Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi2g1v0346900
Transcript ID	LotjaGi2g1v0346900.3
Related isoforms 3	LotjaGi2g1v0346900.1 LotjaGi2g1v0346900.2 LotjaGi2g1v0346900.4
Lotus japonicus genome version	Gifu v1.2
Description	Serine/threonine-protein kinase; TAIR: AT4G27290.2 S-locus lectin protein kinase family protein; Swiss-Prot: sp\|O81832\|Y4729_ARATH G-type lectin S-receptor-like serine/threonine-protein kinase At4g27290; TrEMBL-Plants: tr\|A0A151SMC5\|A0A151SMC5_CAJCA Serine/threonine-protein kinase; Found in the gene: LotjaGi2g1v0346900
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr2:82356313..82373228) extracted from Lotus japonicus Gifu genome v1.2.

ATGAAAGATAAAATATAATTTTTTAGTCAAAAAGCAGATAATAATAATAAGCAGGCAAACTCTCATGGTGCTCAAATGAT ATTCCAAACTGCAAGGTTGCTGTTTAAGTGCTTCAACTGGATTAAGGGCCTGTTTGGATGGGCGTTAGAGGGGCGAAACG TGCGTTGCATTTAGAGAAACGCGGTTCACCAGCTTTGCCACACCGTTTGGATGGGTGTTTTTCTAAGCGCATGAACGCGA ATTTGGGCCAAAACAACGTTTTTTTGGAATTGATAAATTGGAGCTGTGGCGTTGGGCGTTTGACGTTCAACGCTGATTTT TCTGGCTTTCACCAACCAGATCCGACGCATCCTGTCAGCCACCAGTTGTGCCCTCCTCCGCCGTCGCCAGTTCGCGCGCA CGTATTCTCATATCTGTGTAGTTTCGTTTGCGCTCCGCCGTTCTTCTTGGATTTGTGCAACTCCGTTCATGCTCTGTCGT TCTTCTCAGATCTGTGCGACTCCGCTCGCGATCTACCGTTCGTGCGCCAACTCCGTCCGCCGCTCACGCTCGGCGACTCC ATCTCTGTTCAACTCGTCCTTTCTTTCTCCTTCCTTTTACTGTTACGCGTTCTCTCTGGTTTTTTTTTTTATATTTTTGT CAAAGTCATTTCACGGTTTATATTTTTATTCAGCCTTTTTTTAAAACAATTTAATGAATTTTATTTTAACAAACTTAATG AATTTATAATGCTGTTGGATTTTGAGTAACAGCATTATTATAAACTTAATTTGTTTTGTTTTTGAACGTGGCATACTAAT TTGTTGATTTGTTAAAAAAAAAAATTGAACCAGTTGATTTGTTAATTTTAAGTTTTATGAAATGTCTTTAATTTGATTTA ATGCAAAAGGAGTGATATTTTTTTAAGAGAAAAAGTTTGATGTAGGGATGATGTAAAGTTTTTTTACACCGTCAACCAAT CAGATTTCAAAGATGTGAGAAAATTTCTCTTTTTATTTAATTTCATTAATTGACATGCTACATCCTTGAAATCTGATTGG TTGACAGTGTAAAAAAACTTTACACCGTCGGTGCATCAAAATTAAACTCTTTTTTTAATTACATCTTTCAAGCGTAAGTA ATTAATATCATCCAAAAGATATTCATTATTTCCAAATCACGTTTGTTACAAATCATCCAAACATAAATTACATTTATTTA AACACAATTTTTCTCAAAACCATTTTAACAAAATCACATTAATTCAAACACCACGTTTCTAACGGAATGTCAAACAGCAC TAAGGAACCCACATCCAGGGGCGGATCTACCTTATGTTCAGGGGGTTCAGAACAAAAAAAATTGCCCTTATTTCCCTATA TAATTTTTTTTAAACCCTGAAAATTTTAAATTATACTATTAGACTAAGTTTTACACCTACTTACACCAAAAATCCACCTA TTTGTATCAATTATGGACTTATATATTTTCTGATGTATAGTTATTTTTAATTATATTTTTATCAACGTGTTCATTAAAAA ATTTGAACCCCTGACCCCGGGTCTTGGATCAGGCACCGCCGACATCCGAGATGCTCTTACTTTGCTTTATTGAAAGGATG GCAGAATTACAGGGACGGGGCCAAGTGGGTTCACCAATTCACATTGAAATGGAAGCTATCAATTGTTGTTGGCAATGACA TAAACAGATGATGATATTGCTTCTGTGTTGTGAAATCTGGGGAGTTAAAGAGATTTATGCAGCTGATGAGAGTCAATGGT TGATCCTTGCACACCCTTTATTCTGTGCTTCACCCAAATCCACAGGTACTGCTCAATACACTTATAATGGGTTCAAGTTT TTGTGTTCATGGTTATTCAAGAACAACAATGCTGAGAAAATCTTATAAAGTTTCAGAGTCCAGAAGAAAACCTCTTTCAT GTTATGGCTTTTCATATGTACTTCAGTCAACTTTTATTTTGTTCTCTTCTATTTTAGTTAATATTATCATTTGATATATA TTTGTATATATACATACTGCAAATGTCCTGTACAATATTCCTTTAAATCCAATAATATTTGAAAAATGGAAACACCTTAT TTACAAACTTTAGAACAATTATGAATTATGATACTATGAACCTAGACTTTTGCAAAAAATATACATTTCTGACTATTGGA