# STOCKHOLM 1.0
#=GF ID 3.30.450.20/FF/87903
#=GF DE Methyl-accepting chemotaxis sensory transducer
#=GF AC 3.30.450.20/FF/87903
#=GF TP FunFam
#=GF DR CATH: 4.2
#=GF DR DOPS: 99.530
#=GS Q9KSI0/29-203      AC Q9KSI0
#=GS Q9KSI0/29-203      OS Vibrio cholerae O1 biovar El Tor str. N16961
#=GS Q9KSI0/29-203      DE Sensor histidine kinase
#=GS Q9KSI0/29-203      DR GENE3D; 612faba00356519f588ab2f414251fc5/29-203; 
#=GS Q9KSI0/29-203      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS Q9KSI0/29-203      DR GO; GO:0000155; GO:0000160; 
#=GS Q9KSI0/29-203      DR EC; 2.7.13.3; 
#=GS A0A0H6LAV5/24-198  AC A0A0H6LAV5
#=GS A0A0H6LAV5/24-198  OS Vibrio cholerae
#=GS A0A0H6LAV5/24-198  DE Sensor histidine kinase
#=GS A0A0H6LAV5/24-198  DR GENE3D; 2fdf97474ff56964aaae7ca6d9bc5bee/24-198; 
#=GS A0A0H6LAV5/24-198  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A0H6LAV5/24-198  DR EC; 2.7.13.3; 
#=GS Q9AEP6/28-203      AC Q9AEP6
#=GS Q9AEP6/28-203      OS Vibrio vulnificus
#=GS Q9AEP6/28-203      DE Sensor histidine kinase
#=GS Q9AEP6/28-203      DR GENE3D; 32fe3739ce5b7c432be92fe9d2ea13ca/28-203; 
#=GS Q9AEP6/28-203      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio vulnificus; 
#=GS Q9AEP6/28-203      DR EC; 2.7.13.3; 
#=GS A0A1L9KX06/28-203  AC A0A1L9KX06
#=GS A0A1L9KX06/28-203  OS Vibrio fluvialis
#=GS A0A1L9KX06/28-203  DE Oxygen sensor histidine kinase NreB
#=GS A0A1L9KX06/28-203  DR GENE3D; 32fe3739ce5b7c432be92fe9d2ea13ca/28-203; 
#=GS A0A1L9KX06/28-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio fluvialis; 
#=GS A0A1L9KX06/28-203  DR EC; 2.7.13.3; 
#=GS A0A0H0Y6F2/28-203  AC A0A0H0Y6F2
#=GS A0A0H0Y6F2/28-203  OS Vibrio vulnificus CladeA-yb158
#=GS A0A0H0Y6F2/28-203  DE Histidine kinase
#=GS A0A0H0Y6F2/28-203  DR GENE3D; 32fe3739ce5b7c432be92fe9d2ea13ca/28-203; 
#=GS A0A0H0Y6F2/28-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio vulnificus; 
#=GS A0A0H0Y6F2/28-203  DR EC; 2.7.13.3; 
#=GS A0A0H6KY38/29-203  AC A0A0H6KY38
#=GS A0A0H6KY38/29-203  OS Vibrio cholerae
#=GS A0A0H6KY38/29-203  DE Histidine kinase
#=GS A0A0H6KY38/29-203  DR GENE3D; 612faba00356519f588ab2f414251fc5/29-203; 
#=GS A0A0H6KY38/29-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A0H6KY38/29-203  DR EC; 2.7.13.3; 
#=GS C3LLX2/29-203      AC C3LLX2
#=GS C3LLX2/29-203      OS Vibrio cholerae M66-2
#=GS C3LLX2/29-203      DE Sensor histidine kinase
#=GS C3LLX2/29-203      DR GENE3D; 612faba00356519f588ab2f414251fc5/29-203; 
#=GS C3LLX2/29-203      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS C3LLX2/29-203      DR EC; 2.7.13.3; 
#=GS A0A0K9UYL7/29-203  AC A0A0K9UYL7
#=GS A0A0K9UYL7/29-203  OS Vibrio cholerae 2740-80
#=GS A0A0K9UYL7/29-203  DE Sensor histidine kinase
#=GS A0A0K9UYL7/29-203  DR GENE3D; 612faba00356519f588ab2f414251fc5/29-203; 
#=GS A0A0K9UYL7/29-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A0K9UYL7/29-203  DR EC; 2.7.13.3; 
#=GS A0A0H3PYH0/29-203  AC A0A0H3PYH0
#=GS A0A0H3PYH0/29-203  OS Vibrio cholerae B33
#=GS A0A0H3PYH0/29-203  DE Sensor histidine kinase
#=GS A0A0H3PYH0/29-203  DR GENE3D; 612faba00356519f588ab2f414251fc5/29-203; 
#=GS A0A0H3PYH0/29-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A0H3PYH0/29-203  DR EC; 2.7.13.3; 
#=GS A0A0X1KW77/29-203  AC A0A0X1KW77
#=GS A0A0X1KW77/29-203  OS Vibrio cholerae MO10
#=GS A0A0X1KW77/29-203  DE Sensor histidine kinase
#=GS A0A0X1KW77/29-203  DR GENE3D; 612faba00356519f588ab2f414251fc5/29-203; 
#=GS A0A0X1KW77/29-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A0X1KW77/29-203  DR EC; 2.7.13.3; 
#=GS A0A1L9HYJ2/28-203  AC A0A1L9HYJ2
#=GS A0A1L9HYJ2/28-203  OS Vibrio vulnificus
#=GS A0A1L9HYJ2/28-203  DE Oxygen sensor histidine kinase NreB
#=GS A0A1L9HYJ2/28-203  DR GENE3D; 70bd503ee9181cee9e66b95c26719486/28-203; 
#=GS A0A1L9HYJ2/28-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio vulnificus; 
#=GS A0A1L9HYJ2/28-203  DR EC; 2.7.13.3; 
#=GS A0A1E5BUT1/29-203  AC A0A1E5BUT1
#=GS A0A1E5BUT1/29-203  OS Vibrio splendidus FF-6
#=GS A0A1E5BUT1/29-203  DE Histidine kinase
#=GS A0A1E5BUT1/29-203  DR GENE3D; 8174fdaeec4b174e630e5e4f10416043/29-203; 
#=GS A0A1E5BUT1/29-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio splendidus; 
#=GS A0A1E5BUT1/29-203  DR EC; 2.7.13.3; 
#=GS A0A0N8GW87/29-203  AC A0A0N8GW87
#=GS A0A0N8GW87/29-203  OS Vibrio splendidus
#=GS A0A0N8GW87/29-203  DE Histidine kinase
#=GS A0A0N8GW87/29-203  DR GENE3D; 8174fdaeec4b174e630e5e4f10416043/29-203; 
#=GS A0A0N8GW87/29-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio splendidus; 
#=GS A0A0N8GW87/29-203  DR EC; 2.7.13.3; 
#=GS A0A1C3INP1/29-203  AC A0A1C3INP1
#=GS A0A1C3INP1/29-203  OS Vibrio hemicentroti
#=GS A0A1C3INP1/29-203  DE Oxygen sensor histidine kinase NreB
#=GS A0A1C3INP1/29-203  DR GENE3D; 8174fdaeec4b174e630e5e4f10416043/29-203; 
#=GS A0A1C3INP1/29-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio hemicentroti; 
#=GS A0A1C3INP1/29-203  DR EC; 2.7.13.3; 
#=GS A0A1C3J5B6/29-203  AC A0A1C3J5B6
#=GS A0A1C3J5B6/29-203  OS Vibrio atlanticus
#=GS A0A1C3J5B6/29-203  DE Oxygen sensor histidine kinase NreB
#=GS A0A1C3J5B6/29-203  DR GENE3D; 89dadd87f668566aa3ff6c25f82ea2e8/29-203; 
#=GS A0A1C3J5B6/29-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio atlanticus; 
#=GS A0A1C3J5B6/29-203  DR EC; 2.7.13.3; 
#=GS A0A1A7UTE2/29-204  AC A0A1A7UTE2
#=GS A0A1A7UTE2/29-204  OS Vibrio mediterranei
#=GS A0A1A7UTE2/29-204  DE Oxygen sensor histidine kinase NreB
#=GS A0A1A7UTE2/29-204  DR GENE3D; 920b22199797c1d32f6e6c0c81305b3d/29-204; 
#=GS A0A1A7UTE2/29-204  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio mediterranei; 
#=GS A0A1A7UTE2/29-204  DR EC; 2.7.13.3; 
#=GS A0A1C3JKI0/29-203  AC A0A1C3JKI0
#=GS A0A1C3JKI0/29-203  OS Vibrio celticus
#=GS A0A1C3JKI0/29-203  DE Oxygen sensor histidine kinase NreB
#=GS A0A1C3JKI0/29-203  DR GENE3D; 9764ff6219104f74fe2db26c47d2bdfa/29-203; 
#=GS A0A1C3JKI0/29-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio celticus; 
#=GS A0A1C3JKI0/29-203  DR EC; 2.7.13.3; 
#=GS A0A0H5X4H6/1-158   AC A0A0H5X4H6
#=GS A0A0H5X4H6/1-158   OS Vibrio cholerae
#=GS A0A0H5X4H6/1-158   DE Sensor histidine kinase
#=GS A0A0H5X4H6/1-158   DR GENE3D; cf146ee00211f00efd42398d6b23a9f4/1-158; 
#=GS A0A0H5X4H6/1-158   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A0H5X4H6/1-158   DR EC; 2.7.13.3; 
#=GS A0A1B1NPH3/28-203  AC A0A1B1NPH3
#=GS A0A1B1NPH3/28-203  OS Vibrio scophthalmi
#=GS A0A1B1NPH3/28-203  DE Histidine kinase
#=GS A0A1B1NPH3/28-203  DR GENE3D; f3066979c08617026078205164011f23/28-203; 
#=GS A0A1B1NPH3/28-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio scophthalmi; 
#=GS A0A1B1NPH3/28-203  DR EC; 2.7.13.3; 
#=GS A0A1C7FA43/28-203  AC A0A1C7FA43
#=GS A0A1C7FA43/28-203  OS Vibrio scophthalmi
#=GS A0A1C7FA43/28-203  DE Histidine kinase
#=GS A0A1C7FA43/28-203  DR GENE3D; f81d9f36341e44850b5d0ac113abdda5/28-203; 
#=GS A0A1C7FA43/28-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio scophthalmi; 
#=GS A0A1C7FA43/28-203  DR EC; 2.7.13.3; 
#=GS Q9KSK8/38-183      AC Q9KSK8
#=GS Q9KSK8/38-183      OS Vibrio cholerae O1 biovar El Tor str. N16961
#=GS Q9KSK8/38-183      DE Methyl-accepting chemotaxis protein
#=GS Q9KSK8/38-183      DR GENE3D; 2f50295efbf850abd85ec6974af8aced/38-183; 
#=GS Q9KSK8/38-183      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS Q9KSK8/38-183      DR GO; GO:0004871; GO:0004872; GO:0006935; 
#=GS Q9KV74/47-202      AC Q9KV74
#=GS Q9KV74/47-202      OS Vibrio cholerae O1 biovar El Tor str. N16961
#=GS Q9KV74/47-202      DE Methyl-accepting chemotaxis protein
#=GS Q9KV74/47-202      DR GENE3D; 63d1e0c44cb31c6bbecf42e8b433f12d/47-202; 
#=GS Q9KV74/47-202      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS Q9KV74/47-202      DR GO; GO:0004871; GO:0004872; GO:0006935; 
#=GS Q9KUR6/33-186      AC Q9KUR6
#=GS Q9KUR6/33-186      OS Vibrio cholerae O1 biovar El Tor str. N16961
#=GS Q9KUR6/33-186      DE Methyl-accepting chemotaxis protein
#=GS Q9KUR6/33-186      DR GENE3D; c06b680670fa78fbd89e708131ab6ba8/33-186; 
#=GS Q9KUR6/33-186      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS Q9KUR6/33-186      DR GO; GO:0004871; GO:0004872; GO:0006935; 
#=GS Q8EI62/29-202      AC Q8EI62
#=GS Q8EI62/29-202      OS Shewanella oneidensis MR-1
#=GS Q8EI62/29-202      DE Methyl accepting sensory transducer with Cache_2 small molecule binding domain
#=GS Q8EI62/29-202      DR GENE3D; ffb5d339ed5da9f761502d90c0ca35c2/29-202; 
#=GS Q8EI62/29-202      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella oneidensis; 
#=GS Q8EI62/29-202      DR GO; GO:0004871; GO:0004872; GO:0006935; 
#=GS Q8EEX1/36-190      AC Q8EEX1
#=GS Q8EEX1/36-190      OS Shewanella oneidensis MR-1
#=GS Q8EEX1/36-190      DE Energy taxis modulating methyl accepting sensory transducer with Cache_2 sensory domain
#=GS Q8EEX1/36-190      DR GENE3D; 7c6042215e0b48a27e83b6bfdae4f5f1/36-190; 
#=GS Q8EEX1/36-190      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella oneidensis; 
#=GS Q8EEX1/36-190      DR GO; GO:0004871; GO:0004872; GO:0006935; 
#=GS Q89DZ2/32-187      AC Q89DZ2
#=GS Q89DZ2/32-187      OS Bradyrhizobium diazoefficiens USDA 110
#=GS Q89DZ2/32-187      DE Bll7295 protein
#=GS Q89DZ2/32-187      DR GENE3D; b5643934a0720c8338e4a8d95fec5593/32-187; 
#=GS Q89DZ2/32-187      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium diazoefficiens; 
#=GS K6WGJ0/37-191      AC K6WGJ0
#=GS K6WGJ0/37-191      OS Kineosphaera limosa NBRC 100340
#=GS K6WGJ0/37-191      DE Putative methyl-accepting chemotaxis protein
#=GS K6WGJ0/37-191      DR GENE3D; 01f1363dde7a0e467c7a13d778a3d90f/37-191; 
#=GS K6WGJ0/37-191      DR ORG; Bacteria; Actinobacteria; Actinobacteria; Micrococcales; Dermatophilaceae; Kineosphaera; Kineosphaera limosa; 
#=GS H0Q1H4/38-188      AC H0Q1H4
#=GS H0Q1H4/38-188      OS Azoarcus sp. KH32C
#=GS H0Q1H4/38-188      DE Methyl-accepting chemotaxis sensory transducer with Cache sensor
#=GS H0Q1H4/38-188      DR GENE3D; 05607a44bd395ac6ed37c6b1bca93b00/38-188; 
#=GS H0Q1H4/38-188      DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclaceae; Azoarcus; Azoarcus sp. KH32C; 
#=GS A0A090S8S0/37-191  AC A0A090S8S0
#=GS A0A090S8S0/37-191  OS Vibrio maritimus
#=GS A0A090S8S0/37-191  DE Methyl-accepting chemotaxis protein I
#=GS A0A090S8S0/37-191  DR GENE3D; 0621f3d5dda6d1209f0fcfc7e91c51b3/37-191; 
#=GS A0A090S8S0/37-191  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio maritimus; 
#=GS A0A0Q0PXL8/37-192  AC A0A0Q0PXL8
#=GS A0A0Q0PXL8/37-192  OS Vibrio metoecus
#=GS A0A0Q0PXL8/37-192  DE Chemotaxis protein
#=GS A0A0Q0PXL8/37-192  DR GENE3D; 09fd23829997231106ef981fe0b1153e/37-192; 
#=GS A0A0Q0PXL8/37-192  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio metoecus; 
#=GS A0A0C2KBP8/27-204  AC A0A0C2KBP8
#=GS A0A0C2KBP8/27-204  OS Vibrio renipiscarius
#=GS A0A0C2KBP8/27-204  DE Histidine kinase
#=GS A0A0C2KBP8/27-204  DR GENE3D; 0a3cba375666e87749c24c10121f9640/27-204; 
#=GS A0A0C2KBP8/27-204  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio renipiscarius; 
#=GS B9K8F8/31-179      AC B9K8F8
#=GS B9K8F8/31-179      OS Thermotoga neapolitana DSM 4359
#=GS B9K8F8/31-179      DE Methyl-accepting chemotaxis protein 4
#=GS B9K8F8/31-179      DR GENE3D; 0b8ab42bc6b40f4f3ca68f7f98a9d23c/31-179; 
#=GS B9K8F8/31-179      DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Thermotogaceae; Thermotoga; Thermotoga neapolitana; 
#=GS I4JMS6/34-190      AC I4JMS6
#=GS I4JMS6/34-190      OS Pseudomonas stutzeri TS44
#=GS I4JMS6/34-190      DE Chemotaxis sensory transducer
#=GS I4JMS6/34-190      DR GENE3D; 0bbed551ba709a99b69d86fa4c5da380/34-190; 
#=GS I4JMS6/34-190      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; 
#=GS A0A1C2JT40/34-190  AC A0A1C2JT40
#=GS A0A1C2JT40/34-190  OS Pseudomonas sp. CO183
#=GS A0A1C2JT40/34-190  DE Chemotaxis protein
#=GS A0A1C2JT40/34-190  DR GENE3D; 0db392df7019fa9c95606dcf91e8267d/34-190; 
#=GS A0A1C2JT40/34-190  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. CO183; 
#=GS L0GKX3/34-190      AC L0GKX3
#=GS L0GKX3/34-190      OS Pseudomonas stutzeri RCH2
#=GS L0GKX3/34-190      DE Methyl-accepting chemotaxis protein
#=GS L0GKX3/34-190      DR GENE3D; 0db392df7019fa9c95606dcf91e8267d/34-190; 
#=GS L0GKX3/34-190      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; 
#=GS A0A0M0I1W0/29-204  AC A0A0M0I1W0
#=GS A0A0M0I1W0/29-204  OS Vibrio hepatarius
#=GS A0A0M0I1W0/29-204  DE Histidine kinase
#=GS A0A0M0I1W0/29-204  DR GENE3D; 10994c3bd16db6fa2f09809e566a8c8c/29-204; 
#=GS A0A0M0I1W0/29-204  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio hepatarius; 
#=GS F9SZE3/33-186      AC F9SZE3
#=GS F9SZE3/33-186      OS Vibrio tubiashii ATCC 19109
#=GS F9SZE3/33-186      DE Chemotaxis protein
#=GS F9SZE3/33-186      DR GENE3D; 12c0d8e886baa24091376ee6bc46ad1d/33-186; 
#=GS F9SZE3/33-186      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio tubiashii; 
#=GS A0A0D8MKZ6/28-202  AC A0A0D8MKZ6
#=GS A0A0D8MKZ6/28-202  OS Photobacterium angustum
#=GS A0A0D8MKZ6/28-202  DE Histidine kinase
#=GS A0A0D8MKZ6/28-202  DR GENE3D; 14c3cad028016c01ce8bb83fd5af48c0/28-202; 
#=GS A0A0D8MKZ6/28-202  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium angustum; 
#=GS Q1ZX47/28-202      AC Q1ZX47
#=GS Q1ZX47/28-202      OS Photobacterium angustum S14
#=GS Q1ZX47/28-202      DE Signal transduction histidine kinase
#=GS Q1ZX47/28-202      DR GENE3D; 14c3cad028016c01ce8bb83fd5af48c0/28-202; 
#=GS Q1ZX47/28-202      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium angustum; 
#=GS A0A126QN21/38-194  AC A0A126QN21
#=GS A0A126QN21/38-194  OS Desulfovibrio indicus
#=GS A0A126QN21/38-194  DE Chemotaxis protein
#=GS A0A126QN21/38-194  DR GENE3D; 15657d0a71746b9d6b15ed018cd707b6/38-194; 
#=GS A0A126QN21/38-194  DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfovibrionales; Desulfovibrionaceae; Desulfovibrio; Desulfovibrio indicus; 
#=GS A0A0Q2MXG1/29-203  AC A0A0Q2MXG1
#=GS A0A0Q2MXG1/29-203  OS Vibrio furnissii
#=GS A0A0Q2MXG1/29-203  DE Histidine kinase
#=GS A0A0Q2MXG1/29-203  DR GENE3D; 1597e9fe92e33310b4aa9bbbc73e5452/29-203; 
#=GS A0A0Q2MXG1/29-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio furnissii; 
#=GS F0LT24/29-203      AC F0LT24
#=GS F0LT24/29-203      OS Vibrio furnissii NCTC 11218
#=GS F0LT24/29-203      DE Sensor histidine kinase
#=GS F0LT24/29-203      DR GENE3D; 1597e9fe92e33310b4aa9bbbc73e5452/29-203; 
