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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0409700 |
Transcript ID | LotjaGi1g1v0409700.2 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Receptor-like protein kinase; TAIR: AT5G25930.1 kinase family with leucine-rich repeat domain-containing protein; Swiss-Prot: sp|Q9SGP2|HSL1_ARATH Receptor-like protein kinase HSL1; TrEMBL-Plants: tr|G7J3I8|G7J3I8_MEDTR Leucine-rich receptor-like kinase family protein; Found in the gene: LotjaGi1g1v0409700 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:90010547..90021317) extracted from Lotus japonicus Gifu genome v1.2.
AAGTGACTTCATAAACGTGTTAGAAATAACTTTACTAAGATAGATGCTCACACAACACTAAACAGTGGAAACAAAACCAG CAAACCCATGTTTGAATTTTGACAAACAAAGTTTAACCACTTTCCCGGCTAAATCCCCAACCGGAGCTACCGAAATGTCC AAAATACCCCTCCCCGTGCTGAAACTTCCACTCTATTTGTTCCTCTTGCTCGCCATCACGGTGCCCTTTCAAGTAATTTC GCAAGCAACAACCACCGAGGAAACAGTCCTACTCACCCTGAAACACCAACTGGGTGATCCACCGTCGCTCCAGTCATGGA AACAGTCACCATCCTCGCCGTGCGACTGGCCGGAGATTCTCTGCACCGCCGGCGCCGTCACGGAGCTCCTCCTCCCAAGC AAAAACATCACACAGACGAGTCTCCCAGCCACAATCTGCGACCTCAAAAACCTCACCAAGCTAGACCTCTCCAACAACTC CATCGCCGGCGAGTTCCCGACGTCGCTGTACAACTGCTCCAGCCTCCAGTACCTCGACCTCTCCCAGAACTACCTCGCCG GCGTGATCCCTGACGACATCAACCGCCTCAAAACCCTGACGTACCTCAACCTCGCCGGAAACAGCTTCACCGGCGACGTC CCAGCAGCGATCGGGAAACTCCCGGAGCTTCGAACTCTTCACCTGTATCAGAACAACTTCAACGGAACACTCCCGAAGGA GATTGGGGATTTGTCCAACCTTGAAACGCTGGGTTTGGCTTATAACTGGAGACTCACACCCATGGCGATACCCTTCGAGT TCGGGAACCTGAAGAACCTTCGTTTCATGTGGATGAAACAGTGTAACCTGATCGGGGAGATTCCCGAAAGCTTCGTGAAT CTCACGAGCCTCGAACAGTTGGATTTGTCTGTGAACAATTTGACAGGAAGCATTCCTAGTTCTCTGTTTTCGTTCAAGAA TCTCAAGTTTCTGTACCTGTTTCGTAATAGGTTGTCAGGGGTGATACCCAGTTCGGTGAAAGCGTTGAATTTGACTGATA TAGATTTGGCTATGAACAATTTAACAGGTTCCATACCCCAAGAGTTTGGGAAGTTGAAGAATTTGACTATGTTGCACTTG TATTTGAATCAATTCTCTGGTGAGATTCCTAGTAGTTTAGGCTTAATCCCAAGTCTAAGGAACTTCAGGGTTTTTGGGAA CAAGTTGAGTGGAACTTTGCCTCCAAAACTAGGCTTGTATTCAAACCTTGTATCTTTTGAAGTTTCTGACAATGAACTAG