Transcript — View — Lotus Base

LotjaGi2g1v0003400.2

Overview

Field	Value
Gene ID	LotjaGi2g1v0003400
Transcript ID	LotjaGi2g1v0003400.2
Related isoforms 7	LotjaGi2g1v0003400.1 LotjaGi2g1v0003400.3 LotjaGi2g1v0003400.4 LotjaGi2g1v0003400.5 LotjaGi2g1v0003400.6 LotjaGi2g1v0003400.7 LotjaGi2g1v0003400.8
Lotus japonicus genome version	Gifu v1.2
Description	Histidine kinase; TAIR: AT2G01830.1 CHASE domain containing histidine kinase protein; Swiss-Prot: sp\|Q9C5U0\|AHK4_ARATH Histidine kinase 4; TrEMBL-Plants: tr\|A3QVR9\|A3QVR9_LOTJA Histidine kinase 1A; Found in the gene: LotjaGi2g1v0003400
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr2:1439325..1457042) extracted from Lotus japonicus Gifu genome v1.2.

AAAACAGAAAAAAGAGGCTTCAAAGCATAGTGTGAGGCGTAGTGAGTCATAGACCAGTTGTTATTATCATTGTTTTTTTT GTTCAAGTTCATGGGAGACAAGAGTGTGTATGGGGAAAATCCTAAAAATTTGTTCTTTTTTATCTTAAATACATATAAAT AAACAAATAAAAAAATTAGATAAAGCCAGCAAAAGGGTATATAAAAAAAGGACTATTGTGTTTGTGTGTATGCAGAGTGA GACACAAAGATTTACAAGAACAAAACTGTTACTTACGACCTATGATTCATTGTGTAGTCACCCTCTCTTAGTCTCTTTCT TGTTACAGGTAAATATTGTTTCTTTCTCCCTCACCCATGTTTCATTGGGTCGTGATTTTGGGGTCAATGAAGGTTTGGAA TTTTATATGTAAGAGAGAGTGTGAAAGTTCCCTTCTTTGTCTTTAGGCCAAGACCAGTAGCAGTTTCACGCTTACATTAC ATAGCATGATTATTGTTAATAGTTGTCTTGATTTTTAAATTAGACCCTTCACATTCTTAAGTCTGAAGCAAAACCAAGTA TTGGGGTGTAGGGAGAGAGAGAGAGTGAGGTGGCTCTTAGAAATTTGAGCTGTTTTTCCGTCTTTTGAGGCCCATGCTTG TCTCTGAGAGTTGAAAGTTTCAATCTTTTAATTCTGGGTTTCTTGTCTGACTTCTCTCTGTCTCTGTGGGGTTATTTTTT GAAATGGGTTTGGCTTCTTAAGAGAGAGAAAGAGAAGTAATTGGCCAATCCTTCATGATTCCTGGTGTGTTTGTGCTTGC CCTTTCTGAGGTTTGAATCACATAAAACAATGCTGTTATAATGCTTTATTGCTTGGAGTTTTGTTCTGTGACCTTTTTCT TTTCATCCATCAGAGAAAAGTGTCTGGAATTTTGCCAGTGCTTTAAAGAAAAAGTGACCCTCCTATATGACCACTAACTA TAAATTTCTCTTTTGGGACTTCTCAAAAAATAGGTATGAAGGAGGAAGAAAAGGAGCAAGGAAAGAACATAGCAGCCCAG TGAATTTGCTGCTGATGGGTCTTAGCTTGAAGATGCAGAGTCACCATGATCAAATGGGGTCTAAAAGAAAGTACACTTTC ATTCAGGACCATAGAGCATGGCTACCGTGGTTTTTGTTTATGTGGGTCCTGCTAATGGCTTTTATCAGTTGGAATATCTA TAGTAAAATGGATGATGACACTAAAGTTAGAAGGAAAGAGGTGTTGGGTAGCCTCTGTGATCAAAGGGCAAGAATGTTGC AAGATCAGTTTAGTGTTAGTGTGAACCATGTCCATGCTCTTGCCATCCTTGTTTCAACTTTCCATTATTACAGAAACCCT TCCGCCATTGATGAGGTTAGTGCTTGATCTGCCATTGACTAGCTAAGCGCAATGCAAAATTATGATATGGGTTTTAAATT GGGGTTGCGGTCACCGCTGCGTTGCGGAATTGTGGACAAATGCGGGTCAATGCGGCCACAATTGCAGTCGCTGTGCTGTT TGGTGAGTCAAAATCCCTTTATGTTGCGACTGTAATTGCGGTTGTACACCCCAATTTAAAACCCTGATTATGATATGAAG GAAATGTTATGCTATTTGGTTTTTCCTAATTGTTGTTCTAATTTTGTAAATTTCTCCTTCCAACTGGATATATATATTAG GAAACCTTTGCTGAGTATACAGCAAGAACAGCATTTGAACGGCCATTACTGAGTGGTGTGGCTTACGCACAAAGAGTAAT TAACTCAGAGAGAGAGAGATTTGAGAAGCAACACGGATGGGTTATAAAGACAATGGAAAGGGAGTCTTCACAGGTTAGAG ATGAGTATGCACCAGTGATATTTGCTCAAGAAACTGTCTCATACCTTGAGTCTCTTGATATGATGTCTGGGGAGGTAATA ATACATTGATCAATAATTCTCTACTTACATTATGTATAATTTCAACCTCAATTTTTTGCTAGTGCATGATCAGGAGGACC AAGAGAACATTTTAAGGGCTAGGGCCACTGGGAAAGCAGTTCTAACAAGTCCTTTCAGGCTGTTGGGTTCTCATCATCTT GGCGTTGTTTTAACATTTCCTGTGTACAAATCTAAGCTCCCTCCAAAGCCAACACTAGAAGAACGCATTGAAGCAACTGC AGGGTAGGTTCTGTTTTCAGTTTCACTTAGGTTTTTAAGTTTGCTCTTGTAATATTTTTGGTGGTTCTTGCAATAAATAG TTTTAGCTGTTAAGTAATAAGTATAACTTTTATTTTCAGTCTTTTTGCATTTTCTGGAAGTAAATTATGTTTATCCTTTT CCCTTTCTTGTTTGTTAATCATACTTCAATTTAAGTTTTGAGTGTGGATAATGGTAGGGTGAGGGATGGTTGAAAGTTTA GATAGAATGGGAAGACATACTTTTTGGGAAACTTTTTCACTGCTACAGTTATGCTTACTATCGTGTTTATAATGCTTCCA