#=GS F0LT24/29-203      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio furnissii; 
#=GS A0A090P1U0/35-182  AC A0A090P1U0
#=GS A0A090P1U0/35-182  OS Vibrio ponticus
#=GS A0A090P1U0/35-182  DE N-acetylglucosamine regulated methyl-accepting chemotaxis protein
#=GS A0A090P1U0/35-182  DR GENE3D; 1803ccc3256599c800ebfe004235656e/35-182; 
#=GS A0A090P1U0/35-182  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio ponticus; 
#=GS A0A0L8S7L3/28-203  AC A0A0L8S7L3
#=GS A0A0L8S7L3/28-203  OS Vibrio parahaemolyticus
#=GS A0A0L8S7L3/28-203  DE Histidine kinase
#=GS A0A0L8S7L3/28-203  DR GENE3D; 19c5dcee15a07e0de3523b8870c529bb/28-203; 
#=GS A0A0L8S7L3/28-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio parahaemolyticus; 
#=GS A0A0D1G9Z8/28-203  AC A0A0D1G9Z8
#=GS A0A0D1G9Z8/28-203  OS Vibrio parahaemolyticus 901128
#=GS A0A0D1G9Z8/28-203  DE Whole genome shotgun sequence
#=GS A0A0D1G9Z8/28-203  DR GENE3D; 19c5dcee15a07e0de3523b8870c529bb/28-203; 
#=GS A0A0D1G9Z8/28-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio parahaemolyticus; 
#=GS Q87NG0/28-203      AC Q87NG0
#=GS Q87NG0/28-203      OS Vibrio parahaemolyticus RIMD 2210633
#=GS Q87NG0/28-203      DE Sensor histidine kinase
#=GS Q87NG0/28-203      DR GENE3D; 19c5dcee15a07e0de3523b8870c529bb/28-203; 
#=GS Q87NG0/28-203      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio parahaemolyticus; 
#=GS A0A0F6LUQ0/28-203  AC A0A0F6LUQ0
#=GS A0A0F6LUQ0/28-203  OS Vibrio parahaemolyticus 863
#=GS A0A0F6LUQ0/28-203  DE Sensor histidine kinase
#=GS A0A0F6LUQ0/28-203  DR GENE3D; 19c5dcee15a07e0de3523b8870c529bb/28-203; 
#=GS A0A0F6LUQ0/28-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio parahaemolyticus; 
#=GS A6B7P1/28-203      AC A6B7P1
#=GS A6B7P1/28-203      OS Vibrio parahaemolyticus AQ3810
#=GS A6B7P1/28-203      DE Sensor histidine kinase
#=GS A6B7P1/28-203      DR GENE3D; 19c5dcee15a07e0de3523b8870c529bb/28-203; 
#=GS A6B7P1/28-203      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio parahaemolyticus; 
#=GS A0A0M0HPG7/29-203  AC A0A0M0HPG7
#=GS A0A0M0HPG7/29-203  OS Vibrio nereis
#=GS A0A0M0HPG7/29-203  DE Histidine kinase
#=GS A0A0M0HPG7/29-203  DR GENE3D; 1a6e32fef0d127fadae4ab22dd1051da/29-203; 
#=GS A0A0M0HPG7/29-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio nereis; 
#=GS U2ZMT9/28-203      AC U2ZMT9
#=GS U2ZMT9/28-203      OS Vibrio proteolyticus NBRC 13287
#=GS U2ZMT9/28-203      DE Putative two-component histidine kinase
#=GS U2ZMT9/28-203      DR GENE3D; 1b4569ebff220f5e801b5e8234a245bd/28-203; 
#=GS U2ZMT9/28-203      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio proteolyticus; 
#=GS A0A0L7ZFQ6/33-185  AC A0A0L7ZFQ6
#=GS A0A0L7ZFQ6/33-185  OS Vibrio alginolyticus
#=GS A0A0L7ZFQ6/33-185  DE Chemotaxis protein
#=GS A0A0L7ZFQ6/33-185  DR GENE3D; 1f81ff3a0e71b23c063c20af9269f8d5/33-185; 
#=GS A0A0L7ZFQ6/33-185  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio alginolyticus; 
#=GS A0A1M3LZF2/34-188  AC A0A1M3LZF2
#=GS A0A1M3LZF2/34-188  OS Magnetospirillum sp. 64-120
#=GS A0A1M3LZF2/34-188  DE Chemotaxis protein
#=GS A0A1M3LZF2/34-188  DR GENE3D; 20ebbe8a39608915d4680f4eb6a5d912/34-188; 
#=GS A0A1M3LZF2/34-188  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhodospirillales; Rhodospirillaceae; Magnetospirillum; Magnetospirillum sp. 64-120; 
#=GS A0A1G3DII8/34-190  AC A0A1G3DII8
#=GS A0A1G3DII8/34-190  OS Pseudomonadales bacterium RIFCSPHIGHO2_02_FULL_60_43
#=GS A0A1G3DII8/34-190  DE Chemotaxis protein
#=GS A0A1G3DII8/34-190  DR GENE3D; 23d288803169eeba02b426f723d8bcfb/34-190; 
#=GS A0A1G3DII8/34-190  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadales bacterium RIFCSPHIGHO2_02_FULL_60_43; 
#=GS U4K9F3/38-193      AC U4K9F3
#=GS U4K9F3/38-193      OS Vibrio nigripulchritudo
#=GS U4K9F3/38-193      DE Putative Methyl-accepting chemotaxis protein
#=GS U4K9F3/38-193      DR GENE3D; 2552d056bb5b9fc19151b5ff4486bcd7/38-193; 
#=GS U4K9F3/38-193      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio nigripulchritudo; 
#=GS A0A0F3GXW7/40-191  AC A0A0F3GXW7
#=GS A0A0F3GXW7/40-191  OS Candidatus Magnetobacterium bavaricum
#=GS A0A0F3GXW7/40-191  DE Methyl-accepting chemotaxis sensory transducer
#=GS A0A0F3GXW7/40-191  DR GENE3D; 25f9b7814a3dc9c5f013fea136efbdc0/40-191; 
#=GS A0A0F3GXW7/40-191  DR ORG; Bacteria; Nitrospirae; Nitrospira; Nitrospirales; Nitrospiraceae; Candidatus Magnetobacterium; Candidatus Magnetobacterium bavaricum; 
#=GS A0A0D0L284/36-191  AC A0A0D0L284
#=GS A0A0D0L284/36-191  OS Pseudomonas fulva
#=GS A0A0D0L284/36-191  DE Chemotaxis protein
#=GS A0A0D0L284/36-191  DR GENE3D; 2d5721c522d52bcbab8e9fbaa9b86ba1/36-191; 
#=GS A0A0D0L284/36-191  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas putida group; Pseudomonas fulva; 
#=GS A0A1G1GV27/39-194  AC A0A1G1GV27
#=GS A0A1G1GV27/39-194  OS Nitrospirae bacterium GWC2_57_9
#=GS A0A1G1GV27/39-194  DE Uncharacterized protein
#=GS A0A1G1GV27/39-194  DR GENE3D; 2ea2e8280733f6f1d3acbfacf96b49bf/39-194; 
#=GS A0A1G1GV27/39-194  DR ORG; Bacteria; Nitrospirae; Nitrospirae bacterium GWC2_57_9; 
#=GS A0L9S8/42-197      AC A0L9S8
#=GS A0L9S8/42-197      OS Magnetococcus marinus MC-1
#=GS A0L9S8/42-197      DE Diguanylate cyclase/phosphodiesterase with PAS/PAC and GAF sensor(S)
#=GS A0L9S8/42-197      DR GENE3D; 2f158ae959d0a89cd537fc800e0fb61a/42-197; 
#=GS A0L9S8/42-197      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Magnetococcales; Magnetococcaceae; Magnetococcus; Magnetococcus marinus; 
#=GS A0A0H3Q1B6/38-183  AC A0A0H3Q1B6
#=GS A0A0H3Q1B6/38-183  OS Vibrio cholerae B33
#=GS A0A0H3Q1B6/38-183  DE Methyl-accepting chemotaxis protein
#=GS A0A0H3Q1B6/38-183  DR GENE3D; 2f50295efbf850abd85ec6974af8aced/38-183; 
#=GS A0A0H3Q1B6/38-183  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS C3LLU4/38-183      AC C3LLU4
#=GS C3LLU4/38-183      OS Vibrio cholerae M66-2
#=GS C3LLU4/38-183      DE Methyl-accepting chemotaxis protein
#=GS C3LLU4/38-183      DR GENE3D; 2f50295efbf850abd85ec6974af8aced/38-183; 
#=GS C3LLU4/38-183      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A0H3AME6/38-183  AC A0A0H3AME6
#=GS A0A0H3AME6/38-183  OS Vibrio cholerae O395
#=GS A0A0H3AME6/38-183  DE Methyl-accepting chemotaxis protein
#=GS A0A0H3AME6/38-183  DR GENE3D; 2f50295efbf850abd85ec6974af8aced/38-183; 
#=GS A0A0H3AME6/38-183  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS D7H887/38-183      AC D7H887
#=GS D7H887/38-183      OS Vibrio cholerae RC385
#=GS D7H887/38-183      DE Methyl-accepting chemotaxis protein
#=GS D7H887/38-183      DR GENE3D; 2f50295efbf850abd85ec6974af8aced/38-183; 
#=GS D7H887/38-183      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A085R6S2/38-183  AC A0A085R6S2
#=GS A0A085R6S2/38-183  OS Vibrio cholerae
#=GS A0A085R6S2/38-183  DE Chemotaxis protein
#=GS A0A085R6S2/38-183  DR GENE3D; 2f50295efbf850abd85ec6974af8aced/38-183; 
#=GS A0A085R6S2/38-183  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A0X1KW41/38-183  AC A0A0X1KW41
#=GS A0A0X1KW41/38-183  OS Vibrio cholerae MO10
#=GS A0A0X1KW41/38-183  DE Methyl-accepting chemotaxis protein
#=GS A0A0X1KW41/38-183  DR GENE3D; 2f50295efbf850abd85ec6974af8aced/38-183; 
#=GS A0A0X1KW41/38-183  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A0K9UX70/38-183  AC A0A0K9UX70
#=GS A0A0K9UX70/38-183  OS Vibrio cholerae 2740-80
#=GS A0A0K9UX70/38-183  DE Methyl-accepting chemotaxis protein
#=GS A0A0K9UX70/38-183  DR GENE3D; 2f50295efbf850abd85ec6974af8aced/38-183; 
#=GS A0A0K9UX70/38-183  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS B7VKR9/34-186      AC B7VKR9
#=GS B7VKR9/34-186      OS Vibrio tasmaniensis LGP32
#=GS B7VKR9/34-186      DE Methyl-accepting chemotaxis protein
#=GS B7VKR9/34-186      DR GENE3D; 2f7034972f4c6daaaf6dcfbdc9c55ac5/34-186; 
#=GS B7VKR9/34-186      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio tasmaniensis; 
#=GS Q7MGT7/40-195      AC Q7MGT7
#=GS Q7MGT7/40-195      OS Vibrio vulnificus YJ016
#=GS Q7MGT7/40-195      DE Methyl-accepting chemotaxis protein
#=GS Q7MGT7/40-195      DR GENE3D; 37b6c36d26565c0bd0507a0ecf5b81f8/40-195; 
#=GS Q7MGT7/40-195      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio vulnificus; 
#=GS G0GC23/34-187      AC G0GC23
#=GS G0GC23/34-187      OS Spirochaeta thermophila DSM 6578
#=GS G0GC23/34-187      DE Methyl-accepting chemotaxis sensory transducer with Cache sensor
#=GS G0GC23/34-187      DR GENE3D; 388362a3ca4e8ac72f65f0542555a951/34-187; 
#=GS G0GC23/34-187      DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Spirochaeta; Spirochaeta thermophila; 
#=GS N9V8I5/33-189      AC N9V8I5
#=GS N9V8I5/33-189      OS Aeromonas diversa CDC 2478-85
#=GS N9V8I5/33-189      DE Methyl-accepting chemotaxis protein
#=GS N9V8I5/33-189      DR GENE3D; 393aaa0380e9c164ca605bc1b47029d7/33-189; 
#=GS N9V8I5/33-189      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Aeromonadales; Aeromonadaceae; Aeromonas; Aeromonas diversa; 
#=GS A0A0D7PJD3/32-187  AC A0A0D7PJD3
#=GS A0A0D7PJD3/32-187  OS Bradyrhizobium sp. LTSP885
#=GS A0A0D7PJD3/32-187  DE Chemotaxis protein
#=GS A0A0D7PJD3/32-187  DR GENE3D; 39fb44ffa27af47b73f576df8ee34da7/32-187; 
#=GS A0A0D7PJD3/32-187  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium sp. LTSP885; 
#=GS A0A0H3AMB0/29-203  AC A0A0H3AMB0
#=GS A0A0H3AMB0/29-203  OS Vibrio cholerae O395
#=GS A0A0H3AMB0/29-203  DE Sensor histidine kinase
#=GS A0A0H3AMB0/29-203  DR GENE3D; 3a8b3f94d2a82913e1a096b3b434a993/29-203; 
#=GS A0A0H3AMB0/29-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A0S3EIH1/28-203  AC A0A0S3EIH1
#=GS A0A0S3EIH1/28-203  OS Vibrio natriegens NBRC 15636 = ATCC 14048 = DSM 759
#=GS A0A0S3EIH1/28-203  DE Histidine kinase
#=GS A0A0S3EIH1/28-203  DR GENE3D; 3ab59ef0f100f2a6aef44ba7ac058dfb/28-203; 
#=GS A0A0S3EIH1/28-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio natriegens; 
#=GS H2IGI1/28-203      AC H2IGI1
#=GS H2IGI1/28-203      OS Vibrio sp. EJY3
#=GS H2IGI1/28-203      DE Sensor histidine kinase
#=GS H2IGI1/28-203      DR GENE3D; 3ab59ef0f100f2a6aef44ba7ac058dfb/28-203; 
#=GS H2IGI1/28-203      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. EJY3; 
#=GS A3D0Y2/29-202      AC A3D0Y2
#=GS A3D0Y2/29-202      OS Shewanella baltica OS155
#=GS A3D0Y2/29-202      DE Methyl-accepting chemotaxis sensory transducer
#=GS A3D0Y2/29-202      DR GENE3D; 3d79647d34b7107683cf56da514f878b/29-202; 
#=GS A3D0Y2/29-202      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella baltica; 
#=GS F9SPT9/33-186      AC F9SPT9
#=GS F9SPT9/33-186      OS Vibrio orientalis CIP 102891 = ATCC 33934
#=GS F9SPT9/33-186      DE N-acetylglucosamine regulated methyl-accepting chemotaxis protein
#=GS F9SPT9/33-186      DR GENE3D; 40d0e2856202c754e91c1df450f13384/33-186; 
#=GS F9SPT9/33-186      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio orientalis; 
#=GS U1ZZF0/35-191      AC U1ZZF0
#=GS U1ZZF0/35-191      OS Pseudomonas sp. EGD-AK9
#=GS U1ZZF0/35-191      DE Methyl-accepting chemotaxis protein
#=GS U1ZZF0/35-191      DR GENE3D; 41708fee2fc8f90256c203c55dd9e966/35-191; 
#=GS U1ZZF0/35-191      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. EGD-AK9; 
#=GS A0A0R3DWI0/32-187  AC A0A0R3DWI0
#=GS A0A0R3DWI0/32-187  OS Bradyrhizobium manausense
#=GS A0A0R3DWI0/32-187  DE Chemotaxis protein
#=GS A0A0R3DWI0/32-187  DR GENE3D; 4175a535086507255bfc3d024ce1ac10/32-187; 
#=GS A0A0R3DWI0/32-187  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium manausense; 
#=GS G8QG97/32-186      AC G8QG97
#=GS G8QG97/32-186      OS Dechlorosoma suillum PS
#=GS G8QG97/32-186      DE Methyl-accepting chemotaxis protein
#=GS G8QG97/32-186      DR GENE3D; 42d098a12835878db0dfea63f742f89e/32-186; 
#=GS G8QG97/32-186      DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclaceae; Azospira; Azospira oryzae; 
#=GS A0A0C3I7E0/28-203  AC A0A0C3I7E0
#=GS A0A0C3I7E0/28-203  OS Vibrio mytili
#=GS A0A0C3I7E0/28-203  DE Histidine kinase
#=GS A0A0C3I7E0/28-203  DR GENE3D; 4321d6294a72293b764df69be4175a19/28-203; 
#=GS A0A0C3I7E0/28-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio mytili; 
#=GS E0RU33/34-187      AC E0RU33
#=GS E0RU33/34-187      OS Spirochaeta thermophila DSM 6192
#=GS E0RU33/34-187      DE Uncharacterized protein
#=GS E0RU33/34-187      DR GENE3D; 4800eb335bbcb72392f95abdcf62b05f/34-187; 
#=GS E0RU33/34-187      DR ORG; Bacteria; Spirochaetes; Spirochaetia; Spirochaetales; Spirochaetaceae; Spirochaeta; Spirochaeta thermophila; 
#=GS A6D4J3/37-192      AC A6D4J3
#=GS A6D4J3/37-192      OS Vibrio shilonii AK1
#=GS A6D4J3/37-192      DE Methyl-accepting chemotaxis protein
#=GS A6D4J3/37-192      DR GENE3D; 48158ca0eb86c9b2f859f3256ebd2800/37-192; 
#=GS A6D4J3/37-192      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio shilonii; 
#=GS A0A0X8LNV7/32-185  AC A0A0X8LNV7
#=GS A0A0X8LNV7/32-185  OS Vibrio fluvialis
#=GS A0A0X8LNV7/32-185  DE Chemotaxis protein
#=GS A0A0X8LNV7/32-185  DR GENE3D; 484c0efe300dfdc6da7e3593f95ad22c/32-185; 
#=GS A0A0X8LNV7/32-185  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio fluvialis; 
#=GS A0A1A7V2H5/37-192  AC A0A1A7V2H5
#=GS A0A1A7V2H5/37-192  OS Vibrio mediterranei
#=GS A0A1A7V2H5/37-192  DE Methyl-accepting chemotaxis protein 4
#=GS A0A1A7V2H5/37-192  DR GENE3D; 4bd2d028821b97c86dc6a2909a4789a9/37-192; 
#=GS A0A1A7V2H5/37-192  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio mediterranei; 
#=GS A0A0L7YJE3/29-203  AC A0A0L7YJE3
#=GS A0A0L7YJE3/29-203  OS Vibrio alginolyticus
#=GS A0A0L7YJE3/29-203  DE Histidine kinase
#=GS A0A0L7YJE3/29-203  DR GENE3D; 4f076255bea92309ce54d8471980925f/29-203; 
#=GS A0A0L7YJE3/29-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio alginolyticus; 
#=GS A0A0X8GM84/35-191  AC A0A0X8GM84
#=GS A0A0X8GM84/35-191  OS Janthinobacterium sp. B9-8
#=GS A0A0X8GM84/35-191  DE Chemotaxis protein
#=GS A0A0X8GM84/35-191  DR GENE3D; 502f9b2efffe7502550ea4b4aee46e89/35-191; 
#=GS A0A0X8GM84/35-191  DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Oxalobacteraceae; Janthinobacterium; Janthinobacterium sp. B9-8; 
#=GS I6YSI3/38-192      AC I6YSI3
#=GS I6YSI3/38-192      OS Melioribacter roseus P3M-2
#=GS I6YSI3/38-192      DE Methyl-accepting chemotaxis protein
#=GS I6YSI3/38-192      DR GENE3D; 507f4c5d566641129feb95812bbec42b/38-192; 
#=GS I6YSI3/38-192      DR ORG; Bacteria; Ignavibacteriae; Ignavibacteria; Ignavibacteriales; Melioribacteraceae; Melioribacter; Melioribacter roseus; 
#=GS B8K835/28-206      AC B8K835
