGSGKSGFLQAFLGRNLVRQK-MIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3Q1GQV3/282-477 LNQDYLFPPLKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELKDLFDVFPYMPWGADVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQAFLGRNLMRQK-MIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3P8NYC0/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYFGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQAFLGRNLMRQK-TIKEEHRSYYAINTTYVYGQEKYLLLHEVF A0A3P8NY55/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYFGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQAFLGRNLMRQK-TIKEEHRSYYAINTTYVYGQEKYLLLHEVF A0A3P9KM84/282-477 LNQDYLFPPLKVPPDCTTELNYNAYLFLQSVFDKHDKDRDCALSPEELEDLFDVFPYMPWGADVNNTVCTNERG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQADGIT--VTRDKKIDLQKKQTQRSVFRCNVFGEVGSGKSGFLQAFLGRNLSRQK-TIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3B3UJ98/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRAKKIDLQKKQTQRNVFRCNVFGDMSSGKSGFLQAFLGRNFVRQK-MIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3Q1HC84/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELKDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQASGIT--VTRDKRIDLQKKQTQRNVFRCNVFGDTGSGKSGFLQAFLGRNLMRQK-TIREEHRSYYAISTTYVYGQEKYLLLHEVF A0A3Q1HJ09/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELKDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQASGIT--VTRDKRIDLQKKQTQRNVFRCNVFGDTGSGKSGFLQAFLGRNLMRQK-TIREEHRSYYAISTTYVYGQEKYLLLHEVF A0A3B4ZXL5/282-477 LNQDYLFPPLKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELKDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQSFLGRNLMRQK-TVKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3B4XZ79/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESHASGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQSFLGRNLTLQK-TIREEHRSYYAISTTYVYGQEKYLLLHEVF A0A146ZXE7/282-477 LNQDYLFPPLKITPDCTTELNHNAYLFLQSIFDKHDKDRDCALSPDELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRAKKIDLQKKQTQRNVFRCNVFGDMASGKSGFLQAFLGKNLERQK-IIKEEHRSYYAISTTYVYGQEKYLLLHEVF I3KNX0/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKRQTQRSVFRCNVFGDIGSGKSGFLQAFLGRNLMRQK-TIKEEHRSYYAINTTYVYGQEKYLLLHEVF A0A3B4T3X4/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQASGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQSFLGRNLTLQK-TIREEHRSYYAISTTYVYGQEKYLLLHEVF A0A3Q3KZV5/281-476 LNQDYLFPPLKIPPDCTTELNHKAYLFLQGVFDKHDKDRDCALSPEELKDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQECQASGIT--VTRDKKIDLQKKQTQRSVFHCNVFGDIGSGKSGFLQGFLGRNLMRQK-MIREEHRSYYSISTTYVYGQEKYLLLHEVF A0A2I4AY46/282-477 LNQDFLFPSLKVPPDCTTELNHNTYLFLQSIFDKHDKDRDCALSPEELKDLFDVFPYMPWGADVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRNVFRCNVFGDMGSGKSGFLQAFLGRNLTRQK-TIKEEHRSYYAISTTYVYGQEKYLLLHEVF G3Q6Z7/298-493 