ATCTTAAGATATGGCATTCACTCAGACCTTTCACTTATATTAATTACTGAAGAATTGTTTGTTCCAAGATTTTTCTTTCA TGTGAAAATAACTTCTTGTATGTACCAGGTTAGGGAAGGTTTATGAAAATGTGGATTCCCTCAGTATTGTGACTCTCAAA GATGAGTTTCACCAAGATGGCAAGGAGAAAGTTTAAAATACAATGCATCAGATATCTCTGTTATTGAGAGTTGCAATGAG CATAACCTGAGGTATGTTCTTCAACTGTTTGTTGTTTCTCAATACTATAGTGCTGTATTTTGTGTCTGTGTTTGCTGTTG AGTATTAGATTAGGGAGCTCTATAGTCAGTTTTGGACTTAAATAATCCTCCAGTTCTCTGCAACCACACCTTCATTCCAG TTCTACATCTCAATGACACAACTTTGACAGCCAGCTAGACCAGTGGCTCATAATCCTGATTCCTGATCTCCTTCCTTCAT TTCTTTTCTACACGATTGGTATTAGATTTTGGCTTGGGATACTATTGATATATGTTACATGAAAGATGAACAATTCCGCA GCGACAGTTTAGCTGTTACATTGTATTATACTGCCACATTTGACTCCAGCTTTAGCAAGAACATCTCAAATTGAATAATA TGCCTATTACTTCCATAGTTTAGGAATTTCATAATGTATAACAAGATTAAGGCAGACAAACAAATAATTACACAACAAGT TATTAGCTAAAAGCTCAAACTGTAGCAGATGCAATTAAGCATTTATAAATCTCAATTGATCTAACCAACAAGAAATGCCT TTTTGATCTTATTTAGCTCTTTGATGACATCCCCTAAGTTCATCCTTTCTTTTGGTGATTCGACTGAACAAGCAAGTCCA ATCCCCAAAAGTGAAACTAAGCACTTCTCAACAGTTGGAATAAGATTCACTATGTTTTCTACTTCTGTTACTTCTTCATC TCTTAATACAAGATGTGGGTCCAAAATATGTACAAGGTTATCAGGAAATGAATTTCCCACAAACTTATGCAGATTTTGAC CGTCTTCAAACAACTCATCTGTAGGCTTTTTTCCGGTAAGCATTTCCAATACTAGAATCCCGAAGCTATAAATATCCCCA TATGTGGACACTTCAGAGCCCATTCCATACTCTGAAATATATATAAAAAACGTAAATACTCTATATCAAGTTTACACCAA ACAATAGGAGAATATGAAGAAACAATTATTCAACAGTTCAGAAAATACCCGGAGGAGCATAACCAACAGTTCCCTTTATT CCAATTGTACTAGTTTGCTTCTGAGAGGAACCATCAACAGTTGAGACAAGTCTTGCTATGCCAAAATCACTCACATGAGC GACCATGTCATCGTCAAGAAGGACATTGCTCGGCTTTAGATCACAATGAAGTACCAAATGCTCGCATTCATGATGAAGAT AATGTAATGCAGAAGCAACATCAATAAGGATACTTAATCTTTGTTCAAGGTCTAGTGGTTCATGAAGCTCTACATTTCCA CTTCCTGGATGCAGCCACTGTTCTAAGCTTCCATTTTTCATGTACTAAAAAACTAGAGCTTTAAATTCTTGACCTTTGTA GTCTGTGCTGGAGCAACATGTTAAGATCTTAACCAGATTCCGATGTCTAATATTTTTTAGTGCATCACATTCAGCAATGA AACTCTTGTGAGCTCCCTTCTCTTGAAGCTTTAGGACCTTTACGGCAACGTCTTTATATTCTGACCCAATATTTCCTTTA TATATAGAACCAAAGCTTCCAGATCCAATCAAGTTTTTAGCTGAGAACCCACTGGTTCCACGATGTAGGTCATGGTATGA AATCTTAGCCAGCTGGTCCATTGTTGGTGAATCAGAAGATGGTTTCTTGTTTCTTTTCCTCAACCAGTAGATGGTTAGAA TAAATGATAGAATGAGAAGAAAAACAACCGTACTAACTATCACTGCTATCAACTTGAAACTATGGTGTTTTGCATGCTTC ATACTATTGACAGGACATGGCAGTAGATGCAGCTCTAGAATACCTCCGCAAAGCTTTATGTTTCCTGTCACTGCTAACGC GCTTGCATTTTGAAACACACCTGTAGTTGGTACTTCGCCCTCTAACACGTTGAAAGAAGCATTGAAGTATTCCAAGAACA AATTATTCTGTAGATCTTTAGGAATTGATCCAGACAAGTGGTTCCGGGAGAGATCTAAATATCGAAGACCTTTGAGTGAA GTTAAAGAGGATGGTATGATTCCATGGAAGGAATTCCCTTGTAAAAAAAGGTACTCCATACCCAGGCATTCTCCAATGGT TCCTGGAATATCACCTGACAGTTGATTCTCGGAGACATTTAGACAACCAATATTTCTTAGCTTGCCCACTTCACTAGGTA GACTACCACTAAGTGAGTTGTGTGACAAGTCCAATAAGTTTGTTAATGAGGAAAGACTAAAAACCTCAACGGGTATGTTT CCTTTAAGGTTGTTTCCTGACAGGTCTAGGTATTGTAACTTTTGACAATTTCCTATACATCGAGGAATAGTACCTTCTAA CTTATTTTGTCCTAAACCCAAATGAAACAGTTGAGTGAGGTTTCCAATGGAGTTTGGTATATCTCCAGACACCTTGTTTC GACCCAATTTCAACCCTTGCATCTTCTGAAACTTCCCAAAAGCAAACGGAATAGTCCCTTCAAAGTGGTTATTTTCCATG GTCAGAACTAGTAGATTAATTAGATTTCCTAATTCCATAGGAATTTTTCCTGATATGTCATTACCCCCAAGATATAGTTG