#=GS B8K835/28-206      OS Vibrio sp. 16
#=GS B8K835/28-206      DE Sensor histidine kinase
#=GS B8K835/28-206      DR GENE3D; 50dafab8a9cdc386dade5e7be1c1c41f/28-206; 
#=GS B8K835/28-206      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. 16; 
#=GS A5G3I6/39-194      AC A5G3I6
#=GS A5G3I6/39-194      OS Geobacter uraniireducens Rf4
#=GS A5G3I6/39-194      DE Methyl-accepting chemotaxis sensory transducer
#=GS A5G3I6/39-194      DR GENE3D; 520bb998b585703ac07ec4ef76d9c6da/39-194; 
#=GS A5G3I6/39-194      DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfuromonadales; Geobacteraceae; Geobacter; Geobacter uraniireducens; 
#=GS F4DVJ2/34-191      AC F4DVJ2
#=GS F4DVJ2/34-191      OS Pseudomonas mendocina NK-01
#=GS F4DVJ2/34-191      DE Methyl-accepting chemotaxis sensory transducer
#=GS F4DVJ2/34-191      DR GENE3D; 52864dbe9651c4f1de8d81f2457a2a03/34-191; 
#=GS F4DVJ2/34-191      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas mendocina; 
#=GS A0A0A3ETE2/28-203  AC A0A0A3ETE2
#=GS A0A0A3ETE2/28-203  OS Vibrio campbellii
#=GS A0A0A3ETE2/28-203  DE Histidine kinase
#=GS A0A0A3ETE2/28-203  DR GENE3D; 543546ae49e7a06b5fe3ba2db1cd0b8c/28-203; 
#=GS A0A0A3ETE2/28-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio campbellii; 
#=GS A6AVW3/28-203      AC A6AVW3
#=GS A6AVW3/28-203      OS Vibrio campbellii HY01
#=GS A6AVW3/28-203      DE Sensor histidine kinase
#=GS A6AVW3/28-203      DR GENE3D; 543546ae49e7a06b5fe3ba2db1cd0b8c/28-203; 
#=GS A6AVW3/28-203      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio campbellii; 
#=GS F0LNU9/37-192      AC F0LNU9
#=GS F0LNU9/37-192      OS Vibrio furnissii NCTC 11218
#=GS F0LNU9/37-192      DE Methyl-accepting chemotaxis protein
#=GS F0LNU9/37-192      DR GENE3D; 5833f0c9e4c0a395fd25dd4a94e10d97/37-192; 
#=GS F0LNU9/37-192      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio furnissii; 
#=GS Q7MJQ4/28-203      AC Q7MJQ4
#=GS Q7MJQ4/28-203      OS Vibrio vulnificus YJ016
#=GS Q7MJQ4/28-203      DE Signal transduction histidine kinase
#=GS Q7MJQ4/28-203      DR GENE3D; 59b0fd35e9248d39fb704e467b2d9bb3/28-203; 
#=GS Q7MJQ4/28-203      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio vulnificus; 
#=GS A0A087IHD4/28-203  AC A0A087IHD4
#=GS A0A087IHD4/28-203  OS Vibrio vulnificus
#=GS A0A087IHD4/28-203  DE Histidine kinase
#=GS A0A087IHD4/28-203  DR GENE3D; 59b0fd35e9248d39fb704e467b2d9bb3/28-203; 
#=GS A0A087IHD4/28-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio vulnificus; 
#=GS A0A1F8VZ64/38-188  AC A0A1F8VZ64
#=GS A0A1F8VZ64/38-188  OS Curvibacter sp. GWA2_64_110
#=GS A0A1F8VZ64/38-188  DE Uncharacterized protein
#=GS A0A1F8VZ64/38-188  DR GENE3D; 59f7f66a1f72d674f8ac2d4059d1df19/38-188; 
#=GS A0A1F8VZ64/38-188  DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Curvibacter; Curvibacter sp. GWA2_64_110; 
#=GS A0A0K9I935/35-190  AC A0A0K9I935
#=GS A0A0K9I935/35-190  OS Desulfocarbo indianensis
#=GS A0A0K9I935/35-190  DE Uncharacterized protein
#=GS A0A0K9I935/35-190  DR GENE3D; 5a1ed72c1d2cb7df49292b8adcc16221/35-190; 
#=GS A0A0K9I935/35-190  DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfarculales; Desulfarculaceae; Desulfocarbo; Desulfocarbo indianensis; 
#=GS G8QLI3/35-190      AC G8QLI3
#=GS G8QLI3/35-190      OS Dechlorosoma suillum PS
#=GS G8QLI3/35-190      DE Methyl-accepting chemotaxis protein
#=GS G8QLI3/35-190      DR GENE3D; 5d8cc2413e9091b5ae6b94e7b0ad809c/35-190; 
#=GS G8QLI3/35-190      DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclaceae; Azospira; Azospira oryzae; 
#=GS A0A0F2GTI5/33-186  AC A0A0F2GTI5
#=GS A0A0F2GTI5/33-186  OS Vibrio sp. S234-5
#=GS A0A0F2GTI5/33-186  DE Chemotaxis protein
#=GS A0A0F2GTI5/33-186  DR GENE3D; 5f6220f5a7908b150120e1c3d33bf348/33-186; 
#=GS A0A0F2GTI5/33-186  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. S234-5; 
#=GS A0A0T6VQP7/34-190  AC A0A0T6VQP7
#=GS A0A0T6VQP7/34-190  OS Pseudomonas sp. TTU2014-096BSC
#=GS A0A0T6VQP7/34-190  DE Chemotaxis protein
#=GS A0A0T6VQP7/34-190  DR GENE3D; 633752431a4138c01bedb23d5abc6b95/34-190; 
#=GS A0A0T6VQP7/34-190  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. TTU2014-096BSC; 
#=GS A0A0X1L4X4/47-202  AC A0A0X1L4X4
#=GS A0A0X1L4X4/47-202  OS Vibrio cholerae MO10
#=GS A0A0X1L4X4/47-202  DE Methyl-accepting chemotaxis protein
#=GS A0A0X1L4X4/47-202  DR GENE3D; 63d1e0c44cb31c6bbecf42e8b433f12d/47-202; 
#=GS A0A0X1L4X4/47-202  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS C3LQN8/47-202      AC C3LQN8
#=GS C3LQN8/47-202      OS Vibrio cholerae M66-2
#=GS C3LQN8/47-202      DE Methyl-accepting chemotaxis protein
#=GS C3LQN8/47-202      DR GENE3D; 63d1e0c44cb31c6bbecf42e8b433f12d/47-202; 
#=GS C3LQN8/47-202      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A0H3Q469/47-202  AC A0A0H3Q469
#=GS A0A0H3Q469/47-202  OS Vibrio cholerae B33
#=GS A0A0H3Q469/47-202  DE Methyl-accepting chemotaxis protein
#=GS A0A0H3Q469/47-202  DR GENE3D; 63d1e0c44cb31c6bbecf42e8b433f12d/47-202; 
#=GS A0A0H3Q469/47-202  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A4Y9Y2/29-200      AC A4Y9Y2
#=GS A4Y9Y2/29-200      OS Shewanella putrefaciens CN-32
#=GS A4Y9Y2/29-200      DE Methyl-accepting chemotaxis sensory transducer
#=GS A4Y9Y2/29-200      DR GENE3D; 6b405525b17c7ae460f33a8e75d5272c/29-200; 
#=GS A4Y9Y2/29-200      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella putrefaciens; 
#=GS E6XLJ7/29-200      AC E6XLJ7
#=GS E6XLJ7/29-200      OS Shewanella putrefaciens 200
#=GS E6XLJ7/29-200      DE Methyl-accepting chemotaxis sensory transducer with Cache sensor
#=GS E6XLJ7/29-200      DR GENE3D; 6b405525b17c7ae460f33a8e75d5272c/29-200; 
#=GS E6XLJ7/29-200      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella putrefaciens; 
#=GS A0A150WLE4/38-192  AC A0A150WLE4
#=GS A0A150WLE4/38-192  OS Bdellovibrio bacteriovorus
#=GS A0A150WLE4/38-192  DE Chemotaxis protein
#=GS A0A150WLE4/38-192  DR GENE3D; 6f54b8d42383d9d6c78de5954964a53c/38-192; 
#=GS A0A150WLE4/38-192  DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Bdellovibrionales; Bdellovibrionaceae; Bdellovibrio; Bdellovibrio bacteriovorus; 
#=GS U0ES03/28-203      AC U0ES03
#=GS U0ES03/28-203      OS Vibrio coralliilyticus OCN008
#=GS U0ES03/28-203      DE Sensor histidine kinase
#=GS U0ES03/28-203      DR GENE3D; 6fa95c51309755e57dffb77c7ed6bd91/28-203; 
#=GS U0ES03/28-203      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio coralliilyticus; 
#=GS A0A086WM15/28-203  AC A0A086WM15
#=GS A0A086WM15/28-203  OS Vibrio sp. B183
#=GS A0A086WM15/28-203  DE Histidine kinase
#=GS A0A086WM15/28-203  DR GENE3D; 6fa95c51309755e57dffb77c7ed6bd91/28-203; 
#=GS A0A086WM15/28-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. B183; 
#=GS A0A0A0SUH1/28-203  AC A0A0A0SUH1
#=GS A0A0A0SUH1/28-203  OS Vibrio coralliilyticus
#=GS A0A0A0SUH1/28-203  DE Histidine kinase
#=GS A0A0A0SUH1/28-203  DR GENE3D; 6fa95c51309755e57dffb77c7ed6bd91/28-203; 
#=GS A0A0A0SUH1/28-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio coralliilyticus; 
#=GS U4E1H4/38-193      AC U4E1H4
#=GS U4E1H4/38-193      OS Vibrio nigripulchritudo FTn2
#=GS U4E1H4/38-193      DE Putative Methyl-accepting chemotaxis protein
#=GS U4E1H4/38-193      DR GENE3D; 7875500b3141a41a6dff096acfc3ddd8/38-193; 
#=GS U4E1H4/38-193      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio nigripulchritudo; 
#=GS A0A090TEJ2/37-183  AC A0A090TEJ2
#=GS A0A090TEJ2/37-183  OS Vibrio maritimus
#=GS A0A090TEJ2/37-183  DE Methyl-accepting chemotaxis protein
#=GS A0A090TEJ2/37-183  DR GENE3D; 7a63c31f4c6168bc01a4a3f03ab95f27/37-183; 
#=GS A0A090TEJ2/37-183  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio maritimus; 
#=GS A0A066UT51/27-203  AC A0A066UT51
#=GS A0A066UT51/27-203  OS Vibrio fortis
#=GS A0A066UT51/27-203  DE Histidine kinase
#=GS A0A066UT51/27-203  DR GENE3D; 7c1c6bb9da122f335f753917ea081881/27-203; 
#=GS A0A066UT51/27-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio fortis; 
#=GS E6VT16/39-189      AC E6VT16
#=GS E6VT16/39-189      OS Desulfovibrio aespoeensis Aspo-2
#=GS E6VT16/39-189      DE Chemotaxis sensory transducer
#=GS E6VT16/39-189      DR GENE3D; 7c98a60621e48af204aacf36dd374308/39-189; 
#=GS E6VT16/39-189      DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfovibrionales; Desulfovibrionaceae; Desulfovibrio; Desulfovibrio aespoeensis; 
#=GS D7HGI5/47-202      AC D7HGI5
#=GS D7HGI5/47-202      OS Vibrio cholerae RC385
#=GS D7HGI5/47-202      DE Methyl-accepting chemotaxis protein
#=GS D7HGI5/47-202      DR GENE3D; 7e667803c31f06aaea5d8778ac52bbb3/47-202; 
#=GS D7HGI5/47-202      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A1L9L431/33-186  AC A0A1L9L431
#=GS A0A1L9L431/33-186  OS Vibrio fluvialis
#=GS A0A1L9L431/33-186  DE Methyl-accepting chemotaxis protein 4
#=GS A0A1L9L431/33-186  DR GENE3D; 7f4bbf5123506c73b33a82c827c66193/33-186; 
#=GS A0A1L9L431/33-186  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio fluvialis; 
#=GS A0A0A0SDR8/29-205  AC A0A0A0SDR8
#=GS A0A0A0SDR8/29-205  OS Vibrio tubiashii ATCC 19109
#=GS A0A0A0SDR8/29-205  DE Histidine kinase
#=GS A0A0A0SDR8/29-205  DR GENE3D; 8290495b9218c4c6431e5c2f5450463c/29-205; 
#=GS A0A0A0SDR8/29-205  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio tubiashii; 
#=GS A0A0H6NIB3/3-118   AC A0A0H6NIB3
#=GS A0A0H6NIB3/3-118   OS Vibrio cholerae
#=GS A0A0H6NIB3/3-118   DE Sensor histidine kinase
#=GS A0A0H6NIB3/3-118   DR GENE3D; 82a905aad534d8692f592acad766b8e7/3-118; 
#=GS A0A0H6NIB3/3-118   DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A1J5L606/28-203  AC A0A1J5L606
#=GS A0A1J5L606/28-203  OS Vibrio sp. MedPE-SWchi
#=GS A0A1J5L606/28-203  DE Histidine kinase
#=GS A0A1J5L606/28-203  DR GENE3D; 83469c2624daa154c2bfb4c58c3b70de/28-203; 
#=GS A0A1J5L606/28-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. MedPE-SWchi; 
#=GS A0A0D8MZU2/28-203  AC A0A0D8MZU2
#=GS A0A0D8MZU2/28-203  OS Photobacterium leiognathi
#=GS A0A0D8MZU2/28-203  DE Histidine kinase
#=GS A0A0D8MZU2/28-203  DR GENE3D; 837dbc41cb298226c6eebd65b2f4e059/28-203; 
#=GS A0A0D8MZU2/28-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium leiognathi; 
#=GS E8MDB7/30-203      AC E8MDB7
#=GS E8MDB7/30-203      OS Vibrio sinaloensis DSM 21326
#=GS E8MDB7/30-203      DE Sensor histidine kinase
#=GS E8MDB7/30-203      DR GENE3D; 84e75fca9f907d303ef9a8b4f9b71aaf/30-203; 
#=GS E8MDB7/30-203      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio sinaloensis; 
#=GS A0A0F2IJC8/37-192  AC A0A0F2IJC8
#=GS A0A0F2IJC8/37-192  OS Vibrio sp. S234-5
#=GS A0A0F2IJC8/37-192  DE Chemotaxis protein
#=GS A0A0F2IJC8/37-192  DR GENE3D; 86abbad649cc4b920ed702017a6c4e77/37-192; 
#=GS A0A0F2IJC8/37-192  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. S234-5; 
#=GS A0A0C2SBX9/34-190  AC A0A0C2SBX9
#=GS A0A0C2SBX9/34-190  OS Pseudomonas stutzeri
#=GS A0A0C2SBX9/34-190  DE Chemotaxis protein
#=GS A0A0C2SBX9/34-190  DR GENE3D; 896a0a649f3462b467bc85a591766372/34-190; 
#=GS A0A0C2SBX9/34-190  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; 
#=GS A0A1N6M4Q2/36-190  AC A0A1N6M4Q2
#=GS A0A1N6M4Q2/36-190  OS Vibrio sp. CECT 9026
#=GS A0A1N6M4Q2/36-190  DE Methyl-accepting chemotaxis protein 4
#=GS A0A1N6M4Q2/36-190  DR GENE3D; 8d12995d8fba7a0c51d427676d6d8950/36-190; 
#=GS A0A1N6M4Q2/36-190  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. CECT 9026; 
#=GS A0A0J1K9Q0/38-192  AC A0A0J1K9Q0
#=GS A0A0J1K9Q0/38-192  OS Photobacterium ganghwense
#=GS A0A0J1K9Q0/38-192  DE Chemotaxis protein
#=GS A0A0J1K9Q0/38-192  DR GENE3D; 8df6d828b84399e8ab11f52da35a02d5/38-192; 
#=GS A0A0J1K9Q0/38-192  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium ganghwense; 
#=GS A0A0C3I576/33-185  AC A0A0C3I576
#=GS A0A0C3I576/33-185  OS Vibrio mytili
#=GS A0A0C3I576/33-185  DE Chemotaxis protein
#=GS A0A0C3I576/33-185  DR GENE3D; 8f5f9c6644a1777ee3a1f2a91eef667b/33-185; 
#=GS A0A0C3I576/33-185  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio mytili; 
#=GS A0A0K9I702/35-190  AC A0A0K9I702
#=GS A0A0K9I702/35-190  OS Desulfocarbo indianensis
#=GS A0A0K9I702/35-190  DE Uncharacterized protein
#=GS A0A0K9I702/35-190  DR GENE3D; 906e983e6bc6d348291cb4e7e958c919/35-190; 
#=GS A0A0K9I702/35-190  DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfarculales; Desulfarculaceae; Desulfocarbo; Desulfocarbo indianensis; 
#=GS E8LPP5/19-170      AC E8LPP5
#=GS E8LPP5/19-170      OS Vibrio brasiliensis LMG 20546
#=GS E8LPP5/19-170      DE Methyl-accepting chemotaxis protein
#=GS E8LPP5/19-170      DR GENE3D; 93bf5105bc8cfa7f98ccb825607e258e/19-170; 
#=GS E8LPP5/19-170      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio brasiliensis; 
#=GS A0A1G0NIL3/39-189  AC A0A1G0NIL3
#=GS A0A1G0NIL3/39-189  OS Hydrogenophilales bacterium RIFOXYD1_FULL_62_11
#=GS A0A1G0NIL3/39-189  DE Diguanylate cyclase
#=GS A0A1G0NIL3/39-189  DR GENE3D; 9658f19b4504e3cb30a8a807520f48ed/39-189; 
#=GS A0A1G0NIL3/39-189  DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Hydrogenophilales; Hydrogenophilales bacterium RIFOXYD1_FULL_62_11; 
#=GS A0A090RNK9/31-186  AC A0A090RNK9
#=GS A0A090RNK9/31-186  OS Photobacterium aphoticum
#=GS A0A090RNK9/31-186  DE Chemotaxis protein
#=GS A0A090RNK9/31-186  DR GENE3D; 98a4d176b4a870eb3d55e9c3575d9693/31-186; 
#=GS A0A090RNK9/31-186  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium aphoticum; 
#=GS A0A0H6UP23/41-186  AC A0A0H6UP23
#=GS A0A0H6UP23/41-186  OS Vibrio cholerae
#=GS A0A0H6UP23/41-186  DE Methyl-accepting chemotaxis protein
#=GS A0A0H6UP23/41-186  DR GENE3D; 98c407a6ce682b9f0d3447b0b339ebab/41-186; 
#=GS A0A0H6UP23/41-186  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS D0IMV9/37-191      AC D0IMV9
#=GS D0IMV9/37-191      OS Vibrio sp. RC586
#=GS D0IMV9/37-191      DE Methyl-accepting chemotaxis protein
#=GS D0IMV9/37-191      DR GENE3D; 99a4bf8edff25348205f3d851fafc8d0/37-191; 
#=GS D0IMV9/37-191      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. RC586; 
#=GS A0A090SFF4/39-184  AC A0A090SFF4
#=GS A0A090SFF4/39-184  OS Vibrio variabilis
#=GS A0A090SFF4/39-184  DE Methyl-accepting chemotaxis protein I
#=GS A0A090SFF4/39-184  DR GENE3D; 9ef0e391ddacd5f5333f736a6eb56859/39-184; 
#=GS A0A090SFF4/39-184  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio variabilis; 
#=GS A0A0B5KZJ0/31-184  AC A0A0B5KZJ0
#=GS A0A0B5KZJ0/31-184  OS Thermotoga sp. RQ7
#=GS A0A0B5KZJ0/31-184  DE Chemotaxis protein
#=GS A0A0B5KZJ0/31-184  DR GENE3D; a0a6953507a98d235c97fc8f7b18d61d/31-184; 