TTGGTGGGTTGCCAGAGAATTTGTGTGCTGGTGGTGTTTTGATGGGTTTGATTGCTTTTTCAAACAATCTCAGTGGGAAC TTGCCTAGATGGCTTGAGGATTGTGCTTCTCTTACCACAGTTCAGCTTTACAATAACAAGTTTTCAGGGGAGGTTCCTTT GGGTTTGTGGAATTTGAGGAGACTGCAAACCTTGATGTTAAGCAACAACTCCTTTTCTGGGAAGCTTCCAAGTGAATTGT CTTCGAATGTTTCGAGACTTGAGATCAGAAACAACAACTTCTCAGGTCAGATATCTCTTGGAATTTCATCAGCTGTGAAT TTAGTAGTTTTTGATGCAAGAAACAACATGATTTCGGGTGAAATTCCAAGGGAATTGACAAGTCTTTCAAAACTCACTAC CCTCATGCTTGATGGTAATCAAATTTCTGGTCCACTTCCTTCAAAGATCATTTCATGGCAATCACTGAATACTATGTCCC TCTCAAGGAACAAGCTTTCTGGCCGAATCCCCGTAGCTATCGCGAGTCTTCCTAACCTTGTTTACTTGGACTTGTCTGAG AATGAAATCTCTGGTGTAATCCCAACTCAGGTTGCCAAATTGAGGTTTGTTTTTCTCAACTTGTCCTCCAACAACCTTTC TGGTAACATCCCTGATGAGTTTGATAACCTTGCATATGAAAGCAGTTTCTTGAACAATTCCCATCTATGTGCTCACAACC AAAGACTCAACCTTTCAAACTGCTTGGCCAAAACCTCACCACCCTCCAGCAATTCCTCTTCCAAATTCCTTTCCCTGATT CTCTCTGTCACCTCCATTGTGTTACTGATCCTTGCCTCCTTGGCCTTGTACACTTTGAAAAAGCAATGTGGCAAAAAGCA ATTAAGGCCAAAGATATCAACATGGAGGCTTACCTCATTCCAGAGGTTTGATCTCACAGAAATAAATCTCTTCTCAAGTT TAACAGAAAACAACCTCATAGGAAGTGGAGGATTTGGGAAAGTCTACCGGATTGCTTCAGATCATTCCGGCGAGTATGTT GCGGTGAAAAAGCTTTGGAACAGCAAAGATGTCGATGACAAGCTGGAGAAAGAGTTTATGGCTGAGGTGGAGACCCTGGG CCACATTCGGCATTCCAATGTGGTGAAGCTTCTGTGTTGTTATTCAAGTGAGAACTCCAAGATTCTTGTTTATGAATACA TGGAAAACCAGAGCCTGGACAAATGGCTTCATAGGAAGAAGAAAACATCATCAATTACTGAGTTGAGTTCACCCAACAAG AATCATCTGGTGTTGAGTTGGCCTACGAGATTGAAGATTGCCATCGGAGCTGCACAAGGTCTGTGTTATATGCACCACGA ATGCTCACCGCGAATCATCCACAGAGATGTCAAGTCCAGTAATATACTGCTAGACTCAGAGTTCAAGGCTTGTATAGCAG ATTTTGGGCTAGCTAAGATATTGACAAAGCCAGGGGAGCTACACTCCATGTCTGCTCTAGCAGGGTCTTTTGGCTACATT CCACCAGGTAAATGATTAGCATGCTTGGAATTTCCCTCAACAATTAATTCTAAAGATAAAATCAATTCTAGAGATGAGCT TCTGAGTAATAGAATTAATTTTAAGAAAAATAAGCTGATCAACCAACTACATAATTTTGTGTGTTCATATTGAAGTCAAC TGATCCTTTGCTTCACTTGCATTGCAGAATATGCTTACTCAACTAAGATTAACGAGAAGGTTGATGTATACAGCTTTGGA GTTGTACTTCTAGAGCTTGTAACGGGAAGAGAGCCTAACAACGCAGGCGAGCATGGAGGCAGCCTTGTTGATTGGGTATG