TCTATCCTTTTATGGTTGATGATTCCCTTTTTAATAATTTTTTTTAAAACGCAAATGAAAGATAACTGCATGTTAATGAT TATTGAAGGCTGTGACAGAAGCTTCTGCTTTTTTTTTTCAACGCATCACGAGTCATGCTAATTAGTTTAACCTGTGACTT CTAAAGTTCTACATTTTAATGTTTGTCAATTATCACACTCCCTGCAACTTGGCAATCGTTTTTGTGCTACCAGTTTCTTT TTTTTCTGTTCAATGACACCTTCAGTGTCATTACCATTTGCCACAACTGCCACAGCCTTTATGATTGAGTTTGAGGACAA CTTATGCCAGTGCAATTGGCACTATCAGTTAACTGGTTAGTGGGTATTCATTAACCGCTCATTGAGCATCCTTAACCGAT TGATTGTTTAATCATTTCTAATTTACCGAAAATTCATTTTCATATATTTTCCTCTTTTGTTTTTGTATCTTTCACGAGCC TTAAATTATCAGATTCTGTGGTATGTGATGGCCAGGATGGTTATGTGATTTGTATTCGTCCTGTCAAACATTTAGTTTGA ACTTTGTTTCTGACCTATATTATATGAAATTTATGTTTACTGTTAGCTTCTTAATGTCCAAAATAGAGTACTAAATAAAT TTCTAATTGGAATCAGATATGTTGGAGGATCCTTTGATGTTGAGTCCCTTGTGGAGAATTTACTTGGGCAACTTGCTGGT AACCAAGCAATTTTGGTGAATGTGTATGATATCACAAATTGTAGTAATCCCCTAACCATGTATGGAAATCACTCCGAAGA AGCTGATATGTCTCTTTCCTATGAAAGCAAACTCGATTTCGGAGATCCATACAGGATACATCAGATGATATGTAGGTGGG TGCTAGTGGAATTTGTGTTTCGTGTAAGGAGTTTTAACGTTTTCGCTTGTAAACAGATTCTTATCTCTAAATTTTAAATA GGTATCATCAGAAGGAACCAACAAATTGGGTCGCCCTTACCACGGCAGTCCTATTCTTTGTGATTCTTATATTAGTGGGT TACATTTTATATGAAGCTGGAAATCATATTGTCAAAGTTGAAGATGATTTTCATGAAATGCAGGATTTAAAAGTCCGAGC AGAAGCAGCTGATGTTGCCAAGTCCCAGGTAATTTATCTGGCATATTGTTAGCATAGTTTATTATTTTCAGGAATTACTC ACTGATCACAATAACCTATATTTTGTTTTTAATGTCAGTTTCTAGCTACAGTCTCTCATGAAATTAGAACACCAATGAAT GGCATTTTAGGTAACTTCAAGAGTCTGCCTCTCTCTCTCTCTCTTAAAAAATGTGACAGGCTTTCATAACTTGCACTTTC CATTGATCATCAGATCATTTAACTCCAAATTATTGTAGGAATGATGGCTCTACTTCTAGATACAGAATTGAGTTCAACCC AACGAGATTATGCTCAGACTGCTCAAGCATGTGGAAAGGCACTGATAACATTGATAAATGAGGTTCTTGACCGGGCTAAA ATTGAAGCTGGCAAGTTAGAGCTAGAGGCTGTTCCATTTGACCTCCGTTCCATACTTGACGACGTCCTTTCTCTTTTCTC TGAGAAGTCTAGACACAAAAGTCTAGAGGTATGTCTTGATTGTTGATTAATCTTTTGAAGGCCTGTAAAAAATGTTTTTC CTTGCTCAAGTTATATAATATCACCCTTCTATTTCCTTTTCTTTAGTTGATGAACTTATATTATTCTTTCCTTTCTGTTG TTTCACCTTTCTGGGTCTTATGACTGTTGATATTCCTGATGCGTGCCAAACTTACAATTCTTCCACCTGACCTTACATTG CTGATTGGGGAAGTAAAGTTGGCTGTGTTTGTTTCTGATAAAGTCCCAGATATTCTTATGGGAGATCCTGGAAGATTCAG ACAAATAATAACAAATCTTGTTGGCAACTCTGTTAAGGTAAGATGTTATTTGAATTTACATTGCTAATATGTATGATGTT TAGTTGATAGATTATTCTAATTATTTTAAGCTTCTTATCTTCACTTTTAGATTTAGCCTTTTGTTTTCTTCTTCACCCTA CACTTGGCAACTGTGGAAGAGGAATTGCATTGATGCTTGACTCATTCATCCTTGTTGGAGTTATAGGGTTTAGTCTTTGT TAGAAATATAAGACAAAACCATTCATGTGTCTTCATCCAGCAGCTTCAGCTTTTGGGATTGTTGGTTCATGACCTGGTAT TAGAGCCTCTATGACCTAGTAGTCTAGAGTTTGATCCTTGTTGTCCTCCTTTATTTTAAGAAAAAGTTGAATTTCAACAC AAGCTAGTTGGGTCATGCATTGTCCATGCTTCGAGCCCAATGAGTCCTTGACTCCTTGTGTTAGGTGGCTTGTTTTTTTT TGAAATTGTGTTAGGTGGCTTGTTAGAAATAGGGTATAAAACCATTCGCTTGTCTGCACCAAACAGTGTAAGATTCTGGT TCGTGACAAACCTATTGGTATAGAGAGAGGAAGAAGGATACTTAGAATAACAAAATTATATTGATAGTGAATGATAGCTT TGAGATAATTATAGAAGACAAAGCACCAATCGTTATTTTCACTAAATCTTGACTCCAGAGCCTAATTGAATAAGGAAACA ACTAATGATACATAAGAAATATGGAACCAGTCCTAAAAGATAATCTAAGTTGCTCTAAATTACTGAGATACAATCAAGAT ATTATACGGTATTTTTCATTATATCCTAACAATTTAATTTCTCTATTTAATTCATTAAGTTTACTCACAAGGGACTTGCT GATTACTAATCAATCTCTGCATCTTGCAGTTTACTGAGCAAGGACATATATTTGTTAAAGTTCATCTAGAGGATAACATA AATCCCGTAATGAATGGAAAACATGAAACTATTCTGAATGGAGAGTCAGATGAGGTTTTCCATTTATCTGGTGATTGCCA TTTCAAAACCTTAAGCGGATGTGAAGCAGTTGATGAACAGAACAGCTGGGAGAATTTTAAGCATCTGATTGCAAATGAAG AACGTTACTTCGATTGTTCAAGTAAAATGGCAGCCACTAGTGAATCATCGGAGCAAGTCAAATTGAGAGTCTGTGTGGAG GACACTGGAACTGGAATTCCTTTCTCAGCCCAGGATACAATATTCATGCCTTTTGTGCAGGCTGACAGCTCAACTTCTCG AAATTACGGCGGTACTGGCATTGGCTTGAGTATCAGTAAATGTCTGGTTGAACTAATGGGTGGTCAGATAAACTTCACAA