Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi2g1v0379900
Transcript ID	LotjaGi2g1v0379900.1
Related isoforms 1	LotjaGi2g1v0379900.2
Lotus japonicus genome version	Gifu v1.2
Description	Histidine kinase; TAIR: AT2G17820.1 histidine kinase 1; Swiss-Prot: sp\|Q9SXL4\|AHK1_ARATH Histidine kinase 1; TrEMBL-Plants: tr\|A0A0B2RSC6\|A0A0B2RSC6_GLYSO Histidine kinase 1; Found in the gene: LotjaGi2g1v0379900
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr2:87654085..87670051) extracted from Lotus japonicus Gifu genome v1.2.

AAATGAGAGAATCAGAAACTAAAATCAAATAAAAACCATGGAACTAAAATTATACATTAGCCTTAAATAATTCATCCTTA CATAGTGGCTTCTCTTTCTGACACGAGGCATAAATAAACTAAAACAAGTGGGAACCTTCTGATGAGTTACTTTATAAGCT CATAGCTTCAGCAGGGAGTTATTGCAGAAAACGAAGAGGAAACATGTTCTAAAAGATCCTTATGTTCATCACCAGCTTCA AGCTCCCCAATGGGTAACATGTGCAGAGACTTGTTTGGTAGATTATGTGGTTATGCCACTTTATTGCAGAAAAACAGCAC CCCAAAAGGTAGAAGAATTTTCCACAGAGATGTGGAGAAAGAAGAATTCCAGTATGCCAGTAGCCATTGTCTCTCATCCT ACTACAGTGTGTTTGTGGTTCGACTAGCTATCATGGTAAGTGAATCTTTTCCAGCACCAACACTATATGATTAAATTGTG GTCTCCAAATTTGTTACTAGCTGCAGTTAAGACTATGTTTGAATACCTTTTAACACAAGTCAATACAGATATTAGCACTC ACTTTGACATAAAAAGTGAACGAACTCTTCTAATAGATTGAGATGAAAGTTTGTTCAAACTGCACTCAACTGATGTCCAA ACACACATTTAATAGTTGATATGTTGAAAGATACTCTTAAGTCTTAATTGCTGTTTGAAATGACATAAATGAAGCCAAGA CAAGGAGAACTAGTTGTGAAGGCTGAAGGGAAGTCTTCTAGATTTGGACCTACTTTGTAGATAATTAACTAACAACAATT TTTATCTATGCAGATCATGCTAGCCATCTTGATAGGGCTTCTCACCATTTTGACATGGCACTTCACAAAGATTTATACAG CAAAATCACTAAGTAGTTTGGCATATGGTCTGCGTTATGAACTTCTGCAACGCCCCATCTTGCGGATGTGGAACATTTTG AACTCTACTGCTGAAATTACAACAGCACAGGTCAAGCTTTCTCAGTATGTGATCAGGCGTCACAGCAACCCATCAACTCA AGCAGAGCAAGTTGAGGTTGATTGTTACTTTTAGTTATTCATCACACACCAACTGTTTTATTAAATGTCTGTGTGAAAAG CATAAAGGACTAATCTTGACACTACAATCATATATGTTTAATTGTTTTACTTAAATATAATGCTGACCATCCCTTATGAG TTATGAATAAATGATCAAGATTGCTATATACATGTGTGTGTATGTATAACACTCTTGTGTGTTTATATTATGTTTGTGAG CATATTAGCACTTGCCATATTAATCGATTTTGTCTTGCTTGCTACGACTCTAGCAGTTGTATGAAGCGATGAGGGCTGTA ACATGGGCGCTTTTTTCTAGCCGGAAAGCTCTCAACTCAATAACTATCAATTACAAGAATGGATTTGTCCAGGCATTCCA TAGAGATCTGAAGGATAACAACACATTTTACATATACTCTGATCTTGCAAACTACTCCATGGCTGCCAGCGATACTAACG TGATGGGTTCCCTTTCAACACGTCAGGCATGGGACGATAAGGCCATTCATGGTAACTTTTCTGCAAAATGGTACCGCGAA CCCCTTGACCCTGTCAGCGGCGAGAAGATTGGAAAAGCGATGCAAATTGCACCTGAAGACTTGATCAACATAGCTGGCCT TTCCCAAGTGCCTGATGGTGTAGCTTCATGGCATGTTGCAGTGAGCAAGTTTACTGATTCACCATTGCTTTCAGCAGCAT TGCCAGTTTGGGACTCTTCTAATAAAAGTATTATGGCAGTTGTGGGTGTCACAACTGCACTTTATAGTGTAGGACACCTA ATGAAAGAACTAGTTGAGTTACACAGTGGCCACATGTATTTGACTTCCCAAGAGGGTTACTTGCTTTCAACTTCCACAAG TGCACCTCTACTGACAAATTCAACAAAGCCTCCAAAGCTTAAGATGGCTGTTGACTGTGAAGATGATGTGATAAGAATGG GAGCTGAGTGGTTACACAGAACTTATGGGAAAAAATTTCCTTCAGCTCATGAGGTTCATGTAGAAAACGCCATGCTCGGC CACCAGAAATATTACATTGACTCATTCTTCCTGAACTTGAAGAGACTTCCTTTGGTAAATTACAAGATACATTGCCTTGT CCTTTGATTTTATGTATATCATTACTTTTTAAACTTATAAATGCCTCTAATTCATTTCTGTTTTAAGTAACTAGATATCC TGCTGTACTTTTGGGTGTCTGCAAATTATGACTTATACTTTGTGCAGGTAGGTGTAATCATATTACCAAGAAAGTATATC ATGGGGCAGGTAGACGAAAGAGCCTTCAAAACGTTGGTTATTTTGATATCTGCGGCTTTATGTATTTTAGTCATCGGATG TGTTTGCATTTTGATATTGACAAACGGAGTGTCAAAGGAAATGAATCTAAGAGCAGAATTGATAAGTCAACTGGAAGCAA GAAGGAAGGCAGAGGCATCAAGCAACTACAAAAGTCAATTCCTTGCCAACATGAGGTTGGTTTTTCAAGTTCAGTTTTGG AGATACATAAAAAATTTGGAGCTTGCTTTATCCAATTTATGATCTAATCTGTAATTTAGAGAACAAAGAAAAATTTATCC