ACTGAGTTGGGTGGATAAATTGCCCACTGAACTAGGCAAAGGACCCCCAAAATTGTTGTCGGATATAGATAGACGCTGCA ACTCACTACAATTTGTTAGTGATTTCAAGAAAACCAAATCTTTAGTTGAATTGGTACCTAGATTGTTGGCACCCAAATTT AGCAACTGAAGATCTTGTAACTTTCCTAGACTTGGAACTTGTCCGATGAAATGGTTCCTAGGGGTGTTCATAACCGAACC AATCCAAACAAAACCGACAAACCGATCCAAAAAAACCGAAATCCAATCAAACCGAAAACCGAACGGATTGAAAATTGAAA AAACCGAAATTATTTATTGGATCGGATCGGATTTCGGATTTGATTTCCAAAACCGAACCAATCCAATCCAAACCGAACAT TCACAAATATGTATATTTTTAGTTATACATATATCATTCCATTTACACTTACATAGTACATATTTATTGTTTATATATTG ATTATATCACACATGCTTATTTATAAAATTACGTTTTAATAAAAAAAGTTCAAGTAATTATTTGAACTATATACATGCAT CAAAGTAAACAATTATAATCATAATTTAAAAATTTGTTACTATGTTATAATTTATGAATGTTATAAATTATGTATCATAT ATTATATATTTTTAAAATTTATACAACACAATTCCAAAATATAAAAAAGTGAAACAAAAACCGAATAATCCAATCCAATC CAAACCGCTATAGATTGGATCGGATTGGTTCGGATTTGAATTTAGTAAAAAATCCATTGGATGACAAAATCATAAAACCG ATGAGATCGGATCGGATGATTTTTCTCCTCAAAACCGATCCAATCCAATCCGCGAACACCCCTTCCCACTAATATCAAAT TGTGTAATGGTAGAAGCATTTGCAACAGAAGTGGGGATTGAACCTGAGATTTGATTCCCGCCAATTGCAAAAGTTTGGAT ATTGGGGAGGGTGTGGAACATGTTGGGAGGAAGAGAGCCATCAAATTCATTGACTGCAGCCGAGATCAAAGTAAGAGTTG AGAGGTTGTAAAGATAAGAAGGAAATGTACCTGACAATTTGTTCACACCCACAGATAACCATGTCAAGTTTTTGAGGCGG CATATTTCTTGTGGAATATTTCCCTCTAAGTTATTATAAAATACTGAGAGAAACTTTAAGTGTGATAGATTCCCTATGAA TGGTGGGACTCCACCAGTTAAATTGTTTTTTGCAATCTCCAATAGTTCAAGCTTATGGAGAGAGTCAGTTCCAATTGGTA TTTTGGCAACCAGATTATTTCCACCTAAGGCCAAGGTTTTGAGATCAAAACAGGTTGTTTTGGCAACCAGATTATTTCCA CCTAAGGCCAAGGTTTTGAGATCAAAACAGGTTGTTAGGTTTGTAGGAATCTCTCCTACAAATGAGTTATTGGTGAGGCT CAGTACCTGCAACCGTAACAACTGACCCAGTTCCTGTGGGATATTTCCGTAGAAGCTATTGTCTTGAAGGTTGAGGTTTC CCATATAAGAGAGATTGCCTATATGGGGAGATATGGGTCCATGCAACCGATATCCTTGCAGGTTCAACTCTGTAACCCTT TGATTCATGGGGCTGCATGTGACTCCATGCCACTTGCAGAAGTGACTAGTGAGTAGAACTGTTCCAAGATTCTAGGATTC CATATGGATCACTAGATATTTCTTCCTTGAATTTGAGCAATGACAGGTGGTCTGTTTGGTTCCCGGAAGTAGAAGCAGTT GTTTTTGAGCCAAGTTGAAAAGTAAACAGAAGGTATAACCAAAATGAAGATGCACGAAACATGAGAGGAAAAAACTTCAT TTGGTTGAGGAAATAGGATACTGGAATTTGAGTGGGTATCTTCTGTTACATATATTAGCTCTAGCCTCTGTGTATGTATT TTATATATTTCCTTTGATGGCTGAGTGAATAGTAACAAAGAAAATATTTCTGTTTGCCTCGAATTGTGATTTTCGGACTG TACATATATTTATATCATTTTTCTGCTTTTATTATATCATAATGTTATTAATATACTCATATCATAAGCTTTTGCAATTA ATTATCAGAATGTATATAACTTTTGGAGGCTGAGCATTGATCATTTGAAGCCTTACCCCAATGGATAAGCTTATCAGTAT ATGTCATTGCATTCATTTTCTTTGGAATCAATCCTTGCACGTAAGTTCCTTCTATCGCATGAGTTTTTCTTCACTGAAAG GGACCGCATAGAAATTTGAGTGAGATAGTCCATGTCATTGAAATATTGCTCTGAACATACTACGTCCTAAAATTTCATCC TAACTTCAAGTCAGAAATGATGAACGTTTAAGTCATGGTCCTTCACCACACTACTTGACTTTAGAATATTATATTATTGA TTGTTTGTTGCGTGTCAAATTTTCCATGGCCAACTCTAAAAAATTACAATTTCGTTTATTGTCTGTTGCTTGTCAAATTT CTTCATCGCTGAGTCCTACACTTAATTTTGGAATTTTATAATGCTGTCAGTTTTAAGATTAAGCAATATCGTTTGATCAC AACACTAAGGAAAATTGGAAAAATCGTCTTAGCATTAAATTGAGAAGTTTCACATAAGTTTGATCTAAGAATGATTTCAT CACTTGGAGAAAAATTTGTTCGGCAACAATTATAGCTATACCCATTACCTAGCATGAAAAATGATTTGTAGACATCTGAA TAAATATCTACCGGACACTAAAGTGAGATAGGAAGAGAAGTAATTAATGCGATATATCTAAAAAGATAATAGATAGAGAG AAATGTAGAGTGTTTTTTAGATGTCTACACTATTTGTATGCTCAACTATCATTATTGACAATAAATATTTTAAAAATATT