GCCGGCCCCAGGTCGGGAGCACATTTTCATTTACTGCTGCTTTCGGAATGTTTAAGAAAAATTCAGTTAGTGACATGAAG AAACTAAATTTGGAAGATCTTCCTTCCAGTTTTAGAGGCCTGAAAGTCATAGTGGTCGATGGAAAACCAGTTAGAGCTGC TGTGACTAGATACCTTTTAAAGAGACTAGGGATACTCGTTAAAGTTGCAAATAGCATCAGTCAGGCTGTGGCTTTATGTG GGAAAAATGGTTCTTTAACATCAGGGTAATTTTCCCTTCTTTTATATTTTTATTTCTCTCTGTGCACGGAGTTGGACTTA ATTATGAACAAACTGCAAATGATGATAAAAACAGCAGTATCAGCATTTTGGTAATTGTTGTAACTTTGGCATATGCTTTT GCTTTTAAGTTGGGTTTTTAACCACATAAAATTATTTAACAAGTTTATTTGAAATACACATATTATGTATACCCTGCTAT GGTCCCTCTTGATTTTAGGGCTTATATATGCTGTATTTAAAATGGCAAAATGACATATTTTCCATTCTGGGTGGGTTTTA AAATGTTTTTTGGTTATGTTTCCCGTATAGGTCTTCAATTTGAAATTAATTTATGTCATATTTTATGGATGTGTCTGTAC AAAAGATAAATATAGATTTTGACATTCTTATGAGGAGGGTTAAGGACACACTCTTTTAAACACACTCTACCATACTCTCC CTTTGATTTGTCTATTTTTAAGAAGGTCAGCACACTTGCCTCACTCTTCAGGAAAATATGTTAGACTTTGAAAAAAAATA AGACAATGGCATGGAGTGTGTTGAAGAATGTGTTTAGAGAGCATGTTGCTAGCATTTCTCTTTAATTATTCTAATTTTTC CTTTAATTACTTGTATTATTCTTTTAACATATATTATGAAACTGCATTGACTTTTTCGCATGCAAGTGCAAGGGAGAAAA AAGCACAGAAAAAGGAACTATTTTTTTTATGTCTATTATTTGGATTTCCAAAAAAAAAAAATTAATACATCAAATATTAA TTTATTTTAAGTACCATTCTGAGAAGATATGCAATTAGAGTCTTGTGTTTAAGTTGTTTGGTTCTTTTCATTTACTGAGT GAAACCATTTGGATGTGGCAGAATGTTCCAACCTGATATTATCATGGTTGAGAAGGACACATGGATATCTGGAGAGCATG GAGGTTTCAACATATGGAAGCTGGACTTCAAACAGAATGGACATGTATTTAAGATGCCTAAAATGATCCTTCTGGCAACC AATATTAAGAATACCGAGTTCGACCAAGCTAAGGCCACAGGTTTTACTGATACTGTGATCATGAAGCCTCTGAGATCTAG TATGGTGGCTGCGTGTCTTCAGCAAGTTCTGGGGATAGGGAAGAAGAGGCAGCTAGGACAGGACATGCTGAATGGTTCTT CTTTTCTACAAAGCCTTCTCTACGGAAAGAAAATCTTGGTGGTCGATGACAATGTCGTGAACCGGAGAGTTGCTGCAGGT GCATTAAAAAAGTTTGGAGCTGATGTGAAGTGTGTTGAAAGTGGCAAAGCTGCACTTGAAATGCTTCAATTGCCTCACTG TTTTGATGCTTGCTTCATGGACATTCAAATGCCAGAAATGGACGGGTATGCATGTTTTCACTGACTACTATAGTTTCTTT TTCTCCTTTACTACGCATATTATCATGTCAAATTTGTTGTGATATACTTTAAAATACTCTAGATCATTAGAACTGATCAG GCAAAATATGGATGCAATATAACATATAACATGGTCGCTACCATGTTAATATGAGTCTTGTGCAATTTGTATGCATTTAG CTACATTATTGAGGCTTAACTATTATCTTTTATTGAGAATGGCCATACATACACTAGCTCTGCCACATTCTTGAAATTTT ACACATCATTCTACTATTATATATAGTTCTTCTCTTTCAACCATGAAATAAAAACCGGGCTGGCAAGATGTGTATCTTCT CTTATCAATAGAGATTAATAAACAACAACAAAAGCCTAGGTCGGCTATATGTGACATCATATCTCTCCAAAAGAAACTCT AGTGATTAACATGTTTTGTAAATACATACTTCAATAGTGGTTTTATAACATTCTAATGATTTGTCAGAAATAAGGGTTTA AACTTTAAAGCATTTAATATTAATGGAATCTCAATTTGCTTCTTAACTGGGTTAGCACCAACTTTTTAACATGCCTATAT GCTAATTCATTTGAGGAATGTTGTCACCACCATTTTATTAAACATAGTTGAGGTCCCCGAAGGATAGCTCAAGTGGTAAG AGCTAGGGACATAAGGGTTGGGTGGGATGAAGGGTGAAGGGTCCAGGGTTCGAACCCTGAGGAGGACTAATTTACTAACA TTTCTAACAACTAAAATTTGCCAATAAAAAAAAAATTAAACATAGTTGAGAGACATGCATGCCCTTTTGGAAAACCATTT TAAGTAAGTGCTATATACATTGCAGATTTGAAGCAACTAGTAAAATTCGTATGATGGAGAGAAAGGCGAATGAGCAGGTG AACGGTGAATTAGGCGAAGGAAATACCCGAAAAAGCGAGTGGCATGTCCCAATACTGGCCATGACAGCTGATGTAATCCA TGCTACATATGATAAGTGCTTGAAATGTGGTATGGATGGATATGTTTCAAAGCCATTTGAGGAACAGAAACTCTATCAGG AAGTTGCAAAATTTTTCAAATCCAAAACCATCTCTGACTCATGACTCCCTGCTTCTTCTGCATAGAACTTGGCGAGCAAC TTATACATAGGTGATAGGACACATTTTAGTGTAGTCACATGAACTTTCAGATGTTGCAGGTAAACTATGCTTTCATGAAG AGAGCAAAGCTTGGGATAAGTTCCAACCAGCTGAAGTTTGACATTATTAGAATCTTAGTACATGTATACCACGTTACATC CCATAATTTTGTACAGGTTTTCTTTAGAGAATGAGTGAAATTATAGATGTCACTTCAATATGTTTGTTGCCATCTTATTA CACATGGCAAGGGTTTTTGCATTATCTTTTAGGTTAAGGTATCATGTAATGGTCTCTATGTTCAAAAAATGTGGGTACTT ATGTGTACAGTTCATCTCTTTGGTGTATCAAGAAAAACAGTACTGGCTACTAGAATCAAAACAAATATATCCTCTGACTT