#=GS A0A0B5KZJ0/31-184  DR ORG; Bacteria; Thermotogae; Thermotogae; Thermotogales; Thermotogaceae; Thermotoga; Thermotoga sp. RQ7; 
#=GS A0A078LTY8/34-190  AC A0A078LTY8
#=GS A0A078LTY8/34-190  OS Pseudomonas saudiphocaensis
#=GS A0A078LTY8/34-190  DE Chemotaxis sensory transducer
#=GS A0A078LTY8/34-190  DR GENE3D; a3c4bd9e8bb4a750c83a5a5c5fa7429b/34-190; 
#=GS A0A078LTY8/34-190  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas saudiphocaensis; 
#=GS A0A066RZ57/38-193  AC A0A066RZ57
#=GS A0A066RZ57/38-193  OS Photobacterium galatheae
#=GS A0A066RZ57/38-193  DE Chemotaxis protein
#=GS A0A066RZ57/38-193  DR GENE3D; a4fb0ca9538dfb55eed943271d7d3354/38-193; 
#=GS A0A066RZ57/38-193  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium galatheae; 
#=GS F5RAE6/34-187      AC F5RAE6
#=GS F5RAE6/34-187      OS Methyloversatilis universalis FAM5
#=GS F5RAE6/34-187      DE Chemotaxis sensory transducer
#=GS F5RAE6/34-187      DR GENE3D; a648746507132e1a24831e28fc0db1a7/34-187; 
#=GS F5RAE6/34-187      DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclaceae; Methyloversatilis; Methyloversatilis universalis; 
#=GS A0A1D2U9T3/38-188  AC A0A1D2U9T3
#=GS A0A1D2U9T3/38-188  OS Comamonas sp. SCN 67-35
#=GS A0A1D2U9T3/38-188  DE Uncharacterized protein
#=GS A0A1D2U9T3/38-188  DR GENE3D; a64913b5aba515cc6334d99b7ac353a3/38-188; 
#=GS A0A1D2U9T3/38-188  DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Burkholderiales; Comamonadaceae; Comamonas; Comamonas sp. SCN 67-35; 
#=GS F6CTD5/35-192      AC F6CTD5
#=GS F6CTD5/35-192      OS Marinomonas posidonica IVIA-Po-181
#=GS F6CTD5/35-192      DE Methyl-accepting chemotaxis sensory transducer with Cache sensor
#=GS F6CTD5/35-192      DR GENE3D; a7475a0bf7a93a79ad67db195db5451b/35-192; 
#=GS F6CTD5/35-192      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Oceanospirillaceae; Marinomonas; Marinomonas posidonica; 
#=GS W8RBC8/35-189      AC W8RBC8
#=GS W8RBC8/35-189      OS Pseudomonas stutzeri
#=GS W8RBC8/35-189      DE Chemotaxis protein
#=GS W8RBC8/35-189      DR GENE3D; a80423adcccc4eb976f0e5ba7b0ea23c/35-189; 
#=GS W8RBC8/35-189      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; 
#=GS A0A1E5FKT7/37-192  AC A0A1E5FKT7
#=GS A0A1E5FKT7/37-192  OS Vibrio ordalii 12B09
#=GS A0A1E5FKT7/37-192  DE Chemotaxis protein
#=GS A0A1E5FKT7/37-192  DR GENE3D; a859bff5d92058203d601aec15ebbc2f/37-192; 
#=GS A0A1E5FKT7/37-192  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio ordalii; 
#=GS A0A0A5JIH1/28-206  AC A0A0A5JIH1
#=GS A0A0A5JIH1/28-206  OS Vibrio sinaloensis
#=GS A0A0A5JIH1/28-206  DE Histidine kinase
#=GS A0A0A5JIH1/28-206  DR GENE3D; a9173128eef3ab3c3f7a29ef639e3e62/28-206; 
#=GS A0A0A5JIH1/28-206  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio sinaloensis; 
#=GS U4K677/30-204      AC U4K677
#=GS U4K677/30-204      OS Vibrio nigripulchritudo
#=GS U4K677/30-204      DE Putative Signal transduction histidine kinase
#=GS U4K677/30-204      DR GENE3D; a92d2386c0a32a8516d0dc2970a4612a/30-204; 
#=GS U4K677/30-204      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio nigripulchritudo; 
#=GS U4E042/30-204      AC U4E042
#=GS U4E042/30-204      OS Vibrio nigripulchritudo FTn2
#=GS U4E042/30-204      DE Putative Signal transduction histidine kinase
#=GS U4E042/30-204      DR GENE3D; a92d2386c0a32a8516d0dc2970a4612a/30-204; 
#=GS U4E042/30-204      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio nigripulchritudo; 
#=GS A0A1G0MYB8/40-190  AC A0A1G0MYB8
#=GS A0A1G0MYB8/40-190  OS Geobacteraceae bacterium GWC2_53_11
#=GS A0A1G0MYB8/40-190  DE Chemotaxis protein
#=GS A0A1G0MYB8/40-190  DR GENE3D; a96b4966b4600c97ebb439bdc81999c0/40-190; 
#=GS A0A1G0MYB8/40-190  DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfuromonadales; Geobacteraceae; Geobacteraceae bacterium GWC2_53_11; 
#=GS A0A0H5ZDN2/29-170  AC A0A0H5ZDN2
#=GS A0A0H5ZDN2/29-170  OS Vibrio cholerae
#=GS A0A0H5ZDN2/29-170  DE Sensor histidine kinase
#=GS A0A0H5ZDN2/29-170  DR GENE3D; a9a0682f0a6b5608295796706dc4bd4c/29-170; 
#=GS A0A0H5ZDN2/29-170  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0L0Z5/29-201      AC A0L0Z5
#=GS A0L0Z5/29-201      OS Shewanella sp. ANA-3
#=GS A0L0Z5/29-201      DE Methyl-accepting chemotaxis sensory transducer
#=GS A0L0Z5/29-201      DR GENE3D; a9db00fe6477bbd847600526db605547/29-201; 
#=GS A0L0Z5/29-201      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Alteromonadales; Shewanellaceae; Shewanella; Shewanella sp. ANA-3; 
#=GS C9P5F7/37-192      AC C9P5F7
#=GS C9P5F7/37-192      OS Vibrio metschnikovii CIP 69.14
#=GS C9P5F7/37-192      DE Methyl-accepting chemotaxis protein
#=GS C9P5F7/37-192      DR GENE3D; aa9a3e067b041efbd058dfebc6b240c2/37-192; 
#=GS C9P5F7/37-192      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio metschnikovii; 
#=GS Q7MHI2/37-190      AC Q7MHI2
#=GS Q7MHI2/37-190      OS Vibrio vulnificus YJ016
#=GS Q7MHI2/37-190      DE Methyl-accepting chemotaxis protein
#=GS Q7MHI2/37-190      DR GENE3D; ad942c32d78426cc0f811ee01d604be6/37-190; 
#=GS Q7MHI2/37-190      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio vulnificus; 
#=GS A0A0M0IGX4/33-186  AC A0A0M0IGX4
#=GS A0A0M0IGX4/33-186  OS Vibrio xuii
#=GS A0A0M0IGX4/33-186  DE Chemotaxis protein
#=GS A0A0M0IGX4/33-186  DR GENE3D; b1e4b289ba33fe216f3b1433176ca22f/33-186; 
#=GS A0A0M0IGX4/33-186  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio xuii; 
#=GS A6D507/29-204      AC A6D507
#=GS A6D507/29-204      OS Vibrio shilonii AK1
#=GS A6D507/29-204      DE Signal transduction histidine kinase
#=GS A6D507/29-204      DR GENE3D; b46c18c2d26efa9258e9b997e6cbb433/29-204; 
#=GS A6D507/29-204      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio shilonii; 
#=GS A0A084TDT6/29-204  AC A0A084TDT6
#=GS A0A084TDT6/29-204  OS Vibrio sp. ER1A
#=GS A0A084TDT6/29-204  DE Histidine kinase
#=GS A0A084TDT6/29-204  DR GENE3D; b46c18c2d26efa9258e9b997e6cbb433/29-204; 
#=GS A0A084TDT6/29-204  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. ER1A; 
#=GS A0A1K0GUX8/41-195  AC A0A1K0GUX8
#=GS A0A1K0GUX8/41-195  OS Couchioplanes caeruleus subsp. caeruleus
#=GS A0A1K0GUX8/41-195  DE Uncharacterized protein
#=GS A0A1K0GUX8/41-195  DR GENE3D; b4f15f1a2e117bbcec7f7cb153495e00/41-195; 
#=GS A0A1K0GUX8/41-195  DR ORG; Bacteria; Actinobacteria; Actinobacteria; Micromonosporales; Micromonosporaceae; Couchioplanes; Couchioplanes caeruleus; Couchioplanes caeruleus subsp. caeruleus; 
#=GS A0A117KZH1/34-180  AC A0A117KZH1
#=GS A0A117KZH1/34-180  OS bacterium 42_11
#=GS A0A117KZH1/34-180  DE Methyl-accepting chemotaxis protein 4
#=GS A0A117KZH1/34-180  DR GENE3D; b4fdc598c48e455be69a421d6c545402/34-180; 
#=GS A0A117KZH1/34-180  DR ORG; Bacteria; bacterium 42_11; 
#=GS A0A0C5X2S8/38-191  AC A0A0C5X2S8
#=GS A0A0C5X2S8/38-191  OS Photobacterium gaetbulicola Gung47
#=GS A0A0C5X2S8/38-191  DE Putative methyl-accepting chemotaxis protein
#=GS A0A0C5X2S8/38-191  DR GENE3D; b6f0966b44023bd5f46251208ac72157/38-191; 
#=GS A0A0C5X2S8/38-191  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium gaetbulicola; 
#=GS A0A1M5GLA2/39-190  AC A0A1M5GLA2
#=GS A0A1M5GLA2/39-190  OS Desulfacinum infernum DSM 9756
#=GS A0A1M5GLA2/39-190  DE Methyl-accepting chemotaxis sensory transducer with Cache sensor
#=GS A0A1M5GLA2/39-190  DR GENE3D; b73f5188ac91ac5ce81b668ae3dd10f2/39-190; 
#=GS A0A1M5GLA2/39-190  DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Syntrophobacterales; Syntrophobacteraceae; Desulfacinum; Desulfacinum infernum; 
#=GS A0A109X2Y1/37-192  AC A0A109X2Y1
#=GS A0A109X2Y1/37-192  OS Vibrio fluvialis
#=GS A0A109X2Y1/37-192  DE Chemotaxis protein
#=GS A0A109X2Y1/37-192  DR GENE3D; b93b75a459a0f2f0698d2fc07a84d64b/37-192; 
#=GS A0A109X2Y1/37-192  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio fluvialis; 
#=GS A0A1E5D376/29-203  AC A0A1E5D376
#=GS A0A1E5D376/29-203  OS Vibrio genomosp. F6 str. FF-238
#=GS A0A1E5D376/29-203  DE Histidine kinase
#=GS A0A1E5D376/29-203  DR GENE3D; bb13859c092bdec999a5c7f6733af88b/29-203; 
#=GS A0A1E5D376/29-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio genomosp. F6; 
#=GS A0A0H6BUD7/38-183  AC A0A0H6BUD7
#=GS A0A0H6BUD7/38-183  OS Vibrio cholerae
#=GS A0A0H6BUD7/38-183  DE Methyl-accepting chemotaxis protein
#=GS A0A0H6BUD7/38-183  DR GENE3D; bb44cc6cddeac179541d5ddc2f4e71b8/38-183; 
#=GS A0A0H6BUD7/38-183  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS H2G0P9/38-187      AC H2G0P9
#=GS H2G0P9/38-187      OS Oceanimonas sp. GK1
#=GS H2G0P9/38-187      DE Methyl-accepting chemotaxis protein
#=GS H2G0P9/38-187      DR GENE3D; bb6f855c2e47798764e8eb087abb2d51/38-187; 
#=GS H2G0P9/38-187      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Aeromonadales; Aeromonadaceae; Oceanimonas; Oceanimonas sp. GK1; 
#=GS A0A0X1L2P0/33-186  AC A0A0X1L2P0
#=GS A0A0X1L2P0/33-186  OS Vibrio cholerae MO10
#=GS A0A0X1L2P0/33-186  DE Methyl-accepting chemotaxis protein
#=GS A0A0X1L2P0/33-186  DR GENE3D; c06b680670fa78fbd89e708131ab6ba8/33-186; 
#=GS A0A0X1L2P0/33-186  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A0H6CU41/33-186  AC A0A0H6CU41
#=GS A0A0H6CU41/33-186  OS Vibrio cholerae
#=GS A0A0H6CU41/33-186  DE Chemotaxis protein
#=GS A0A0H6CU41/33-186  DR GENE3D; c06b680670fa78fbd89e708131ab6ba8/33-186; 
#=GS A0A0H6CU41/33-186  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS C3LRW6/33-186      AC C3LRW6
#=GS C3LRW6/33-186      OS Vibrio cholerae M66-2
#=GS C3LRW6/33-186      DE Methyl-accepting chemotaxis protein
#=GS C3LRW6/33-186      DR GENE3D; c06b680670fa78fbd89e708131ab6ba8/33-186; 
#=GS C3LRW6/33-186      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A0H3QEG6/33-186  AC A0A0H3QEG6
#=GS A0A0H3QEG6/33-186  OS Vibrio cholerae B33
#=GS A0A0H3QEG6/33-186  DE N-acetylglucosamine regulated methyl-accepting chemotaxis protein
#=GS A0A0H3QEG6/33-186  DR GENE3D; c06b680670fa78fbd89e708131ab6ba8/33-186; 
#=GS A0A0H3QEG6/33-186  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio cholerae; 
#=GS A0A0W8J9S2/36-190  AC A0A0W8J9S2
#=GS A0A0W8J9S2/36-190  OS Vibrio sp. MEBiC08052
#=GS A0A0W8J9S2/36-190  DE Uncharacterized protein
#=GS A0A0W8J9S2/36-190  DR GENE3D; c1d454248c59fce01d25087e13440ff8/36-190; 
#=GS A0A0W8J9S2/36-190  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. MEBiC08052; 
#=GS A0A0M0I2C5/33-186  AC A0A0M0I2C5
#=GS A0A0M0I2C5/33-186  OS Vibrio hepatarius
#=GS A0A0M0I2C5/33-186  DE Chemotaxis protein
#=GS A0A0M0I2C5/33-186  DR GENE3D; c2d3512cfa8632c5a76e57c5aa0c5b8d/33-186; 
#=GS A0A0M0I2C5/33-186  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio hepatarius; 
#=GS U3HMF1/34-190      AC U3HMF1
#=GS U3HMF1/34-190      OS Pseudomonas stutzeri MF28
#=GS U3HMF1/34-190      DE Methyl-accepting chemotaxis protein
#=GS U3HMF1/34-190      DR GENE3D; c478ec6780bec0391d6e108e2e26ab0e/34-190; 
#=GS U3HMF1/34-190      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; 
#=GS A0A172WUA8/34-190  AC A0A172WUA8
#=GS A0A172WUA8/34-190  OS Pseudomonas stutzeri
#=GS A0A172WUA8/34-190  DE Chemotaxis protein
#=GS A0A172WUA8/34-190  DR GENE3D; c6582bcb70b47fd386d71cd9a95f37db/34-190; 
#=GS A0A172WUA8/34-190  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; 
#=GS A0A0A1GHU9/34-190  AC A0A0A1GHU9
#=GS A0A0A1GHU9/34-190  OS Pseudomonas sp. MT-1
#=GS A0A0A1GHU9/34-190  DE Methyl-accepting chemotaxis protein
#=GS A0A0A1GHU9/34-190  DR GENE3D; c6582bcb70b47fd386d71cd9a95f37db/34-190; 
#=GS A0A0A1GHU9/34-190  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. MT-1; 
#=GS A0LDI9/37-188      AC A0LDI9
#=GS A0LDI9/37-188      OS Magnetococcus marinus MC-1
#=GS A0LDI9/37-188      DE Methyl-accepting chemotaxis sensory transducer
#=GS A0LDI9/37-188      DR GENE3D; cb8ffc576b0ad793244efc1c2a60c5ce/37-188; 
#=GS A0LDI9/37-188      DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Magnetococcales; Magnetococcaceae; Magnetococcus; Magnetococcus marinus; 
#=GS A0A0D7PYK4/32-187  AC A0A0D7PYK4
#=GS A0A0D7PYK4/32-187  OS Bradyrhizobium sp. LTSP849
#=GS A0A0D7PYK4/32-187  DE Chemotaxis protein
#=GS A0A0D7PYK4/32-187  DR GENE3D; d0bd5a9b01b657963454610638be4fe7/32-187; 
#=GS A0A0D7PYK4/32-187  DR ORG; Bacteria; Proteobacteria; Alphaproteobacteria; Rhizobiales; Bradyrhizobiaceae; Bradyrhizobium; Bradyrhizobium sp. LTSP849; 
#=GS A0A0A5HVR3/34-182  AC A0A0A5HVR3
#=GS A0A0A5HVR3/34-182  OS Vibrio sinaloensis
#=GS A0A0A5HVR3/34-182  DE Chemotaxis protein
#=GS A0A0A5HVR3/34-182  DR GENE3D; d26f31566bf7794def8c6031f0a4ade2/34-182; 
#=GS A0A0A5HVR3/34-182  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio sinaloensis; 
#=GS A0A0A6QQI6/34-182  AC A0A0A6QQI6
#=GS A0A0A6QQI6/34-182  OS Vibrio caribbeanicus
#=GS A0A0A6QQI6/34-182  DE Chemotaxis protein
#=GS A0A0A6QQI6/34-182  DR GENE3D; d26f31566bf7794def8c6031f0a4ade2/34-182; 
#=GS A0A0A6QQI6/34-182  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio caribbeanicus; 
#=GS A0A1C3J661/32-186  AC A0A1C3J661
#=GS A0A1C3J661/32-186  OS Vibrio hemicentroti
#=GS A0A1C3J661/32-186  DE Methyl-accepting chemotaxis protein 4
#=GS A0A1C3J661/32-186  DR GENE3D; d373386313116b32ee470ed161f48fb5/32-186; 
#=GS A0A1C3J661/32-186  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio hemicentroti; 
#=GS M1WYH8/37-192      AC M1WYH8
#=GS M1WYH8/37-192      OS Desulfovibrio piezophilus C1TLV30
#=GS M1WYH8/37-192      DE Methyl-accepting chemotaxis sensory transducer with Cache sensor
#=GS M1WYH8/37-192      DR GENE3D; d466e780e6df4d4ec77ea528b71fce1b/37-192; 
#=GS M1WYH8/37-192      DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfovibrionales; Desulfovibrionaceae; Desulfovibrio; Desulfovibrio piezophilus; 
#=GS S2KYP2/31-187      AC S2KYP2
#=GS S2KYP2/31-187      OS Halomonas anticariensis FP35 = DSM 16096
#=GS S2KYP2/31-187      DE Uncharacterized protein
#=GS S2KYP2/31-187      DR GENE3D; d79f0db938f2490abd3bcaa18b9e5046/31-187; 
#=GS S2KYP2/31-187      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Oceanospirillales; Halomonadaceae; Halomonas; Halomonas anticariensis; 
#=GS A0A0F5VAY8/38-193  AC A0A0F5VAY8
#=GS A0A0F5VAY8/38-193  OS Photobacterium halotolerans
#=GS A0A0F5VAY8/38-193  DE Chemotaxis protein
#=GS A0A0F5VAY8/38-193  DR GENE3D; d86ab86ce390b50ba84c494b28b8fc9f/38-193; 
#=GS A0A0F5VAY8/38-193  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Photobacterium; Photobacterium halotolerans; 
#=GS A0A1F9LZ74/34-185  AC A0A1F9LZ74