TTATCCAAGACTACCTCAATTGCTAGCAGTTAGCTAGCCAGGTACAAGTGTACCCAGCAATGCTTAAGGTTTATGCGCAA AAAAAATAAGATGTCATTTATTGATAAAAAGTTTTGATTGGAAAACTCGAGTATCATTTATTTTTCTACATATTTTCATA ATTAACCCACATTAATACTCACTCATTAGTAGACACAGAAGAAAAGTGATCCATCTAGACAAAATTTGATAGGCAAGACA ATTTACTAAATGAGGATATAAATAAAAGAAATAGATAATATGTATTGAAATTTTAAAATAAGAAATGCTGTAGTTGTTTA ATCTCCTCCTCATAGAGTCATAAGCCTCTTCATTCACTCCCCTCAGAAACTCAACTCATAAGTCATAATAGTCTTCTTCC TACTACAATGGAATGGGGTGCTGCCACAAGAGTTTGTTGTTGCTCCCTCTATTGCGTGCTCTTTCACTTCCTCTGTATTG CATAATAAAAAAACCTGCAATCACCAAAGCTTCTTTTTCTGACAAAATAATGGTATTACTACTGCATAACATGTTAGTGT GGTTCTTATCATTCTCCCAGCTGACAAGAACTTCCTCTTCACTAGACTCTTTAGAAGTGAATCATTCTATCCGAGACGGT CAAAGTTTAGTTTCAGCAAGTGGAAATATTGAAGCCGGTTTCTTCAGCCCCGGGAATTCAACGCGTAAATACTTGGGTGT GTGGTACAGGAACGTGTCTCCTTTAACAGTGGTATGGGTGGCCAACCGAGAAAAACCTCTGCAGAACAACTCTGGAGTTT TAAAACTCAATCAAAACGGGATTCTTCTGCTTCTCGACGGCGCAAACAACAGTACTCTCTGGTCATCCAATATATCAGCA GCAGGGAATAATAACCCAGTAGTGGCCGCTCAGCTACTGGATTCAGGAAATTTGGTAGTGAAAAATGCCAACAACGACAG CTTTCTGTGGCAGAGTTTTGATTATCCCTGTGACACTTTGATGCCGGGAATGAAGCTTGGATGGAACTTAGAAACTGGTC TAGAGAGATTTCTGTCATCTTGGAAAAGCACGGATGACCCTGCCAAGGGAGAATACACAATGAGAATTGACCATAGAGGA TATCCACAAGTGTTTGCATTCAAGGGGTCTGATATAATTTCTAGAACAGACCAGTGGAACGGCGAGTCTCTTCGTGGATA TCCTGCTCCAGATCCAAAATACAATCAAACATTTGTGTTCAACGAAAAAGAGGTGTATTATGAGTTCGAGTTTCTTGAAA GTTCGGCTGCCAGCTTGTATAGACTCTTCCCTTCAGGTGATGGGGAGGTTATATCTTGGACAATTGGATCAGGTAACAGC CGGCAAGTCGTCACAAAAGCGGGCTTAGATGAATGCGACAAATACGCCTATTGCGGTGCAAATTCTATATGCAGTGCTAA CGGTTACGTTGCAACTTGTGAATGCTTGAAAGGATATGCTCCCAAGTCTCCTCAACAGTGGAGTTTACAGAATTGGACTG ACGGCTGTGTTCCCAGGAATAAAACTATTTGCAAAAACAGTTACACGGATGGTTTCTGGACTTATACGTATTCGAAATTG CCAGACACGTCTTCGTCTTGGTTCAATAAGACCATGAACCTTGAGGAATGTAAGGTGTTGTGTCTCAGAAACTGTTCCTG TGTAGCATATGCAAACTTATATGTTACTAACGGGGGAACTGGGTGTCTACTTTGGTTTCATAATATGGTTGACGTCAGGA AATACTCTCAACGGGGACAAGATCTTTATGTTAGAGTCCCACCTTCAGAACTAGGTACTCGCTCAACTTCTTTTTGGTTT CTATCGTATTATTGCATTATTCTCAAAGAAGTGGGTGGAATAGATACAAGAACATCCAAGTTTGCGTTGAACAAACATTG TGTTGTTACATGGCAATGTATGACATATGAAATGAAATTATTACTGATGCATGTTAATTGTTATATGTCATTTATTTTCC TAGTTAACTACACTGCCTTACCTCACCTCTGGTCAATAGTATTACCAGAATCTGTTCCTGATGAGAGTCCTGCTAGCTTA ACTACTTCTCTAACAGTTTCTGTTTAGTTTGTGAGCGTTGCTATTTAACATGACACTCACGACCACGATCCATCATTTGT ACCTTCCTTGTTTTAAACAAATTACATATTAATGAATAAATAAAAAATCATTTTGGGATGCACTACTTGTCGTGTTGGCT CCTGCGTCAACAAGGACATGCCTTGTAGCATTATTCTTGGTTTGTTTAGTTTGTTTGAGTCGGTTACTAACTGAATAAGG GTTCTGCTAGGATAGATTATTTATATTGCATTATTGTATCATTCCTACACCATCAGCGGTTAGAAAACCCACATTGGTTA GAGATATGACCATTCAAGTGTTTATAAAAGGTAGAGCAACCCTTAACTCTTGAGCTAGATTTTCGGTGAGTTAGGTCTCC CTAATTCTAATATCAGCTCATCTATAAATAACTTATGAGAGTTCATTGTAATACATAAATTCAGCTGAGTAAAATTCACA GTTTCTAATCAATTTTTTTTAATCTTAGTAGATTGTTAAATAAAACTTTGTTCAAAAAGTTGGAGACTAAACGTGCTCTA TATCTTTCAGATCAAGTTGCAGCGGATGACAATGGAAACACCAAGAAGAAGATAGCGGGAATCACAGTTGGTGTGATTAT TTTTGGATTCATGACATGTTTATCCATATTGATAATTAAAAATCCAGGTAAATTCATATTATAATTTACTGTCTTACATT