LNQDYLFPPLKLPADSTTELNHNAYLFLQSVFDKHDKDRDCALSPEETRDLFDVFPYMPWGPDVYNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQASGIT--VTRAKKIDLQKKQTQRSVFRCNVFGDVGSGKSGFLQAFLGRNLMRQK-AISEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3Q2XAI9/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRSVFRCNVFGDIGSGKSGFLQAFLGRNLMRQK-TIKEEHRSYYAINTTYVYGQEKYLLLHEVF A0A2I4AY42/282-477 LNQDFLFPSLKVPPDCTTELNHNTYLFLQSIFDKHDKDRDCALSPEELKDLFDVFPYMPWGADVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKKQTQRNVFRCNVFGDMGSGKSGFLQAFLGRNLTRQK-TIKEEHRSYYAISTTYVYGQEKYLLLHEVF H2LEE0/282-477 LNQDYLFPPLKVPPDCTTELNYNAYLFLQSVFDKHDKDRDCALSPEELEDLFDVFPYMPWGADVNNTVCTNERG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQADGIT--VTRDKKIDLQKKQTQRSVFRCNVFGEVGSGKSGFLQAFLGRNLSRQK-TIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3P9J4A5/282-477 LNQDYLFPPLKVPPDCTTELNYNAYLFLQSVFDKHDKDRDCALSPEELEDLFDVFPYMPWGADVNNTVCTNERG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQADGIT--VTRDKKIDLQKKQTQRSVFRCNVFGEVGSGKSGFLQAFLGRNLSRQK-TIKEEHRSYYAISTTYVYGQEKYLLLHEVF I3KNX1/292-487 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRDKKIDLQKRQTQRSVFRCNVFGDIGSGKSGFLQAFLGRNLMRQK-TIKEEHRSYYAINTTYVYGQEKYLLLHEVF A0A3Q3AMP7/282-477 LNQDYLFPSLKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELKDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IMAEQESQVAGIT--VTRDKKIDLQKKQTQRNVFRCNVFGDMGSGKSGFLQAFLGRNLTRQK-TIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A3Q3AMS5/282-477 LNQDYLFPSLKVPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPEELKDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IMAEQESQVAGIT--VTRDKKIDLQKKQTQRNVFRCNVFGDMGSGKSGFLQAFLGRNLTRQK-TIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A087Y2B0/282-477 LNQDYLFPPLKIPPDCTTELNHNAYLFLQSVFDKHDKDRDCALSPDELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRAKKIDLQKKQTQRNVFRCNVFGDMSSGKSGFLQAFLGRNLVRQK-MIKEEHRSYYAISTTYVYGQEKYLLLHEVF A0A146VYQ4/368-563 LNQDYLFPPLKITPDCTTELNHNAYLFLQSIFDKHDKDRDCALSPDELRDLFDVFPYMPWGPDVNNTVCTNDQG-WITYQGYLSQWTLTTYLDVQRCLEYLGYLGYS-IIAEQESQAAGIT--VTRAKKIDLQKKQTQRNVFRCNVFGDMASGKSGFLQAFLGKNLERQK-IIKEEHRSYYAISTTYVYGQEKYLLLHEVF F6YV49/242-436 LTPEYLFPQLKVPIDCTTELNHHAYLFLQSIFDKHDQDRDCALSPEELKDLFQVFPYMPWGPDVNNTVYTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQAMAVT--VTRDKKIDLHKRQTQRNVFRCNVIGSQGSGKSGILQSHLGRNLMRQK-RVREEHKSFYAINPVYVYGQEKYLLLHHV- A0A1L8EV40/282-476 LTPEYLFPQLKVPIDCTTELNHHAYLFLQSIFDKHDQDRDCALSPEELKDLFQVFPYMPWGPDVNNTVYTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQAMAVT--VTRDKKIDLHKRQTQRNVFRCNVIGSQGSGKSGILQSHLGRNLMRQT-RIREQHKSFYAINPVYVYGQEKYLLLHHV- A0A1L8EV22/282-476 LTPEYLFPQLKVPIDCTTELNHHAYLFLQSIFDKHDQDRDCALSPEELKDLFQVFPYMPWGPDVNNTVYTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQAMAVT--VTRDKKIDLHKRQTQRNVFRCNVIGSQGSGKSGILQSHLGRNLMRQT-RIREQHKSFYAINPVYVYGQEKYLLLHHV- Q08AW2/282-476 LTPEYLFPQLKVPIDCTTELNHHAYLFLQSIFDKHDQDRDCALSPEELKDLFQVFPYMPWGPDVNNTVYTNEKG-WITYQGFLSQWTLTTYLDVQRCLEYLGYLGYS-ILTEQESQAMAVT--VTRDKKIDLHKRQTQRNVFRCNVIGSQGSGKCGILQSHLGRNLMRQT-RIREQHKSFYAINPVYVYGQEKYLLLHHV- W5M6U2/295-489 