#=GS A0A1F9LZ74/34-185  OS Deltaproteobacteria bacterium RIFOXYD12_FULL_57_12
#=GS A0A1F9LZ74/34-185  DE Uncharacterized protein
#=GS A0A1F9LZ74/34-185  DR GENE3D; dd26f25bf266a0e907f5aec8dc3a9a15/34-185; 
#=GS A0A1F9LZ74/34-185  DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Deltaproteobacteria bacterium RIFOXYD12_FULL_57_12; 
#=GS F0JBG7/38-194      AC F0JBG7
#=GS F0JBG7/38-194      OS Desulfovibrio desulfuricans ND132
#=GS F0JBG7/38-194      DE Methyl-accepting chemotaxis sensory transducer with Cache sensor
#=GS F0JBG7/38-194      DR GENE3D; dde5a2b010d2aac2412334fc7d4658eb/38-194; 
#=GS F0JBG7/38-194      DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfovibrionales; Desulfovibrionaceae; Desulfovibrio; Desulfovibrio desulfuricans; 
#=GS A0A0M0IQT8/29-205  AC A0A0M0IQT8
#=GS A0A0M0IQT8/29-205  OS Vibrio xuii
#=GS A0A0M0IQT8/29-205  DE Histidine kinase
#=GS A0A0M0IQT8/29-205  DR GENE3D; dfa8e55d49329de7f6b765b0cb8ba85c/29-205; 
#=GS A0A0M0IQT8/29-205  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio xuii; 
#=GS A4XUB8/35-191      AC A4XUB8
#=GS A4XUB8/35-191      OS Pseudomonas mendocina ymp
#=GS A4XUB8/35-191      DE Methyl-accepting chemotaxis sensory transducer
#=GS A4XUB8/35-191      DR GENE3D; dfbf37157708e312bb45592eb77edad8/35-191; 
#=GS A4XUB8/35-191      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas mendocina; 
#=GS Q87LI3/33-186      AC Q87LI3
#=GS Q87LI3/33-186      OS Vibrio parahaemolyticus RIMD 2210633
#=GS Q87LI3/33-186      DE Methyl-accepting chemotaxis protein
#=GS Q87LI3/33-186      DR GENE3D; e03c2dc4dfa46b7b6a49bb5800335dec/33-186; 
#=GS Q87LI3/33-186      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio parahaemolyticus; 
#=GS A0A0D1GDN4/33-186  AC A0A0D1GDN4
#=GS A0A0D1GDN4/33-186  OS Vibrio parahaemolyticus 901128
#=GS A0A0D1GDN4/33-186  DE Whole genome shotgun sequence
#=GS A0A0D1GDN4/33-186  DR GENE3D; e03c2dc4dfa46b7b6a49bb5800335dec/33-186; 
#=GS A0A0D1GDN4/33-186  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio parahaemolyticus; 
#=GS A0A0F6LSY2/33-186  AC A0A0F6LSY2
#=GS A0A0F6LSY2/33-186  OS Vibrio parahaemolyticus 863
#=GS A0A0F6LSY2/33-186  DE Chemotaxis protein
#=GS A0A0F6LSY2/33-186  DR GENE3D; e03c2dc4dfa46b7b6a49bb5800335dec/33-186; 
#=GS A0A0F6LSY2/33-186  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio parahaemolyticus; 
#=GS A0A0L8TV85/33-186  AC A0A0L8TV85
#=GS A0A0L8TV85/33-186  OS Vibrio parahaemolyticus
#=GS A0A0L8TV85/33-186  DE Chemotaxis protein
#=GS A0A0L8TV85/33-186  DR GENE3D; e03c2dc4dfa46b7b6a49bb5800335dec/33-186; 
#=GS A0A0L8TV85/33-186  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio harveyi group; Vibrio parahaemolyticus; 
#=GS A0A0D9AMY9/34-190  AC A0A0D9AMY9
#=GS A0A0D9AMY9/34-190  OS Pseudomonas stutzeri
#=GS A0A0D9AMY9/34-190  DE Chemotaxis protein
#=GS A0A0D9AMY9/34-190  DR GENE3D; e1db7e680d375d3c93eac3d2b870701f/34-190; 
#=GS A0A0D9AMY9/34-190  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; 
#=GS F9REZ3/28-203      AC F9REZ3
#=GS F9REZ3/28-203      OS Vibrio sp. N418
#=GS F9REZ3/28-203      DE Sensor histidine kinase
#=GS F9REZ3/28-203      DR GENE3D; e1e835865b8a23ac5c2687646105a749/28-203; 
#=GS F9REZ3/28-203      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. N418; 
#=GS A0A1E5E5L7/28-203  AC A0A1E5E5L7
#=GS A0A1E5E5L7/28-203  OS Vibrio rumoiensis 1S-45
#=GS A0A1E5E5L7/28-203  DE Histidine kinase
#=GS A0A1E5E5L7/28-203  DR GENE3D; e4d27f2c9e7f3a3b0f0d04e28f8935c8/28-203; 
#=GS A0A1E5E5L7/28-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio rumoiensis; 
#=GS A0A1L9KTY7/37-192  AC A0A1L9KTY7
#=GS A0A1L9KTY7/37-192  OS Vibrio fluvialis
#=GS A0A1L9KTY7/37-192  DE Methyl-accepting chemotaxis protein 4
#=GS A0A1L9KTY7/37-192  DR GENE3D; ea69ab6c9f8720417e47da9f8104d4a2/37-192; 
#=GS A0A1L9KTY7/37-192  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio fluvialis; 
#=GS A0A1L9KYD0/37-192  AC A0A1L9KYD0
#=GS A0A1L9KYD0/37-192  OS Vibrio vulnificus
#=GS A0A1L9KYD0/37-192  DE Methyl-accepting chemotaxis protein 4
#=GS A0A1L9KYD0/37-192  DR GENE3D; ea69ab6c9f8720417e47da9f8104d4a2/37-192; 
#=GS A0A1L9KYD0/37-192  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio vulnificus; 
#=GS A0A0F9UDR3/35-190  AC A0A0F9UDR3
#=GS A0A0F9UDR3/35-190  OS marine sediment metagenome
#=GS A0A0F9UDR3/35-190  DE Uncharacterized protein
#=GS A0A0F9UDR3/35-190  DR GENE3D; edcc85e0023f212b6b1d0dfb05838327/35-190; 
#=GS A0A0F9UDR3/35-190  DR ORG; marine sediment metagenome; 
#=GS U3HLC9/33-189      AC U3HLC9
#=GS U3HLC9/33-189      OS Pseudomonas alcaligenes OT 69
#=GS U3HLC9/33-189      DE Methyl-accepting chemotaxis protein
#=GS U3HLC9/33-189      DR GENE3D; eefe09ce8c26ca0413177fd3a738f8e5/33-189; 
#=GS U3HLC9/33-189      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas aeruginosa group; Pseudomonas alcaligenes; 
#=GS K4KKA7/35-190      AC K4KKA7
#=GS K4KKA7/35-190      OS Simiduia agarivorans SA1 = DSM 21679
#=GS K4KKA7/35-190      DE Putative methyl-accepting chemotaxis sensory transducer
#=GS K4KKA7/35-190      DR GENE3D; f223b4d0745962789592441d10e2e189/35-190; 
#=GS K4KKA7/35-190      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Cellvibrionales; Cellvibrionaceae; Simiduia; Simiduia agarivorans; 
#=GS E8LTT3/28-205      AC E8LTT3
#=GS E8LTT3/28-205      OS Vibrio brasiliensis LMG 20546
#=GS E8LTT3/28-205      DE Sensor histidine kinase
#=GS E8LTT3/28-205      DR GENE3D; f328f93c70d6a5214b983526c359d62f/28-205; 
#=GS E8LTT3/28-205      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio oreintalis group; Vibrio brasiliensis; 
#=GS A0A1G0LEV0/38-193  AC A0A1G0LEV0
#=GS A0A1G0LEV0/38-193  OS Geobacteraceae bacterium GWB2_52_12
#=GS A0A1G0LEV0/38-193  DE Chemotaxis protein
#=GS A0A1G0LEV0/38-193  DR GENE3D; f72c134a0bf36427a153fc62e8b81019/38-193; 
#=GS A0A1G0LEV0/38-193  DR ORG; Bacteria; Proteobacteria; delta/epsilon subdivisions; Deltaproteobacteria; Desulfuromonadales; Geobacteraceae; Geobacteraceae bacterium GWB2_52_12; 
#=GS A0A120DAR2/36-187  AC A0A120DAR2
#=GS A0A120DAR2/36-187  OS Nitrospirae bacterium HCH-1
#=GS A0A120DAR2/36-187  DE Methyl-accepting chemotaxis protein
#=GS A0A120DAR2/36-187  DR GENE3D; f82efe8d850f8ebe12f493677bc268ec/36-187; 
#=GS A0A120DAR2/36-187  DR ORG; Bacteria; Nitrospirae; Nitrospirae bacterium HCH-1; 
#=GS A0A1H6ANZ8/37-191  AC A0A1H6ANZ8
#=GS A0A1H6ANZ8/37-191  OS Vibrio hangzhouensis
#=GS A0A1H6ANZ8/37-191  DE Methyl-accepting chemotaxis sensory transducer with Cache sensor
#=GS A0A1H6ANZ8/37-191  DR GENE3D; f8a1b3502a2925e8937c873c1b7a5e42/37-191; 
#=GS A0A1H6ANZ8/37-191  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio hangzhouensis; 
#=GS A0A1B9QWM6/29-203  AC A0A1B9QWM6
#=GS A0A1B9QWM6/29-203  OS Vibrio genomosp. F10
#=GS A0A1B9QWM6/29-203  DE Histidine kinase
#=GS A0A1B9QWM6/29-203  DR GENE3D; f95a9f695f3c578e560a5441571ae23a/29-203; 
#=GS A0A1B9QWM6/29-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio genomosp. F10; 
#=GS A0A1E5BAK9/29-203  AC A0A1E5BAK9
#=GS A0A1E5BAK9/29-203  OS Vibrio genomosp. F10 str. ZF-129
#=GS A0A1E5BAK9/29-203  DE Histidine kinase
#=GS A0A1E5BAK9/29-203  DR GENE3D; f95a9f695f3c578e560a5441571ae23a/29-203; 
#=GS A0A1E5BAK9/29-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio genomosp. F10; 
#=GS A0A0F2IR87/28-203  AC A0A0F2IR87
#=GS A0A0F2IR87/28-203  OS Vibrio sp. S234-5
#=GS A0A0F2IR87/28-203  DE Histidine kinase
#=GS A0A0F2IR87/28-203  DR GENE3D; f975e664d67b09c5ddba74fe544de90e/28-203; 
#=GS A0A0F2IR87/28-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio sp. S234-5; 
#=GS U3A6C3/36-191      AC U3A6C3
#=GS U3A6C3/36-191      OS Vibrio proteolyticus NBRC 13287
#=GS U3A6C3/36-191      DE Putative methyl-accepting chemotaxis protein
#=GS U3A6C3/36-191      DR GENE3D; fbd975da457fd7f4430561c90cb3cb73/36-191; 
#=GS U3A6C3/36-191      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio proteolyticus; 
#=GS B7VGP4/29-203      AC B7VGP4
#=GS B7VGP4/29-203      OS Vibrio tasmaniensis LGP32
#=GS B7VGP4/29-203      DE Signal transduction histidine kinas
#=GS B7VGP4/29-203      DR GENE3D; ff6a881f3722546f77f0b6d09ed171e5/29-203; 
#=GS B7VGP4/29-203      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio tasmaniensis; 
#=GS A0A1E5EBS3/29-203  AC A0A1E5EBS3
#=GS A0A1E5EBS3/29-203  OS Vibrio tasmaniensis 1F-267
#=GS A0A1E5EBS3/29-203  DE Histidine kinase
#=GS A0A1E5EBS3/29-203  DR GENE3D; ff6a881f3722546f77f0b6d09ed171e5/29-203; 
#=GS A0A1E5EBS3/29-203  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales; Vibrionaceae; Vibrio; Vibrio tasmaniensis; 
#=GS W9TIZ2/34-190      AC W9TIZ2
#=GS W9TIZ2/34-190      OS Pseudomonas sp. BAY1663
#=GS W9TIZ2/34-190      DE Chemotaxis sensory transducer
#=GS W9TIZ2/34-190      DR GENE3D; f38e110255b81559152a7a4aa8d7af72/34-190; 
#=GS W9TIZ2/34-190      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. BAY1663; 
#=GS A0A0F2QN65/34-190  AC A0A0F2QN65
#=GS A0A0F2QN65/34-190  OS Pseudomonas sp. BRH_c35
#=GS A0A0F2QN65/34-190  DE Chemotaxis protein
#=GS A0A0F2QN65/34-190  DR GENE3D; fb123bc1eaf663d943799e2710f8a010/34-190; 
#=GS A0A0F2QN65/34-190  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas sp. BRH_c35; 
#=GS I4CSY2/34-190      AC I4CSY2
#=GS I4CSY2/34-190      OS Pseudomonas stutzeri CCUG 29243
#=GS I4CSY2/34-190      DE Methyl-accepting chemotaxis sensory transducer
#=GS I4CSY2/34-190      DR GENE3D; fb123bc1eaf663d943799e2710f8a010/34-190; 
#=GS I4CSY2/34-190      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; 
#=GS A0A098FQW7/34-190  AC A0A098FQW7
#=GS A0A098FQW7/34-190  OS Pseudomonas xanthomarina
#=GS A0A098FQW7/34-190  DE Methyl-accepting chemotaxis sensory transducer
#=GS A0A098FQW7/34-190  DR GENE3D; fb123bc1eaf663d943799e2710f8a010/34-190; 
#=GS A0A098FQW7/34-190  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas xanthomarina; 
#=GS V4S1Q2/34-190      AC V4S1Q2
#=GS V4S1Q2/34-190      OS Pseudomonas chloritidismutans AW-1
#=GS V4S1Q2/34-190      DE Methyl-accepting chemotaxis protein
#=GS V4S1Q2/34-190      DR GENE3D; fb123bc1eaf663d943799e2710f8a010/34-190; 
#=GS V4S1Q2/34-190      DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas chloritidismutans; 
#=GS A0A0M2RKI8/34-190  AC A0A0M2RKI8
#=GS A0A0M2RKI8/34-190  OS Pseudomonas stutzeri
#=GS A0A0M2RKI8/34-190  DE Chemotaxis protein
#=GS A0A0M2RKI8/34-190  DR GENE3D; fb123bc1eaf663d943799e2710f8a010/34-190; 
#=GS A0A0M2RKI8/34-190  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas stutzeri group; Pseudomonas stutzeri subgroup; Pseudomonas stutzeri; 
#=GS G8QJP8/35-190      AC G8QJP8
#=GS G8QJP8/35-190      OS Dechlorosoma suillum PS
#=GS G8QJP8/35-190      DE Methyl-accepting chemotaxis protein
#=GS G8QJP8/35-190      DR GENE3D; c8d052724de28be99f14c11396ea7bda/35-190; 
#=GS G8QJP8/35-190      DR ORG; Bacteria; Proteobacteria; Betaproteobacteria; Rhodocyclales; Rhodocyclaceae; Azospira; Azospira oryzae; 
#=GS A0A0B3BU32/35-190  AC A0A0B3BU32
#=GS A0A0B3BU32/35-190  OS Pseudomonas flexibilis
#=GS A0A0B3BU32/35-190  DE Chemotaxis protein
#=GS A0A0B3BU32/35-190  DR GENE3D; 48e240aadc64232933ff827bb646adf3/35-190; 
#=GS A0A0B3BU32/35-190  DR ORG; Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; Pseudomonadaceae; Pseudomonas; Pseudomonas flexibilis; 
#=GF TC 134.9 9.7E-42
#=GF SQ 209
Q9KSI0/29-203              ---QAKTLGQREIEIFRAKLMEERETSLKDSVEVAFDAVRLIAN---NPNLSEAEAKQQVKAVLTNIRYGS--DGYFFAYDAQGTNLVHPIQPELVGQNLWQL-QDERGDFLIQALLF-QAQS--GGGYHQYLWRKPSSGETV-PKLSYSAWLDDWEWMIGTGLYIEDLSHEVEKMQAAVNANI-DTTF-
A0A0H6LAV5/24-198          ---QAKTLGQREIEIFRAKLMEERETSLKDSVEVAFDAVRLIAN---NPNLSEAEAKQQVKAVLTNIRYGS--DGYFFAYDAQGTNLVHPIQPELVGQNLWQL-QDERGDFLIQALLF-QAQS--GGGYHQYLWRKPSSGETV-PKLSYSAWLDDWEWMIGTGLYIEDLSHEVEKMQAAVNANI-DTTF-
Q9AEP6/28-203              --YQAKTLGHKEVAIFKQSLIKSRESALKDSVDQAFDAISYIYN---NPDLSQEEAQRRVKALLTQIRYGA--DGYFFAYDKRGTNLVHPILPELVGQNLLHI-QDQNGDHLIEALLY-QAQT--GGGFHQYLWQKPSTGETV-PKLSYAAWLDKWDWMIGTGLYIEDISEEVANMQAAINKNI-ETTF-
A0A1L9KX06/28-203          --YQAKTLGHKEVAIFKQSLIKSRESALKDSVDQAFDAISYIYN---NPDLSQEEAQRRVKALLTQIRYGA--DGYFFAYDKRGTNLVHPILPELVGQNLLHI-QDQNGDHLIEALLY-QAQT--GGGFHQYLWQKPSTGETV-PKLSYAAWLDKWDWMIGTGLYIEDISEEVANMQAAINKNI-ETTF-
A0A0H0Y6F2/28-203          --YQAKTLGHKEVAIFKQSLIKSRESALKDSVDQAFDAISYIYN---NPDLSQEEAQRRVKALLTQIRYGA--DGYFFAYDKRGTNLVHPILPELVGQNLLHI-QDQNGDHLIEALLY-QAQT--GGGFHQYLWQKPSTGETV-PKLSYAAWLDKWDWMIGTGLYIEDISEEVANMQAAINKNI-ETTF-
A0A0H6KY38/29-203          ---QAKTLGQREIEIFRAKLMEERETSLKDSVEVAFDAVRLIAN---NPNLSEAEAKQQVKAVLTNIRYGS--DGYFFAYDAQGTNLVHPIQPELVGQNLWQL-QDERGDFLIQALLF-QAQS--GGGYHQYLWRKPSSGETV-PKLSYSAWLDDWEWMIGTGLYIEDLSHEVEKMQAAVNANI-DTTF-
C3LLX2/29-203              ---QAKTLGQREIEIFRAKLMEERETSLKDSVEVAFDAVRLIAN---NPNLSEAEAKQQVKAVLTNIRYGS--DGYFFAYDAQGTNLVHPIQPELVGQNLWQL-QDERGDFLIQALLF-QAQS--GGGYHQYLWRKPSSGETV-PKLSYSAWLDDWEWMIGTGLYIEDLSHEVEKMQAAVNANI-DTTF-
A0A0K9UYL7/29-203          ---QAKTLGQREIEIFRAKLMEERETSLKDSVEVAFDAVRLIAN---NPNLSEAEAKQQVKAVLTNIRYGS--DGYFFAYDAQGTNLVHPIQPELVGQNLWQL-QDERGDFLIQALLF-QAQS--GGGYHQYLWRKPSSGETV-PKLSYSAWLDDWEWMIGTGLYIEDLSHEVEKMQAAVNANI-DTTF-
A0A0H3PYH0/29-203          ---QAKTLGQREIEIFRAKLMEERETSLKDSVEVAFDAVRLIAN---NPNLSEAEAKQQVKAVLTNIRYGS--DGYFFAYDAQGTNLVHPIQPELVGQNLWQL-QDERGDFLIQALLF-QAQS--GGGYHQYLWRKPSSGETV-PKLSYSAWLDDWEWMIGTGLYIEDLSHEVEKMQAAVNANI-DTTF-
A0A0X1KW77/29-203          ---QAKTLGQREIEIFRAKLMEERETSLKDSVEVAFDAVRLIAN---NPNLSEAEAKQQVKAVLTNIRYGS--DGYFFAYDAQGTNLVHPIQPELVGQNLWQL-QDERGDFLIQALLF-QAQS--GGGYHQYLWRKPSSGETV-PKLSYSAWLDDWEWMIGTGLYIEDLSHEVEKMQAAVNANI-DTTF-
A0A1L9HYJ2/28-203          --YQAKTLGHKEVAIFKQSLIKSRESALKDSVDQAFDAISYIYN---NPDLSQEEAQRRVKALLTQIRYGA--DGYFFAYDKRGTNLVHPILPELVGQNLLHI-QDQNGDHLIEALLY-QAQT--GGGFHQYLWQKPSTGETV-PKLSYAAWLDKWDWMIGTGLYIEDISEEVANMQAAINKNI-ETTF-
A0A1E5BUT1/29-203          ---QTKTLGAKEVEIFRDSLIKSRENALKDTVDLAFDAIEHIYN---DPDIKEAQAKKEVRTILSKLRYGS--DGYFFAYDRHGTNLVHPIQPELIGKNLLQL-QDEDGDFLIEALLR-EAQT--GGGFHQYLWQKPSTGEVV-SKLSYAAWLERWDWMIGTGLYIEDVHQEVASMQAAINKNI-ETTF-
A0A0N8GW87/29-203          ---QTKTLGAKEVEIFRDSLIKSRENALKDTVDLAFDAIEHIYN---DPDIKEAQAKKEVRTILSKLRYGS--DGYFFAYDRHGTNLVHPIQPELIGKNLLQL-QDEDGDFLIEALLR-EAQT--GGGFHQYLWQKPSTGEVV-SKLSYAAWLERWDWMIGTGLYIEDVHQEVASMQAAINKNI-ETTF-
A0A1C3INP1/29-203          ---QTKTLGAKEVEIFRDSLIKSRENALKDTVDLAFDAIEHIYN---DPDIKEAQAKKEVRTILSKLRYGS--DGYFFAYDRHGTNLVHPIQPELIGKNLLQL-QDEDGDFLIEALLR-EAQT--GGGFHQYLWQKPSTGEVV-SKLSYAAWLERWDWMIGTGLYIEDVHQEVASMQAAINKNI-ETTF-
A0A1C3J5B6/29-203          ---QTKTLGEKEVEIFRDSLIKSRENALKDTVDLAFDAIEHIYN---DPDIQEAQAKREVRTILSKLRYGS--DGYFFAYDRHGTNLVHPIQPELIGQNLLQL-QDEDGDFLIEALLK-EAQT--GGGFHQYLWQKPSTGEVV-SKLSYAAWLERWDWMIGTGLYIEDVHQEVASMQAAINKNI-ETTF-