ATATGCTGATCAATGGCTTGAGCCTTGAAGGAATCTGAGCAACTAAATTTACATATTTATGATTTCAAAAAAACTGATTG AGTTTGAAGCATCTTGACTGATTCGCTATAAACTAGAGCCTGTTCATAAAGCTGGACACAAACTACTCTATCTTTCCATT TAATATGATATTTCATCTTAGCGTTAACAAATGTGCTTCATGGTTTTCTTTTTCTTGTGTGTTACTTACAGTCATGAACT GAGGACACCTATGGCAGCAGTAATTGGGTTGCTTGACATCCTTATATCTGATGACTGTCTCACAAATGAACAATATTCAA CAGTTACCCAAATAAGAAAATGCTCAACCGCCCTGCTCCGTCTTCTTAACAATATTTTGGATCTGAGCAAGGTGAGATTA GGCTAAGTTTGTTGTCCAAGAATATTAGAAAACAAATTCCAAGTTTCTTTTCCACTGTTATAATACTGCACTTCTGCCAA AAAGCCTCCTAATGTTTATAGAATTTAGGTGGAATCCGGAAAACTGGTCCTAGAAGTTGCAGAATTTGATTTGGGGCGGG AACTTGAAGGGCTGGTAGATATGTTCTCTGTGCAATGCATTAACCACAATATAGAGACTGTTTTAGACCTTTCTGGTATG ATCCGTTTTATTGGATGAGAGATTTTAATTTCGCTGAAAAGTGAATGATTAGAAGTTCTTTTAACAACTTTATAATACAT CTAACCAATAAGTATATTCCTGCAGATGATATGCCAAAGGTAGTTCGGGGTGATTCTGCTAGAGTAGTTCAAATATTTGC GAATTTGATCAACAATTCAATTAAATTTACTCCATGTAAGTCAAACTTCTTATGTTCTAGTTTGTTACAACAATGGTGAT GAAAATAAATATAAAAAGAAAATGATCTAATCTAAACTCTCTCAAATTCAATGCAGCGGGACATATTATTCTGCGAGGAT GGTCTGAAACCCCAAGTTTTTGTGGTGAGAGCCTGAATTTTCCTCTTGACCAGAAGAAATCGCGGAGTTTACAGAAGAGC AGAGAAAGGATAAATCCAAATCATGCAAAGAGAGCATCTATGAGAGATAACAAAGTGATACTTTGGTTTGAAGTTGATGA CACAGGCTGTGGTATGAACCTAAAAACTTGTCTGGAAAAGCTAAATTAAGAACTGTCTTTATCTTCAAAACAAAAATCAA TATAAGGACAAATCACTTGGATTTTCTTCTTATATTTGTGATATAGGTATTGACCCAAGCAAATGGGATGCTGTGTTTGA AAGTTTTGAGCAAGCTGATCCATCAACTACTCGACTGTAAGCAATTTAATTAACTTTAAAAAGAAGATAAGATAAGCCTT CTAAAGCTTACTTTTTAGCTAGAAAATGATCATAAAACTATTATATAAGAATGTCACTGAACTTAAAAACTTTTATGAAA CTTATATCCAATGGTCTAGAAAACTCTTGAAATCTATGGTCTGAAAATTTATGAAGTTTTGAAACCTTTACTCATTTCAG GCATGGTGGCACTGGGCTTGGTCTTTGCATTGTCAGAAACTTGGTGAGTAAGACTCAAAATGTGAAAATTTTCAAATAAA TGAAGTACAGTTTCCATTCCTATGAATGTTTGATGAAAGAAACAAATATGTAAATTCATGTAGATAGGAGAACCTGATAT CAGCTGCTTGTTCTAGGAGAATAGTAACAAGAACATTGTCTTTTATTTTAGAAGAGTATATTTCCACGTTATGGTTTATC AATTCCCTTTGTGTGTGTCCTTTTCTCCTCTAAAAAAAGTTGTGAACTTTGCTGGATTGAATATAAGTTGCTTTGATCTC ATTATCACTGTTGGGTAACAGGTTAATAAGATGGGTGGAGAAATCAAGGTTGTCAAAAAGGAGGGCCAAGGAACATTAAT ACAATTGTGCTTGCATCTCAGTGTACCCGTGGAACACACAGATCAACACTGTGCAGTAGATTTGACAAAGAATAGCTTAG TGGTGAGTAGAATCTCTCAACTTTATGAATAATATTTGAATTACCCAATATGATATGTTTGTGTGCTTGTGTAATAGCCC TAGGATTTATTGAGAACACAAAAAAGGGACAAAAATCATCCCAATTGATGTATTGTGATGGAAACCCAAAACAGAAAATA GAACTGAAGGAATGAAACAGTAATCAGGATTGTTTATTGATGAATTGGAAATCGTTACAGAGAAGGAAAAGCCTTTCCTA AACTGACCAGAGCCAAGCTCCTATAGGAAGCTATTGCTTCCTACTCATTACTACACGCTCAATGATTTCAGAATGCCTTC CCTACCTCTCACTACCTTCCTTATATTATGGAATGGATTACAATCCTACCTCCCCTCTCTCTCGCCAGCTCACCAGCTGT GCTGTTAGTTAGTTACTACTCCCTTTGTCCCTTTTGCCCCTTCTAGAGTATACCTTCCACTCTTTGGGCTTCGACCCCAC ATGGGCTAATGACTCACTTGGGCCAGCTGCTGGATCATAGTTCCTAATAATGCCGCCGTCTGAACTCACAACCTTGTCCC CAAGGTTGAAGTTTGGGTATAAACTCATGATGGTGAGGGCATCCTCCCAGGTAGCCTCCTCAGCAGTTTTGCCTTGCCAT TTAATTAGTAGCTGCTGAATGGTGTCACCCTGCAACTTCACCAGGCGAGTGGCTAAAACAGTGTCGGGTGTGTCCTTGTC ATCACACTCGCCCTCCAATTGATCTGGCAAATCTGCTTCTGCAGAGTAGTCCCCAATCGCCTTCTTGAGCAATGACACAT GAAACACAGGATGAACTCGCGATCCTTCTGGTAAACGTAACCTGTAAGCCACCGCACCCACACGAGCCACGATAGGATAA GGCCCATAGTATCGGGCTGCCAGCTTTGCATGAACCCGGGTTACTACAGATTGTTGACGATGTGCGCGAAGCTTCACAAA GACCCATTCCCCGACAGTAAATGATTTTTCAACCCGCTTAGTGTCAGCTTGTGACTTCATTCGACCCTGGGCTCGCAAGA GTTGTGCCTTCAACTGGCGCAGAACCTCATCTCGATCAACCAATTCACGTTGCACTGCGTCAACCCTGGTCTCCCCGAGT