LTDDYLYPHLRVPSGCSTELNHLGYQFLQRLFEKYDHDKDSALSPPELKNLFSVFPYMPWGPDVHTTVCTNQDG-FISLHGYLCQWTLTAFLDVHRCLEYLGYFGYP-VLMEQESQTAAIT--VTREKKLDLDKGQTQRDVLLCKVIGPRGTGKTAFLQAFLGKSLSKQ--KSSTGQFSYYTINTVQVNSQEKYLILYEVD F6W9X1/282-474 LTDDYLYPPLRIPHESSTELNHFGYQFLQKAFEKHDLDEDGALSPSELQSFFSVFPYTPWGPELASTVCTAQGG-YLPLHGYLCQWTLVAYLDVHRCLEHLGYLGYP-ILCEQESQTHAIT--VTREKSIDLEKGQTQRNVFLCRVIGPRQT-QVSLLRAPLGQSL-EQ--QQSNKPPSFYSVNTVHFLGQEKYLILFEVD A0A1L8ER17/270-465 LTDDYLYPPLRIPHDSSTELNHFGYQFLQKAFEKHDLDGDGALSPSELQSFFSVFPYTPWGPELPSTVCTSEGGNYLPLHGYLCQWTLVAYLDVHRCLEHLGYLGYP-ILCEQDSQTHAIT--VMREKSIDLEKGQTQRNVFLCRVIGPCGTGKSAFLRAFLGQSLEEQ--RQSNKPPSFYSVNTVLVGGQEKYLILYEVD A0A1L8EYQ4/282-477 LTDDYLYPPLRIPHDSSTELNHFGYQFLQKAFEKHDLDGDGALCPSELQSFFSVFPYTPWGPELPSTVCTAEGGSYLPLHGYLSQWTLVAYLDVHRCLEHLGYLGYP-ILCEQESQTHAIT--VTREKSIDLEKGQTQRNIFLCRVIGPRGTGKSAFLRAFLGQSLEEQ--QLSNKPPSFYSVNTVLVGGQEKYLILFEVD A0A452CGP5/256-449 LTANYLCPPLRVPPGCSTELNHRGYQFVQRMFEKHDQDRDGALSPAELQSLFSVFPAAPWGPQLPRTVRT-EAG-RLPLHGYLCQWTLVTYLDVQHCLEHLGYLGFP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRNVFLCKVVGARGVGKSSFLQAFLGRGLG--DAGEPAGEPSAYTIDTVQVNGQEKYLILCEVG A0A384A3M6/282-475 LTANYLCPPLRVPPGCSTELNHRGYQFVQRMFEKHDQDRDGALSPAELQSLFSVFPAAPWGPQLPRTVRT-EAG-RLPLHGYLCQWTLVTYLDVQHCLEHLGYLGFP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRNVFLCKVVGARGVGKSSFLQAFLGRGLG--DAGEPAGEPSAYTIDTVQVNGQEKYLILCEVG A0A452CGN9/253-446 LTANYLCPPLRVPPGCSTELNHRGYQFVQRMFEKHDQDRDGALSPAELQSLFSVFPAAPWGPQLPRTVRT-EAG-RLPLHGYLCQWTLVTYLDVQHCLEHLGYLGFP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRNVFLCKVVGARGVGKSSFLQAFLGRGLG--DAGEPAGEPSAYTIDTVQVNGQEKYLILCEVG A0A452CGN7/282-475 LTANYLCPPLRVPPGCSTELNHRGYQFVQRMFEKHDQDRDGALSPAELQSLFSVFPAAPWGPQLPRTVRT-EAG-RLPLHGYLCQWTLVTYLDVQHCLEHLGYLGFP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRNVFLCKVVGARGVGKSSFLQAFLGRGLG--DAGEPAGEPSAYTIDTVQVNGQEKYLILCEVG A0A340X311/282-477 LTANYLCPPLRVPPGCSTELNHRGYQFVQRMFEKHDQDRDGALSPAELQSLFSVFPAAPWGPQLPRTVRT-EAG-RLPLHGYLCQWTLVTYLDVQHCLEHLGYLGFP-TLCEQDSQAHAIT--VTRDKRLDQEKGQTQRNVFLCKVVGARGVGKSSFLQAFLGHGLGVSDAGEPAGEPSAYTIDTVQVNGQEKYLILCEVG A0A2Y9Q3F4/282-475 LTANYLCPPLRVPPGCSTELNHRGYQFVQRMFEKHDQDRDGALSPAELQSLFSVFPAAPWGPQLPRTVRT-KAG-RLPLHGYLCQWTLVTYLDVQHCLEHLGYLGFP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRNVFLCKVVGARGVGKSSFLQAFLGHGLG--DAGEPAGEPSAYTIDTVQVNGQEKYLILCEVG A0A455AUJ4/235-428 LTANYLCPPLRVPPGCSTELNHRGYQFVQRMFEKHDQDRDGALSPAELQSLFTVFPAAPWGPQLPRTVRT-EAG-RLPLHGYLCQWTLVTYLDVQHCLEHLGYLGFP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRNVFLCKVVGARGVGKSSFLQAFLGHGLG--DAGEPAGESSAYTIDTVQVNGQEKYLILCEVG A0A2Y9PT81/281-474 LTANYLCPPLRVPPGCSTELNHRGYQFVQRMFEKHDQDRDGALSPAELQSLFSVFPAAPWGPQLPRTVRT-KAG-RLPLHGYLCQWTLVTYLDVQHCLEHLGYLGFP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRNVFLCKVVGARGVGKSSFLQAFLGHGLG--DAGEPAGEPSAYTIDTVQVNGQEKYLILCEVG A0A2Y9SSD5/282-475 LTANYLCPPLRVPPGCSTELNHRGYQFVQRMFEKHDQDRDGALSPAELQSLFTVFPAAPWGPQLPRTVRT-EAG-RLPLHGYLCQWTLVTYLDVQHCLEHLGYLGFP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRNVFLCKVVGARGVGKSSFLQAFLGHGLG--DAGEPAGESSAYTIDTVQVNGQEKYLILCEVG