A0A1A7UTE2/29-204          ---QAKALGENEINIFRESLIRSKESALKDSVEMAFDAIEQVYN---NSSLTETEAKSQVKETLNRLRYGT--DGYFFAYDKNGTNLVHPILPQLVGRNLLKL-QDQDGDYLIEALLF-QAQS--GGGYHQYLWQKPSTGETV-TKLSYAAWLDKWDWMIGTGLYIEDVAQEVAILRAAIDNNI-ETTIF
A0A1C3JKI0/29-203          ---QTKTLGAKEVEIFRDSLIKSRENALKDTVDLAFDAIEHIYN---DPNIQEAQAKNKVRTILSKLRYGS--DGYFFAYDRHGTNLVHPIQPELIGQNLLQL-QDEDGDFLIEALLR-EAQT--GGGFHQYLWQKPSTGEVV-SKLSYAAWLERWDWMIGTGLYIEDVHQEVASMQAAINNNI-ETTF-
A0A0H5X4H6/1-158           --------------------MEERETSLKDSVEVAFDAVRLIAS---NPNLSEAEAKQQVKAVLTNIRYGS--DGYFFAYDAQGTNLVHPIQPELVGQNLWQL-QDERGDFLIQALLF-QAQS--GGGYHQYLWRKPSSGETV-PKLSYSAWLDDWEWMIGTGLYIEDLSHEVEKMQAAVNANI-DTTF-
A0A1B1NPH3/28-203          --HQSQALRDKEVEIIRSSLIQSKETALKDSVDLAFDAIRHVYN---DASLDESTAQTQVKQIIAKLRYGK--DGYFFVYYSDGTNLVHPIMPELQGQNLRHI-QDENGDFLIKTLLE-KAQQ--GGGFHQYLWQKPSSGETV-PKLSYAAWLDKWGWMIGTGLYIEDISNEVTNLKRAVDKNI-ETTF-
A0A1C7FA43/28-203          --HQSQALRDKEVEIIRSSLIQSKETALKDSVDLAFDAIRHVYN---DASLDESTAQTQVKQIIAKLRYGK--DGYFFVYYRDGTNLVHPIMPELQGQNLRHI-QDENGDFLIKTLLE-KAQQ--GGGFHQYLWQKPSSGETV-PKLSYAAWLDKWGWMIGTGLYIEDISNEVTNLKRAVDKNI-ETTF-
Q9KSK8/38-183              ------------------NLVAEREARLKAVIQSTLSQVAYLNQ-----TLPKEQAQEQAKALINALRFDG--NNYMFVIDESRYTVVHPIRQDLVGQQMGNPGKDTEGQFWF-TMID-LARNG-QQGSLIYPW-KNQQGNPA-DKLSFVNGFAPWGWILGSGMLLDDIEHAVYQQ--------------
Q9KV74/47-202              ---------------YRHDLMLEKQVQTQHLVESAYTLLEHYAQQATQGTLTTEQAQNTAKQAIAQLRYGA--NDYFWINDAQPAMVMHPMKPDLNGKDLRSF-KDPNGKALFVEMVN-VTQRN-QQGVVEYQWPKPGAEQPV-DKVSYVKLFKPWGWIIGTGIYVDDVNALVMQRL-------------
Q9KUR6/33-186              -----------------SNL--DNKARVTELFNSAYSILTEVEKLAQEGKMSEPEAKALATRLMRNNLYKD--NEYVYVADENMTFVATPLDPQLHDTSFHDF-KDGKGNSVGRLIQD-VLRHQ-SGKLVEYTWTQKQADGSIEEKLSIARKTPHWGWVVGTGIGFNEVNARFWSTAQ------------
Q8EI62/29-202              SYYVEQESLAEEVVTFRTKLVGERKQQIKEATEIASGIVNYQLSLKDKGNVN---------QALRDIRFGS--AGYFFMYDSQGKNIFHALMPNLEGQNKIDM-TDPRGTKIIVGLLD-AAKR--GDGNFSYYYQKPNTNEQI-EKISFVMMVPGTDWMLGTGAYIDDIEAVVEDYRQTVTEQMAEKSLM
Q8EEX1/36-190              ---------------QYSNLIEQKWLQIDGQLGSILSVIDVYRQDAASGKMREQEAQKAAASLINQTRYAG--VGYFILIDDNNQILAHGESASMIGTSAQNF-TLPNGTNPLTTLLS-QARQN-GKSTLEYPIANPVSKIVE-DKLAEARYYPQWGWTLITGAYLSDVKESLYEV--------------
Q89DZ2/32-187              ---------------LRTQMVADRQAKTQHMVDVGYGILAHYQKLESDGKLPREQAQAAAMAEIKSLRYDK--VEYFWINDMTPRMVMHPIKPELDGKDLSGM-KDPAGNALFMGFVD-VVSKQ-GAGFYSYLWPKPGFDQPV-GKVSYVKGFAPWGWIIGTGIYLDDVDAVFRQNA-------------
K6WGJ0/37-191              --------------QVRSTVLEERSTKTRQVVESAMGVLDYYAKQEESGKLTHAQAQQQALGVLSGMRYDG--KEYFWVNDMTPTMIMHPMKPELNGKNVADQ-KDPDGLPIFTTFVD-TVKTS-GAGFVHYQWPKPGAEAPQ-PKVSYVAGFPKWGWILGSGIYVDDVSAAALK---------------
H0Q1H4/38-188              ------------------VMLEERQASVRHAVESAIGVVEHFQKLEAAGELSKDDAQKAAKAAVKGLRYGD--GEYFFITDMVPHTLMHPIKPELDGKDMRDT-ADPKGKHLFVEFVD-VVRKS-GSGYVDYLWPKPGSNEPQ-PKLSYVKGFAPWGWIVGSGVYVNDVEEVFRH---------------
A0A090S8S0/37-191          ---------------YQNSLMENKQSKTQHLVQTTYTLVEHYHQQYSSGQLTLEQAQSEASKAVQSLRYDA--NDYFWINDLQPAMVMHPMKPALNGQDLSQV-ADPNGKRLFVDMVN-LAKQQ-QSGLVNYMWPKPGSDAPV-EKVSYIKLFKPWGWVIGSGVYVDDIEALTWQA--------------
A0A0Q0PXL8/37-192          ---------------YRSDLMLEKQSQTQHLVETAYTLLEHYAQQATQGALSTEQAQAAAKQAIAQLRYGN--NDYFWINDAQPAMVMHPMKPDLNGQDLHSF-KDPNGKALFVEMVK-VAQQS-QQGVVEYQWPKPGAEQPV-DKVSYVKLFKPWGWIIGTGIYVDDVNALVMQRL-------------
A0A0C2KBP8/27-204          V-YQSQTLRDKEVEIIRSSLIKSKESALKDSVDLAFDAIRHVYN---NPNIEEQAAKQQVKHILSKLRYGK--DGYFFVYYQDGTNLVHPIMPELEGQNLLHI-QDENGDYLLEALLA-RAKS--GGGFHQYLWQKPSTGETV-PKLSYAQWLDKWNWMIGTGLYMEDVSVEVANLKDAVNKNI-ETTFF
B9K8F8/31-179              ---------------VYNTIMERKKDEAKYLVETVYGILERAYEMEQKGELTREQAQNLAKSLVGKIRYDD--NNYFWINDTHPRMVFHPIKPEMNGQDLSDY-KDPNGVYLFNEMVK-VTKEK-GEGFVEYSWPKPGSDKPE-PKVSYVKLFKPWNWIVGTGIYVDDVK--------------------
I4JMS6/34-190              --------------QVRSDLYKGKQEMTRHVVETAAGIFDHYRQLETSGALSTAEAQQAAIKQIRALRYDG--QDYFWVNDLGPTMIMHPMQPKLEGQDLSQV-KDPTGKALFNEMVA-VARRD-GAGAVDYMWAKPGEADPV-PKISYVQLFQPWGWIIGSGIYVDDVEAEFKNYL-------------
A0A1C2JT40/34-190          --------------QVRSDLYRGKQESTRHVVEAASGVFEHYRKLELSGAMTTAEAQKAAIEQIRLLRYDG--QDYYWINDLGPTMIMHPMQPKLDGQDLSKI-KDPEGKELFNEMVR-IAQRD-GAGLVDYMWAKPGEENPV-PKISYVQLFKPWGWIIGSGIYVDDVEQEFWNYL-------------
L0GKX3/34-190              --------------QVRSDLYRGKQESTRHVVEAASGVFEHYRKLELSGAMTTAEAQKAAIEQIRLLRYDG--QDYYWINDLGPTMIMHPMQPKLDGQDLSKI-KDPEGKELFNEMVR-IAQRD-GAGLVDYMWAKPGEENPV-PKISYVQLFKPWGWIIGSGIYVDDVEQEFWNYL-------------
A0A0M0I1W0/29-204          ---QAQALGENEVKLFKEGLIQSKETALKDRVELVIGAISHIYN---DPDLPQDVAQQQVKEIVDGLRFGK--DGYFFVYDENGTNLVHPIIPELIGQNLLNL-QDENGDYLIEALLY-QAQS--GGGFHRYLWQKPSTGENV-PKLSYAAWLDKWKWMIGTGLYMEDVSTEVAKLQSEINQNI-ETTFF
F9SZE3/33-186              -----------------SNL--DNKARVTELFRSAYSILTEVEQMAIDGTLEEQQAKELATRLLRNNIYKD--NEYVYVADEKMTFVATPLDPQLHGTSFHDF-KDGDGNSVGQLILD-VLGRK-TGQMVEYTWTQKQPDGSIEEKLSIAEKTPHWGWVVGTGIGFNEVNARFWSTAQ------------
A0A0D8MKZ6/28-202          --YQAKTLGQKEVTVFRDSLIDAKEAALKDSVDLALNAISHIYH---DSTIDIDLAQQRVKAILTNLRYGK--DGYFFVYDKNGVSLVHPIMPELIGKNLINI-QDEQGDYLIASLLS-QARS--GGGYHQYLWQKPSTGETV-TKLSYSAWLDKWDWMIGTGLYIEDVSQDVATMQQAINHNI-DTI--
Q1ZX47/28-202              --YQAKTLGQKEVTVFRDSLIDAKEAALKDSVDLALNAISHIYH---DSTIDIDLAQQRVKAILTNLRYGK--DGYFFVYDKNGVSLVHPIMPELIGKNLINI-QDEQGDYLIASLLS-QARS--GGGYHQYLWQKPSTGETV-TKLSYSAWLDKWDWMIGTGLYIEDVSQDVATMQQAINHNI-DTI--
A0A126QN21/38-194          ---------------VGDSLMQEKRTATKGVVEVAYGVIDYWAKKAESGAMTTEAAQEAAKAEIATFRYEG--NEYFWINDMNQVIIVHGVKPELNGKDLTDM-KDENGVYLFQEMVK-VSREK-GQGFVNYNWPKPGSSKAE-PKISYVQLYKPWGWVVGSGIYVDDVDAQVASLRW------------
A0A0Q2MXG1/29-203          ---QAKSLGEREVEIFRANLIKARETALKDSVDMALDAIALVYN---DPNLSDDEAKSKVKKVLTKLRYGS--DGYFFAYDAKGINLVHPTQPELIGRDLLKL-QDREGDYLIEALLF-QAQS--GGGFHQYLWQKPSSGEVV-PKLSYVEWLDKWGWMVGTGLYIEDVSQEVAAMQATINKNI-DTTF-
F0LT24/29-203              ---QAKSLGEREVEIFRANLIKARETALKDSVDMALDAIALVYN---DPNLSDDEAKSKVKKVLTKLRYGS--DGYFFAYDAKGINLVHPTQPELIGRDLLKL-QDREGDYLIEALLF-QAQS--GGGFHQYLWQKPSSGEVV-PKLSYVEWLDKWGWMVGTGLYIEDVSQEVAAMQATINKNI-DTTF-
A0A090P1U0/35-182          -------------------L--DNQARVTELFKSAYSILTEVEKMAIEGKMPEAEAKALATRLLRNNIYKD--NEYVYVADENMMFIAAPLDPQLHGTSFHDF-KDGNGNSVGQLILD-VLGRT-SGQIVEYTWTQKLPDGTIEEKLSIAEKTPHWGWVVGTGIGFNEVNARFW----------------
A0A0L8S7L3/28-203          --YQAKTLGQREVEIFHQNLIQSKEAALKDTVDVAFDAISHIYN---DSTIEERVAKARVKAILNRLTYGS--DGYFFAYDKHGTNLVHPVLPELVGENLLHL-EDENGDRLIEALLY-QAQS--GGGFHQYLWQKPSTGDIV-PKLSYAAWLDKWEWMIGTGLYIEDVSQEVANMRAAVNKNI-ETTF-
A0A0D1G9Z8/28-203          --YQAKTLGQREVEIFHQNLIQSKEAALKDTVDVAFDAISHIYN---DSTIEERVAKARVKAILNRLTYGS--DGYFFAYDKHGTNLVHPVLPELVGENLLHL-EDENGDRLIEALLY-QAQS--GGGFHQYLWQKPSTGDIV-PKLSYAAWLDKWEWMIGTGLYIEDVSQEVANMRAAVNKNI-ETTF-
Q87NG0/28-203              --YQAKTLGQREVEIFHQNLIQSKEAALKDTVDVAFDAISHIYN---DSTIEERVAKARVKAILNRLTYGS--DGYFFAYDKHGTNLVHPVLPELVGENLLHL-EDENGDRLIEALLY-QAQS--GGGFHQYLWQKPSTGDIV-PKLSYAAWLDKWEWMIGTGLYIEDVSQEVANMRAAVNKNI-ETTF-
A0A0F6LUQ0/28-203          --YQAKTLGQREVEIFHQNLIQSKEAALKDTVDVAFDAISHIYN---DSTIEERVAKARVKAILNRLTYGS--DGYFFAYDKHGTNLVHPVLPELVGENLLHL-EDENGDRLIEALLY-QAQS--GGGFHQYLWQKPSTGDIV-PKLSYAAWLDKWEWMIGTGLYIEDVSQEVANMRAAVNKNI-ETTF-
A6B7P1/28-203              --YQAKTLGQREVEIFHQNLIQSKEAALKDTVDVAFDAISHIYN---DSTIEERVAKARVKAILNRLTYGS--DGYFFAYDKHGTNLVHPVLPELVGENLLHL-EDENGDRLIEALLY-QAQS--GGGFHQYLWQKPSTGDIV-PKLSYAAWLDKWEWMIGTGLYIEDVSQEVANMRAAVNKNI-ETTF-
A0A0M0HPG7/29-203          ---QAQTLGENEVELFREGLIKSKETALKDRVDLVIDAISHIYN---DPSIPEEIAKQRVKDMIDELRYGK--DGYFFVYDSSGTNLVHPIIPELIGRNLIDL-QDENGDYLIEALLH-QAQS--GGGFHQYLWQKPSTGDSV-PKLSYAAWLDKWQWMIGTGLYVEDISTEVSRLQEEINTNI-ETTF-
U2ZMT9/28-203              --YQAKMLGEREVEIFRENLIKSRERALKDSVDLAFDAISHIYN---DPNLPKSDAQSQVKSLLTKLRYGS--DGYFFAYDKTGTNLVHPILPELVGKNLIDL-QDNNGDFLIEALLF-QAQA--GGGFHQYLWQKPSSGDIV-PKLSYAAWLEKWEWMIGTGLYIEDVSHEVENMQAAINRNI-ETTF-
A0A0L7ZFQ6/33-185          -----------------SNL--DNKARVTELFKSAYSILTEVEKMEQEGKLQEQEAKDLATRLLRNNIYKD--NEYVYVADENMTFIATPLDPQLHGTSFNDF-KDSDGKSVGALIQK-VIGNQ-SGKIVEYTWTQTQADGSIEEKLSIAEKTPHWGWVVGTGIGFNEANARFWSTA-------------
A0A1M3LZF2/34-188          ---------------LRSEMMEARRLKTQHIVETASALVRHYVELSNAGSMMEDDAKQAAKDALQSLRYGD--NEYFWVNDLNSVVIMHPIKPELNGKNLSNL-KDGNGKALFVEFAR-TVREH-KAGFVDYLWPKPGHEDPV-KKISYVQGVEAWGWVVGSGIYVDDVDAAFKAE--------------
A0A1G3DII8/34-190          --------------QIEADLYAAKSEKTQHVVQSAAGILQHYHALEAAGGITREAAQKQAAEIIRNLRYDG--QEYFWINDQTPVMVMHPTNPKLEGQNLSGF-KDPDGKALFNEMVA-ISKSQ-GAGQVNYRWPKPGASDPV-PKVSYVQLFQPWGWIIGSGVYVDDVQAEFHTQA-------------
U4K9F3/38-193              ----------------YGDLIEAKQVKTRHLVESAHSLINHFYQLETDGALSRSEAQEQAKAALNKLRYEE--SDYFWINDTRPYMVNHPIKPQLNGKDLSGV-KDPTGKVLFVEFVNEVKRNN-GGGFVNYMWPKPGSDVDI-EKLSYVKLHQPWGWIVGSGVYIDDIDALFWERA-------------
A0A0F3GXW7/40-191          -----------------KNMIDEKLASLRSLTDVTYALITEYDVRANKGEFTQEEAQNRVKAHIRNIRYME--KEYFWINDMQPKMIMHPIKPELDGKDLSEN-KDPNGKRLFIEFVN-VTKKD-GAGYVNYMWSKPGSSKPV-PKLSYVRLFKPWGWIIGTGVYIDDIDTQMTR---------------
A0A0D0L284/36-191          ----------------SIGLYAGKSEKTQHVVQSAVGLLKYYQGLEASGSLSREQAQKQAMEVIRGLRYGG--QEYFWINDQTPTMIMHPTNPKLEGQNLSGL-KDPDGKALFNDMVA-ITRAQ-GAGAVNYRWPKPGSSEPV-PKISYVELFQPWGWIIGSGVYVDDVQAEFKSQAL------------
A0A1G1GV27/39-194          ---------------LKNTLNSEKQLKTRHLVEVAHTVVNHYHQAAKTGALPEQEAKAQALAAVKTLRYEG--DDYFWVNDMKPRMVMHPYKPELNGQDLTEY-KDPTGKRLFVEFVE-VVKKQ-GDGFVDYLWPKPGIDKPV-PKISYVKGFEPWGWVIGSGIYIDDVNAAFANRV-------------
A0L9S8/42-197              ---------------LHSNLMQDRKNKTQHLVQVVVSTLAAYQAQVVAGTLSLRDAQQQAADMVAHMRYGQ--ENYFWINDLNIKMVVHPLRPELNGQDLSTI-KDANGVFLFTRFVD-VVQRQ-GSGFVEYLWPKPGSIEAV-PKISYVEKFAPWGWMVGSGIYVDDVEHIFQDAA-------------
A0A0H3Q1B6/38-183          ------------------NLVAEREARLKAVIQSTLSQVAYLNQ-----TLPKEQAQEQAKALINALRFDG--NNYMFVIDESRYTVVHPIRQDLVGQQMGNPGKDTEGQFWF-TMID-LARNG-QQGSLIYPW-KNQQGNPA-DKLSFVNGFAPWGWILGSGMLLDDIEHAVYQQ--------------
C3LLU4/38-183              ------------------NLVAEREARLKAVIQSTLSQVAYLNQ-----TLPKEQAQEQAKALINALRFDG--NNYMFVIDESRYTVVHPIRQDLVGQQMGNPGKDTEGQFWF-TMID-LARNG-QQGSLIYPW-KNQQGNPA-DKLSFVNGFAPWGWILGSGMLLDDIEHAVYQQ--------------
A0A0H3AME6/38-183          ------------------NLVAEREARLKAVIQSTLSQVAYLNQ-----TLPKEQAQEQAKALINALRFDG--NNYMFVIDESRYTVVHPIRQDLVGQQMGNPGKDTEGQFWF-TMID-LARNG-QQGSLIYPW-KNQQGNPA-DKLSFVNGFAPWGWILGSGMLLDDIEHAVYQQ--------------
D7H887/38-183              ------------------NLVAEREARLKAVIQSTLSQVAYLNQ-----TLPKEQAQEQAKALINALRFDG--NNYMFVIDESRYTVVHPIRQDLVGQQMGNPGKDTEGQFWF-TMID-LARNG-QQGSLIYPW-KNQQGNPA-DKLSFVNGFAPWGWILGSGMLLDDIEHAVYQQ--------------
A0A085R6S2/38-183          ------------------NLVAEREARLKAVIQSTLSQVAYLNQ-----TLPKEQAQEQAKALINALRFDG--NNYMFVIDESRYTVVHPIRQDLVGQQMGNPGKDTEGQFWF-TMID-LARNG-QQGSLIYPW-KNQQGNPA-DKLSFVNGFAPWGWILGSGMLLDDIEHAVYQQ--------------
A0A0X1KW41/38-183          ------------------NLVAEREARLKAVIQSTLSQVAYLNQ-----TLPKEQAQEQAKALINALRFDG--NNYMFVIDESRYTVVHPIRQDLVGQQMGNPGKDTEGQFWF-TMID-LARNG-QQGSLIYPW-KNQQGNPA-DKLSFVNGFAPWGWILGSGMLLDDIEHAVYQQ--------------
A0A0K9UX70/38-183          ------------------NLVAEREARLKAVIQSTLSQVAYLNQ-----TLPKEQAQEQAKALINALRFDG--NNYMFVIDESRYTVVHPIRQDLVGQQMGNPGKDTEGQFWF-TMID-LARNG-QQGSLIYPW-KNQQGNPA-DKLSFVNGFAPWGWILGSGMLLDDIEHAVYQQ--------------
B7VKR9/34-186              ------------------NI--DNKARVTELFKSAYSILTEVEKMAIDGTLEEQQAKQLATRLLRNNIYKD--NEYVYVADEDMTFVATPLDPQLHGTSFNDF-KDGDGNSVGQLIQR-ALGNR-TGQIVEYTWTQKLPDGSIEEKLSIAEKTPHWGWVVGTGIGFNEVNARFWSTAQ------------
Q7MGT7/40-195              ---------------YQSDLMEAKQVKTRHLVETAVSLQQHYYQQEQAGRLSREEAQTQAKAAISQLRYEK--EDYFWINDDQPNMIMHPMKPQLNGKSLSAV-KDPTGKALFVEMVS-VAKTS-GAGFVHYMWPKPGSDVDV-EKVSYVQMFQPWGWITGSGVYIDDVEALVWQRI-------------
G0GC23/34-187              ---------------VRKDLYAEKYLKTRHVVEVAYSVFEFYAQKVEEGSLSLEEAQTLAKEEIKTFRYEE--EEYFWINDMRPYMVMHPYKPELDGTDLSDY-EDPNGKKLFVEMVK-VCKEA-GAGFVDYMWPKPGFDKPV-PKISYVKLFKPWNWIIGSGIYLDDVEAETGA---------------
N9V8I5/33-189              ---------------DYRSLMAEKGKQTRHQVETAWSLVASYAKRVEAGELDEAQAKQAALQTLKALRYGH--DDYFWINDSRPFMVMHPMKPALDGQDLSTI-KDPSGKRLFVEFVT-ATQTQREGGHVAYQWPKPGADEPV-AKISFVKRFEPWDWIIGTGIYVDDVQQQYWQVL-------------
A0A0D7PJD3/32-187          ---------------MRAQMMTDRQAKTQQMVDVGYGILTHYQKLETDGKLSRDDAQKAAIEEIKSLRYDK--VEYFWLNDMSPNMIMHPIKPELDGKALGEM-KDPSGNRLFVGVVD-IVKAQ-GAGFYSYLWPKPDFEQPV-SKISYVKGFAPWGWILGTGIYLDDVDAVFRQTA-------------
A0A0H3AMB0/29-203          ---QAKTLGQREIEIFRAKLMEERETSLKDSVEVAFDAVRLIAS---NPNLSEAEAKQQVKAVLTNIRYGS--DGYFFAYDAQGTNLVHPIQPELVGQNLWQL-QDERGDFLIQALLF-QAQS--GGGYHQYLWRKPSSGETV-PKLSYSAWLDDWEWMIGTGLYIEDLSHEVEKMQAAVNANI-DTTF-
A0A0S3EIH1/28-203          --YQAKTLGQREVELFHQNLIQSKEAALKDTVDVAFDAIIHIYN---DTTIEEDVAKARVKAILNHLTYGS--DGYFFAYDKHGTNLVHPAQPDLVGENLLGL-QDENGDRLIEALLY-QAQT--GGGFHQYLWQKPSTGEVV-PKLSYAGWLDKWEWMVGTGLYIEDVSQEVASMRAAVNKNI-ETTF-
H2IGI1/28-203              --YQAKTLGQREVELFHQNLIQSKEAALKDTVDVAFDAIIHIYN---DTTIEEDVAKARVKAILNHLTYGS--DGYFFAYDKHGTNLVHPAQPDLVGENLLGL-QDENGDRLIEALLY-QAQT--GGGFHQYLWQKPSTGEVV-PKLSYAGWLDKWEWMVGTGLYIEDVSQEVASMRAAVNKNI-ETTF-
A3D0Y2/29-202              SYYVEQDALAAEVVTFKTKLVGERKQQIKEATEIAAGIINYQLSLKEQGNVN---------QALRDIRFGS--AGYFFIYDSQGKNIFHALIPSLEGQNKMDM-TDPRGTKIIVGLLD-AAKR--GDGNFSYYYQKPNTNEQI-EKISYAMMIPGTDWMLGTGAYIDDIDAVVEEYRATVTEQMADKSFA
F9SPT9/33-186              -----------------SNL--DNKARVTELFNSAYSILTEVEKMSVEGSLEEGEAKALATRLLRNNIYKD--NEYVYVADENMTFIATPLDPQLHGTSFNDF-KDGDGNSVGQLILN-VLGQR-TGQIVEYTWTQEQADGSIEEKLSIAERTPHWGWVVGTGIGFNEVNARFWSTAQ------------
U1ZZF0/35-191              ---------------INLDLYAGKAEKTEHVVQSAAGILKHYHGLESAGSLSREDAQKQAMELIRGLRYAG--QEYFWINDQTPVMIMHPTNPKLEGQNLSGF-KDPDGKALFNEMVA-VTRSQ-GAGQVDYRWPKPGASEPV-PKISYVELFQPWGWIIGSGVYVDDVQAVFKEQAL------------
A0A0R3DWI0/32-187          ---------------LRSQMIADRQAKTQHMVDVGYGILAHYQKLESDGKLTREQAQAGAMAEIKSLRYDK--VEYFWINDMAPKMIMHPIKPELDGKDLAGM-KDPSGNALFVGFVD-VVKKQ-GAGFYSYLWPKPGFEQPV-AKISYVKGFTPWGWIIGTGIYLDDVDAVFRQDA-------------
G8QG97/32-186              ---------------LKDNLLEDRKLKTKNVVETAHGILAYYYREQQAGRLSEEDARQTAAAAIKGLRYEG--EEYFFLMDFNANIVMHPIKPEMDGKNFAET-KDPKGNRLFSEMSR-IGRDV-GQGYYAYFWPKPGKSEPV-EKISYVKAFKEWGWLVGSGIYIDDVDAVFFKA--------------
A0A0C3I7E0/28-203          --YQAKTLGQKEVDIFQQNLIHSKEAALKDTVDVAFDSISYIYN---DPTLEESVAKARVKDILNRLSYGT--DGYFFAYDKQGTNLVHPVQPELVGQNLIGL-QDENGDWLIEALLY-QAQT--GGGFHQYLWKKPSTGEVV-PKLSYAAWLEKWEWMVGTGLYIEDVSQEVANMRAAVNQNI-ETTF-
E0RU33/34-187              ---------------VRKDLYAEKYLKTRHVVEVAYGVLVFYAQKAQEGVFSTQEAQERAKELVRQLRYEQ--EEYFWINDTRPYMVMHPYKPELEGTDLSDY-EDPNGKKLFMEMVK-VCNEK-GAGFVDYMWPKPGFDNPV-PKISYVKLFEPWDWIIGSGIYLDDVEAETGA---------------
A6D4J3/37-192              ---------------YQQSLIAAKKTKTRHLVESAYSLVDHYHQQQLSGQLSQQQAQAAAAKAIQSLRYEG--NDYFWINDLTPSMVMHPIKPQLNGQNLSQI-ADPSGKKLFVEMVQ-VAKQQ-QAGFVPYLWPKPGLETPV-EKVSYIKAFKPWGWIIGTGVYVDDVQAQVWQAI-------------