CCCCAACGTGTGATTGCTGGGGGTTTGCGTCCATAAACAACCTCGAACGGGGTCATATGTGTGGCTGAGTGGTAAGATGT ATTGAACCAATACTCAGCCCAATGGATCCAAGTTGCCCACGTTTTAGGTTGATCAGCCGAAAAACAACGCAAATACGTTT CCAAACAGCGATTTACGACTTCCGTTTGTCCATCCGATTCGGGGTGGTACGCGGAACTCATATTCAACTGTGTGCCCTGC AACCGGAAAAGCTCTTTCCAGAAATGACTCATAAATACTGGGTCCCGGTCGCTCACAATGGTTGAGGGAACTCCATGCAA ACGTATGACTTCCTTGGCAAACAATTCAGCGATGCTCTTCGCAGTATAGGGGTGCTTCAGCGGAATGAAGTGACAGAATT TGGATAGGCGATCCACGACCACTAGCACTGCCTCGTATCCCCTGGATTTAGGTAGGCCAGTTATGAAATCAATCGAGAGA TCTTCCCACACCTGATTTGGGATGGGTAGAGGCTGCAGCAAGCCTGCGGGCGATGAGGCCATGTACTTTTGTCTTTGGCA TGTATCACAGCTACGAACAAACTCTTGCACCGTGTTCTTCATGCCTACCCAATAGATGTTGGCCGCGAGCCGCCGATAGG TGCGGAGAAATCCGGAGTGCCCGCCATGTGGGGTGGCATGAAATTCCTTTAACATCTGTGGAATTAGAGAGGAAGTATGT GACAAAACCAGCCTCCCTTTGTACAACAGAATCCCCTGCTGTAGACTGAATTCCGGATGAGTTGATGGGTCATTTTGTAA CTCCATGATCACATGCTTAAGTTTTGCATCCTGCTGAACCTCTGTTGCTATCAACTGGTGATCTTCCCAGCGCGGGTACG TGCACACGGTCCTGATCTCACCATATTCCCCAACGCGCGATAGCGCATCTGCTCCCTTATTTAACTTCCCAGGTTTATAA ACGATATCAAAGTCATACCCCAATAGCTTCGCGGCCCAATTCTGTTGTTCCCCAGTAATAATCTTTTGATGGAGCAACTC TTTAAGACTCTTCTGATCAGTAGACACAAGAAATTTCCGTCCCAATAAGTAAGGACGCCAATGCTGTATCGCCAAAGCTA CTGCCATAAGCTCTTTCTCATAGGCGGACTTAGCGAGGTTCCGTGGTCCTAAGGCCTTGCTATAGTATGCTATGGGTTTC TTGTCTTGCATCAAAATCGCCCCGAGGCCACACCCTGACGCATCACACTCAATTAGGAATTCTTTCTCAAAATCTGGAAG TGCCAAAACAGGGGCCGTTGTGAGCTTCCCTTTTAGAGTTTCAAATGCATTTTGTGCTGCAGCTCCCCACTGAAAAGCAT CTTTCTTTGTCAAATCTGTGAGTGGCCTTGCTATTTTCCCATAATCCCGAATAAATTTCCTGTAGTAACCGGTTAATCCA AGAAAACCTCTCACCCCTTTTACATTCTTGGGCACGGGCCAACTCTTGACACTCGCCACCTTGCTAGGATCAACCGCCAC TCCCTGTGCTGAAATCAGGTGCCCCAAGTATTCAACTGAGTCTTGCGCAAACTGACATTTCTTCTTGTTTGCTGTCAAGT GTTGCTGTTGGAGGAGTTGTAAGACCTTCTCAAGATGCAATAGGTGCTTTTCCCAATCGCTGCTATACACTAGAATATCA TCAAAAAATACAAGCACTCCCTTCCGGAGCATGGGACGAAAAACTGCGTTCATCAAACTCTGAAACGTCGATGGTGCGTT CATGAGACCGAACGGCATTACGAGGAATTCGTAGTGCCCTTCATGGGTACGAAATGCCGTTTTATGCACATCCTCTGCCC TTACGCGAACCTGATGATACCCCGACTTGAGATCAAGCTTTGAGAAAAATTTAGCACCATTCAACTCATCGAGCAGCTCT TCAATTACAGGAATGGGAAACTTATCAGGGACTGTTACCTTATTGAGTGCGCGGTAATCCACGCACATACGCCATGACTG GTCCTTCTTCTTGACCAAGAGCACTGGACTGGAGTAAGCGCTTGAGCTATGTCGTATGATGCCGGCTGACAACATCTCCT GAACCTGCCTTTCAATTTCATTTTTATGGGTATGGGGATAACGATATGGTCTGACGTTGACTGGTCCCTGCCCTTCCTTT ATGTTGATACAATGCTCTTTGCCTCGACTCGGGGGTAGCCCCTCCTGAGCTTCAAACACACTGTCATACTCTTGCAACAA CTTCTGCAAGCTTTCCTGTTGCGCTGCCTCTAGATGCTGACCTTTGGGAACCTCATGCCGGTGCTCCAAGAGTCCAAACG CTAGCTTGCTGTCAAGGTCAGACCTTCTCAGGATGCTTTGCAACGCCCCCATGGAACTTACGCCAGCACTAAGACCCTGT AGCCTTACCCACTGTGTGCCGTGCCAGAAACTCATAGTATGCTTTCCCCAATTAGCAATTGTATCTCCCAACGTCTTGAG CCATTCAATTCCTAGCACAATATCAGGGCCTCCCAGATCAAACAAATGGGGTGTGCACGAGAACTTGTAATCCCCAATCT CCAGGTCAAGCTCCTTACACTTACCTCTGGTGTGAGTCTGGAAACCATCTCCCAACTTGATGGACATCCGTGGAGTGTCT TCCACTTCCCAGCTCATTCGTTGCACAACCTTGTGGTCAACGAAATTATGAGTGGCTCCGCTGTCGACTAACACGAGCAC GGGCACCCCTCGCACTTTTCCTTGTAGCCTCATGGTTTGTGGCGGTTCACCATGGTCGACGAGATTGCACAAACTCATTA TACTTAGCTCACCATCGACCTCGTCTTCCATCTCGTTCATCTCTACGGCGAGAATGTTCCCATCGCCGGCGTCGTCGTCG CCGTCTTCGACGAGCAGCACTCGGAGTTGGCGATCGGGGCATTTGTGCATTGGGTGGAAAGGGCCTCCACATTTGAAGCA CTGACCCTTTTGTTTCCGATCCAATAATTCATGATAAGTGAGATGGGAGAATCCCCTGTCACGTGGACCGGCCCTCCTAG CTTCTGTTGTTGCCTTGGGGTCTCCTTTTGGGCCACCAAAAACTGGTTTATTAGTAGTCGCGGGCCCATTATCCTTAGCG