A0A2Y9PX53/282-475 LTANYLCPPLRVPPGCSTELNHRGYQFVQRMFEKHDQDRDGALSPAELQSLFSVFPAAPWGPQLPRTVRT-KAG-RLPLHGYLCQWTLVTYLDVQHCLEHLGYLGFP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRNVFLCKVVGARGVGKSSFLQAFLGHGLG--DAGEPAGEPSAYTIDTVQVNGQEKYLILCEVG F1N6Q3/251-442 LTADYLCPPLRVPPGCSAELNHRGYQFVQRMFEKHDQDRDGALSPAELQSLFSVFPAAPWGPHLPSTVRT-KAG-RLPLHGYLCQWTLVTYLDVRRSLEHLGYLGYP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRNVLLCKVVGARGVGKSSFLRAFLGHSLGHQDAG----EPSVYAIDTVQVNGQEKYLILCEVA A0A2Y9SUA2/282-475 LTANYLCPPLRVPPGCSTELNHRGYQFVQRMFEKHDQDRDGALSPAELQSLFTVFPAAPWGPQLPRTVRT-EAG-RLPLHGYLCQWTLVTYLDVQHCLEHLGYLGFP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRNVFLCKVVGARGVGKSSFLQAFLGHGLG--DAGEPAGESSAYTIDTVQVNGQEKYLILCEVG A0A2Y9PY33/253-446 LTANYLCPPLRVPPGCSTELNHRGYQFVQRMFEKHDQDRDGALSPAELQSLFSVFPAAPWGPQLPRTVRT-KAG-RLPLHGYLCQWTLVTYLDVQHCLEHLGYLGFP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRNVFLCKVVGARGVGKSSFLQAFLGHGLG--DAGEPAGEPSAYTIDTVQVNGQEKYLILCEVG A0A455AVC4/282-471 LTANYLCPPLRVPPGCSTELNHRGYQFVQRMFEKHDQDRDGALSPAELQSLFTVFPAAPWGPQLPRTVRT-EAG-RLPLHGYLCQWTLVTYLDVQHCLEHLGYLGFP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRNVFLCKVVGARGVGKSSFLQAFLGHGLG--DAGEPAGESSAYTIDTVQVNGQEKYLI----R A0A452CGQ1/282-475 LTANYLCPPLRVPPGCSTELNHRGYQFVQRMFEKHDQDRDGALSPAELQSLFSVFPAAPWGPQLPRTVRT-EAG-RLPLHGYLCQWTLVTYLDVQHCLEHLGYLGFP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRNVFLCKVVGARGVGKSSFLQAFLGRGLG--DAGEPAGEPSAYTIDTVQVNGQEKYLILCEVG A0A452CGR7/275-468 LTANYLCPPLRVPPGCSTELNHRGYQFVQRMFEKHDQDRDGALSPAELQSLFSVFPAAPWGPQLPRTVRT-EAG-RLPLHGYLCQWTLVTYLDVQHCLEHLGYLGFP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRNVFLCKVVGARGVGKSSFLQAFLGRGLG--DAGEPAGEPSAYTIDTVQVNGQEKYLILCEVG M3W4B0/282-477 LTLDYLAPPLHVPPGCSTELNHFGYQFVQRVFEKHDQDHDGSLSPVELDSFFSVFPAAPWGSQLPLEVPT-EAG-RLPLHGYLCQWTLVTYLDVRRCLEHLGYLGYP-TLCERDSQAHAIT--VTREKRLDQEKGQTQRNVLLCKVVGARGVGKSAFLQAFLGRRLGRQDRREFPEEPAVYAINTVQVNGQEKYLILCEVS A0A3Q2HQY9/436-631 LTDDYLFPPLHVPPGCSTELNHFGYQFVQRLFEKHDQDCDGALSSAELQSFFSVFPAAPWGPQLPQTVRT-EAG-RLSLHGYLCQWTLVAYLDVRRCLEHLGYLGYP-VLCEQDSQAHAIT--VTREKKLDQEKGQTQRNVLLCKVVGARGVGKSAFLQAFLGRSLGHQDTTAPPEEPATYAIDTVQVHGQEKYLILCEVG F6SXK8/436-629 LTDDYLFPPLHVPPGCSTELNHFGYQFVQRLFEKHDQDCDGALSSAELQSFFSVFPAAPWGPQLPQTVRT-EAG-RLSLHGYLCQWTLVAYLDVRRCLEHLGYLGYP-VLCEQDSQAHAIT--VTREKKLDQEKGQTQRNVLLCKVVGARGVGKSAFLQAFLGRSLGHQDTTAPPEEPATYAIDTVQVHGQEKYLIVS--A A0A2K5IS94/269-461 LTADYLFPPLHVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPMELQSLFSVFPAAPWGPELPRTVRT-EAG-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCDQDSQTRAIT--VTREKRLDQEKGQTLRSVLLCKVVGARGVGKSAFLQAFLGHGLGHQDTRE---QPPGYTIDTVQVNGQEKYLILCEVG A0A2K6MGS6/281-473 LTADYLFPPLHVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPMELQSLFSVFPAAPWGPKLPCTVRT-EAG-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCDQDSQTRAIT--VTREKRLDQEKGQTLRSVLLCKVVGARGVGKSAFLQAFLGHGLGHQDTRE---QPPGYTIDTVQVNGQEKYLILCEVG