A0A0X8LNV7/32-185          ----------------ASNM--DNKARVTEHFKSAYSILTEVEKMAQEGKLSDSDAKQLATRLMRNNIYKD--NEYVYVADEKMNFVATPLDPQLHGTSFNDF-KDGQGNSVGQLIQN-VLRNK-RDQIVEYTWTQKQADGSIEEKLSIAQKTPYWGWVVGTGIGFNEANARFWSTA-------------
A0A1A7V2H5/37-192          ---------------YQQSLIAAKKTKTRHLVESAYTLVDHYHQQQLSGKLSQQQAQAAAAKAIQSLRYEG--NDYFWINDLTPTMVMHPIKPQLNGQNLSQI-ADPSGKKLFVEMVQ-VAKQQ-QAGFVPYLWPKPGSETPV-EKVSYIKTFKPWGWIIGTGVYVDDVQAQVWQAI-------------
A0A0L7YJE3/29-203          ---QAKNLGQSEVDIFRASLIQARETALQDSVDLAMDAIRHVYT---DDSLAIEDAQQQVKAILTQLRYGA--DGYFFAYDSEGTNLVHPILPELVGQNLLHI-QDEEGDFLIEALLF-QAES--GGGFHQYFWQKPSTGETV-PKLSYAAWLDKWGWMIGTGLYIEDISSEVASMQTAINNNI-ETTF-
A0A0X8GM84/35-191          ---------------FKDEMLSGRKDKVRNLAESAQTVVAHFEQLSRDGKMDQPSAQVAALQALRAIRYDK--KEYFWVNDESPKMLMHPMKPELEGKDLSAL-KDPNGKALFLEMVK-VVKSE-GAGFVSYQWSKPGSTEPV-DKISYVQGFSAWGWVIGTGVYIDDVNEKFRRVLY------------
I6YSI3/38-192              ---------------ISDTLYTNKKENVKHTVEVAYNILQKEYQLYQRGILSEEEAKQNAIELVQDLRYNE--NEYFWINDFSPRMVMHPIKKEMNGQDLSSY-KDPDGVQLFVKMAE-VAKRE-GEGYVNYRWSKPGFSEPV-PKISFVKGMKEWGWIVGSGIYVDDVEAEIADI--------------
B8K835/28-206              --YQAQTLGKKEVELFRAGLIKSKETALKDSVDLAFDAISHIYN---DPNLPEEVAKQEVKQIIDKLRYGTEGDGYFFAYDETGVNLVHPIIPELVGQNLIDI-QDENGDFLIAALLH-QARN--GGGYHEYLWQKPSSGESV-PKLSYAAWLDKWNWMIGTGLYIEDISKEVARLQSEINKNI-ETTFF
A5G3I6/39-194              ----------------GQKLMSEKMAATKSVVEVAYTMIEGFQAKAKSGELPVAEAQKRALEGVRNLRYQG--NEYFWVNDLEPKMLMHPIKPELDGKNVSDL-KDPNGKQIFIEFAK-VAKEK-EAGTVEYMWSKPGAAKPV-DKISYVKLVKGWDWVVGSGIYVDDVQAEMSKLRW------------
F4DVJ2/34-191              --------------QIHSDLYLGKAEKTEHVVQSAAGILKHFHSLESTGSLSREEAQKQAMEVIRGLRYDG--QEYFWINDQTPVMLMHPINAKLEGQNLSGF-KDPDGKELFNEMVA-VTRSK-GAGQVDYRWPKPGASDPV-PKISYVELFQPWGWIIGSGVYVDDVQEEFRTQAL------------
A0A0A3ETE2/28-203          --YQAKTLGQREVEIFHKSLIKSKEVALKDTVDLAFDAISHIYN---DPSIEEHVAKARVKAILNRLRYGS--DGYFFAYDKHGTNLVHPILPDLVGQNLLHI-QDENGDHLIEALLY-QAQL--GGGFHQYLWQKPSTGEVV-PKLSYAAWLDKWEWMIGTGLYIEDVSHEVANMRAAVNQNI-ETTF-
A6AVW3/28-203              --YQAKTLGQREVEIFHKSLIKSKEVALKDTVDLAFDAISHIYN---DPSIEEHVAKARVKAILNRLRYGS--DGYFFAYDKHGTNLVHPILPDLVGQNLLHI-QDENGDHLIEALLY-QAQL--GGGFHQYLWQKPSTGEVV-PKLSYAAWLDKWEWMIGTGLYIEDVSHEVANMRAAVNQNI-ETTF-
F0LNU9/37-192              ---------------YQDDLMLAKQNQTRHLVESTTSLLNYFYQQQTSGALTEQQAQQQAKQAIAAARYGD--EDYFWINDLTPTMVMHPFKPQLDGKALSEV-KDPNGKALFVEMAH-RARDQ-GEGVVYYLWPKPGAQEAV-EKVSYVKLFKPWGWIVGSGVYIDDVQALVATRL-------------
Q7MJQ4/28-203              --YQAKTLGHKEVAIFKQSLIKSRESALKDSVDQAFDAISYIYN---NPDLSQEEAQRRVKALLTQIRYGA--DGYFFAYDKRGTNLVHPILPELVGQNLLHI-QDQNGDHLIEALLY-QAQT--GGGFHQYLWQKPSTGETV-PKLSYAAWLDKWDWMIGTGLYIEDISEEVANMQAAINKNI-ETTF-
A0A087IHD4/28-203          --YQAKTLGHKEVAIFKQSLIKSRESALKDSVDQAFDAISYIYN---NPDLSQEEAQRRVKALLTQIRYGA--DGYFFAYDKRGTNLVHPILPELVGQNLLHI-QDQNGDHLIEALLY-QAQT--GGGFHQYLWQKPSTGETV-PKLSYAAWLDKWDWMIGTGLYIEDISEEVANMQAAINKNI-ETTF-
A0A1F8VZ64/38-188          ------------------LLMKERQSAVRQTVEVAHGLLAHFHDQATKGKLSEDEAKQRALEAIKGLRYSG--AEYFWINDMQPKMVMHPIRPELEGKDLREN-KDPTGKHLFMEFVK-TVQAQ-GAGDVAYMWPKPGSDKPV-QKVSYVKGFAPWGWIIGSGVYVDTVDAAIIE---------------
A0A0K9I935/35-190          ---------------FSERLFEEKELKTRHLVETSASLIQHYVELAAAGKLSEAEARKQALQAVKALRYEK--NDYFWINDFGPKMIMHPINPALDGKDLSDF-KDPDGKHLFVEMAK-VARAE-GAGFVDYLWPKPGASEPQ-PKISFVKGIPAWNWIVGSGIYVDDVAAEISRLA-------------
G8QLI3/35-190              ---------------LRDNLMEDRRLKTRNVVESVLGVVDYFHKQQQAGKLSEEEAKRQAMDSLRNVRYDG--KEYFWVQDRNLVMLMHPIKPDMEGKSQAAL-KDPNGKLFFQEMEN-VVKAS-GKGFVDYLWPKPGFDQPA-PKISYVAEFPAWGWVVGSGIYVDDVNAVFRQQA-------------
A0A0F2GTI5/33-186          -----------------SNL--DNKARVTELFRSAYSILTEIEKMSVEGKIPEAEAKALATRLLRNNIYKD--NEYVYVADDKMIFIATPLDPQLHGTSFHDF-KDGKGNSVGQLILD-VLGRR-TGQLVEYTWTQKQADGSIEEKLSIAERTPHWKWVVGTGIGFNEVNARFWSTAQ------------
A0A0T6VQP7/34-190          --------------QVRVDLYKGKQVMTRHVVEAATGVLTYYQQLEASGAMSTAEAKKAAMKQVAALRYGQ--DDYFWINDMGPVMLMHPMRPELDGTDLSTN-KDPNGKELFNEMVK-VARRD-GAGLVDYEWAKPGEKNPV-PKISYVQLFEPWGWIIGSGIYVDDVEAEFQQYL-------------
A0A0X1L4X4/47-202          ---------------YRHDLMLEKQVQTQHLVESAYTLLEHYAQQATQGTLTTEQAQNTAKQAIAQLRYGA--NDYFWINDAQPAMVMHPMKPDLNGKDLRSF-KDPNGKALFVEMVN-VTQRN-QQGVVEYQWPKPGAEQPV-DKVSYVKLFKPWGWIIGTGIYVDDVNALVMQRL-------------
C3LQN8/47-202              ---------------YRHDLMLEKQVQTQHLVESAYTLLEHYAQQATQGTLTTEQAQNTAKQAIAQLRYGA--NDYFWINDAQPAMVMHPMKPDLNGKDLRSF-KDPNGKALFVEMVN-VTQRN-QQGVVEYQWPKPGAEQPV-DKVSYVKLFKPWGWIIGTGIYVDDVNALVMQRL-------------
A0A0H3Q469/47-202          ---------------YRHDLMLEKQVQTQHLVESAYTLLEHYAQQATQGTLTTEQAQNTAKQAIAQLRYGA--NDYFWINDAQPAMVMHPMKPDLNGKDLRSF-KDPNGKALFVEMVN-VTQRN-QQGVVEYQWPKPGAEQPV-DKVSYVKLFKPWGWIIGTGIYVDDVNALVMQRL-------------
A4Y9Y2/29-200              SYYVEKEALDDEVVTFKTKLVGERKQQIKEATEIAAGIVQYQISLKDQGNVN---------QALRDIRFGS--AGYFFIYDSKGKNIFHALLPALEGQDKIDM-TDPRGTKIIVGLLN-AAQR--GDGHFSYYYQKPNTNEQI-EKLSYVTMVPGTDWMLGTGAYIDDIEAVVEDYRITVTEQMVDKS--
E6XLJ7/29-200              SYYVEKEALDDEVVTFKTKLVGERKQQIKEATEIAAGIVQYQISLKDQGNVN---------QALRDIRFGS--AGYFFIYDSKGKNIFHALLPALEGQDKIDM-TDPRGTKIIVGLLN-AAQR--GDGHFSYYYQKPNTNEQI-EKLSYVTMVPGTDWMLGTGAYIDDIEAVVEDYRITVTEQMVDKS--
A0A150WLE4/38-192          ---------------IRDNMYQDRRVSLRNTVDIATKILEHYQELEAKKELTTDQAQALAKESISKLRYAG--NEYFWINDLHPTMVMHPMKPELNGQDLTEK-KDPNGFQLFVEFAK-LAKTQ-GEGFVPYLWPKPNSPKPE-PKLSFVRHFAPWGWVIGSGVYVDDVEAQVAKF--------------
U0ES03/28-203              --YQTKTLGDKEVKIFHSSLIKSKESALKDLVDLAFDAIEHIYN---DPNIEEHQAKEQVKAIISRLQYGT--DGYFFVYDKNGTNLVHPIMPELVGQNLLHI-QDENGNHLIESLLA-QAKS--GGGFHQYLWQKPSTGESV-PKLSYAAWLSKWNWMIGTGLYIEDVTEEVANLQLAVNDNI-ETTF-
A0A086WM15/28-203          --YQTKTLGDKEVKIFHSSLIKSKESALKDLVDLAFDAIEHIYN---DPNIEEHQAKEQVKAIISRLQYGT--DGYFFVYDKNGTNLVHPIMPELVGQNLLHI-QDENGNHLIESLLA-QAKS--GGGFHQYLWQKPSTGESV-PKLSYAAWLSKWNWMIGTGLYIEDVTEEVANLQLAVNDNI-ETTF-
A0A0A0SUH1/28-203          --YQTKTLGDKEVKIFHSSLIKSKESALKDLVDLAFDAIEHIYN---DPNIEEHQAKEQVKAIISRLQYGT--DGYFFVYDKNGTNLVHPIMPELVGQNLLHI-QDENGNHLIESLLA-QAKS--GGGFHQYLWQKPSTGESV-PKLSYAAWLSKWNWMIGTGLYIEDVTEEVANLQLAVNDNI-ETTF-
U4E1H4/38-193              ----------------YGDLIEAKQVKTRHLVESAHSLISHFYQLETDGALSRSEAQEQAKAALNKLRYEE--NDYFWVNDTRPYMVNHPIKPQLNGKDLSGV-KDPTGKVLFVEFVNEVKRNN-GGGFVNYMWPKPGSDVDI-EKLSYVKLHQPWGWIVGSGVYIDDIDALFWERA-------------
A0A090TEJ2/37-183          ---------------YQQSLMTNKQNKTQHLVQTAYTLVEHYHQQYIKGEISLEQAKTAAASAVQSLRYDA--NDYFWINDLTPTMVMHPMKPALNGQDLSQI-ADPNGKKLFVDMVT-LAKQQ-QSGLVHYMWPKPGSESPV-EKVSYIKLFKPWGWVIGSGVYVMM----------------------
A0A066UT51/27-203          V-FQAKTLGEKEVELFHSSLIKSKESALKDLVDLAFDAISHIYN---DPDMDEAEAQHAVKAIISKLRYGT--DGYFFVYDEFGTNLVHPVMPELQGENLLHI-QDENGNYLIESLLA-QARS--GGGFHHYLWQKPSTDEIV-PKLSYASWLSKWNWMIGTGLYIEDVSQEVTNMQSAVNNNI-ETTF-
E6VT16/39-189              ------------------SLMEEKSIATRSSVETAYSVMQYYGDQAASGSLSQEEAQTRAKAAIRAMRYMG--DNYYWINDLGPTMIMHPLRADMDGQDLTNS-KDPDGKALFVEMAE-VCKKA-GEGFVPYMWPKPGSEKPV-PKISYVKLYKPWGWMVGSGIYVDDVQAQISA---------------
D7HGI5/47-202              ---------------YRHDLMQEKQVQTQHLVESAYTLLEHYAQQATQGTLTTEQAQNTAKQAIAQLRYGA--NDYFWINDAQPAMVMHPMKPDLNGQDLHSF-KDPNGKALFVEMVK-VAQQS-QQGVVEYQWPKPGAEQPV-DKVSYVKLFKPWGWIIGTGIYVDDVNALVMQRL-------------
A0A1L9L431/33-186          -----------------SNL--DNKARVTELFRSAYSILTEVEKIAIEGKMSEPEAKALATRLLRNNIYKD--NEYVYVADEKMIFIATPLDPQLHGTSFHDF-RDGNGNSVGQLILD-VLGRK-TGQLVEYTWTQKLADGSIEEKLSIAERTPHWGWVVGTGIGFNEVNARFWSTAQ------------
A0A0A0SDR8/29-205          ---QAKTLGEKEIQIFEDGLIRSKETALKDHVDLAFDAISHIYN---DESLDEDTAKQQVKAVLSKLRYGKDKDGYFFAYDEQGTNLVHPIMPDLIGRNLIDL-QDENGDLLIEALLH-QAQS--GGGFHRYLWQKPSTGENV-TKLSYAAWLDKWNWMIGTGLYIEDITYEVANLKSEVNRNI-ETTF-
A0A0H6NIB3/3-118           ----------------------------------------LIAS---NPNLSEAEAKQQVKAVLTNIRYGS--DGYFFAYDAQGTNLVHPIQPELVGQNLWQL-QDERGDFLIQALLF-QAQS--GGGYHQYLWRKPSSGETV-PKLSYSAWLDDWEWMIGTGLLI------------------------
A0A1J5L606/28-203          --YQSQKLGEQEVEIFYNRLISAKESALKDSVDLAFDAIFYVYN---DPDMLEAEAKAEVKAILTRLRYGA--DGYFFAYDENGVNLVHPVQPSLIGQNLLHI-QDSDGDYLIESLLY-QAKS--GGGFHQYLWEKPSTGETV-PKLSYAQWLDKWDWMIGTGLYIEDITNEVAIMQSAVKSNI-ETTF-
A0A0D8MZU2/28-203          --YQAKTLGQKEVTVFRESLINAKEAALKDSVDLALDAIAHIYH---DPNLDTSDAQQRVKKILTNLRYGT--DGYFFVYDKNGVNLVHPIMPELIGQNLINI-QDQQGDYLIASLLS-QAQS--GGGYHQYLWQKPSTGATV-NKLSYSEWLDKWEWMIGTGLYIEDVSEDVDMMQQAINHNI-DTIF-
E8MDB7/30-203              ----AQTLGEKEAELFRAALIKSKETALKDSVDLAFDAIAHVYN---DPSLPEAVAKQEVKSIIHKLRYGT--DGYFFAYDENGVNLVHPMIPDLVGQNLIDI-QDENGDFLIEALLH-QARS--GGGYHQYLWQKPSSGESV-PKLSYAAWLEKWNWMIGTGLYIEDITDEVARLESEISTNI-ETTF-
A0A0F2IJC8/37-192          ---------------YQGDLLEAKQVKTRHLVESATSVLAHFQQLESAGVLSRSEAQTQAKQAISALRYEK--SDYFWINNEKPAMVMHPIKPQLDGQDLSTF-KDPTGKALFVEMVS-VVKQS-GAGFVYYMWPKPGSEVDV-EKLSYVSEFKPWGWIIGTGVYIDDVQALIWQRA-------------
A0A0C2SBX9/34-190          --------------QVREDLYKGKQEMTRNVVETAAGIFDHYHRLETGGQMTTEQAQRAALEQVRTLRYRQ--SDYFWINDLGPTMIMHPMQPKLDGQNLSGI-KDPNGKALFNEMVA-VAKRD-GAGTVDYMWAKPGEEQPV-PKISYVQLFKPWGWIIGSGIYVDDVEAEFRNYL-------------
A0A1N6M4Q2/36-190          ---------------YKHDLMEDKQIKTQHLIESTYSLLSYYHRLETEGTLTRQVAQQQAQQAIKHLRYGK--NDYFWINDLTPTMIMHPFKPQLDGKNLSKA-KDPTGKALFLEMVQ-VAKNQ-GGGVVHYMWPKPGSETDV-AKVSYVKLFKPWGWIIGSGIYVDDVEQLVAER--------------
A0A0J1K9Q0/38-192          ---------------YQSDFMSQKRLQTRHLVETAYSVVEHFYQQEQQGALSRPAAQQQAKAAIAALRYEK--NDYFWLNDMTPAMIMHPFKPSLDGKSLTDF-HDPNGTPLFVNMVN-VVRQQ-GQGFVDYYWEKPGYDVPV-AKISYVKGFTPWGWIVGSGIYVDDVQALFFAK--------------
A0A0C3I576/33-185          -----------------SNI--DNKSRVTELFNSAYSILTEVEKMAADGEMPEDEAKALATRLLRNNIYKD--NEYVYVADENMMFIAAPLDPQLHGTSFHDF-KDSNGNSVGQLILD-ILGGK-TGQIVEYTWSQTQADGSAEEKLSIASKTPHWNWVVGTGIGFNEVNARFWATA-------------
A0A0K9I702/35-190          ---------------IRDRLFQEKSLKTQHLVEAAVSVAMHFQSLQQAGKLQEKDAQEAAKDALRSMRYGG--NEYYWITDEHPMIIMHPFSPQLVGQDASGM-QDKAGKYMFKEMVA-AAQSE-AGGFVDYLWPKPGSEKPV-PKISFVKKVPGWNWVVGSGIYVDDVDAEVRNLM-------------
E8LPP5/19-170              ------------------NF--DNKERVTELFKSAYSILSEVEKMAADGTLQEDQAKALATRLLRNNIYKD--NEYVYVADENMTFIATPLDPQLHGTSFHDF-KDGNGNSVGQLIQD-VLGRK-TGQIVEYTWTQKQADGSIESKLSIAQKSPKWGWVVGTGIGFNEVNARFWATA-------------
A0A1G0NIL3/39-189          -----------------SSLMEDRATKTRHLVESAYGVLHHFRSLQQAGTLTEAQAQRAAIEAIRAMRYDG--NEYFWINDLQPSMVMHPVMPELEGRDLSGY-TDPTGKRLFVEFAE-TVRKR-GEGAVDYLWPKPGFTRPV-PKISYVKGFLPWGWVVGSGVYVDDVNRIFW----------------
A0A090RNK9/31-186          ---------------VASSD--DNKARVTELFNSAYSILTEVEKMAQEGKMTESEAKALATRLLRNNLYKD--NEYVYVVDSNMTFVAAPLDPQLHGTSFNDF-KDADGNSIGQLIQR-VLGSR-SNQLVEYTWHQALPDGTIEKKLSIAKKTPHWGWVVGTGIGFNEVNARFWSNAQ------------
A0A0H6UP23/41-186          ------------------NLVAEREARLKAVIQSTLSQVAYLNQ-----TLPKEQAQEQAKALINALRFDG--NNYMFVIDESRYTVVHPIRQDLVGQQMGNPGKDTEGQFWF-TMID-LARNG-QQGSLIYPW-KNQQGNPA-DKLSFVNGFAPWGWILGSGMLLDDIEHAVYQQ--------------
D0IMV9/37-191              ---------------YQQDLMIAKQTKTQHMTESAYTLLAYYAQQEKLGTLTTEQAQQAAKQAIAALRYGD--NDYFWINDATPSMVMHPLKPELDGKNLSEF-KDPNGKALFVEMVN-VTRRN-QQGLVEYQWPKPGADRPV-DKISYVKLFQPWGWIIGTGIYVDDVNSIILNR--------------
A0A090SFF4/39-184          -----------------NSLMENKQSKTQHLVQTAYTLVEHYHQQYSSGQLTLEQAQSEASKAVQSLRYDA--NDYFWINDLKPAMVMHPMKPALNGQDLSQV-ADPNGKRLFVDMVN-LAKQQ-QSGLVNYMWPKPGSDAPV-EKVSYIKLFKPWGWVIGSGVYVDDV---------------------
A0A0B5KZJ0/31-184          ---------------VYNTIMERKKDEAKYLVETVYGILERAYEMEQKGELTREQAQNLAKSLVGKIRYDD--NNYFWINDTHPRMVFHPIKPELNGQDLSNY-KDPNGVYLFNEMVK-VAKEK-GEGFVSYSWPKAGSDKPE-PKVSYVKLFEPWGWIVGTGIYVDDVKVAVGN---------------
A0A078LTY8/34-190          --------------QVRSDLYKAKQLMTQNIVETSLGILSHYQQLEASGAMSKADAQKAAMEQVKVLRYGE--DDYFWINDMGPTMLMHPMRPELDGQDLSKT-KDPNGKELFNEMVK-VARQQ-GAGLVEYEWAKPGEKNPV-PKISYVELFKPWGWIIGSGIYVDDVEKEFQGYM-------------
A0A066RZ57/38-193          ---------------YQDSLLEQKRDKTRNLVESAHSLLTFYYQQENTGKLNREAAQQLARQAIASLRYEK--NDYFWINDSHPRMIMHPFKPELDGQDLSQF-QDPIGNKLFVNMAE-IVQRQ-GEGFVDYQWEKPGHAQPV-DKISFVKGFSPWGWIIGSGIYVDDVEAQFYAEL-------------
F5RAE6/34-187              ----------------YGNVATDREIKTRHLVESTHALIAHYQQQEAAGALTREQAQQAALAAVKSLRYDG--REYFWVNDMNAVMLMHPLKPELDGKSVADF-KDPDGKFLFREFVD-VVRTQ-KAGFVHYQWPRPGAETPQ-PKLSYVKGFEPWGWIVGSGIYIDDLHHDFMAL--------------
A0A1D2U9T3/38-188          ------------------LLLRERSAAVRQSVEVAYGIIQHLHDEASKGRLTEAQARQQAIDTLRVLRYSG--NEYFFVTDMHPTTVLHPISPKLEGQDMTGV-KDPDGKHLFVEFVN-TVKKN-GEGYVDYLWPKPGSAKPV-PKVSYVKGFAPWGWIVGSGVYVDNVQATFMQ---------------
F6CTD5/35-192              --------------ENKTTLLNEKYAQTKHVVETATGVLTHFQALEESGELSRDEAQRYAMETIKGIRYAG--TEYFWINDYNAVIVMHSVKPSLDGKDLANL-EDPNGKKLFSEFVK-VVKAQ-QAGFVDYLWPKPGSEQPV-EKISYVQGFAPWGWIVGSGIYLDDVNQQFKQEII------------
W8RBC8/35-189              ---------------VRIDLYKGKQVMTQNIVETATGILGYYQQLEASGTLNTSEAQKAAMEQIRLLRYGH--NDYFWINDMGPVMLMHPMKPELEGKNLSNV-KDPNGKELFNEMVK-VARLQ-GAGIVDYQWAKPGEEDPV-PKISYIELFKPWGWIIGSGIYVDDVEAEFLHY--------------
A0A1E5FKT7/37-192          ---------------YQHDLMQSKQTKTRHIVETGYGVLSYFHQLQIDGTLSEQQAQTQAKQAIAKLRYEA--DDYFWINDLQPSMIMHPMKPQLDGKDLSNA-ADPTGKKLFVEFTK-VAKQQ-GEGFVDYMWPKPGSSVDV-GKISYVKLFKPWGWILGSGVYIDDVNALIWQRL-------------
A0A0A5JIH1/28-206          --YQAQTLGKKEVELFRAGLIKSKETALKDSVDLAFDAISHIYN---DPNLPEEVAKQEVKQIIDKLRYGTEGDGYFFAYDETGVNLVHPIIPELVGQNLIDI-QDENGDFLIAALLH-QARN--GGGYHEYLWQKPSSGESV-PKLSYAAWLDKWNWMIGTGLYIEDISKEVARLQSEINKNI-ETTFF
U4K677/30-204              ----TKALGVKEIETLRTSLIRSRENALKDKLDLAFDAIHHVYA---NDELSEEDAKHQVKQILTRLRYGS--DGYFFAYDKNGVNLVHPILPELIGQNLINM-QDENGNFLIVSLIE-QARS--GGGFAHYLWQKPSTGEIV-PKLSYAAWLPKWEWMVGTGLYIEDIHLEVAQMEDSINQNI-EATFI
U4E042/30-204              ----TKALGVKEIETLRTSLIRSRENALKDKLDLAFDAIHHVYA---NDELSEEDAKHQVKQILTRLRYGS--DGYFFAYDKNGVNLVHPILPELIGQNLINM-QDENGNFLIVSLIE-QARS--GGGFAHYLWQKPSTGEIV-PKLSYAAWLPKWEWMVGTGLYIEDIHLEVAQMEDSINQNI-EATFI
A0A1G0MYB8/40-190          ------------------LIMNEKQATVSYMVQGAASVLASFQKQVEAGTLTKEEAQKQAAEKIAAMRYDG--SNYLWINDLGPKMVMHPIKPELNGKDLSDN-KDPNGKALFVEMAS-ICKEK-GKGFVEYVWSKPGSSKPV-PKISYVELYQPWGWVVGTGIYVDDVTAHMLQ---------------
A0A0H5ZDN2/29-170          ---QAKTLGQREIEIFRAKLMEERETSLKDSVEVAFDAVRLIAS---NPNLSEAEAKQQVKAVLTNIRYGS--DGYFFAYDAQGTNLVHPIQPELVGQNLWQL-QDERGDFLIQALLF-QAQS--GGGYHQYLWRKPSSGETV-PKLSYSAWXXX-----------------------------------
A0L0Z5/29-201              SYHVEQSALADEVTTFREKLIGERKTQIKEATQIAAGIVQYQLSLKEQGNVN---------QALRDIRFGS--SGYFFLYDSQGKNLFHAVMPNLEGQNKIDM-TDPRGTKIIVGLLN-AAKN--GDGNFSFYFQKPNTNEQI-EKIGYSMMIPGTDWMLGTGAYIDDIDAVVEDYRTTVTEQMIDKSY-
C9P5F7/37-192              ---------------YRADLMREKQTQTQYLVESAYTLMEYYAQQADQGTLSTEQAQHAAKKAIAQLRYGT--NDYFWINDTHPTMVMHPMQPQMNGQSLRNF-KDPNGKALFVEMAN-ITQQN-QQGVVEYQWPKPGSSYPV-DKISYVKQFKPWGWVIGTGIYVDDVNALIMARL-------------
Q7MHI2/37-190              -----------------SNL--DNKARVTELFRSAYSILTEVEKMAVEGKMSEPEAKALATRLLRNNIYKD--NEYVYVADEKMIFIATPLDPQLHGTSFHDF-RDGNGNSVGQLILD-VLGRK-TGQLVEYTWTQKLADGSIEEKLSIAERTPHWGWVVGTGIGFNEVNARFWSTAQ------------