CCTTTGACCCAGACCCAATCGGTGCTTCCCGGGCGACCCGGCCCCGGGCGATCGCCAGTCCGAAAACCCGCTCCACCAAT CCTCGAACTACGGTTATAACCCGACCCGGCTTCACCCCTTACTTCCTTCTCCACCGCCCGGGCGATCAAGAGCAATCTTG AGCGGTTCACTCCGCCCATCGCCACCAAGCTCCTCGCCTTTCCCCGTATCTCTTCTTTCAGACCATGCAAGAAGTATCCC TGGTATTGCTTCTCAGGTAATTTTGGGATTTGGGCCGTCAAATATTCGAACTCGGTAATGTACTCCTCCACCGTACCTTT CTGACGCAACTCAGTCAATTGCTCGTACACGTCACCGTCGCCGTGACCGCCATAACGCTCCAGAAGAGCTTGACGCAACT TCTCCCACGTCAGGGGAGCTTCTGATTCGAACAAAGAGTTGTAAAAATGGATGGTGGGTCCATCCATGCTGAGCTGAGCG AGGCTCACCTTGACCTCCGGTGAAGTCTCTTGCACACGGAAATACACCTCCGCGCGTGAGATCCAGCCCGCCGGGTCTCT CCCGTCGAAGATCGGCAACTCTACCTTCTTTACTGACTGGCGAAACTCCGCCAACGCATCGCCGTGTAGAGGTTGCGTTC GTGGTCCTCCTTCGTTCGCTTCAGGTTGCTCAGGAACCTCAGCGCTTGAGCTTTCTCCCTTGTCTCGGTTTGCACTTGCA TCTTCCCTGTGTGACATTTTTCCTAACGATCGTTCCATCATCGCAATCAATGATGCAGGAAGATCCTTCATCGCCGTCGT AACAGCTACCAGCGACGTTCGCATCTCAGCGAGCTCGCCTTCAAGAGCATCAAGCTTTGCTTCCATCGAGTTCGTCGTGT GTTTGGATTTTCTGGGTGGCATTCACTGGTTCCGGCGAATCAATCCGGCAGGTCGGACCAATTTGATGGAAACCCAAAAC AGAAAATAGAACTGAAGGAATGAAACAGTAATCAGGATTGTTTATTGATGAATTGGAAATCGTTACAGAGAAGGAAAAGC CTTTCCTAAACTGACCAGAGCCAAGCTCCTATAGGAAGCTATTGCTTCCTACTCATTACTACACGCTCAATGATTTCAGA ATGCCTTCCCTACCTCTCACTACCTTCCTTATATTATGGAATGGATTACAATCCTACCTCCCCTCTCTCTCGCCAGCTCA CCAGCTGTGCTGTTAGTTAGTTACTACTCCCTTTGTCCCTTTTGCCCCTTCTAGAGTATACCTTCCACTCTTTGGGCTTC GACCCCACATGGGCTAATGACTCACTTGGGCCAGCTGCTGGATCATAGTTCCTAATATATTGCAACAACTATTACACAAT CTTTTGGTTGACTTTGCAAGTACTAAAGCAAGATTTACTAAATTATTCTTGGTGAATATATAAAGAAGAATATTATAGTG TCTCAGCTTATAGGTTAGGTAGCAGGACAATGGGTAAGCATTTGCAAAAGAACTTGTAAAATGAAGTTAATGGTGTTACC TTTGTTTACCAATGATAAAAGATTCTTAAATAAAAAATGTCAATGCAGGTTCTGCTTGCACTACATGGTAACATGGGTCG ATTAATCACATCCAAGTGGTTACAGAAAAACGGGGTGTGCACAATGGAAGCTTCTGAATGGAATGGACTAACTCAAGTTT TGAGGGAACTATTTCATGCAAGAAGTTCAGTCCATAATAATGACTTCGATGCTCACTATGAGGGATTGAAGTCTAAACTA CTCACCATACAAGATATGCGGAACCCGACTTTTGTCATTGTTGTTGACATTGGCCTACTTGACTTGAGCACAGATATATG GAAGCAACAGCTTAACTTCCTTCACAGGTACTTCGGGAGAGCAAAGTTTGTATGGATGCTAAACCATGACACGTCGAACA CCATTAAGATGGAGCTTCGTAGGAAAGGGCATGTACTAATGGTGAACAAACCTCTTTACAAAGCAAAAATGATTCATATT TTGGAAGCTGTCATAAAGGAGAGAAATCTTGAACTGCAAAAGAAAAATATAACTTCTTCAAGGACCACAATGAAAGAGGG TGATTCGCACGAGTTTGTTGAGATTGATTCTACTCAGTTTGATGCTACTAGCTCTGATGATTCGGACATATCTGAAATGG CCGGTTCTAATCCTGTTAGTGCCAGTGGAGATAAGCCAACTGAAAATGGATATTTGGAAGAAACTAATTTGAGTAAAGAA GAATCTTGCCAGAGTAGCCTCAGTTCCAATTATGCCACTGAAGACACCCAACCTATATCACTGTCTAGTAAAGCACCATC CTCTCCAACAGCAGCACAAGATGGAGATTCTGAATGTGGGGAAACAAATAGAGTCACCGGCTCAAGTAAAGCAATAAATG GAAAGAAATCTCTGGAGGGCCTTAGGATTTTGCTTGCAGAAGATACACCAGTACTCCAAAGAGTTGCAACCATAATGCTT GAAAAAATGGGAGCTGTTGTTGTTGCTGTTGGTGATGGACAACAGGCAGTAGATGCTCTCAATATCATGGTCAGTGCCGA AGATTTTAGAAGAGAGTCTCTCCAGAAGGAAAGAAACACAAGATCTCAAACAGAGATTTTCAGTTGCCATCCATATGACT TGATCCTAATGGATTGTCAGGTATCAATTTTAATAGCTTTATAGCATGTTTGGATGAGTTTATTTTTCTCAGAATCAATT CTGAGACCCATCAGCTACTCACAGAAGCCTCTTCCCATAATTAATTGTGACTTTAAAATTAATTGTAGAACAATTTCTAA AATGCTATTAGTAGCTCAGTCTTGCTTATTGAAGAACACCAACAACAATTACCATATCATGTTAGCAAGTAGTACCCTAT AGATATGTTTTTTCTTGAGTAATAAGTGAATATCAACTTAAATATTCTGATATTCTGTCTTTGTGGAAAATCAGATGCCG AAGATGGATGGATACGAGGCGACAAAAGCAATAAGGAAATCAGAAGAGGGAACAGCCCTGCACATTCCCATAGTTGCTCT TACAGCTCATGCAATGTCATGTGATGAAGCCAAGTGCCTGCAGGTGGGCATGGATGCTTACTTAACAAAGCCAATTGACT