GACAAAAGAAATGAGCATGTTCTGTGTCAATGGTGTTTATGTCTTCCAATCAATGGTTGTGACATGGTGTTTATATCTTC TAATTACTAACCAGGGGCTGCAAGAAATATTTACAACAAGCATTGCAAAAATAAACCGAGAAAGGAAGATGTTGATTTGC CAATATTCAATTTGTCAGCCTTAGCTCATGCCACTGACAACTTTTCAAGTAGTAATAAACTTGGAGAAGGTGGCTTTGGA CCAGTATATAAGGTGATAAACAATTGATAGATGACTTCTCCTTTCATTAAAAACTTTTTAACAAATATCATTATTTTTCA GGGCATATTGATAGATGGACAAGAGATAGCAGTGAAGAGACTTTCAAAAAAGTCTGGACAAGGGTTGGAAGAGTTTAAAA CTGAAGTAGCGTTGATTGCTAAACTTCAACACCGTAATCTCGTAAAGCTTCTCGGTTGTTGCATTAAAGGAGAAGAAAAG ATGTTGATCTATGAATACATGCCCAATAAAAGCTTGGACTACTTTGTTTTTGGTTGGAGTCTTTTCATTTTATTCTTCTT ATTTCATATGGAGACTACAAGTGTTGTTCTGAATGTGTTTAATTGACAGATGAAACCAAAAAGATGTCATTGGATTGGAT TAAGCGTTTCAACATTATTGGAGGCATTGCTCGAGGACTTCTTTATCTTCATCAAGACTCTAGGCTGAGGATTATTCATA GAGATTTGAAAACTAGCAATATATTGCTAGATGCCAATTTCAATTCGAAAATATCTGACTTTGGGTTGGCTCGATTATTT TTGGGAGACCAAATTGAAGCTAACACAAATAGGGTCGCTGGAACATAGTAAGTTAGTCCCTACATCATTAAGGTTATTTA TTTGATATTGCATTTTCAAGTAATACTTATTTTACTTTCAAAATAATATATTCAGTGGGTACATGCCTCCCGAGTATGCT GTGCGTGGACATTTTTCAGTGAAATCAGATGTCTTTAGTTACGGTGTGATCGTACTGGAGATTGTAAGCGGGAAAAAGAA CAGGGAATTTTCAGACCCAAAACATGACCATAATCTTCTTGGATATGTAAGCATACTCACCTTGCTAATCATATTCTATT ATTCTTACTTGAATTGTTTCCTATTACTAATTTGACTCTTACCTTGTTAGGCGTGGAAATTATGGAGTGAAGAGAGAGCG CTAGAACTATTGGATGAAGTGTTAAGGGAGCAATGCACACCCTTCGAAGTCATACGATGCATACAAGTAGGCCTGTTGTG CGTGCAACAAAGGCCGGAAGATAGACCAGACATGTCATATGTGGTTCTGATGCTAAATGGTGAGAAATTATTGCCACAAC CCAAAGTTCCTGGTTTTTATACTGAAAGGGATGTTAGACTCAAATCACATTCGTGGTCAGAAAATCATAAACTGTGCTCA GCTAATGAAGTAACCATCACAGAGTTAGATGCGAGATAGAATATGGCAGGGGGACAAGAAAATGAAAAGACTTCACCTTC CAATGTAGGATAAATAGGTTATTCGAGGATACCAATCAATGAAATAGCTGTTGCTTTTTCTATTATGAACTCCTGTTTTA TCTATTTAGTGTATCTTAACACGTGTATAAAATAAACAAAAAATTATGTGAAGGTAATTTTGCTTTTTGCAATAGAATAT GACAGTTAAATTGCTTTGGTTTGGTAATCTGATGTTTCAAGGATGTTGTTGTTTCAGAATTTAAAAAATAATTAATTTTA TATTTAACAAATCTATCAACAAAATATCCCATCAATTACACACCCTGCAAGATGAGGCAGATTCATTGACTTCAATTTGT CTTTGAGGAAATTGTGCCGCGATGATGAAAGATGGTTGGCCAAGAGATTAGCCAATTGGTGACTAGTGGGCCGATTTTTG AATGTAGTACAGGTGATCGGAGGTGGATGACGGGTGGCCGGAGGTGGTGGCACATGTGGTGGGAGGTCCACGAAATATCA TTCTGAGTACTTGGACTGGTTAAAATATCGATTTGGTGTGATTTCATCCTAGTTTTGTAGTGGGTTCTGCCAATTCACAT TGAAAGCTATCTATTGTTGTTGGCAATGGCATACACAGATGATGATATTGCTTATGTGTTCTGCAAATTCTAGAAGTTAA AGGGAGTTTATGCAGCTGATGGGAGTTAAAGGTTGATTCTTGCACATCCGTAATTCTGTGCTTCACCCAAGTCCACAGGT ACTTAATTTTAAGATATGAAGATCCTTGTTTGAGAGTTTTGTATTTAAGATATGTAGATTCTTTATGTGCTTTATTCTTA TTCTTTTTTTGATATAAGACAATTTGTATTTCCTTGTGTTGACTTGCACATTGAGCACTTCAAGAGTGAGTGCGTGAATT TATAAGGGTACATTTTAAATCCAAAACATGGTCTTTCCATGCATTTATAAACTTGGTCTAATTAAGATGTTGGCGACAAC ATTTAGTCCCCGGAGTTTGTGGCTCTGTTCATTTGTTCTGTGATAGGGAACCTTGCTATTTTAATTTCTAACATCTTCAT GAGAAATTTAGTGTATTCCATTAGTAGCAGAAAACGGAAGTGTTTTTTGACAAATATATTTTTGCATCTAAATATATGAA TTAGATATAATGTATGAAAAGTACTATAAATCCATCACTTAGATATAGTGTTAAATTCATTAACTATTGATAGATGTTAC ATAAAAGATGGACTCATAAGTGCAAACAGCCAGAACTGGAGGAAATTTATTGAACAAATCCACACTAAAGGTTGAACTCA