CCCCGCCCTGCAGACCGAAAGAGATCTTGGGTTAATTTAGATAAATAGTTTAATTAACCACTTATAATAAAAGTTTATCA CAGAAGTGCTTATTATAAGCTAATTTGATAAGTTTGTTGAAAGAAGCTCAAAATAAGTTATAAGTAAGCCTAAACTTCAT AAGTTAAATCAAAATAGGTAGGTCATAAGCTATTTTTATAAGCTCTCTCAAATGCTCGCATAAGCTTCAAGATATAAGAT AAGCTTACATCAATTATTCTAAATGGGTTCTATTATTGATGATTTGGAGTGAATGACAGAAATAGCTAACCAAGCAACAA TTATAAGTGTGTTTGGATCAGTGTTAGCATAATTGGTTATGCCAGAATTAGATATGGCAGAATTGAGTGTTATAAATGAG TTAAAATGACGCATTTGTGTTTGGTACATTTATATGAAAACTGATATCTTTATGATAGTTTTGTCATTTGTGGTTGAGCT CCATAAAACATATGAGAATTGACATCTTTATTATAACGTTCAATATAAAGCGAGCTACTGTAAACGTTTCTTCATTCGTG TCCGTAACTCCCCCGGCCTCACAGCTCAACCAAACCTACATTACTCTTCTCAGAGATGGACACTTTCTCTCTTCAACAGC TTGATAGGTCTAAGGATAAGCCAGCTATTAAACATGTGTATAAAAGAAGGGCTCAAGTGGCTAATTAGATATTGTAAAAG GGCTTAAATGTAATTAGTAATAATTAGGCCAGAGGCAGTTATAAGCCAGCTGGCAATTACAGCTATTACAGGCTGCTAGT ATAGTTAGAGCAGTTAGCCTATAAATAGGACTATACTTGCATTAGAAGCTATCTTTGGAGAATTGAGTGTTTGGCTGGTT GAGGAACCAGAGCTGTTCGTGGGAACAGGCTTGTAAACCCTAGATTCTCTGTTCTTCCCCAATTCTATAATTCAATACAA TTTCTGTCTAGAATCCTTTGATTCTGCAGAAGTAGTTTCAGTTTCTTCCTAATTCTCTATTCAATTGCATACCAGTGTTA TCACAGCTGCTAGTGCGAGGGTTAGTTCTTTCTTCTTCTTTTCAATACTATGCAGTATTGATTATTGCATTGTTTCCTGC AATTTTCTTGCTTGCATTGCGTGATTCTCCCAGTTACTCTTACTTTCTCAATTGCGTAAATCTTTAACTATTTCTCTTTC TTAATGTTCTTTCCTTAAAATCTGAACTTTATAATGTTTAAGAACCCACTTTGTCCGGGAAAATGTGAATAAAGATTGAT TGTTTGTATTCATGTTTGAATTCTTTAATCATGAAGGTCTCTTACACACTCATCATATGCTTTTGATGACGGTAATGTTT CAAAGCTTGAAAGAGGCTTGAACAAAAATCTGATTAACCGGAATTTACAAAAATGTCTAATTTTTGTTCTATTTAAATTT TCTGTTTCCCCAACTTGTAAAGTTTGTGCCTTTGTGTTTGGAAATTGGTCATTCCTCAGGGTCAGTTTGAAAGATATAAA CTTTTCAGATTTTGTGATCACTGCAGAGTTCTTGTTGGGGGTTTTGAACCCCAAGTGCCAGAACTTTTTTTTTTCTTTTC CTTTTACTATTTTAAGTGGTTGGTTTATTACAATTATTTCATCCAATTTAAACTTCTAAGTTCTAACAGTGTTTCCCATT TTAACAATGTTACTTGGTTGCATTAGGTGAATGAACCTCTGTGTTGCTAGCACTCTCTTTGAAGGACATTCTCTCTTAGT AGTAGTGATTGCCTGCTTGGAATTGTAGTGACACAAGCTAGACTTTGCTAAATGTATGATTTTTTCCCTCTCTATCCTTC CTTTTCATGGATCACTAAATGTATCTTTTTGTTACATCTACCCCTTTTGGGTTGTTGGGGAGTGTGGAGAGTTAAGTTAA TGTATGGTATTTGATTGACAGAAGACTTAGGTTAAATCTACCCCTATCGGTTTTTTAATTTTTTTAATTTTTTTCTTGTC TTTTATAGATGTCCAATGGAAGGCTTCCAGTTCCTGTCCATAGACCTAATGGGACCATCAATTCGGGAGCATTATTACCT TCTACTAACAGTGTGCATTTACTTTTAACCCCCACAGTACAAGGGTGTAGGAGGTCAGAAAACAGATTGCTTGTAGTGAA TATACTTTATAATTGTAGTTGCAATTTTGCAGACAATAGTTAGCATTTGCATTTTACTCTGGCCATCCACAAGTGATAAG CCTAAAAGTTAAACTTTAGATGATTGTTCTTATTATACAGGAACTACAGATGATTTTCTCCTTTAGATAACATTTAATTT ACTTTATTTGCTTGCAGCAATAAGGACTGGCTCTTAGCAATTGTTTGTTACATCATGCATTGGATTGGCCCTGGTATGGA TGTTTAATTTGTACTTTTCATACTGTTTATAAGAAGCCAGTAAGAAAAAATTGTATAAAGAAACTAGTTTGCGAGCCTGT GTCTGTTATGTGTTCTGTATATAAGCTTCAAAGAACCAGTATGCACCTCCTCTATATATTGCTTGGACACTTTTATGTGT TCTTACAACTTTTTGAAATAGACAAAATCATATGAACAATTATTGTTGTTGGAAAACAATTAATCAATTTAATAACAGAC ACCAAATACATCTCTTTATTACTAACAGTCTTGTTACAAACAGAACAGGGTACCAACATGAAAATTCCCCAATAAATAGA AAACAATCATACATGACTATATATAATATTATATGCACAAATAAATTAGAAAGATCAACATTTCAAATCTCGCTTCCCCG TGTTGATTGGACCATGACTTCAAAACCATAATATAGGAAGGAAACATTTTTATTAAATGAATTTAGAATGGAAGCTAGAT GGTCCACTTCGCTCCAAATAGAGCTTGCCTTTATTCCTTGATGAAAACTAGAATCTGAAAAGAAATAGAAATATTCATTA ATGATTTTTATACATATAATGAAAATATGTGTTGTGTGCGTGTGAATGTAAAGATGATAATTGCGTACCTGATTTATCAC AAATGGGGCATCCGCATTTTAGGCTTAATTGTACACGGGTGGTGGTGGAGAAGCATAGATGTAAACTGGTGGTGGAGGAG ACTTTGTTGGTGGGGGAGGTGATTTGTAAATGTATGGTGGAGGGGGAGATGGTGAAGGTGGGGGTGGACTTATATAGTAG