TCAAGAAGATGGTGTCCACCATCATTTCACTCACTAAAAGAACATCTTGACTTCACACACAAAGTCCAAGTAAACAAAGG GGATTAAGAGTCTAGGTATGTATATAGAGGTTTACCACATATTAACATCAGAAATCATAGCTTCTCAAATGTATTATAGA AATTTAGTCCAATTTTCCCGACATAACTCACTCAAAAGAGTAAGTTGATGCATTTTAAAGCCATTTATATGTTTCCTGTG ATTGTTTTATATTGTTTCCCTGACATTTTTCGAGACTAAAAAAGATAACAGGAATGATGTTTTGGCAATTTGTCGGAGTT CATTTGCATATCAGGGTTTAGTTCCTAAGTAGCTGGTTTAAAAGTGACAAAAAAATACAAAAGTGGCCCATACAGGTCTC GAACCTGTGACCTTCGCGTTATTAGCACGACGCTCTAACCAGCTGAGCTAATAGGCCGGTTGATAACGAAGGCCTAAATA ACGTATTTAATTTATATGAACAACAAATTTCGCAATATATGTTCCGAGAAAAGTTTTATGTTCTCCGCTTCTACGATTTT TATCAAATTCAAATAACTTTGAACCATTTTTGTGACCGAATTTTGATTAGAAAAGAGAACGTTGGCTACTATGCCCATAT TATATGCTTTTAGACTAAGTTTGATGGAGGTACGATACCACCACAGTAGTACTCAAATTGTAAAAGATTACCTGTCTCTT TGAATTTTTGGTAACCAAATCTAATCAAACACATAGTATATCTTGCATGCCAACATGCATATTAGTCTTATCCCACTCAT CCATGTTTTCCAAGTTTTCACGGTTATTGCTTTGTTTCTTTAGTAGTGTTATCTTGGCTTAGCATCTTTATCTACATGTG ATGGAATGAATTGAACCTTTTAAGCCAGATGCAGTTTTGAGAAAGTTAACCATTAATTAACAACTACTTTTGGCCTAATG TCATCATGTGCCAGAATCCCTTCAGTGATTAATTTTGGAGGAAGATTACTATCTTTATTTGATGAATATCTTTCCTAAGA TTCAACAGATGTACCATTTGCCTTTAATGAGTGTCCATGTTTAAACTAGTAGCCTAGTAGTAGTATTGAAAATTTCTAAA GAAACCTTACCTTTACAACTTTTGACCTATTCATAGGCACTTAATCTGTAACAAGTGTCATTTTTAATTGCGTTAATCCA ACTTGTTCCATTTTTTAAACTTAGTCATAACAATTGTGATTAGATTAATTAGTTTATCATTCAACTTTGTTCACATGTGA GATTTGATTTAACTTATTGTGAGGCATTCAATTTTGTGAAACATGCTACTTAGCAGGCACTATGCAGCTTTACATGAAAC ATTTTCATTAAATTTAAGTATCATATGAAAGCTTCTGAACTATACACAAGTTATACGACATAATCACTTTATTTCCCTGA AAGAATAAAATAAGCAAAGAGTCCAATTTTGGGGACTTGAACATTATTATTATTACAATAACAATAATCTACTCAGTTGG TTTTTCTGCTGAGCTCAAGTAAGTAACCAATGATCACCACAGTTGAGGCAATGGCGAATCCAATAGCTCCCTTGACCAAA ATGGAACCATTATTGGGGATGAAACCTAGCTCTGAGAGTTTCTTGTGTGAACTTGCATAATCTCTGAAAAATGCATCCTC ATCCTAGTACAGATTGAAATTTATTCATTAGTGCACCAAAAATCATATTAGTATAATGAATTAAAGATTGTGACAGCAAT ACTATTAGCATGTTTGGTTAAACTTCTCATTCTTTAGAATCAATTTTAAAACTCAGAAGCTACTCAGAGAAGTTTTTTCA CATAATATATTATGAATTTAGACTCAGTGTGGTTGTTACCTTCGCATATAGTTCAACATACACACGGAATGCAGGATCTT CAACAAGAGCTTTGTCAGAGGGGAGTTTCAATAAGTCTTTTGAATCCGCCTTCAGTAACTCCCTGTTTAGTCTTAATGTT AAATTTCAATTCTTGTACAGTTTAATTATAATCAAACAGTGGTCATCATGTAATTGAAAGAAAAGTAAACAATCTTACAC AAAATAGGAGTTATCAAACTTCAAAGGCTCTCTTGTCCATTGACCTTCAAAGCCAGAGCGCTCTTTATGTGCCTTACCCT TTACCAATTAAAATGAAAAACTGTAATGAGATATATCATTCAACTACATATAACAAGACTCTTTGATATATTGTTCTAAG TTCTAACCAAAGTGTGACCACCAGATAGAGCCACAATGTCTCTGTCATTTAGACCCATGCGATAGAAAACCTCCCTTAAA TGAGATGCACCTGAAAATTTTCCATGCCAAACACAATATACTCACCTTTCAAATTACAATCTCAAAGGCAGATGGGAAAA ATCAACTGCACTCAAATAACAATATTAACAGCAAATCCAGCCTACGTAGCGTCGGCTAGAATGCCCGCCAACACTAAAGT ATTAGCTTCGACTAAGTTATTGTGGCCGCGACACTGATACTAAACCGACACTAAGGTCCTAGCTTCAACTAAGTTATCGC GAGTCCGGACATTGACGCTAAATTCAGTTTATTGTCAGTTTTTACCTCATTAGCGTAAGATAGATAAGCCAACGCTAATG AGCGTTATTCTTGTACTGATGGAAGAAAACATGAGACATAACAACCAAAATGATTTCATTACCTTGTTTGGCATCCGGAA GGCGCCCTTCTGGTGGAGATTCCAATGAGTCCTATGAAAAAAATAACAGAAAATATGTAAAGCTAGATTCATTCCAGTGA AGGTTAACAAAACTACTGTATGATGATCATACATATATTTACCTTTCTACCAGGAGTAAAGTCAATTGTTGGACCCCCAG TGACTTCTACTGCAACAACACCAGCAAGCTGAAATACAAATCCAACTATATAAAAGTTAATCTATGACTCCACATGCAGT GAAAATCCCTCTAATTTGTTTATTTATCTCAATATCTAACTAATTAAAATTACCTGGTAAAGATCCGCATAGGAAATTTT TGGATGTTTAGCCTTCACTTCCTCTATTTTCAAAGGAAACCAAAAAAACAGTTACTTGTAAGCAGAGTGAGTGAAAGAGA