GCAGCATTTCAGTGAAGGGAAGTGCCTTAGTGGTGCCTTTGATGAGGGTATCAAAGAAACACGTCATGCAGAAGAGATGA CCACCGTCGTCAAATTAGGCCTGATGTGCACAAGTTCATTACCCTCAACTAGGCCTTCCATGAAGGAGGTTTTGCAAGTT CTTCGTCAGTCTTGTTCTCATGGTTCAGCTCATAAAAGAGTAGCAACTGAGTTTGACATCACCCCTCTTCTTGGGGATAC GAGGTACATTACTAGTTATAAGGATAGCAGGGTGGTAAGTGAAAATGAAGATACCTGCTTGTATAGTGTGTGACAGCAGT GTTACCCCATAAAGAATAATTTCAATGTAGTGTAAGTATGTACTGATATCATCTCCAAAGGAAATCATTGAAGTATTATA CTAAAAATATGCTTAAGGTTTGGATATAACTAGCAACTACATCTATAAACTAGGTTTTCCACATTACAACTTTATTTTAT CAACACCATTGGCAAGTCACCATAAATCCAAGTATAATCCCTGTTTCAGCACGTTTATCACCCACCCATACTCTGAAACC AAATAAAACGCCAAATAAAGGAAGCAAAGAAATAGAAGAAAACGATATGAGAACACTGGTGACAAATACAATATTTCACA GAAGTTTTAAGCCAAGAAAGACCAACGAAACTCATAGGCAGTAGTACCCCCCGCTGTCTAAACTTGTAAAGCAAGGATAG ACGTGAATGACTGACTACCACCTACTCATCTGCCGCCAAAAATATTTTTGTTTTGCCATTTTGTCTTCTAAACCACCTAG TCGAAATGGCAATTTGATTACATTTACATCCACATCACAAAGCAAAACCACAAAGTTCCCACTCCTTGAAGATCCAAGGT GTGTAAATGTCAAAGTTTATGAGACAATTCACAGCTCTGAAGATGAAATCAGCCCATGGTTTCACACAAACTGGGCGTGA CCACATTTTTAGCATCTCCATGCCTCCGTTCATCTATGTACACAAAGGACCATCACGCAGCCATCATTTGCATCAGCTCC TCACTGTTCAGATTTAGCCTCATGCCTACGCCCACAGGATCTTAGCACAGCAACAGCCCCAACCCAGCAAAAGATAGTAG AAGTGTGCGCAGCAGCAACTTCAGAGACTCACCTCCCATTTTCACGTACCACTCCAAACTCATCCTCCTACAAGGCCAAA ACCAAAGAGGACAGTATAAAGACATTCTCATACACACTTAAGAGAGTTTAAAAGCAAGCTTTTCACAAGCTTCAGCCAAG ATTCTGACCTAGCCCCATCTTCAATTTATACAACACTTCTGAGTCTGACATCTGGCTATACAAAATATGAAAAATAGAAA GAATACAAATAATTAGGAACCCAAAAAAACCAGTAAACAAGAAAATGTATAGGAGAAAAACAGAAGGTCTGGTCTCTGAG CCTCTCTACACAAAACAAGTCAGGTTCTTAAGCACAGTAACTGGAAATAGCACGTATAGTGGTGCAAGACCTGCGACCAC ATATTCAGCGGTCAGAAAGTTGACTAAGAAATTCAATTACCATGCAAATTAATAGTCAAATCGTCTTGAAACAAATGGGC AAATTTATACAATGTATAATAAAAACAGTCGGTCATAGCAAGAAGAACCAAAAAGATAGGAACAGAAAAGGGACAGACCA TATTCTGACTGGATACAGGATATATAATGTGTTAACAAGCTAGAAAACAAAGGGAATCAGTCACCAAAAAAATACAAGAT TACACTCACTTATTTCATCAGAAAACACATGAAATATAAAACTTTAGTAACTGCTATTAAAGAATAGTATTATTTAGATC ATCTTTATTACGGAGAAAACAGAAAGAGATTAGGAAATTCAAAACCTTAAACTCTTCAGCCATGATATTTTGAAATACTA