A0A2K5NHN6/282-474 LTADYLFPPLHVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPVELQSLFSVFPAAPWGPELLRTVRT-EAG-RLPLHGYLCQWTLVTYLDVQSCLGHLGYLGYP-TLCDQDSQTRAIT--VTREKRLDQEKGQTLRSVLLCKVVGARGVGKSAFLQAFLGHGLGHQDTRE---QPPGYTIDTVRVNGQEKYLILCEVG A0A2K6D477/282-474 LTADYLFPPLHVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPMELQSLFSVFPAAPWGPELLRTVRT-EAG-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCDQDSQTRAIT--VTREKRLDQEKGQTLRSVLLCKVVGARGVGKSAFLQAFLGHGLGHQDTRE---QPPGYTIDTVQVNGQEKYLILCEVG A0A2K5NHM8/293-485 LTADYLFPPLHVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPVELQSLFSVFPAAPWGPELLRTVRT-EAG-RLPLHGYLCQWTLVTYLDVQSCLGHLGYLGYP-TLCDQDSQTRAIT--VTREKRLDQEKGQTLRSVLLCKVVGARGVGKSAFLQAFLGHGLGHQDTRE---QPPGYTIDTVRVNGQEKYLILCEVG A0A2K6ND68/273-465 LTADYLFPPLHVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPMELQSLFSVFPAAPWGPKLPCTVRT-EAG-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCDQDSQTRAIT--VTREKRLDQEKGQTLRSVLLCKVVGARGVGKSAFLQAFLGHGLGHQDTRE---QPPGYTIDTVQVNGQEKYLILCEVG A0A2R9BIP4/282-474 LTADYLSPPLRVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPVELQSLFSVFPAAPWGPELPRTVRT-EAG-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRSVLLCKVVGARGVGKSAFLQAFLGRGLGHQDTRE---QPPGYAIDTVQVNGQEKYLILCEVG A0A2K6SQC5/282-474 LTADYLFPPLHVPPGCSTELNHLGYQFVQRVFEKHDQDHDGALSPVELQSLFSVFPAAPWGPELPRMVRT-EAD-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCEQDSQTRAIT--VTREKRLDQEKGQTQRSVLLCKVVGARGVGKSAFLQAFLGRSLGHQDTRE---EPPGYAVDTVRVNGQEKYLILCEVG A0A2K6MGP2/275-467 LTADYLFPPLHVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPMELQSLFSVFPAAPWGPKLPCTVRT-EAG-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCDQDSQTRAIT--VTREKRLDQEKGQTLRSVLLCKVVGARGVGKSAFLQAFLGHGLGHQDTRE---QPPGYTIDTVQVNGQEKYLILCEVG A0A2K5R552/282-474 LTADYLFPPLHVPPGCSTELSHLGYQFVQRMFEKHDQDRDGALSPVELQSLFSVFPAAPWGPELPRTVRT-EAD-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCEQDSQTHAIT--VTREKRLDQEKGQTQRSVLLCKVVGARGVGKSAFLQAFLGRSLGHQDTRE---EPPGYTIDTVQVNGQEKYLILCEVG A0A2I3N787/273-465 LTADYLFPPLHVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPMELQSLFSVFPAAPWGPELLRTVRT-EAG-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCDQDSQTRAIT--VTREKRLDQEKGQTLRSVLLCKVVGARGVGKSAFLQAFLGHGLGHQDTRE---QPPGYTIDTVQVNGQEKYLILCEVG A0A2R9BIP6/273-465 LTADYLSPPLRVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPVELQSLFSVFPAAPWGPELPRTVRT-EAG-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRSVLLCKVVGARGVGKSAFLQAFLGRGLGHQDTRE---QPPGYAIDTVQVNGQEKYLILCEVG G7Q031/207-399 LTADYLFPPLHVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPMELQSLFSVFPAAPWGPELLRTVRT-EAG-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCDQDSQTRAIT--VTREKRLDQEKGQTLRSVLLCKVVGARGVGKSAFLQAFLGXXXXHQDTRE---QPPGYTIDTVQVNGQEKYLILCEVG H2NPK9/282-474 LTADYLFPPLHVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPVELQSLFSVFPAAPWGPELPRTVRT-EAG-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRSVLLCKVVGARGVGKSAFLQAFLGRGLEHQDTRE---QPPGYAIDTVQVNGQEKYLILCEVG A0A2I3TCN8/273-465 LTADYLSPPLRVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPVELQSLFSVFPAAPWGPELPRTVRT-EAG-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRSVLLCKVVGARGVGKSAFLQAFLGRGLGHQDTRE---QPPGYAIDTVQVNGQEKYLILCEVG G3RDA3/282-474 LTADYLSPPIHVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPVELQSLFSVFPAAPWGPELPRTVRT-EAG-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRSVLLCKVVGARGVGKSAFLQAFLGRGLGHQDTRE---QPPGYAIDTVQVNGQEKYLILCEVG U3D3G7/282-474 LTADYLFPPLHVPPGCSTELSHLGYQFVQRVFEKHDQDRDGALSPVELQSLFSVFPAAPWGPELARTVRT-EAD-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCEQDSQTRAIT--VTREKTLDQEKGQTQRSVLLCKVVGARGVGKSAFLQAFLGRSLRHQDPRE---EPPGYTIDTVQVNGQEKYLILCEVG F6RI93/282-474 LTADYLFPPLHVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPMELQSLFSVFPAAPWGPELLRTVRT-EAG-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCDQDSQTRAIT--VTREKRLDQEKGQTLRSVLLCKVVGARGVGKSAFLQAFLGHGLGHQDTRE---QPPGYTIDTVQVNGQEKYLILCEVG A0A2K5NHY4/272-464 LTADYLFPPLHVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPVELQSLFSVFPAAPWGPELLRTVRT-EAG-RLPLHGYLCQWTLVTYLDVQSCLGHLGYLGYP-TLCDQDSQTRAIT--VTREKRLDQEKGQTLRSVLLCKVVGARGVGKSAFLQAFLGHGLGHQDTRE---QPPGYTIDTVRVNGQEKYLILCEVG A0A2K5WQQ3/289-481 LTADYLFPPLHVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPMELQSLFSVFPAAPWGPELLRTVRT-EAG-RLPLHGYLCQWTLVTYLDVQSCLGHLGYLGYP-TLCDQDSQTRAIT--VTREKRLDQEKGQTLRSVLLCKVVGARGVGKSAFLQAFLGHGLGHQDTRE---QPPGYTIDTVQVNGQEKYLILCEVG A0A096NKH4/282-474 LTADYLFPPLHVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPMELQSLFSVFPAAPWGPELLRTVRT-EAG-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCDQDSQTRAIT--VTREKRLDQEKGQTLRSVLLCKVVGARGVGKSAFLQAFLGHGLGHQDTRE---QPPGYTIDTVQVNGQEKYLILCEVG K6ZVR3/282-474 LTADYLSPPLRVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPVELQSLFSVFPAAPWGPELPRTVRT-EAG-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCEQDSQAHAIT--VTREKRLDQEKGQTQRSVLLCKVVGARGVGKSAFLQAFLGRGLGHQDTRE---QPPGYAIDTVQVNGQEKYLILCEVG A0A2K6ND64/282-474 LTADYLFPPLHVPPGCSTELNHLGYQFVQRVFEKHDQDRDGALSPMELQSLFSVFPAAPWGPKLPCTVRT-EAG-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCDQDSQTRAIT--VTREKRLDQEKGQTLRSVLLCKVVGARGVGKSAFLQAFLGHGLGHQDTRE---QPPGYTIDTVQVNGQEKYLILCEVG A0A2K5E568/282-474 LTADYLFPPLHVPPGCSTELSHLGYQFVQRVFEKHDQDLDGALSPVELQSLFSVFPAAPWGPELPRTVRT-EAD-RLPLHGYLCQWTLVTYLDVRSCLGHLGYLGYP-TLCEQDSQTRAIT--VTREKRLDQEKGQTQRSVLLCKVVGARGVGKSAFLQAFLGRSLGHQDTRE---EPPGYTIDTVQVNGQEKYLILCEVG F7BZ68/282-475 LTDDYLHPLIRVPPGCTTELNHFGYQFLQKMFEKHDKDQDGALSPSELQSFFSPFPSLPWGPELYNTVCTNDKG-LLSLHGFLCQWTLVAYLNVHHCLEHLGYLGYP-ILCEQDSQTHSIT--VTREKKMDLEKGQTQRNVFLCKVIGSRGVGKSAFLQAFLGRNLEAL--REHPGEQSFYAINTVQVNGQEKYLILFE-S G3W9Z9/203-397 LTDDYLHPLIRVPPGCTTELNHFGYQFLQKMFEKHDKDQDGALSPSELQSFFSPFPSLPWGPELYNTVCTNDKG-LLSLHGFLCQWTLVTYLNIHHCLEHLGYLGYP-ILCEQDSQTHAIT--VTREKKMDLEKGQTQRNVFLCKVIGARGVGKSAFLQAFLGKNLEAL--RKHPGEQSFHVINTVQVNGQEKYLILSEVE