TAAGGAGGTGGAGGAGATGGGGATGGTGGTGGAGGGGACTTGTAGTAGTAGGGAGGATGAGAAACCGGAGATGGTGGAGG AGGACTCTTGTAATTGTACGGAGGTGGAGGTGATGGGGAAGGTGGTGGTGGTGATTTGTAGTAGTAGGGAGGTGGTGGAG ATGGTGATGGTGGAGGTGAAGATTTATAGTAGTAGCGGGGAGGAGAGGGAGATGGTGGAGGGGGACTCTTGTAGTAGTAT GGAGGTGGAGGTGATGGGGATGGTGGTGGGGGAGATTTATAATAGTATGGAGGGGGAGGAGATGTTGATGGTGGTGATGG TGACTTATAGTAGTATGGAGGGTGTGATATTTCTTTGGGTGGAGGAGGAGACTTATAATAGTAAGGCGGAGGTGGGGATG GTGATGGTGGAGGTGGTGACTTATAATAATATGGTGGAGGGGATGGTGATGGTGGGGGTGGTGACTTATAGTAGTATGGA GGGTGTGATATTTCTTTAGGTGGAGGAGGAGATTTGTAATAGTAGGGTGGAGGTGGTGATGGTGATGGTGGAGGTGGTGA TTTATAGTAGTATGGAGGGTGTGATATTTCTTTAGGTGGAGGGGGAGATTTGTAATAGTAAGGTGGAGAAGGGGATGGTG ATGGCGGGGGTGGTGACTTATAGTAGTATGGAGGGTGTGATATTTCTTTAGGTGGAGGAGGAGATTTGTAATAATAAGGT GGAGGTGGTGATGGTGATGGTTGAGGTGGTGACTTATAGTAATATGGTGGTTTAGATACTGGTGATGGTGGAGGTGGTGA CTTGTAATAATAAGGAGGTGATGATGATTTGATTGGAGGAGGAGGTGACTTGTAGTAATATGGAGGAGAGTAATAATGGA CTGGTGGTGGTGGTGACTTATAGTAGTAAGGAGTTGGAGAAGGCTTGGTCTTTTCACATTCTTTAAAATGCTTCTTTGAT GCATAAGCAAATGGCTTTGCCTTGAGCACAACTTCATACTTGTCCTTGGATTTCACGTGCAAGTCGGTTCCCACATTCAG TTTAGTAGGTATGCCATAGGGTGAGTGTTTAGGTGGAGCATAAAGCATAGTCTTGCATACTGTGGGGCCATATTTGACTT AGTCAAAGTCCTTAACTATGATGCTGTACTTGCCATTGCTTTTCGTTTTACCATAGGCTTTGATGATATTTTTCCCAGCT TTGCATTTCACCTCAACAGTGGCACCTGCCCCATAAAAAATTAATTGCAATTTTAAACAGAAATAAAGTGGAAGAAACAT ATTATACAAGACAACATTGGTACTTAAGATCAGCTACTTTACCTTTCCTCGTCATTCAACATATTGATATTAGGGAGGGT TATTAAAACTCAACGGGTTAACTAATATATCATTCTCATATGATTGTTTTCTTTGTATATTACATCTTTTAGCCGACTCT AAATAAATTATGTTTTGTACTTTAAAACTTGGAGTTGAGTTTGTTTCAAGATTTGAGTTTTCTACAGTGAGAATCATATA TTACATAAAATAAAATATAGTTTATTGTTATTGTTTGGTCAAATTAAAGATTTAGAGTTCGATAAAATGTTTATATACAT ATATATATATATATGTAAATAATAATAATTACTATATTAATTTTAAGATGCATAGAAAAATTTCATTTACATATCGAAAG CATCAAATAATATTGTAGTCCTAAGCATATATAATTGAATGCAACATACCTTTGAGGTGTTTTTTGGCATGAGACTTTTC AGGATACTCCCAGTCATAACACCTGTAGCTGTACACTTTACCAACAACCTTCACAATCAATGTGTGGTGGTAGGGATGTG GGTGAGGATGCACAACAGGTGGAGGAGGGGAATTATAATAATATGGTGGTGAATGATACTTGGGTGGTGGTGGAGACTTG TAGTAGTATGGTGCATGGGGTACTGGTGATGGAGGAGGAGGAGACTTGTAGTAGTAGGGTGTTGGAGAAGATGGTGAAGG TGGTGGTGGAGACTTGTAGTAGTATGGAGGGTGTGATATCTCTTTAGGTGGAGGGGGAGATTTATAGTAGTAAGGTGAAG GTGGTGATGGTGATGGTGGGGGTGGGGATTTATAGTAGTATGGAGGGTGTGATATTTCTTTAGGTGGAGGAGGAGATTTG TAATAGTATGGTGGAGGAGGGGATGGTGATGGTGGTGGATGTGACTTATAGTAGTATGGAGGGTGAGATATTTGTTTAGG TGGTGGTGGAGACTTGTAATAGTATGGTGGAGGTGGCGATGGTGAGGGAGGTGGGGGAGATTTGTAGTAGTATGGAGGGT GTGATATTTGTTTAGGTGGAGGGGGAGACTTGTAATAGTAAGGTGGAGGTGGTGATGGTGAGGGAGGTGGGGGAGATTTG TAGTAGTATGGAGGATGTGTTATTTCTTTAGGTGGTGGGGGAGATTTATAATAGTAAGGTGGTGGAGGGGATGGCGATGG TGGAGGTGGTGATTTATAGTAGTATGGAGGGTTTGATATTTCTTTTGGTGGTGGTGGAGACTTGTAGAAGTAAGGTGGGG GAGGGGAGGGTGAGGGAGGTGGGGGAGATTTGTAGTAGTATGGAGGTGGAGGTGAAGGAGAGGGTGGTGGAGGAGATTTG TAGTAGTAAGGAGGTGGAGGTGAGGAAGAGGGTGGTGGAGGAGACTTGTAATAGTATGGAGGAGCCTTGTGTTCATATTT TGGTGGAGGTGGTGGTGACTTGTACAAGTAAGGAGGTGGAGGTGACGGGGAAGGTGGTGGTGGTGATTTATACTCATAGG GAGGTGGGGGTGATGGTGAAGGAGGTGGAGGTGACTTGTACTCATAAGTTGGAGCCTTATGCTCATCTGGTGGTGGTGGT GGAGACTTGTAAATGTATGGGGGTGGAGGTGATGGTGAAGGAGGGGGTGGAGACTTGTACTCATAAGTTGGAGCCTTGTG CTTAATTGGTGGTGGAGGTGGTGACTTATAGATGAAATGAGGTGGCGGTGAAGGAGACGGTGGTGGGGGAGAGGAGTAAG TATAACCATCAGCAGCAACAGAAACTATAGTTGTAGAAACGAAAACAATAGCCAATGCCATGGCCATTTGTGGACAGAGG CGACCCCTTATGGGGTTTCTGGCCCTACCAGTCATGGGTGGAAGGAGAAAACTGGTTACCTCCTGCCAATTCTTCTGATT