TTTCCATGAAAATACCCACTCTTCAGAACTGATCTGGATCAGCCAAACAAACACCACCCTGCAAAGATCCCTGACTCTCA CTATCTCCCAGACTTCGAGTTTTTTTCACTGCCATCCACAACAGTTTCTAATCCAAAAGTCCTCAAATGAAGAAACTTAC CTCACAATTGAGGCTCTGGGTGCTGGCACTCGGTACAAAATCTGAACATTCGGCCCTTTTGGTGAAAGTACAACCTTTGT CTAGTTGTTGTTCCATACCAACAGTGCCGTCTTTCCAGTTTGACAAGCTTTTGGTAGCTGCAGTTTCTGCATTTTCCAAG CAATCTAAACCCAGATCACGAGCTTTATCCCCATTGACTACATTCTGAAATTGATCACCAACTTCTAATTAAGGAACTTC ATATGAACCAAACAACTTGCCAAGGGAATATTCTTCCACTGTTTCAACAAGCTTACCTCATTCTGAACTTGTTTCAGCCG TGTGGAGTCAACAGAACCTGTTTCACTAATCTGCACGTTGCGTACTTCAATATTGGTTCCACTTCCTAGGAGTCCATAAG ATGACTTAATTCCAGAGTTGCTGTCAGCATCTTTCATTGTTGAGCTAGCTAACCTAACTCCTTCGATATCCTCAATACTC ATTTGAGGTGTGCCACCTGATTTACTAGAACAACTCGCCGGAGAAACATTTTGTGGGCTAACAGATGCCCGCTTCTCTGA TTTATCTGGCTTCACATCCACCATTTCAGGGTTACTTTTCCTCTTGACGCATCTTTCAGAAGACCTAGACCCAGAGTTGC ACATTGGAGTATCATCGCCCATTTTTTCAGCTGTATGGCTTAAATTCCTTGGTATTCGAGAACGTTTGTAACCATCTGGA AAAACAAATGCAGGGAGCTTCTTTCGACGAACATGAGAAACATAAATTTCCATCCCAGGCTTCCAGTATGTATACAACAT ATTTATTTCTTGTCTGAATTCATCAACTGTTCCGCGTATATCAAATTGCTGTCCCTCTTGACCTTTTACTCCCTCTTTTC TTTGCAAACCCATGAAAAATGCAGAATGTGCGCAAGGCTTGGATGTGTCTGCATACTCGTGTGGATAAGGATGACACTGC AGCATCCCATTGGTATCTCGCTCAATCTGCTCATAGATAAGAGAAAAGCATGTGTTAAAATATGTACAAAATAAAAGAAT ATGTCAAAACATTCAGAAATTAAATATTTTCAATGAATAAAAAACACACATGAAACATGGATTAAACCCAGTAGAGGAAA GCCTAATAACAAACTATGAAAAGATTCTACCTTCAAGGTTAGCAGTCTCAACCGAGATTCTACCCAACCCTTCCACGCTA GTAAGTCATCAGCATCTAATGCAAGTATGTCTACTTGTAAATAGTTTTTGTATGCCTCAAAAAAGACATATGGTTCAAAA AGTGCACTCCACTGGGATTTGTTGAGCTCAATTTCCTGACAGTTGAAATATCAATCAAATAATCTGTAGTCATAAGCATA GCATTACAAAAATAAGAATCAGACTCCTCTTACATCACAAATCTTGTTGCCATGGCGGAACTGTTCCATCATAACACGAA GAGTGCTTGCTGAGACATTGTAGCTGGAATTCATGCAAGGGTATGCAGGAGTAATAATTGGCATAGTGTGCAATCTGTCC CGGGAGTTTTTACGAGGATCCCATATAGAGAAACCGAGTTCATTTTCTTCTATAGAGCATAGCATTACAGGGTTTGGCCA CCGCCACTGTGTATAGACCCGAAAGAATCGAGAAACCAACATACTAGGAATTGCATTAGGGTAAAACTGGCACAGTCGAG CGACTAAAATAGCCCAATTTACACCGCCAAGGAATCCAGTAACCTAAAATAACAAAAGATGATATTGAAGACAAACAAAA