AATTGCAGTGCATTATGCTGCATAGACACGAGCAGGAACACCTGAAAATTGGAGAAAGAATAAGCCTATTACTTTCGTAG CACAGGGAAAAAATTGAAATACATACCAAGATTGAGGCAGAAAAAAAAATATTAAATACATATGAAATTTACTGGAAGGA AAAACTATGCAATTAAGCATTTAAAATTCTAAAATGATCTCACCCACAAGAAATAGCTTTTTGATAATGTTTAGCTCTCT AATGACATCCACTATTTTCATCCTTTCTCTTGGTGATTCCATTGAACAAGTAAGTCCAATCCTAAAAAGTGATATTAAGC ACTTCTCAGAATTTGGAGTAAGGTTCCCTCTGTTTTCTCCTTCTATTGCTTCTTCAACTCTTGATACAAGATGTGGGTCT AAAATCTGTAAAAGATTATCAGAAAGTGAAATTGCCACAAACTTATGCAGATTTTGGCCGCCTTCAAACAATTCATCTGT AGGTCTTCTTCCAGTAAGCATTTCCAATACAAGGATCCCGAAGCTATATATGTCGCCACATGTGGACACTTCAGAACCCA CTCCATACTCTAAAATATATAACAAAAACTGTAAATCTCTATAATAAATAAATCATCAAGTTACCACCAAAAGATAAGAG AATTTGAAAAACAATTAATCAAGAGTTTAGAAAATACCTGGAGCAGCATAGCTAAGAGTTCCTTTTATTCCGATCGTACT ACTTTGCTGTTGAGATGTACCATCAATGGTTGAGACAAGTCTTGCTATGCCAAAATACTCACATGAGCGATCATGTCTTC ATCAAGAAGGACATTGCTTGGCTTTATATCACAATGAAGGACCACTTGCTCACATTCTTGATGCAGATAATGTAATGCAG AAGCAACATCAACAATGATACTTAATCTTTGTTCAAGGTCAAGTGGTTCACGAAGCTCTTCACTTCCATTCCCTGGATGC AGCCATTGTTCTAAGCTTCCATTTTTCATATACTCAAAAGCTAAAGCTTTAAAATCTTGACCTCTGTTGTCTGTGCTGGA ACAGCATGTTAAGATCTTAACCAGATTCCGATGTCTAATATTTTTGAGTGCATTACATTCAACAATGAAACTCTTGTGAG CTCCCTTCTTTTGAAGGTTCAAGACCTTTATGGCAACATCTTTATCTCCTGACACAATATTTCCTTTGTACACAGAACCA AAACTTCCTGATCCAATCAAGTTTCCAGCTGAGAATCCATCGGTTCTATGATGTAGGTCATGGTATGAAATCTTTGCCAA CTGGTCAATTGTTGGTGAATCAGAAGACTGTTTCTTGTTTCTTTTCCTCATCCAGTTGATGGTTAAAATAAATGACAGAA TGAGAAGAAAAGCAACCCTAGTACTTACTACCACTGCTATAAACTTGAAATTATGGTGTTTTGGAGGTTTCATACCTTTG ACAGGACATGGCAGTAAATGCAGCTCTAAAATACCTCCACAAAGATTTTTGTTTCCAGTCACGGCTAATGCACTTGCATT TTGAAAGACACCTTTTGTTGGCACTTCTCCCTCCAACATGTTGAATGAAATTACATTTAAGTATTCCAAAAATGAAACAT TCTGCATGTCCTTAGGAATTGATCCAGACAAATGATTTCGTGAAAGATCTAAACGTCGAAGACCTTTGAGGGAAGCCAAA GGGGATGGTATGATTCCATGGAAGGAATTCCCTTGTAAAAAAAGGAACTCCAAGCTCACGCATTCTCCAACAGTTCCAGG AATATCACCTGACAGTTGATTCTCAGAGAAATCAAGCCACTCAATATTTTTTAGTCTTCCCACTTCTACCGGCAAAATGC CATTGAGAGAGTTGTGTGACAAGTCCAGTAAGTTTGTTAATGAGGAAATACTGAAGACCTCAACAGGTATGTTTCCTTTA AGGTTGTTTTGTGAAATGCTTAGGTATTGTAACTTTTGACAGTTGCGTATACTTGGAGGAATATTTCCTTCTAACTTATT TTGTCCTAATCCCAAATCAAACAATTGAGTGATATTTCCAATGGAGGCCGGTATTTCTCCTGACAGCTTGTTTTTACTCA AGTCTAATACTTGCATATTCTGAAACTTCCCAAAAGCAATAGGTATAGCCACTTCAAAGTAGTTAGATTGCATGACCAAA AGATTTAGGTTAATTAGATTTCCTAATTCAACAGGAATTTTTCCTGTTATGTGATTATACCCAAGATACAGTAAACTGAT TTGATTGGATAAATTTCCCACAGAATTTGGCAAAGGGCCTCCAAAATTGTTATCTAATATAGAGATCCCAAATAACTTAC TACAATTTGTCAATGAGTTTAAGAAATCCAAATTGTTAGTTGAATTGCCACCTAGATTGTTGTGTTCCAAATTTAACCTC CAAAGATTTTGCAGCTTCCCTAGACTTGGAACTTGCCCGATGAAATTGTTTTGACTGATATCAAGATGTGCAAGGGTAGA AGCATTTGCAACAGAAGTGGGGATTGGACCTGAGATTTGATTCTTGCCAATTGTAAGAATTTTGAGATTAGGGAGGGTGT GGAACATGTTGGGTGGAAGTGAGCCATCAAATTCATTGCCTGCTGCTGAGAACAAAATAAGAGATGACATGTTGTAAAGA CAAGAAGGAAATGTACCAGACAATTTGTTGGCACCCACTTGTAGAAATGTCAGATTTTTTAGGCAGCATATTTCTTGTGG AATATTTCCCTCCAACTCATTAAGATTCATCGAGAGAAATGTTAAGGATGAAAGATTCCCTATGAATGGAAAAAATCCAC CGGTTAACTTATTTTTCGCAACCTCCAATGCTTGAAGTTTCTGAAGAGAGCCAATTTCCATCGGTAGCTTGCCAATCAAA