AGATCCCCACTTGTTAGTCTTAGAAGTGGGGAATTCAGAGAAGAGGTTTGGTGTTAGTGGTGACTGATGATTGAGAAAAG CTGCATGATAATTAGTACTTATAGTGATGTAATGAGGACCAATTCAAAATACTTAGCTGGTTTCATTTTGATTTCAATGT TTTATATATTATGTTTCCCCGGCAAGCAGGCCACTTCTTTCCCATTTGCTCTCCAAATGGCCACAATTATATAAGAATTT ATGTTTGTGGCTTGTCCTGATGCTTCTTAATCAATACCATTGCTCATCGAATTAAAATCAATGTTATAAAACTATCTGAT CTTTCATTTATTTGAATATTACCATATCCTTCATTTTACACTAGTGAACTTATGTGATTGCTGTGGGAAAAAGCAGACAG AATGAGAAGTTGCTATGAGAAGAGCACTGATTCATGTCATATTATTTTGGTTCACTATTATTACTTTTTCCTTTTTATTT GACTTTCTTTTATGGATTTTGCTAGCCATGTGAGTTCTCAATAATGTCCACACATGTGATGTGGTCAACATACCAGGATG AAGTGGAAATGACAGCTTGAGGAGGAAAAGCTAGAAACAATAACCAGGAAACATTAATTTCATTTCGAGTAAGAATAATA ATTGGAGTTGATTTGGATCTTGATTTCTTGCTGCATCTTAATCTGAAGAAAACGAAATTGGATCTATCTTATTTTTTTCT CTATTATTTTGTCACAGCAAAATTCTGAGCATTTCTGAGGGTTATATATAGAACAGAGTATTAAAAAATATTTATTTGGA AAAATTATTAATTTAGAATGTTATAATATTATATTATATGATTATATGTTATAGTTTTTAGCAATTGAGCAATGTCGACT TCTAAAATAAAATAATGTCATGATTAACAGAATGAACCTGCATACTATTGTACCTTGTGAAGTTGGACTTGATGTTGTTA GATATTGCAATATAATTGGACAACTAAGCTTTTCCCATTCGACAATATTCACAGTCCAAGTGGATGAATTAAGGTATATT TCAGTATGATACGAACAAATATAATTTTATAATATGCCTAAAAGTCAATAGTAACGAATGAAATCACATTTATAATTTAT CTGTTTATTTTCATATATATCATTTTAGGCTTTTGGCATGATATTTCAGCAAACTTTAAACTTATTTGAGTAGCTGAAAA TTTATTTCATTATCTTCTTTTTTATTACAAGGAGGGTTAAAGCACCGAAACAACTAAACTGACCTTACTGTTCTAGTAAG CTTGGTTCTCCATTCTTACTAGTTTAATATAATCCTTTTTGGTTTTCCAAAAAAAAAACAACTAAACTGACCTAGGAAAG GAAACACCAACATGATCCCTAAGAAAGCCTTACTAGGGGGTCACCAACAACACGCCAGGGCTCATCATGAAGTTGTTTAA ATTTCCTAAGGTCATCCTACAACTCAACCCTTAGTCTCTCTTGACGATTTCCATACACAACAAATAAGAGCCAGTCACCA TGAACCAAATCATTCACACGCAGATGAATACACTGTAATCTAACATCAAGCACCTGAATCGAAAAAGAAGAAGAATCCCA GCAGCACCATATATCCCCTGAAAACCCCAAGGGATCAGATCTAACAATAGTATCAAAGGCAAACTTATTAACAATTTCCT CAGGTTGAGCACCACTCACTCGCCGCTCCAAAATAGCAAGAAAACCCATGTTATACATTCTAGCACAATCCCTAATCAAA CATGCAAAATCCTTTTTTCCCAGCACCTTTACAATTTCAAATTATGTAATTCATCATAAACAACAAGATAAGAGGAGGGA ACATGACACAAACCAACTCATTAAGAGACGGGTTAGGAGAATGCTTTAGACATAGAAGCATCAACTTGAGTATCAAACTA GGGACCAAGTGAACCCTTAATCAAGACCTCAGAACCATGGGGCCCATCCTTAACCACTCCTTTCTTCAGAAGAAGGGAAT GAAACAGTTAGAGTTTTTCCCCAGAAGGAGTATATTTCCCCCCATCAATATCCCCACCTGAAACCAGATCAGATTTTGTG AGAATTATTTCCAAAATATGTAGTTGGAAATATGTTTGTATTAATTGTTATAGTTATTAATGTTCAAGACTATATCAATA TGATGATATTGGTTCAGTGGATGTGCAACAAGCTTTGTACCTCCATGTGCAAGGTTCGAAACCTGCTGGCTGCGTTTTGC TTATTAATTAATTTGAATGTTTGGAAATTCAAAATTTTGGCAAAAAGACGCAGCCCTTGGGATTCGAAGCCGCGACTTTC AATTCACGTGGGCCATCAGATGTGATTGCCAGTTGAGC

Download Genomic Sequence

CDS sequence (LotjaGi2g1v0003400.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGGTCTTAGCTTGAAGATGCAGAGTCACCATGATCAAATGGGGTCTAAAAGAAAGTACACTTTCATTCAGGACCATAG AGCATGGCTACCGTGGTTTTTGTTTATGTGGGTCCTGCTAATGGCTTTTATCAGTTGGAATATCTATAGTAAAATGGATG ATGACACTAAAGTTAGAAGGAAAGAGGTGTTGGGTAGCCTCTGTGATCAAAGGGCAAGAATGTTGCAAGATCAGTTTAGT GTTAGTGTGAACCATGTCCATGCTCTTGCCATCCTTGTTTCAACTTTCCATTATTACAGAAACCCTTCCGCCATTGATGA GGAAACCTTTGCTGAGTATACAGCAAGAACAGCATTTGAACGGCCATTACTGAGTGGTGTGGCTTACGCACAAAGAGTAA TTAACTCAGAGAGAGAGAGATTTGAGAAGCAACACGGATGGGTTATAAAGACAATGGAAAGGGAGTCTTCACAGGTTAGA GATGAGTATGCACCAGTGATATTTGCTCAAGAAACTGTCTCATACCTTGAGTCTCTTGATATGATGTCTGGGGAGGAGGA CCAAGAGAACATTTTAAGGGCTAGGGCCACTGGGAAAGCAGTTCTAACAAGTCCTTTCAGGCTGTTGGGTTCTCATCATC TTGGCGTTGTTTTAACATTTCCTGTGTACAAATCTAAGCTCCCTCCAAAGCCAACACTAGAAGAACGCATTGAAGCAACT