ACAAAAATCCATGCCATTGGTTAATTAAAGTAAAAACTACAGCGGTTGTAGATGAAGTTCTTACATTTGAATACACACCA CGCCTTTTAGCCCAAAACTTTAAACATCTCAGCGTAGTACGGAAGTGCTATCATTGTCAAGGTTAACAGACTATCAATTT ATTAAGATGAAGGACCATTAAATCTAATATATCAATGAACCAAACTAAAGAACATATATGTCAACCTCAACATTAGGAAC AAGTTTCAGAATCTGATCTGCCACCCGGCAGCCATTAAGACTTCGAACAGTTTGTTCATCAACATCATGCAGCACAGAAC CTTGTGAGATATCCACGTCCTGGGGATAAGTGTGATTGAAAGCCATAATAAACAGAAGTCAGGTTTAAAAGAAAACCACA TCTTGATGGAGGAGATTTAGAATGTACAAAGGAGAAGAACAATCAAAGAAACATGTATTTCTCTTAGAAACAAACTAGAA TGCAGAAGGCAACATGAAATGGAAACACAGTAATAAATACGGCCCTGATTAAAACCTTGTACCAATATAGTGTATAACCT CAACAAAGTGGATAAACAAATTTAGATCAACAATAAAAACTTGCATTTAGCAAACTTATGTTAGCTAAATGAAGGCCAGC AAACTACTTTGTCATAAATAATGCCTCAAACTATAAAACAACTACTACTCCTTCTTACTTCCATTTAATTCCTATAATGT TAACAGAAAGATAAAGATCCTGTACTTCAAACCAAACATGCCACAAACAAAAAATGAAGGTAAGTGACAGAAAGATAGCA GTTCAAAATATGACGAAGAGAAATGGTTACATTCAATTTGGAAAGACCTAGAGAACTCAACTTCATGAAGGAAATTGTGC TTATGTTAGGGAAGCCCTTAAAGTCTTCACCTAAGACAATTGCATTCTGAATTTTTAATAAAATTGTCTTTCCCAAAAAT GGGCTCTCAGAACATATAAAGGCACTGCTAATAGCCAACTTACTTCTGGCACAACCAAAAGAGATATGCTTGCATACAGC AAATCTATAGAAATTCCCTGGAACTTGAATTTCATTACTGGGACATGTGCATCATTAATTGGTTGAAGTTCAGTAATTTC TTCCATTTCAGCCAAAATGTCATGTAAACCAAAAAAGAAGTCTTCCTGCAAAAGAGAATTATATTGGCTAAAATATGAAA CCAATGCCAAGGAGTTTACTGAATTGAGCAAAAGTAATAAGCAGAAGTGTTTCACCTCTCGATTCACATAAGAAGGACCA ATGCACAAAGTGTCTATGTCAACTCCTGGTCCATGAACCTGCAAATGATTGAATTATTGTCATGTATCCAAATACTTACA AAACAGCCACTTAAAAAATAAACAAAAAAGGTATTATATAAAACAACACCACTAAGACACATTTACAGTCGGCTAATATT TTCTTCATAGAAGAACAACTTTTTGCTACAAGAATGTACAGAGCAAATAAGAAGGGGGATGGAAAGGAAGCTGTTAACAT TGAAGCAGAATGAAGATTAGGGAATTTTTGTTAGAACTGGATCAGAATTGAAGATAGAAATGAAAAACTCTGTTATTACT GAAGTTCCTGAACAAACCAATGCAGGCGGCCTCAAGGAAAAGAACTGACATAATACAACTTCTGGAGAAAACTCGAAGAA CCCAGTTTCTCTCCCAATACCTTTCTATTCCAATGAACAGATACCTACCTCCCTTGTCCTCTCCTTATTTATTAGCCAGG TAGTTGCACCAACTGCCAGCAGCCCAGCACAACCTCCTATTAACTTTACAAAAGAGTAACTAACTGACCACTTCTCAAAT