G3W9Z8/282-478 LTDDYLHPLIRVPPGCTTELNHFGYQFLQKMFEKHDKDQDGALSPSELQSFFSPFPSLPWGPELYNTVCTNDKG-LLSLHGFLCQWTLVTYLNIHHCLEHLGYLGYP-ILCEQDSQTHAITAKVTREKKMDLEKGQTQRNVFLCKVIGARGVGKSAFLQAFLGKNLEAL--RKHPGEQSFHVINTVQVNGQEKYLILSEVE A0A099ZXA7/269-463 LTDDYLYPQFRLPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSPTELQNFFSVFPCVPWGPELYNTVCTTDKG-LLSLHGFLCQWTLVAYLDVRHCLECLGYLGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAAQ--RENPGEPSLYVINTVQVNGQEKYLILYEVS A0A091US71/269-463 LTDDYLYPQFRLPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSPTELQNFFSVFPCVPWGPELYNTVCTTDKG-LLSLHGFLCQWTLVAYLDVRHCLECLGYLGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAAQ--RENPGEPSLYTINTVQVNGQEKYLILYEVS A0A2I0LP24/181-375 LTDDYLYPQFRLPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSPAELQNFFSVFPCMPWGPELYNTVCTTDKG-LLSLHGFLCQWTLVAYLDVRHCLECLGYMGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAAQ--RENPGVPSLYAINTVHVSGQEKYLILYEVS A0A091FPX0/269-463 LTDDYLYPQFRVPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSHTELQNFFSVFPCVPWGPELYNTVCTTDKG-LLSLHGFLCQWTLMAYLDVRRCLECLGYLGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGAQGAGKSAFLQAFLGRSLGAQ--RENPGQPSLYTINTVQVNGQEKYLILHEVS A0A087QIA7/269-463 LTDDYLYPQFRLPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSPTELQNFFSVFPCVPWGPELYNTVCTTDKG-LLSLHGFLCQWTLVAYLDVRHCLECLGYLGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAAQ--RESSGDPSLYTINTVQVNGQEKYLILYEVS A0A093PFQ9/269-463 LTDDYLYPQFRVPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSHTELQNFFSVFPCVPWGPELSNTVCTTDKG-LLSLHGFLCQWTLVAYLDVRHCLECLGYLGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAAQ--KENPGQPSPYTINTVQVNGQEKYLILYEVS A0A2I0LP19/261-455 LTDDYLYPQFRLPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSPAELQNFFSVFPCMPWGPELYNTVCTTDKG-LLSLHGFLCQWTLVAYLDVRHCLECLGYMGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAAQ--RENPGVPSLYAINTVHVSGQEKYLILYEVS F1P578/282-476 LTDDYLYPQFRLPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSPAELQNFFSVFPCMPWGPELYNTVCTTDKG-LLSLHGFLCQWTLIAYLDVRHCLECLGYLGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAAQ--RENPGEPSPYTINTVQVNGQEKYLILHEVS A0A1V4KT39/282-476 LTDDYLYPQFRLPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSPAELQNFFSVFPCVPWGPELYNTVCTTDKG-LLSLHGFLCQWTLVAYLDVRHCLECLGYMGYP-ILSDQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAAQ--RENPGVPSPYAINTVHVSGQEKYLILYEVS G1NBM4/250-444 LTDDYLYPQFRLPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSPAELQNFFSVFPCMPWGPELYNTVCTTDKG-LLSLHGFLCQWTLVAYLDVQHCLECLGYLGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAAQ--RENPGEPSLYTINTVQVNGQEKYLILHEVS A0A0Q3PS74/249-443 LTDDYLHPQFRLPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSPAELQNFFSVFPCMPWGPELYNTVCTTDKG-LLSLHGFLCQWTLMAYLDVRHCLACLGYLGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLVAQ--RENPGEPSLYAVNTVQVNGQEKYLILFEVG A0A218UQC7/282-476 LTDDYLYPQFRVPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSHTELQNFFSVFPCVPWGPELYNTVCTTDKG-LLSLHGFLCQWTLVAYLDVRRCLECLGYLGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAAQ--RESPGQPSLYTINTVQVNGQEKYLILYEVS A0A091GAP3/269-463 LTDDYLYPQFRLPPGCSTELNHLGYQFLQRMFEKHDKDQDGALSPTELQNLFSVFPCVPWGPELYNTVCTTDKG-LLSLHGFLCQWTLVAYLDVRHCLECLGYLGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAAQ--RENPGVPSLYAINTVQVGGQEKYLILYEVS A0A091IQ37/271-465 LTDDYLYPQFRLPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSPTELQNFFSVFPCVPWGPELYNTVCTTDKG-LLSLHGFLCQWTLVAYLDVRHCLECLGYLGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAVQ--RENPGEPSLYAINTVQVNGQEKYLILYEVS A0A093I2W2/251-445 LTDDYLYPQFRLPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSPTELQSFFSVFPCVPWGPELYNTVCTTDKG-LLSLHGFLCQWTLVAYLDVRHCLECLGYLGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGAKGAGKSAFLQAFLGRSLAAQ--RENRGEPSLYAINTVQVNSQEKYLILYEVS A0A099Z4X1/251-445 LTDDYLHPPFRLPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSHTELQNFFSVFPCVPWGPELYNTVCTTDKG-LLSLHGFLCQWTLIAYLDVQQCLECLGYLGYP-ILSEQDSQTQALT--VTREKRLDLEKGQTQRNVFLCKVLGAKGAGKSAFLQAFLGRSLAAQ--RENRGEPSLYAINTVQVNGQEKYLILYEVS U3JPK6/279-473 LTDDYLHPQFRVPPGCSTELNHLGYQFLQRLFEKHDKDQDGALSHAELQNFFSVFPCVPWGPELHNTVCTTDKG-LLSLHGFLCQWTLVAYLDVRHCLECLGYLGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAAQ--RENPGQSSPHTINTVQVNGQEKYLILCEVS U3I7C4/183-377 LTDDYLHPQFRLPPGCSSELNHLGYQFLQRLFEKHDKDQDGALSPTELQSFFSVFPCVPWGPELYNTVCTTDKG-LLSLHGFLCQWTLVAYLDVRHCLECLGYLGYP-ILSEQDSQTQALT--VTREKRIDLEKGQTQRNVFLCKVLGARGAGKSAFLQAFLGRSLAAQ--RETPGEPSLYAINTVQVNGQEKYLILYEVS R4GCC6/203-397 LTDDYLCPLVRVPHDCSTELNHFAYQFLQRMFEKHDKDRDGALSPAELQSFFSVFPSVPWGPELYHTVCTTDKG-LLSLHGFLCQWTLVAYLDVHRCLEHLGYLGYP-IFSEQDSQVHAVT--VTREKRIDLEKGQTHRNVFLCKVVGSRGCGKSAFLQAFLGKNVAAQ--SESKGKEVYYTINTIQVNGQEKYLILHEVD H9G4K2/283-477 LTDDYLCPLVRVPHDCSTELNHFAYQFLQRMFEKHDKDRDGALSPAELQSFFSVFPSVPWGPELYHTVCTTDKG-LLSLHGFLCQWTLVAYLDVHRCLEHLGYLGYP-IFSEQDSQVHAVT--VTREKRIDLEKGQTHRNVFLCKVVGSRGCGKSAFLQAFLGKNVAAQ--SESKGKEVYYTINTIQVNGQEKYLILHEVD #=GC scorecons 874688684766876868988846859785497889497958988497667948885599886656886856480566569786898967898876787688988860664887886477800888586686686887968758685945648875688768876835740454345474868586585898889686661 #=GC scorecons_70 **_*****_*************_**_***__*****_***_****_**__**_***__******__**_*_*_*__**_*********_*****************__**_******_***__***_*******_****_**_***_*____***__*******_*__*_________*_***_*__*_********_**_ #=GC scorecons_80 **__**_*____**_*_*****__*_***__*****_***_****_**__**_***__****____**_*___*______***_****_*****__***_******_____*****__***__***_*__*__*_****_**_*_*_*____***__***_***_*____________*_*_*_*__*_******_*____ #=GC scorecons_90 *___**_*____*__*_*****__*_*_*__*_***_*_*_***__*____*_***__****____**_*___*______*_*_****__****___*__******_____**_**____*__***_*__*__*_**_*_*__*_*_*____**___**__**__*______________*_*_*__*_******_*____ //