GCAGGATATGTTGGAGGATCCTTTGATGTTGAGTCCCTTGTGGAGAATTTACTTGGGCAACTTGCTGGTAACCAAGCAAT TTTGGTGAATGTGTATGATATCACAAATTGTAGTAATCCCCTAACCATGTATGGAAATCACTCCGAAGAAGCTGATATGT CTCTTTCCTATGAAAGCAAACTCGATTTCGGAGATCCATACAGGATACATCAGATGATATGTAGGTATCATCAGAAGGAA CCAACAAATTGGGTCGCCCTTACCACGGCAGTCCTATTCTTTGTGATTCTTATATTAGTGGGTTACATTTTATATGAAGC TGGAAATCATATTGTCAAAGTTGAAGATGATTTTCATGAAATGCAGGATTTAAAAGTCCGAGCAGAAGCAGCTGATGTTG CCAAGTCCCAGTTTCTAGCTACAGTCTCTCATGAAATTAGAACACCAATGAATGGCATTTTAGGAATGATGGCTCTACTT CTAGATACAGAATTGAGTTCAACCCAACGAGATTATGCTCAGACTGCTCAAGCATGTGGAAAGGCACTGATAACATTGAT AAATGAGGTTCTTGACCGGGCTAAAATTGAAGCTGGCAAGTTAGAGCTAGAGGCTGTTCCATTTGACCTCCGTTCCATAC TTGACGACGTCCTTTCTCTTTTCTCTGAGAAGTCTAGACACAAAAGTCTAGAGTTGGCTGTGTTTGTTTCTGATAAAGTC CCAGATATTCTTATGGGAGATCCTGGAAGATTCAGACAAATAATAACAAATCTTGTTGGCAACTCTGTTAAGTTTACTGA GCAAGGACATATATTTGTTAAAGTTCATCTAGAGGATAACATAAATCCCGTAATGAATGGAAAACATGAAACTATTCTGA ATGGAGAGTCAGATGAGGTTTTCCATTTATCTGGTGATTGCCATTTCAAAACCTTAAGCGGATGTGAAGCAGTTGATGAA CAGAACAGCTGGGAGAATTTTAAGCATCTGATTGCAAATGAAGAACGTTACTTCGATTGTTCAAGTAAAATGGCAGCCAC TAGTGAATCATCGGAGCAAGTCAAATTGAGAGTCTGTGTGGAGGACACTGGAACTGGAATTCCTTTCTCAGCCCAGGATA CAATATTCATGCCTTTTGTGCAGGCTGACAGCTCAACTTCTCGAAATTACGGCGGTACTGGCATTGGCTTGAGTATCAGT AAATGTCTGGTTGAACTAATGGGTGGTCAGATAAACTTCACAAGCCGGCCCCAGGTCGGGAGCACATTTTCATTTACTGC TGCTTTCGGAATGTTTAAGAAAAATTCAGTTAGTGACATGAAGAAACTAAATTTGGAAGATCTTCCTTCCAGTTTTAGAG GCCTGAAAGTCATAGTGGTCGATGGAAAACCAGTTAGAGCTGCTGTGACTAGATACCTTTTAAAGAGACTAGGGATACTC GTTAAAGTTGCAAATAGCATCAGTCAGGCTGTGGCTTTATGTGGGAAAAATGGTTCTTTAACATCAGGAATGTTCCAACC TGATATTATCATGGTTGAGAAGGACACATGGATATCTGGAGAGCATGGAGGTTTCAACATATGGAAGCTGGACTTCAAAC AGAATGGACATGTATTTAAGATGCCTAAAATGATCCTTCTGGCAACCAATATTAAGAATACCGAGTTCGACCAAGCTAAG GCCACAGGTTTTACTGATACTGTGATCATGAAGCCTCTGAGATCTAGTATGGTGGCTGCGTGTCTTCAGCAAGTTCTGGG GATAGGGAAGAAGAGGCAGCTAGGACAGGACATGCTGAATGGTTCTTCTTTTCTACAAAGCCTTCTCTACGGAAAGAAAA TCTTGGTGGTCGATGACAATGTCGTGAACCGGAGAGTTGCTGCAGGTGCATTAAAAAAGTTTGGAGCTGATGTGAAGTGT GTTGAAAGTGGCAAAGCTGCACTTGAAATGCTTCAATTGCCTCACTGTTTTGATGCTTGCTTCATGGACATTCAAATGCC AGAAATGGACGGCAATAAGGACTGGCTCTTAGCAATTGTTTGTTACATCATGCATTGGATTGGCCCTGGTATGGATGTTT AA

Download CDS Sequence

Protein sequence (LotjaGi2g1v0003400.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MGLSLKMQSHHDQMGSKRKYTFIQDHRAWLPWFLFMWVLLMAFISWNIYSKMDDDTKVRRKEVLGSLCDQRARMLQDQFS VSVNHVHALAILVSTFHYYRNPSAIDEETFAEYTARTAFERPLLSGVAYAQRVINSERERFEKQHGWVIKTMERESSQVR DEYAPVIFAQETVSYLESLDMMSGEEDQENILRARATGKAVLTSPFRLLGSHHLGVVLTFPVYKSKLPPKPTLEERIEAT AGYVGGSFDVESLVENLLGQLAGNQAILVNVYDITNCSNPLTMYGNHSEEADMSLSYESKLDFGDPYRIHQMICRYHQKE PTNWVALTTAVLFFVILILVGYILYEAGNHIVKVEDDFHEMQDLKVRAEAADVAKSQFLATVSHEIRTPMNGILGMMALL LDTELSSTQRDYAQTAQACGKALITLINEVLDRAKIEAGKLELEAVPFDLRSILDDVLSLFSEKSRHKSLELAVFVSDKV PDILMGDPGRFRQIITNLVGNSVKFTEQGHIFVKVHLEDNINPVMNGKHETILNGESDEVFHLSGDCHFKTLSGCEAVDE QNSWENFKHLIANEERYFDCSSKMAATSESSEQVKLRVCVEDTGTGIPFSAQDTIFMPFVQADSSTSRNYGGTGIGLSIS KCLVELMGGQINFTSRPQVGSTFSFTAAFGMFKKNSVSDMKKLNLEDLPSSFRGLKVIVVDGKPVRAAVTRYLLKRLGIL VKVANSISQAVALCGKNGSLTSGMFQPDIIMVEKDTWISGEHGGFNIWKLDFKQNGHVFKMPKMILLATNIKNTEFDQAK ATGFTDTVIMKPLRSSMVAACLQQVLGIGKKRQLGQDMLNGSSFLQSLLYGKKILVVDDNVVNRRVAAGALKKFGADVKC VESGKAALEMLQLPHCFDACFMDIQMPEMDGNKDWLLAIVCYIMHWIGPGMDV

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Domain prediction

Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.