ACTTAGAAAACAATTAAATTCCTATAACACTTTTGTTCCTCGGCTCTTTCTATAATAGACTTTAGTAATGGGGGGTGGGG GGTAATTTGACAATAGCAATTTAATGAGAAGATTGGAAATAACACTTATAGAACGTAATAGAACAGTATTTGATCGGAGG GTAATGATCGATTGTAACACTTTAGTAATGGGGGTCACCGTCCAATCATTTGTTAACACTAACAGTAACTTAAACATGAT CATTTTTGCAAACAAGTGACTAATATAATCAGACTTCAACACTTTCTAGCCTAAGGATTAAAACATTACTGAGATACTCA TCAGCATATACCTTAAAAAAAAGAAAATAAGAGGGCCTGTCATTCTTCAGAGGTAACTAAACTATATTTATAAACGGTTA AGCAGAGAAGGGATACCAGACCAATTTTTCAGTCTCTTGCTATTCCCAATAACAACAAATGCAATCACATGATTCTTAAA TTTGAACTGTGAATTGTATTCTATGTATTTCATGAAGGACTTGGAACAAATACTATGTTAATAAGCAAAAGTAATAGGGT GACATTTAGGGATTATAATCAATCTAAGGAACCTATACAATCAAAAACAAATTTGAACAAATCTCAAAGCTCCTCCTCAA GCTGGATCATACATATGATATGCATCCAACTTGTTACAATACATGTTATTCTACGACCTCATAAAGATTTAGTGAAGATA TCGGCAAGCTTATCCTTGGAGGATATTTTCAATGATCCTAAAAGGATATTTTCTCAGGATTGGGAAAGAGGTAGAATTAG AAAGCTTACTGGTTTGGAAATGCGATAGAGTAAATCCCTAATGTTTAGGGACTATAATAAAAACAAATCTGAACACTATC TCTATAGTAATACCTCCCATATACTTTTTTTTTCTCTCCAAATCTTTCCAACATCCTGACATAAGTTCCTTCTGCTAGTG TCAACTAATGTCATTGTCAATTTCTATAGTGAATAAAGTCAAGACATTTATGCGTTGTGCAAAACTTGAATTGAAGTCCT CCATACTCTTAATAATCAAAAGAAGTTATCAATTGTCCCATGCATAAAACTGTTGACAATATGCAAGCACTAGCATACTA ACCCCAAGGCGATAAGAGCCAAAAGTGAAAATGACAGCATTTGCATCATCAACCATCTGATCGGTGTAGCCTCGTTGACG AGTCACCTGCTTCACCCAACTTTTCACAATCTACATAGCAGGTTAACAAAATTTATTAGCATCAATATTACAACATTAGC ATGATTAAGACAACTGAAGACTATTACAGAAGGTTATAAGAGCACAGTAATTAAATGCTTGAATAAACCTATAAGGAAAC TTTCATTATAAGGCAGGAAATGGAGAAAAGCAAGATCATGAAGTAAGCAACCTGGTCAAGGCGGCGAAGGACTTCTCGTC TGGCTGCAGCTTCTTCATCACTCTCGTAAAGCCCAGAATCAAGCATGAACTGAAGTATAAGAAAAATAACAGATTATTAC ACAAAAGCAATAATAGTAAGAATGGTGTGGAATAAACAATTCAATAGAAATCAATTGATTACCTTCTCCAATTCGAGGTT CCGTTGGATATCAGCATCGCTAGGGCCAGCAAGGGAAATGGGTTTTGAGAATCCAACTTGTTGAGTTGGAGGCGGCGGTG GCGGTGTAGAACCACCGTTGGGACTACCGGAACCTGCCATTTTTGACCTAGAAGATTCCGATCGAGAAATCCTCAGTTTG CATCTTTCAAATGGTTGGCATGGGATTGTTACAGTTCAGAGATGCCCTAGGATGAAGGATTTGGATCGGGATTTGGATTT GGATTTGGGGTTTGGGTGGGTTGAGGTGAGGTGAAGGAGCGTTTTTTTTATTGGAAATAGTAAAGAGTTAAGGGAGCGTT TGGGAATAAATATAATTCATGATGTAATGTAACTCCATATCCAACACGGAC