AAGAGGGATAGAAGTTCCTAAACAAGAAGAAGAAAGCCTACCACATAAGTCAACTGCTATTTTCAACCCCATATTTGCAG CATGATTCAACTCTTGTTCATTCCTGATAGAGCCATAGGGGCCTCCTGTTTTGGTTTTAACATCGTAGGTACCAGCACTG TGCCAGCTACAAACATATAAATTTGAAACAAAAAAAAGTTTAAGATATGTCATCATATCTAAATGGAGGCATAGAGCATG TTTGATTTCTAGACTTTTGCATGAAATTCAATCTATGTTTACTCATAAACTTAATAGCATATAATTAAACAATTTCTTTT TATTCCGAATCAGTTATGTTGACATGAAAGGTAGTTCGATCACAAAAATTAACTTTGGCTTAAAAATTAATTATATAAAG ATTTTCAAATATGCACTTATAGTTTGTAACCCGAAGTGATTCTAAAACATTTTATCGTGCAAAGAAACATAGCGGTTGTA ACTTACGCTAATCGAAGCATGATAGGAGCACATTTTTTGTTGAAGATAAGAGCGCGAAGGTCCCTACGAGCCTTCTCAAT CTCCTTGAGATATTCAGGATCAACTAAAGGTTTCAGCATGGTCAAAGCTAATTTTTTGCAGGTGGAATGCTTTGATTTGG AAGATGTGGCAGAAGGAAGTGCGTAGAGGCTTTTGTGTTTGAAGGGGTATATAAAGTGAGGGAGAACAGAACACAATGTA GAAAGATGCTGATGCTGGCATGCAAGTAAAGGATTTCATTCCTTTGATTGCTTTGCAGCTGCTAGAGGAAAAGGAAATTT GTTTTTGAATGTTTTCCTTCATCACAAGAAAAAAGGTTCACTTTCAA

Download Genomic Sequence

CDS sequence (LotjaGi2g1v0379900.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGGTAACATGTGCAGAGACTTGTTTGGTAGATTATGTGGTTATGCCACTTTATTGCAGAAAAACAGCACCCCAAAAGG TAGAAGAATTTTCCACAGAGATGTGGAGAAAGAAGAATTCCAGTATGCCAGTAGCCATTGTCTCTCATCCTACTACAGTG TGTTTGTGGTTCGACTAGCTATCATGATCATGCTAGCCATCTTGATAGGGCTTCTCACCATTTTGACATGGCACTTCACA AAGATTTATACAGCAAAATCACTAAGTAGTTTGGCATATGGTCTGCGTTATGAACTTCTGCAACGCCCCATCTTGCGGAT GTGGAACATTTTGAACTCTACTGCTGAAATTACAACAGCACAGGTCAAGCTTTCTCAGTATGTGATCAGGCGTCACAGCA ACCCATCAACTCAAGCAGAGCAAGTTGAGTTGTATGAAGCGATGAGGGCTGTAACATGGGCGCTTTTTTCTAGCCGGAAA GCTCTCAACTCAATAACTATCAATTACAAGAATGGATTTGTCCAGGCATTCCATAGAGATCTGAAGGATAACAACACATT TTACATATACTCTGATCTTGCAAACTACTCCATGGCTGCCAGCGATACTAACGTGATGGGTTCCCTTTCAACACGTCAGG CATGGGACGATAAGGCCATTCATGGTAACTTTTCTGCAAAATGGTACCGCGAACCCCTTGACCCTGTCAGCGGCGAGAAG ATTGGAAAAGCGATGCAAATTGCACCTGAAGACTTGATCAACATAGCTGGCCTTTCCCAAGTGCCTGATGGTGTAGCTTC ATGGCATGTTGCAGTGAGCAAGTTTACTGATTCACCATTGCTTTCAGCAGCATTGCCAGTTTGGGACTCTTCTAATAAAA GTATTATGGCAGTTGTGGGTGTCACAACTGCACTTTATAGTGTAGGACACCTAATGAAAGAACTAGTTGAGTTACACAGT GGCCACATGTATTTGACTTCCCAAGAGGGTTACTTGCTTTCAACTTCCACAAGTGCACCTCTACTGACAAATTCAACAAA GCCTCCAAAGCTTAAGATGGCTGTTGACTGTGAAGATGATGTGATAAGAATGGGAGCTGAGTGGTTACACAGAACTTATG GGAAAAAATTTCCTTCAGCTCATGAGGTTCATGTAGAAAACGCCATGCTCGGCCACCAGAAATATTACATTGACTCATTC TTCCTGAACTTGAAGAGACTTCCTTTGGTAGGTGTAATCATATTACCAAGAAAGTATATCATGGGGCAGGTAGACGAAAG AGCCTTCAAAACGTTGGTTATTTTGATATCTGCGGCTTTATGTATTTTAGTCATCGGATGTGTTTGCATTTTGATATTGA CAAACGGAGTGTCAAAGGAAATGAATCTAAGAGCAGAATTGATAAGTCAACTGGAAGCAAGAAGGAAGGCAGAGGCATCA AGCAACTACAAAAGTCAATTCCTTGCCAACATGAGTCATGAACTGAGGACACCTATGGCAGCAGTAATTGGGTTGCTTGA CATCCTTATATCTGATGACTGTCTCACAAATGAACAATATTCAACAGTTACCCAAATAAGAAAATGCTCAACCGCCCTGC TCCGTCTTCTTAACAATATTTTGGATCTGAGCAAGGTGGAATCCGGAAAACTGGTCCTAGAAGTTGCAGAATTTGATTTG GGGCGGGAACTTGAAGGGCTGGTAGATATGTTCTCTGTGCAATGCATTAACCACAATATAGAGACTGTTTTAGACCTTTC TGATGATATGCCAAAGGTAGTTCGGGGTGATTCTGCTAGAGTAGTTCAAATATTTGCGAATTTGATCAACAATTCAATTA AATTTACTCCATCGGGACATATTATTCTGCGAGGATGGTCTGAAACCCCAAGTTTTTGTGGTGAGAGCCTGAATTTTCCT CTTGACCAGAAGAAATCGCGGAGTTTACAGAAGAGCAGAGAAAGGATAAATCCAAATCATGCAAAGAGAGCATCTATGAG AGATAACAAAGTGATACTTTGGTTTGAAGTTGATGACACAGGCTGTGGTATTGACCCAAGCAAATGGGATGCTGTGTTTG AAAGTTTTGAGCAAGCTGATCCATCAACTACTCGACTGCATGGTGGCACTGGGCTTGGTCTTTGCATTGTCAGAAACTTG