A0A0M0IGX4/33-186          -----------------SNL--DNKARVTELFNSAYSILTEVEKMSVEGTLEEDEAKALATRLLRNNIYKD--NEYVYVADEKMTFIATPLDPELHGTSFNDF-KDGDGNSVGQLILN-VLGQR-TGQIVEYTWTQKQADGSIEEKLSIAERTPHWGWVVGTGIGFNEVNARFWSTAQ------------
A6D507/29-204              ---QAKALGENEINIFRESLIRSKESALKDSVEMAFDAIEQVYN---NSSLTETEAKNQVKETLNRLRYGT--DGYFFAYDKNGTNLVHPILPQLVGRNLLKL-QDQDGDYLIEALLF-QAQS--GGGYHQYLWQKPSTGETV-TKLSYAAWLDKWDWMIGTGLYIEDVAQEVAILRAAIDNNI-ETTIF
A0A084TDT6/29-204          ---QAKALGENEINIFRESLIRSKESALKDSVEMAFDAIEQVYN---NSSLTETEAKNQVKETLNRLRYGT--DGYFFAYDKNGTNLVHPILPQLVGRNLLKL-QDQDGDYLIEALLF-QAQS--GGGYHQYLWQKPSTGETV-TKLSYAAWLDKWDWMIGTGLYIEDVAQEVAILRAAIDNNI-ETTIF
A0A1K0GUX8/41-195          --------------TTRENLYAERERQTQQLVETAIGVVDGYIAREATGELTREQAQKQAAAALKVLRYDS--DNYFWVNDMAPKMVMHPVKPELDGTDLTDD-ADPNGKHLFVEMVN-VVKSQ-RAGFVEYEWAKPGSDSPQ-PKIAYVQGVPHWGWVVGSGLWVDDIDSAAWV---------------
A0A117KZH1/34-180          -----------------RSLMEDRELKARELTETAYSLINSAYEDFKAGKISEDEAKELAKKLVEGLRYGK--DGYFWINDMNLKMVMHPIKKELNGTDLSNY-KDPNGKFLFREMVE-VCRKN-GEGFVDYMWPKPGFKDPQ-PKLSFVKLFQPWGWIVGTGFYIDDVE--------------------
A0A0C5X2S8/38-191          ---------------YQTNILEQKRLKTRHLVESAHSLLGYYHSLEQQGTLTQAQAKQHAIDALATLRYEQ--KDYFWINDMVPTMVMHPFKPALNGQRLDTL-TDPNGTALFVEMAN-IVRQQ-GQGFVDYYWEKPGFSTPI-EKISFVKGFAPWGWIVGSGIYVDDVKALLLS---------------
A0A1M5GLA2/39-190          -----------------SRMMQEKRTATRHAVEVAYSILEKYHASFQSGVLSEEDAKRAALEQIAAMRYGG--GDYFWVNDLKPAMVLHPIKADLNGKDLSDF-KDPQGKHLFVEFVK-VCRES-GEGFVDYLWPKPGSDKPV-PKISYVRLFSPWGWIVGSGIYVDDIQADVNS---------------
A0A109X2Y1/37-192          ---------------YQDDLMDAKQTKTRHLVESTTSLLNYFYQQQTSGALTEQQAQQQAKQAIASARYGA--DDYFWINDLTPTMVMHPFKPQLDGKALSGI-QDPNGKALFVDMAN-LARDQ-GEGFVYYLWPKPGAEVAV-EKVSYVKLFKPWGWVVGSGVYIDDVQALVATRM-------------
A0A1E5D376/29-203          ---QAKTLGENEIKIFRESLIQSRETALKDSVDIASDAISHIYN---NSAPDDVEAKQRVRDILSRLRYGS--DGYFFAYDEFGTNLVHPIQPELVGQNLLHI-QDLNGDYLIAELLH-QAKS--GGGFHQYLWQKPSTGETV-PKLSYAAWLSKWDWMIGTGLYIEDISLEVANMQAAINKNI-ETTF-
A0A0H6BUD7/38-183          ------------------NLVAEREARLKAVIQSTLSQVAYLNQ-----TLPKEQAQEQAKALINALRFDG--NNYMFVIDESRYTVVHPIRQDLVGQQMGNPGKDTEGQFWF-TMID-LARNG-QQGSLIYPW-KNQQGNPA-DKLSFVNGFAPWGWILGSGMLLDDIEHAVYQQ--------------
H2G0P9/38-187              ------------------GLVEEKRVQAMRQVQSVVSLAGHYHSLQQRGQLSESQAREQAMTAIATLRYGD--NDYFWINDHHPRMILHPMKPELNGSDLSGF-ADPDGKRLFVEMVR-QVEQA-GKGFVHYLWPKPEHDAPV-EKVSYVELFQPWGWIIGTGIYIDDVETQLL----------------
A0A0X1L2P0/33-186          -----------------SNL--DNKARVTELFNSAYSILTEVEKLAQEGKMSEPEAKALATRLMRNNLYKD--NEYVYVADENMTFVATPLDPQLHDTSFHDF-KDGKGNSVGRLIQD-VLRHQ-SGKLVEYTWTQKQADGSIEEKLSIARKTPHWGWVVGTGIGFNEVNARFWSTAQ------------
A0A0H6CU41/33-186          -----------------SNL--DNKARVTELFNSAYSILTEVEKLAQEGKMSEPEAKALATRLMRNNLYKD--NEYVYVADENMTFVATPLDPQLHDTSFHDF-KDGKGNSVGRLIQD-VLRHQ-SGKLVEYTWTQKQADGSIEEKLSIARKTPHWGWVVGTGIGFNEVNARFWSTAQ------------
C3LRW6/33-186              -----------------SNL--DNKARVTELFNSAYSILTEVEKLAQEGKMSEPEAKALATRLMRNNLYKD--NEYVYVADENMTFVATPLDPQLHDTSFHDF-KDGKGNSVGRLIQD-VLRHQ-SGKLVEYTWTQKQADGSIEEKLSIARKTPHWGWVVGTGIGFNEVNARFWSTAQ------------
A0A0H3QEG6/33-186          -----------------SNL--DNKARVTELFNSAYSILTEVEKLAQEGKMSEPEAKALATRLMRNNLYKD--NEYVYVADENMTFVATPLDPQLHDTSFHDF-KDGKGNSVGRLIQD-VLRHQ-SGKLVEYTWTQKQADGSIEEKLSIARKTPHWGWVVGTGIGFNEVNARFWSTAQ------------
A0A0W8J9S2/36-190          ---------------YKHDLMEEKQIKTQHLIESTYSLLSYYHQLETEGTLTRQVAQQQAQQAIKHLRYGK--NDYFWINDLTPTMIMHPFKPQLDGKNLSQA-KDPTGKALFLEMVQ-VAKNQ-GGGVVHYMWPKPGSETDV-AKVSYIKLFKPWGWIIGSGIYVDDVEQLVAER--------------
A0A0M0I2C5/33-186          -----------------SNL--DNKARVTELFNSAYSILTEVEKMSLDGTLEENEAKALATRLLRNNIYKD--NEYVYVADENMTFVATPLDPQLHGTSFNDF-KDGDGNSVGQLIQK-VLGNS-TGKLIEYTWTQKQADGSIEDKLSIAQRTPVWGWVVGTGIGFNEVNARFWSTAQ------------
U3HMF1/34-190              --------------QVRTDLYKSKQVMTRNIVETANGILDYYQQREASGALTTAEAQKAAMDQIRLLRYGQ--NDYFWINDMTPVMLMHPMKPELEGKNLSAV-KDPNGKELFNEMVK-VARAQ-GAGLVDYQWAKPGAEDPV-PKISYIELFKPWGWIIGSGIYVDDVEAEFQRYV-------------
A0A172WUA8/34-190          --------------QVRTDLYRGKQVMTQNIVETARGVLTYYQQLEASGSMTTAEAQKAAMDQVRMIRYGQ--NDYFWINDMQPVMVMHPIKPELEGQDLSKV-KDPNGKALFNEMVK-VAQLK-GAGLVDYQWAKPGEKDPV-PKISYVELFKPWGWIIGSGIYVDDVEAEFQNYL-------------
A0A0A1GHU9/34-190          --------------QVRTDLYRGKQVMTQNIVETARGVLTYYQQLEASGSMTTAEAQKAAMDQVRMIRYGQ--NDYFWINDMQPVMVMHPIKPELEGQDLSKV-KDPNGKALFNEMVK-VAQLK-GAGLVDYQWAKPGEKDPV-PKISYVELFKPWGWIIGSGIYVDDVEAEFQNYL-------------
A0LDI9/37-188              -----------------ERMLEDRYSFVRMQVESAYTILAHFNALEQQGRLSTQQAQEQAKNMIKVLRYDG--SNYFWINDSHPTMIMHPLKPALDGKDLTEV-TDQAGKRLFVAMVT-ALQQA-DDALVEYHWTKPNATEPS-PKVSSVKKFQPWGWIIGSGIYIDDVDEIFKG---------------
A0A0D7PYK4/32-187          ---------------LRGQMVADRQAKIQQIVDVVYGILTHEQKLESEGKLTREQAQAAAIAEIKSLRYDK--AEYFWLNDMAAKMIMHPIKPELDGKDVSDM-KDPTGNRLFSGFVD-VVKKQ-GAGFYSYLWPKPGFEQPV-AKISYVKGFTPWGWIVGTGIYLDDVDAVFRQDA-------------
A0A0A5HVR3/34-182          ------------------NL--DNKARVTELFKSAYSILTEVEKMAVEGTLEEDEAKALATRLLRNNIYKD--NEYVYVADDKMTFVATPLDPQLHGTSFHDF-KDGNGNSVGQLILD-VLGRS-SGKIVEYTWTQKLADGSIEEKLSIAERTPHWGWVVGTGIGFNEVNARFW----------------
A0A0A6QQI6/34-182          ------------------NL--DNKARVTELFKSAYSILTEVEKMAVEGTLEEDEAKALATRLLRNNIYKD--NEYVYVADDKMTFVATPLDPQLHGTSFHDF-KDGNGNSVGQLILD-VLGRS-SGKIVEYTWTQKLADGSIEEKLSIAERTPHWGWVVGTGIGFNEVNARFW----------------
A0A1C3J661/32-186          ----------------ASNM--DNKARVTELFKSAYSILTEVEKMAIDGTLEEQQAKQLATRLLRNNIYKD--NEYVYVADENMTFVATPLDPQLHGTSFNDF-KDGDGNSVGQLIQR-VLGNR-TGQIIEYTWTQKLPDGTIEEKLSIAEKTPHWGWVVGTGIGFNEVNARFWSTAQ------------
M1WYH8/37-192              ----------------GDSLMDEKRTATQSVVEVAYGLIDYWAGQASSGAVSEEQAKAEAMTQLRDVRYKG--QEYFWINDMKQVMIMHGVKQALDGKDLTNL-KDQDGVFLFQEMTK-VARSA-GEGFVSYRWPKPGSEKAV-PKVSFVKLFKPWGWVIGSGIYVDDVDAQVSRLSW------------
S2KYP2/31-187              --------------QEQEHLVNERQAALASLVESAMGVLANYHQQELDGTLSREEAQKRALDAIKGMRYGG--GNYFWVNDMTPAMIMHTVKPELNGQDLSGF-EDPSGKRLFIEMVD-TVKEH-GQGIVEYLWPKPGFDEPV-PKASYVAGFAPWGWIVGTGIYIDDLDALFWDNA-------------
A0A0F5VAY8/38-193          ---------------YQESLLDQKRDKTRNLVESAHSLLTYYYQQETQGQLTRSEAQMQAKQAIASLRYEN--NDYFWINDSHPKMVMHPFKPELDGKDLSQF-KDPLGHTLFVSMAS-IVRQQ-SQGFVDYQWEKPGHSEPV-DKISYVKGFAPWGWILGSGIYVDDVKALFYAEL-------------
A0A1F9LZ74/34-185          -----------------KNLLAARRTEIRHVVESAWGVLDHYASEAQQGRLTREAAQEQAKNVIKGMRFEG--NNYFWINDLSPTMIMHPIKPELDGKDLSEN-KDPNGKRLFIAMTE-ICKSA-GQGFVEYVWDKQGKNRPV-GKISYVKLQPQWGWMVGAGLYVDDINDQLSR---------------
F0JBG7/38-194              ---------------VGDSLMQEKRVATKSVVEVAYGVIASWAGKADSGAVTVEAAQEAAKAELATLRYQG--QEYFWVNDLHQVIVVHGVNPDLNGKDLSDM-KDPHGVYLFREMVK-VARDK-GEGFVNYMWPKPGSDRPV-PKISFVKLYQPWGWVVGSGIYVDDVEAQVSSMRW------------
A0A0M0IQT8/29-205          ---QAKTLGEKEIQIFEDGLVRSKETALKDHVDLAFDAISHIYN---DADIPEDIAKQQVREILSKLRYGKDKDGYFFAYDEQGTNLVHPIMPDLIGQNLLHI-QDENGDHLIEALLA-QAQS--GGGFHQYLWRKPSTGENV-TKLSYAAWLDKWDWMIGTGLYIEDIAYEVANLKSEVNKNI-ETTF-
A4XUB8/35-191              ---------------INLDLYASKAEKTEHVVQSAAGILKHYQGLESAGSLSREEAQKQAMEVIRGLRYDG--QEYFWINDQTPVMLMHPMNAKLEGQNLSGF-KDPDGKALFNEMVA-ITRSQ-GAGQVDYRWPKPGATDPV-PKISYVELFQPWGWIIGSGVYVDDVQAEFRTQAM------------
Q87LI3/33-186              -----------------SNL--DNKARVTELFKSAYSILTEVEKMAVEGKMPEEEAKALATRLLRNNIYKD--NEYVYVADENMMFIAAPLDPQLHGTSFHDF-KDGSGNSVGQLILD-VLGRK-TGQIVEYTWSQKQADGSIEEKHSIAEKTPHWGWVVGTGIGFNEVNARFWSTAQ------------
A0A0D1GDN4/33-186          -----------------SNL--DNKARVTELFKSAYSILTEVEKMAVEGKMPEEEAKALATRLLRNNIYKD--NEYVYVADENMMFIAAPLDPQLHGTSFHDF-KDGSGNSVGQLILD-VLGRK-TGQIVEYTWSQKQADGSIEEKHSIAEKTPHWGWVVGTGIGFNEVNARFWSTAQ------------
A0A0F6LSY2/33-186          -----------------SNL--DNKARVTELFKSAYSILTEVEKMAVEGKMPEEEAKALATRLLRNNIYKD--NEYVYVADENMMFIAAPLDPQLHGTSFHDF-KDGSGNSVGQLILD-VLGRK-TGQIVEYTWSQKQADGSIEEKHSIAEKTPHWGWVVGTGIGFNEVNARFWSTAQ------------
A0A0L8TV85/33-186          -----------------SNL--DNKARVTELFKSAYSILTEVEKMAVEGKMPEEEAKALATRLLRNNIYKD--NEYVYVADENMMFIAAPLDPQLHGTSFHDF-KDGSGNSVGQLILD-VLGRK-TGQIVEYTWSQKQADGSIEEKHSIAEKTPHWGWVVGTGIGFNEVNARFWSTAQ------------
A0A0D9AMY9/34-190          --------------QVRTDLYKGKQVMTQNIVETATGVLSYYQQLEANGTLSTSGAQKAAMDQIRLLRYGQ--NDYFWINDMSPVMLMHPMKPELEGKNLSNV-KDPNGKELFNEMVK-VARLQ-GAGIVDYQWAKPGKEDPV-PKISYIELFKPWGWIIGSGIYVDDVEAEFMHYL-------------
F9REZ3/28-203              --HQSQALRDKEVEIIRSSLIQSKETALKDSVDLAFDAIRHVYN---DASLDESIAQTQVKQIIAKLRYGK--DGYFFVYYRDGTNLVHPIMPELQGQNLRHI-QDENGDFLIKTLLE-KAQQ--GGGFHQYLWQKPSSGETV-PKLSYAAWLDKWAWMIGTGLYIEDISNEVTNLKRAVDKNI-ETTF-
A0A1E5E5L7/28-203          --HQTKSLGQKEIETFRAKLLESREHALQDNLQLAMAAINHVYD---KADVTDDAAKRQVKTILNNLRYGE--DGYFFVYDKDGVNLVHPTQPELIGKNLINL-QDNNGNYLIQALLF-EAQT--GGGFHQYLWQQPSSGKME-EKLSYATWLGKWEWMVGTGLYIDDIEREVVELTKSINQNI-EATF-
A0A1L9KTY7/37-192          ---------------YQSDLMEAKQVKTRHLVEAAVSLQQHYYQQEQAGRLSREEAQTQAKAAISQLRYEK--EDYFWINDDQPNMIMHPMKPQLNGKSLSAV-KDPTGKALFVEMVS-VAKTS-GAGFVHYMWPKPGSDVDV-EKVSYVQMFQPWGWITGSGVYIDDVDALVWQRV-------------
A0A1L9KYD0/37-192          ---------------YQSDLMEAKQVKTRHLVEAAVSLQQHYYQQEQAGRLSREEAQTQAKAAISQLRYEK--EDYFWINDDQPNMIMHPMKPQLNGKSLSAV-KDPTGKALFVEMVS-VAKTS-GAGFVHYMWPKPGSDVDV-EKVSYVQMFQPWGWITGSGVYIDDVDALVWQRV-------------
A0A0F9UDR3/35-190          ---------------YRSSLFDSRSVKTQHLVESGMGVIEHFYQLQQSGELTEEQAQSQAANTLQGLRYGN--NDYFWVHSNDLQMIMHPFSTKLVGNSVADV-QDPNGKYLFREMVN-VVKSQ-SAGFVDYMWPKPGVTDPV-PKISYVSGFKPWGWILGSGIYLDDVNQAFWADM-------------
U3HLC9/33-189              --------------QIHTDLLHGKELKTQHVVQTAAGVLQHFQAQEAAGTLPREEAQKQAMQTIRALRYDK--NDYFWINDLTPRMVMHPTNPKLEGQDLSGY-KDPDGKPLFNDMVA-VARSK-GAGFVDYRWPKPGASDPV-PKVSYVQLFEPWGWVIGSGIYIDDMQDEFWSQA-------------
K4KKA7/35-190              ---------------VKSELTMATAKNTRMLVESAHSLVQHFHQQAQQGAMSEQQAQEQALAMLAQMRYDD--GNYFWVNDMRPHMIMHAAKPSLNGSDLSDF-KDPNGKALFVEMVN-VVRAS-GAGLVPYQWPLPGADKPV-DKISYVKGFAPWGWVIGSGVYLQDVDAAFWSAV-------------
E8LTT3/28-205              --YQAKTLGEKEIQIFEDGLIRSKETALKDKVDLALDAISHIYN---DDQLPEDVAKQQVKEVLTKLRYGKDRDGYFFAYDQDGKNLVHPVMPDLIGQNLLYL-RDGNGDYLIKALLN-QAQR--GGGFHQYLWQKPSTGENV-TKLSYAAWLDKWGWMIGTGLYIEDITYEVANLKSEVSSNI-ETTF-
A0A1G0LEV0/38-193          ---------------IRELIMKEKQATVSNLVQEATSVVASYNKQVEAGTLTKEEAQKQAAERIAAVRYNE--KDYIWINDLNPNMVMHPYKPELNGKDLSQT-KDPKGKFLFMEMVK-VCKEK-GKGFVEYAWEKPGSSSPM-PKLSYVELFQPWGWVIGTGIYVDDVDAQMMKII-------------
A0A120DAR2/36-187          ------------------TLMSDRQLKTKHLVETAYGVVDNYYKQFREGKISEADAKSQAMGVIKSLRYDE--KEYFWINDMHPNMIMHPYKPELDGKDLSDF-KDPNGKRLFVEFTD-MVRKN-KEGFVYYLWAKPGFSSPV-EKLSFVKGFEPWGWIIGSGIYLDDVSAALKQE--------------
A0A1H6ANZ8/37-191          ---------------YQQSLSEAKQTQTRHLVESAYSLIEHYHSQQQSGTLSKQAAQEAAAGAIQALRYEA--NDYFWINDLTPTMIMHPMKPKLIGQNLSQV-TDPSGKKLFVEMVK-IAQAQ-QAGVVHYQWPKPGSDAPV-EKISYVKMFAPWGWIIGTGVYVDDVQTLIWDV--------------
A0A1B9QWM6/29-203          ---QAQKLGEKEVEIFYDRLIAAKESALKDSLDLAFDAISYVYN---NPDLYEAEAKAEVKAILTRLRYGT--DGYFFAYDENGINLVHPIQPDLIGKDLLHI-QDSDGDFLIEALIS-QARR--GGGFHQYLWQKPSTGEIV-PKLSYAKWLEKWDWMIGTGLYIEDISQEVATMQSAVRNNI-ETTF-
A0A1E5BAK9/29-203          ---QAQKLGEKEVEIFYDRLIAAKESALKDSLDLAFDAISYVYN---NPDLYEAEAKAEVKAILTRLRYGT--DGYFFAYDENGINLVHPIQPDLIGKDLLHI-QDSDGDFLIEALIS-QARR--GGGFHQYLWQKPSTGEIV-PKLSYAKWLEKWDWMIGTGLYIEDISQEVATMQSAVRNNI-ETTF-
A0A0F2IR87/28-203          --YQAKTLGQKEVEIFRQSLIQSRENALQDSVDLAFDAIGYIHN---DASLSEEQAQQKVKAILTRLRYGS--DGYFFAYDKQGTNLVHPIQPELVGQNLLDL-QDENGDHLIEALLY-QAQT--GGGFHQYLWQKPSTGETV-PKLSYAAWLSKWEWMIGTGLYMEDIRQEVAHMQAAVNKNI-ETTF-
U3A6C3/36-191              ---------------YQQDLMEAKQTKTRHLVETAHSLMSYYQQQQQQGLLSTEQAQQQARSAIATLRYQQ--DDYFWINDLQPAMVMHPMKPQLDGKDLSAI-KDPNGKALFVDMVN-LVKKQ-GAGFVYYMWPKPGSNVDV-EKVSYVKLFQPWGWLVGSGVYLDDVNALVWQRV-------------
B7VGP4/29-203              ---QTKTLGEKEVEIFRDSLIKSRENALKDTVDLAFDAIEHIYN---DPDIQEAQAKREVRTILSKLRYGS--DGYFFAYDRHGTNLVHPIQPELIGQNLLQL-QDEDGDFLIEALLR-EAQT--GGGFHQYLWQKPSTGEVV-SKLSYAAWLERWDWMIGTGLYIEDVHQEVASMQAAINKNI-ETTF-
A0A1E5EBS3/29-203          ---QTKTLGEKEVEIFRDSLIKSRENALKDTVDLAFDAIEHIYN---DPDIQEAQAKREVRTILSKLRYGS--DGYFFAYDRHGTNLVHPIQPELIGQNLLQL-QDEDGDFLIEALLR-EAQT--GGGFHQYLWQKPSTGEVV-SKLSYAAWLERWDWMIGTGLYIEDVHQEVASMQAAINKNI-ETTF-
W9TIZ2/34-190              --------------QVRTDLYQGKQKMTQHVVETAAGILEHYRQLEASGAMGTAEAQRAAIEQVRLLRYDG--EDYFWINDLGPTMIMHPIQPKLDGQDMSRV-KDPEGKELFNEMVA-IAKRD-GAGPVAYMWAKPGEADPV-PKISYVQLFKPWGWIIGSGIYVDDVEQEFMNYL-------------
A0A0F2QN65/34-190          --------------QVRSDLYRGKQEATRNIVEAASGVLEYYRAQETSGAMTTSEAQKAAMEQIRLLRYDG--QDYYWINDLGPTMIMHPMQPKLDGQDLSKI-KDPEGKELFNEMVK-IAQRD-GAGLVDYMWAKPGEADPV-PKISYVQLFKPWGWIIGSGIYVDDVEQEFWNYL-------------
I4CSY2/34-190              --------------QVRSDLYRGKQEATRNIVEAASGVLEYYRAQETSGAMTTSEAQKAAMEQIRLLRYDG--QDYYWINDLGPTMIMHPMQPKLDGQDLSKI-KDPEGKELFNEMVK-IAQRD-GAGLVDYMWAKPGEADPV-PKISYVQLFKPWGWIIGSGIYVDDVEQEFWNYL-------------
A0A098FQW7/34-190          --------------QVRSDLYRGKQEATRNIVEAASGVLEYYRAQETSGAMTTSEAQKAAMEQIRLLRYDG--QDYYWINDLGPTMIMHPMQPKLDGQDLSKI-KDPEGKELFNEMVK-IAQRD-GAGLVDYMWAKPGEADPV-PKISYVQLFKPWGWIIGSGIYVDDVEQEFWNYL-------------
V4S1Q2/34-190              --------------QVRSDLYRGKQEATRNIVEAASGVLEYYRAQETSGAMTTSEAQKAAMEQIRLLRYDG--QDYYWINDLGPTMIMHPMQPKLDGQDLSKI-KDPEGKELFNEMVK-IAQRD-GAGLVDYMWAKPGEADPV-PKISYVQLFKPWGWIIGSGIYVDDVEQEFWNYL-------------
A0A0M2RKI8/34-190          --------------QVRSDLYRGKQEATRNIVEAASGVLEYYRAQETSGAMTTSEAQKAAMEQIRLLRYDG--QDYYWINDLGPTMIMHPMQPKLDGQDLSKI-KDPEGKELFNEMVK-IAQRD-GAGLVDYMWAKPGEADPV-PKISYVQLFKPWGWIIGSGIYVDDVEQEFWNYL-------------
G8QJP8/35-190              ---------------EKSLLMQDRQEKVRNLVEVAHGLVAHYDKQVQAGKLSKEEAQQAAIAAIKDLRYDK--IEYFWINDLNDLMVMHPIKPEMDGKKLDQL-KDKAGKYLFREFNE-TVKKQ-GAGFVDYLWPKPGFEDPV-PKISYVKGYEPWGWVIGSGIYTDDVNAIFKQEA-------------
A0A0B3BU32/35-190          ----------------YGDLHRGKAEKTQHLVESALGILQQYHRLETQGVMDRAKAQEEAQKLLAQLRYGE--NDYFWVNDLHPRMIMHPTNPKLNGESLRDY-KDPDGTELFNVMVS-VVKAR-GAGTVEYRWPKPGHDTPV-PKISYVQLFEPWGWILGTGVYIDDIREQFITQTF------------
#=GC scorecons             0000000000010002224732464344544654744453443411135364444863364446435685300559655483344465785375838556344058449436433553045531054744484837644444604968654353485866868565676443523220000000000000
#=GC scorecons_70          ___________________*___________*__*_______________*____*___________**______**___*_______**__*_*_*__*_____*__*__*_______________*___*_*_**_____*__*_**______*_*_****____**_____________________
#=GC scorecons_80          ___________________*______________*____________________*____________*______*____*_______**__*_*_*________*__*__________________*___*_*_*_________*_*_______*_*__*_*____*______________________
#=GC scorecons_90          _______________________________________________________*____________*______*____*________*____*_*________*__*______________________*_*___________*_*_______*_*__*_*___________________________
//