CDS sequence (LotjaGi1g1v0409700.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTCCAAAATACCCCTCCCCGTGCTGAAACTTCCACTCTATTTGTTCCTCTTGCTCGCCATCACGGTGCCCTTTCAAGT AATTTCGCAAGCAACAACCACCGAGGAAACAGTCCTACTCACCCTGAAACACCAACTGGGTGATCCACCGTCGCTCCAGT CATGGAAACAGTCACCATCCTCGCCGTGCGACTGGCCGGAGATTCTCTGCACCGCCGGCGCCGTCACGGAGCTCCTCCTC CCAAGCAAAAACATCACACAGACGAGTCTCCCAGCCACAATCTGCGACCTCAAAAACCTCACCAAGCTAGACCTCTCCAA CAACTCCATCGCCGGCGAGTTCCCGACGTCGCTGTACAACTGCTCCAGCCTCCAGTACCTCGACCTCTCCCAGAACTACC TCGCCGGCGTGATCCCTGACGACATCAACCGCCTCAAAACCCTGACGTACCTCAACCTCGCCGGAAACAGCTTCACCGGC GACGTCCCAGCAGCGATCGGGAAACTCCCGGAGCTTCGAACTCTTCACCTGTATCAGAACAACTTCAACGGAACACTCCC GAAGGAGATTGGGGATTTGTCCAACCTTGAAACGCTGGGTTTGGCTTATAACTGGAGACTCACACCCATGGCGATACCCT TCGAGTTCGGGAACCTGAAGAACCTTCGTTTCATGTGGATGAAACAGTGTAACCTGATCGGGGAGATTCCCGAAAGCTTC GTGAATCTCACGAGCCTCGAACAGTTGGATTTGTCTGTGAACAATTTGACAGGAAGCATTCCTAGTTCTCTGTTTTCGTT CAAGAATCTCAAGTTTCTGTACCTGTTTCGTAATAGGTTGTCAGGGGTGATACCCAGTTCGGTGAAAGCGTTGAATTTGA CTGATATAGATTTGGCTATGAACAATTTAACAGGTTCCATACCCCAAGAGTTTGGGAAGTTGAAGAATTTGACTATGTTG CACTTGTATTTGAATCAATTCTCTGGTGAGATTCCTAGTAGTTTAGGCTTAATCCCAAGTCTAAGGAACTTCAGGGTTTT TGGGAACAAGTTGAGTGGAACTTTGCCTCCAAAACTAGGCTTGTATTCAAACCTTGTATCTTTTGAAGTTTCTGACAATG AACTAGTTGGTGGGTTGCCAGAGAATTTGTGTGCTGGTGGTGTTTTGATGGGTTTGATTGCTTTTTCAAACAATCTCAGT GGGAACTTGCCTAGATGGCTTGAGGATTGTGCTTCTCTTACCACAGTTCAGCTTTACAATAACAAGTTTTCAGGGGAGGT TCCTTTGGGTTTGTGGAATTTGAGGAGACTGCAAACCTTGATGTTAAGCAACAACTCCTTTTCTGGGAAGCTTCCAAGTG AATTGTCTTCGAATGTTTCGAGACTTGAGATCAGAAACAACAACTTCTCAGGTCAGATATCTCTTGGAATTTCATCAGCT GTGAATTTAGTAGTTTTTGATGCAAGAAACAACATGATTTCGGGTGAAATTCCAAGGGAATTGACAAGTCTTTCAAAACT CACTACCCTCATGCTTGATGGTAATCAAATTTCTGGTCCACTTCCTTCAAAGATCATTTCATGGCAATCACTGAATACTA TGTCCCTCTCAAGGAACAAGCTTTCTGGCCGAATCCCCGTAGCTATCGCGAGTCTTCCTAACCTTGTTTACTTGGACTTG TCTGAGAATGAAATCTCTGGTGTAATCCCAACTCAGGTTGCCAAATTGAGGTTTGTTTTTCTCAACTTGTCCTCCAACAA