GTTAATAAGATGGGTGGAGAAATCAAGGTTGTCAAAAAGGAGGGCCAAGGAACATTAATACAATTGTGCTTGCATCTCAG TGTACCCGTGGAACACACAGATCAACACTGTGCAGTAGATTTGACAAAGAATAGCTTAGTGGTTCTGCTTGCACTACATG GTAACATGGGTCGATTAATCACATCCAAGTGGTTACAGAAAAACGGGGTGTGCACAATGGAAGCTTCTGAATGGAATGGA CTAACTCAAGTTTTGAGGGAACTATTTCATGCAAGAAGTTCAGTCCATAATAATGACTTCGATGCTCACTATGAGGGATT GAAGTCTAAACTACTCACCATACAAGATATGCGGAACCCGACTTTTGTCATTGTTGTTGACATTGGCCTACTTGACTTGA GCACAGATATATGGAAGCAACAGCTTAACTTCCTTCACAGGTACTTCGGGAGAGCAAAGTTTGTATGGATGCTAAACCAT GACACGTCGAACACCATTAAGATGGAGCTTCGTAGGAAAGGGCATGTACTAATGGTGAACAAACCTCTTTACAAAGCAAA AATGATTCATATTTTGGAAGCTGTCATAAAGGAGAGAAATCTTGAACTGCAAAAGAAAAATATAACTTCTTCAAGGACCA CAATGAAAGAGGGTGATTCGCACGAGTTTGTTGAGATTGATTCTACTCAGTTTGATGCTACTAGCTCTGATGATTCGGAC ATATCTGAAATGGCCGGTTCTAATCCTGTTAGTGCCAGTGGAGATAAGCCAACTGAAAATGGATATTTGGAAGAAACTAA TTTGAGTAAAGAAGAATCTTGCCAGAGTAGCCTCAGTTCCAATTATGCCACTGAAGACACCCAACCTATATCACTGTCTA GTAAAGCACCATCCTCTCCAACAGCAGCACAAGATGGAGATTCTGAATGTGGGGAAACAAATAGAGTCACCGGCTCAAGT AAAGCAATAAATGGAAAGAAATCTCTGGAGGGCCTTAGGATTTTGCTTGCAGAAGATACACCAGTACTCCAAAGAGTTGC AACCATAATGCTTGAAAAAATGGGAGCTGTTGTTGTTGCTGTTGGTGATGGACAACAGGCAGTAGATGCTCTCAATATCA TGGTCAGTGCCGAAGATTTTAGAAGAGAGTCTCTCCAGAAGGAAAGAAACACAAGATCTCAAACAGAGATTTTCAGTTGC CATCCATATGACTTGATCCTAATGGATTGTCAGATGCCGAAGATGGATGGATACGAGGCGACAAAAGCAATAAGGAAATC AGAAGAGGGAACAGCCCTGCACATTCCCATAGTTGCTCTTACAGCTCATGCAATGTCATGTGATGAAGCCAAGTGCCTGC AGGTGGGCATGGATGCTTACTTAACAAAGCCAATTGACTTCAAGAAGATGGTGTCCACCATCATTTCACTCACTAAAAGA ACATCTTGA

Download CDS Sequence

Protein sequence (LotjaGi2g1v0379900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MGNMCRDLFGRLCGYATLLQKNSTPKGRRIFHRDVEKEEFQYASSHCLSSYYSVFVVRLAIMIMLAILIGLLTILTWHFT KIYTAKSLSSLAYGLRYELLQRPILRMWNILNSTAEITTAQVKLSQYVIRRHSNPSTQAEQVELYEAMRAVTWALFSSRK ALNSITINYKNGFVQAFHRDLKDNNTFYIYSDLANYSMAASDTNVMGSLSTRQAWDDKAIHGNFSAKWYREPLDPVSGEK IGKAMQIAPEDLINIAGLSQVPDGVASWHVAVSKFTDSPLLSAALPVWDSSNKSIMAVVGVTTALYSVGHLMKELVELHS GHMYLTSQEGYLLSTSTSAPLLTNSTKPPKLKMAVDCEDDVIRMGAEWLHRTYGKKFPSAHEVHVENAMLGHQKYYIDSF FLNLKRLPLVGVIILPRKYIMGQVDERAFKTLVILISAALCILVIGCVCILILTNGVSKEMNLRAELISQLEARRKAEAS SNYKSQFLANMSHELRTPMAAVIGLLDILISDDCLTNEQYSTVTQIRKCSTALLRLLNNILDLSKVESGKLVLEVAEFDL GRELEGLVDMFSVQCINHNIETVLDLSDDMPKVVRGDSARVVQIFANLINNSIKFTPSGHIILRGWSETPSFCGESLNFP LDQKKSRSLQKSRERINPNHAKRASMRDNKVILWFEVDDTGCGIDPSKWDAVFESFEQADPSTTRLHGGTGLGLCIVRNL VNKMGGEIKVVKKEGQGTLIQLCLHLSVPVEHTDQHCAVDLTKNSLVVLLALHGNMGRLITSKWLQKNGVCTMEASEWNG LTQVLRELFHARSSVHNNDFDAHYEGLKSKLLTIQDMRNPTFVIVVDIGLLDLSTDIWKQQLNFLHRYFGRAKFVWMLNH DTSNTIKMELRRKGHVLMVNKPLYKAKMIHILEAVIKERNLELQKKNITSSRTTMKEGDSHEFVEIDSTQFDATSSDDSD ISEMAGSNPVSASGDKPTENGYLEETNLSKEESCQSSLSSNYATEDTQPISLSSKAPSSPTAAQDGDSECGETNRVTGSS KAINGKKSLEGLRILLAEDTPVLQRVATIMLEKMGAVVVAVGDGQQAVDALNIMVSAEDFRRESLQKERNTRSQTEIFSC HPYDLILMDCQMPKMDGYEATKAIRKSEEGTALHIPIVALTAHAMSCDEAKCLQVGMDAYLTKPIDFKKMVSTIISLTKR TS

Download Protein Sequence

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
PANTHER	PTHR43711 View details on PTHR43711 Search for proteins/transripts with this domain View external data on PTHR43711	1	1200	1200	0.0	–