TTATTTCCACCTAAGTTTAAGGATTTGAGACCAAAGCAACTTGTTAAGTTTTTCGGAATCTCCCCTTCTAAGGAGTTATT GGTGAGGGTGAGTCCTTGCAACTGTGACAACCGGCCCAATTCTTGTGGGATATCTCCATGGAAGCTGTTGTTTCCGAGGT CGATGTTCCTCAGAAAAGAGAGATTGCCAACATGAGGAGACAAGGATCCGTGCAACTGATATCCTCTTAGCTTCAACTCT GTAACCCTTTGATTCGCGGGGCTGCATGTGATTCCATGCCACTTGCAGAAGTGGGTAGAACTATTCCAAGATTCTAGCAT TCCATATGGATCACTGGATATTGATTCTTTGAATTTGAGCAATGCCAAATGATCTGTTTGGTTTCTTGAAGTAGAAGCAG TTACGTTTGAGCAAAGGTTGAAAGTAAAGAGAAGGCTGCATAGCCAAAATGAAGATGCAGAAAACAAGAGAGAAAAAGGC TTCATTTTGTTAAGGAAATATATAGGATACTTGAATTTGAGTGAGTATGTTTAATTAGTTACATATATAAATAGATAGCT CTATATACGTATATATGTTGGGGTTTGATGGTTGAG

Download Genomic Sequence

CDS sequence (LotjaGi2g1v0346900.3) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGCCGGGAATGAAGCTTGGATGGAACTTAGAAACTGGTCTAGAGAGATTTCTGTCATCTTGGAAAAGCACGGATGACCC TGCCAAGGGAGAATACACAATGAGAATTGACCATAGAGGATATCCACAAGTGTTTGCATTCAAGGGGTCTGATATAATTT CTAGAACAGACCAGTGGAACGGCGAGTCTCTTCGTGGATATCCTGCTCCAGATCCAAAATACAATCAAACATTTGTGTTC AACGAAAAAGAGGTGTATTATGAGTTCGAGTTTCTTGAAAGTTCGGCTGCCAGCTTGTATAGACTCTTCCCTTCAGGTGA TGGGGAGGTTATATCTTGGACAATTGGATCAGGTAACAGCCGGCAAGTCGTCACAAAAGCGGGCTTAGATGAATGCGACA AATACGCCTATTGCGGTGCAAATTCTATATGCAGTGCTAACGGTTACGTTGCAACTTGTGAATGCTTGAAAGGATATGCT CCCAAGTCTCCTCAACAGTGGAGTTTACAGAATTGGACTGACGGCTGTGTTCCCAGGAATAAAACTATTTGCAAAAACAG TTACACGGATGGTTTCTGGACTTATACGTATTCGAAATTGCCAGACACGTCTTCGTCTTGGTTCAATAAGACCATGAACC TTGAGGAATGTAAGGTGTTGTGTCTCAGAAACTGTTCCTGTGTAGCATATGCAAACTTATATGTTACTAACGGGGGAACT GGGTGTCTACTTTGGTTTCATAATATGGTTGACGTCAGGAAATACTCTCAACGGGGACAAGATCTTTATGTTAGAGTCCC ACCTTCAGAACTAGATCAAGTTGCAGCGGATGACAATGGAAACACCAAGAAGAAGATAGCGGGAATCACAGTTGGTGTGA TTATTTTTGGATTCATGACATGTTTATCCATATTGATAATTAAAAATCCAGGGGCTGCAAGAAATATTTACAACAAGCAT TGCAAAAATAAACCGAGAAAGGAAGATGTTGATTTGCCAATATTCAATTTGTCAGCCTTAGCTCATGCCACTGACAACTT TTCAAGTAGTAATAAACTTGGAGAAGGTGGCTTTGGACCAGTATATAAGGGCATATTGATAGATGGACAAGAGATAGCAG TGAAGAGACTTTCAAAAAAGTCTGGACAAGGGTTGGAAGAGTTTAAAACTGAAGTAGCGTTGATTGCTAAACTTCAACAC CGTAATCTCGTAAAGCTTCTCGGTTGTTGCATTAAAGGAGAAGAAAAGATGTTGATCTATGAATACATGCCCAATAAAAG CTTGGACTACTTTGTTTTTGATGAAACCAAAAAGATGTCATTGGATTGGATTAAGCGTTTCAACATTATTGGAGGCATTG CTCGAGGACTTCTTTATCTTCATCAAGACTCTAGGCTGAGGATTATTCATAGAGATTTGAAAACTAGCAATATATTGCTA GATGCCAATTTCAATTCGAAAATATCTGACTTTGGGTTGGCTCGATTATTTTTGGGAGACCAAATTGAAGCTAACACAAA TAGGGTCGCTGGAACATATGGGTACATGCCTCCCGAGTATGCTGTGCGTGGACATTTTTCAGTGAAATCAGATGTCTTTA GTTACGGTGTGATCGTACTGGAGATTGTAAGCGGGAAAAAGAACAGGGAATTTTCAGACCCAAAACATGACCATAATCTT CTTGGATATGCGTGGAAATTATGGAGTGAAGAGAGAGCGCTAGAACTATTGGATGAAGTGTTAAGGGAGCAATGCACACC CTTCGAAGTCATACGATGCATACAAGTAGGCCTGTTGTGCGTGCAACAAAGGCCGGAAGATAGACCAGACATGTCATATG TGGTTCTGATGCTAAATGGTGAGAAATTATTGCCACAACCCAAAGTTCCTGGTTTTTATACTGAAAGGGATGTTAGACTC AAATCACATTCGTGGTCAGAAAATCATAAACTGTGCTCAGCTAATGAAGTAACCATCACAGAGTTAGATGCGAGATAG

Download CDS Sequence

Protein sequence (LotjaGi2g1v0346900.3) extracted from Lotus japonicus Gifu v1.2 Proteins.