Prediction algorithm	Identifier	Start	End	Length	E-value	InterPro ID
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	28	28	-	–
PANTHER	PTHR43719 View details on PTHR43719 Search for proteins/transripts with this domain View external data on PTHR43719	23	911	889	0.0	–
PANTHER	PTHR43719:SF35 View details on PTHR43719:SF35 Search for proteins/transripts with this domain View external data on PTHR43719:SF35	23	911	889	0.0	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	28	50	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	29	49	21	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	50	323	274	-	–
ProSiteProfiles	PS50839 View details on PS50839 Search for proteins/transripts with this domain View external data on PS50839	101	313	213	38.984	IPR006189 Show description in modal box View details on IPR006189 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM01079 View details on SM01079 Search for proteins/transripts with this domain View external data on SM01079	101	286	186	5.5E-31	IPR006189 Show description in modal box View details on IPR006189 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF03924 View details on PF03924 Search for proteins/transripts with this domain View external data on PF03924	104	284	181	9.9E-37	IPR006189 Show description in modal box View details on IPR006189 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.450.350 View details on G3DSA:3.30.450.350 Search for proteins/transripts with this domain View external data on G3DSA:3.30.450.350	105	320	216	7.7E-98	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	323	345	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	324	345	22	-	–
Gene3D	G3DSA:1.10.287.130 View details on G3DSA:1.10.287.130 Search for proteins/transripts with this domain View external data on G3DSA:1.10.287.130	346	437	92	6.8E-25	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	346	933	588	-	–
SUPERFAMILY	SSF47384 View details on SSF47384 Search for proteins/transripts with this domain View external data on SSF47384	360	440	81	2.35E-18	IPR036097 Show description in modal box View details on IPR036097 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00388 View details on SM00388 Search for proteins/transripts with this domain View external data on SM00388	374	439	66	2.1E-22	IPR003661 Show description in modal box View details on IPR003661 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00082 View details on cd00082 Search for proteins/transripts with this domain View external data on cd00082	374	435	62	1.34569E-16	IPR003661 Show description in modal box View details on IPR003661 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00512 View details on PF00512 Search for proteins/transripts with this domain View external data on PF00512	374	439	66	2.1E-16	IPR003661 Show description in modal box View details on IPR003661 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50109 View details on PS50109 Search for proteins/transripts with this domain View external data on PS50109	381	671	291	42.392	IPR005467 Show description in modal box View details on IPR005467 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF55874 View details on SSF55874 Search for proteins/transripts with this domain View external data on SSF55874	428	666	239	2.51E-39	IPR036890 Show description in modal box View details on IPR036890 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF02518 View details on PF02518 Search for proteins/transripts with this domain View external data on PF02518	486	667	182	3.8E-30	IPR003594 Show description in modal box View details on IPR003594 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00387 View details on SM00387 Search for proteins/transripts with this domain View external data on SM00387	486	671	186	6.7E-32	IPR003594 Show description in modal box View details on IPR003594 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd16922 View details on cd16922 Search for proteins/transripts with this domain View external data on cd16922	491	667	177	3.63046E-47	–
PRINTS	PR00344 View details on PR00344 Search for proteins/transripts with this domain View external data on PR00344	596	610	15	1.7E-12	IPR004358 Show description in modal box View details on IPR004358 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00344 View details on PR00344 Search for proteins/transripts with this domain View external data on PR00344	614	624	11	1.7E-12	IPR004358 Show description in modal box View details on IPR004358 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00344 View details on PR00344 Search for proteins/transripts with this domain View external data on PR00344	631	649	19	1.7E-12	IPR004358 Show description in modal box View details on IPR004358 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00344 View details on PR00344 Search for proteins/transripts with this domain View external data on PR00344	655	668	14	1.7E-12	IPR004358 Show description in modal box View details on IPR004358 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.50.2300 View details on G3DSA:3.40.50.2300 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.2300	690	828	139	1.5E-5	–
SUPERFAMILY	SSF52172 View details on SSF52172 Search for proteins/transripts with this domain View external data on SSF52172	691	827	137	3.98E-8	IPR011006 Show description in modal box View details on IPR011006 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50110 View details on PS50110 Search for proteins/transripts with this domain View external data on PS50110	696	826	131	15.037	IPR001789 Show description in modal box View details on IPR001789 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.50.2300 View details on G3DSA:3.40.50.2300 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.2300	842	913	72	1.5E-18	–
SUPERFAMILY	SSF52172 View details on SSF52172 Search for proteins/transripts with this domain View external data on SSF52172	851	912	62	3.56E-17	IPR011006 Show description in modal box View details on IPR011006 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50110 View details on PS50110 Search for proteins/transripts with this domain View external data on PS50110	853	933	81	21.33	IPR001789 Show description in modal box View details on IPR001789 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00072 View details on PF00072 Search for proteins/transripts with this domain View external data on PF00072	854	911	58	4.1E-10	IPR001789 Show description in modal box View details on IPR001789 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00156 View details on cd00156 Search for proteins/transripts with this domain View external data on cd00156	855	911	57	4.23073E-14	IPR001789 Show description in modal box View details on IPR001789 Search for proteins/transripts with this domain View on EBI InterPro Service

Gene function (GO predictions)

GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO:0000155 View details of GO:0000155 AmiGO InterPro QuickGO	Molecular function	Phosphorelay sensor kinase activity	Catalysis of the phosphorylation of a histidine residue in response to detection of an extracellular signal such as a chemical ligand or change in environment, to initiate a change in cell state or activity. The two-component sensor is a histidine kinase that autophosphorylates a histidine residue in its active site. The phosphate is then transferred to an aspartate residue in a downstream response regulator, to trigger a response.	Subterm of View details of GO:0004673
GO:0000160 View details of GO:0000160 AmiGO InterPro QuickGO	Biological process	Phosphorelay signal transduction system	A conserved series of molecular signals found in prokaryotes and eukaryotes; involves autophosphorylation of a histidine kinase and the transfer of the phosphate group to an aspartate that then acts as a phospho-donor to response regulator proteins.	Subterm of View details of GO:0035556
GO:0007165 View details of GO:0007165 AmiGO InterPro QuickGO	Biological process	Signal transduction	The cellular process in which a signal is conveyed to trigger a change in the activity or state of a cell. Signal transduction begins with reception of a signal (e.g. a ligand binding to a receptor or receptor activation by a stimulus such as light), or for signal transduction in the absence of ligand, signal-withdrawal or the activity of a constitutively active receptor. Signal transduction ends with regulation of a downstream cellular process, e.g. regulation of transcription or regulation of a metabolic process. Signal transduction covers signaling from receptors located on the surface of the cell and signaling via molecules located within the cell. For signaling between cells, signal transduction is restricted to events at and within the receiving cell.	Subterm of View details of GO:0009987 View details of GO:0050794 Part of View details of GO:0007154 View details of GO:0023052 View details of GO:0051716
GO:0016310 View details of GO:0016310 AmiGO InterPro QuickGO	Biological process	Phosphorylation	The process of introducing a phosphate group into a molecule, usually with the formation of a phosphoric ester, a phosphoric anhydride or a phosphoric amide.	Subterm of View details of GO:0006796
GO:0016772 View details of GO:0016772 AmiGO InterPro QuickGO	Molecular function	Transferase activity, transferring phosphorus-containing groups	Catalysis of the transfer of a phosphorus-containing group from one compound (donor) to another (acceptor).	Subterm of View details of GO:0016740

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0003400.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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