PANTHER	PTHR43711:SF15 View details on PTHR43711:SF15 Search for proteins/transripts with this domain View external data on PTHR43711:SF15	1	1200	1200	0.0	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	54	54	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	54	76	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	55	77	23	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	78	430	353	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	431	453	23	-	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	432	454	23	-	–
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	454	1202	749	-	–
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	471	550	80	9.7E-24	–
SUPERFAMILY	SSF47384 View details on SSF47384 Search for proteins/transripts with this domain View external data on SSF47384	471	550	80	1.22E-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	483	549	67	7.9E-20	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	484	545	62	2.86008E-15	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	484	549	66	9.3E-15	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	490	748	259	41.692	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	538	744	207	1.14E-37	IPR036890 Show description in modal box View details on IPR036890 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.565.10 View details on G3DSA:3.30.565.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.565.10	551	750	200	1.7E-44	IPR036890 Show description in modal box View details on IPR036890 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	596	748	153	2.0E-31	IPR003594 Show description in modal box View details on IPR003594 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	596	746	151	2.3E-23	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	603	746	144	1.91665E-34	–
PRINTS	PR00344 View details on PR00344 Search for proteins/transripts with this domain View external data on PR00344	673	687	15	1.3E-11	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	691	701	11	1.3E-11	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	708	726	19	1.3E-11	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	732	745	14	1.3E-11	IPR004358 Show description in modal box View details on IPR004358 Search for proteins/transripts with this domain View on EBI InterPro Service
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	930	1042	113	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	947	1042	96	-	–
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	1033	1200	168	8.9E-42	–
SUPERFAMILY	SSF52172 View details on SSF52172 Search for proteins/transripts with this domain View external data on SSF52172	1050	1199	150	1.94E-32	IPR011006 Show description in modal box View details on IPR011006 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00448 View details on SM00448 Search for proteins/transripts with this domain View external data on SM00448	1052	1194	143	3.8E-31	IPR001789 Show description in modal box View details on IPR001789 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	1053	1198	146	39.642	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	1054	1194	141	5.5E-20	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	1055	1197	143	9.92259E-29	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 LotjaGi2g1v0379900.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi2g1v0379900.1