MPGMKLGWNLETGLERFLSSWKSTDDPAKGEYTMRIDHRGYPQVFAFKGSDIISRTDQWNGESLRGYPAPDPKYNQTFVF NEKEVYYEFEFLESSAASLYRLFPSGDGEVISWTIGSGNSRQVVTKAGLDECDKYAYCGANSICSANGYVATCECLKGYA PKSPQQWSLQNWTDGCVPRNKTICKNSYTDGFWTYTYSKLPDTSSSWFNKTMNLEECKVLCLRNCSCVAYANLYVTNGGT GCLLWFHNMVDVRKYSQRGQDLYVRVPPSELDQVAADDNGNTKKKIAGITVGVIIFGFMTCLSILIIKNPGAARNIYNKH CKNKPRKEDVDLPIFNLSALAHATDNFSSSNKLGEGGFGPVYKGILIDGQEIAVKRLSKKSGQGLEEFKTEVALIAKLQH RNLVKLLGCCIKGEEKMLIYEYMPNKSLDYFVFDETKKMSLDWIKRFNIIGGIARGLLYLHQDSRLRIIHRDLKTSNILL DANFNSKISDFGLARLFLGDQIEANTNRVAGTYGYMPPEYAVRGHFSVKSDVFSYGVIVLEIVSGKKNREFSDPKHDHNL LGYAWKLWSEERALELLDEVLREQCTPFEVIRCIQVGLLCVQQRPEDRPDMSYVVLMLNGEKLLPQPKVPGFYTERDVRL KSHSWSENHKLCSANEVTITELDAR

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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	285	285	-	–
Pfam	PF00954 View details on PF00954 Search for proteins/transripts with this domain View external data on PF00954	55	163	109	1.0E-13	IPR000858 Show description in modal box View details on IPR000858 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50026 View details on PS50026 Search for proteins/transripts with this domain View external data on PS50026	128	165	38	10.192	IPR000742 Show description in modal box View details on IPR000742 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50948 View details on PS50948 Search for proteins/transripts with this domain View external data on PS50948	184	267	84	9.812	IPR003609 Show description in modal box View details on IPR003609 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF08276 View details on PF08276 Search for proteins/transripts with this domain View external data on PF08276	184	252	69	1.5E-18	IPR003609 Show description in modal box View details on IPR003609 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd01098 View details on cd01098 Search for proteins/transripts with this domain View external data on cd01098	185	267	83	1.84561E-25	–
SMART	SM00473 View details on SM00473 Search for proteins/transripts with this domain View external data on SM00473	187	266	80	2.1E-8	IPR003609 Show description in modal box View details on IPR003609 Search for proteins/transripts with this domain View on EBI InterPro Service
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	228	250	23	-	–
PANTHER	PTHR27006:SF120 View details on PTHR27006:SF120 Search for proteins/transripts with this domain View external data on PTHR27006:SF120	268	637	370	2.5E-138	–
PANTHER	PTHR27006 View details on PTHR27006 Search for proteins/transripts with this domain View external data on PTHR27006	268	637	370	2.5E-138	–
TMHMM	TMhelix View details on TMhelix Search for proteins/transripts with this domain	285	307	23	-	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	286	307	22	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	308	665	358	-	–
Gene3D	G3DSA:3.30.200.20 View details on G3DSA:3.30.200.20 Search for proteins/transripts with this domain View external data on G3DSA:3.30.200.20	320	422	103	1.8E-38	–
SUPERFAMILY	SSF56112 View details on SSF56112 Search for proteins/transripts with this domain View external data on SSF56112	331	635	305	1.48E-81	IPR011009 Show description in modal box View details on IPR011009 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00220 View details on SM00220 Search for proteins/transripts with this domain View external data on SM00220	347	594	248	3.0E-27	IPR000719 Show description in modal box View details on IPR000719 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50011 View details on PS50011 Search for proteins/transripts with this domain View external data on PS50011	347	624	278	37.177	IPR000719 Show description in modal box View details on IPR000719 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF07714 View details on PF07714 Search for proteins/transripts with this domain View external data on PF07714	350	616	267	9.7E-48	IPR001245 Show description in modal box View details on IPR001245 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd14066 View details on cd14066 Search for proteins/transripts with this domain View external data on cd14066	353	620	268	4.48431E-94	–
Gene3D	G3DSA:1.10.510.10 View details on G3DSA:1.10.510.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.510.10	423	626	204	2.4E-57	–
ProSitePatterns	PS00108 View details on PS00108 Search for proteins/transripts with this domain View external data on PS00108	468	480	13	-	IPR008271 Show description in modal box View details on IPR008271 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF11883 View details on PF11883 Search for proteins/transripts with this domain View external data on PF11883	624	665	42	2.6E-9	IPR021820 Show description in modal box View details on IPR021820 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:0004672 View details of GO:0004672 AmiGO InterPro QuickGO	Molecular function	Protein kinase activity	Catalysis of the phosphorylation of an amino acid residue in a protein, usually according to the reaction: a protein + ATP = a phosphoprotein + ADP.	Subterm of View details of GO:0016301 View details of GO:0016773 View details of GO:0140096
GO:0004674 View details of GO:0004674 AmiGO InterPro QuickGO	Molecular function	Protein serine/threonine kinase activity	Catalysis of the reactions: ATP + protein serine = ADP + protein serine phosphate, and ATP + protein threonine = ADP + protein threonine phosphate.	Subterm of View details of GO:0004672
GO:0005524 View details of GO:0005524 AmiGO InterPro QuickGO	Molecular function	ATP binding	Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator.	Subterm of View details of GO:0008144 View details of GO:0032559 View details of GO:0035639
GO:0006468 View details of GO:0006468 AmiGO InterPro QuickGO	Biological process	Protein phosphorylation	The process of introducing a phosphate group on to a protein.	Subterm of View details of GO:0006464 View details of GO:0016310
GO:0048544 View details of GO:0048544 AmiGO InterPro QuickGO	Biological process	Recognition of pollen	The process, involving the sharing and interaction of the single locus incompatibility haplotypes, involved in the recognition or rejection of the self pollen by cells in the stigma. This process ensures out-breeding in certain plant species.	Subterm of View details of GO:0008037 View details of GO:0022414 Part of View details of GO:0009875

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0346900.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi2g1v0346900.3