CCTTTCTGGTAACATCCCTGATGAGTTTGATAACCTTGCATATGAAAGCAGTTTCTTGAACAATTCCCATCTATGTGCTC ACAACCAAAGACTCAACCTTTCAAACTGCTTGGCCAAAACCTCACCACCCTCCAGCAATTCCTCTTCCAAATTCCTTTCC CTGATTCTCTCTGTCACCTCCATTGTGTTACTGATCCTTGCCTCCTTGGCCTTGTACACTTTGAAAAAGCAATGTGGCAA AAAGCAATTAAGGCCAAAGATATCAACATGGAGGCTTACCTCATTCCAGAGGTTTGATCTCACAGAAATAAATCTCTTCT CAAGTTTAACAGAAAACAACCTCATAGGAAGTGGAGGATTTGGGAAAGTCTACCGGATTGCTTCAGATCATTCCGGCGAG TATGTTGCGGTGAAAAAGCTTTGGAACAGCAAAGATGTCGATGACAAGCTGGAGAAAGAGTTTATGGCTGAGGTGGAGAC CCTGGGCCACATTCGGCATTCCAATGTGGTGAAGCTTCTGTGTTGTTATTCAAGTGAGAACTCCAAGATTCTTGTTTATG AATACATGGAAAACCAGAGCCTGGACAAATGGCTTCATAGGAAGAAGAAAACATCATCAATTACTGAGTTGAGTTCACCC AACAAGAATCATCTGGTGTTGAGTTGGCCTACGAGATTGAAGATTGCCATCGGAGCTGCACAAGGTCTGTGTTATATGCA CCACGAATGCTCACCGCGAATCATCCACAGAGATGTCAAGTCCAGTAATATACTGCTAGACTCAGAGTTCAAGGCTTGTA TAGCAGATTTTGGGCTAGCTAAGATATTGACAAAGCCAGGGGAGCTACACTCCATGTCTGCTCTAGCAGGGTCTTTTGGC TACATTCCACCAGAATATGCTTACTCAACTAAGATTAACGAGAAGGTTGATGTATACAGCTTTGGAGTTGTACTTCTAGA GCTTGTAACGGGAAGAGAGCCTAACAACGCAGGCGAGCATGGAGGCAGCCTTGTTGATTGGGTATGGCAGCATTTCAGTG AAGGGAAGTGCCTTAGTGGTGCCTTTGATGAGGGTATCAAAGAAACACGTCATGCAGAAGAGATGACCACCGTCGTCAAA TTAGGCCTGATGTGCACAAGTTCATTACCCTCAACTAGGCCTTCCATGAAGGAGGTTTTGCAAGTTCTTCGTCAGTCTTG TTCTCATGGTTCAGCTCATAAAAGAGTAGCAACTGAGTTTGACATCACCCCTCTTCTTGGGGATACGAGGTACATTACTA GTTATAAGGATAGCAGGGTGGTAAGTGAAAATGAAGATACCTGCTTGTATAGTGTGTGA
Protein sequence (LotjaGi1g1v0409700.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MSKIPLPVLKLPLYLFLLLAITVPFQVISQATTTEETVLLTLKHQLGDPPSLQSWKQSPSSPCDWPEILCTAGAVTELLL PSKNITQTSLPATICDLKNLTKLDLSNNSIAGEFPTSLYNCSSLQYLDLSQNYLAGVIPDDINRLKTLTYLNLAGNSFTG DVPAAIGKLPELRTLHLYQNNFNGTLPKEIGDLSNLETLGLAYNWRLTPMAIPFEFGNLKNLRFMWMKQCNLIGEIPESF VNLTSLEQLDLSVNNLTGSIPSSLFSFKNLKFLYLFRNRLSGVIPSSVKALNLTDIDLAMNNLTGSIPQEFGKLKNLTML HLYLNQFSGEIPSSLGLIPSLRNFRVFGNKLSGTLPPKLGLYSNLVSFEVSDNELVGGLPENLCAGGVLMGLIAFSNNLS GNLPRWLEDCASLTTVQLYNNKFSGEVPLGLWNLRRLQTLMLSNNSFSGKLPSELSSNVSRLEIRNNNFSGQISLGISSA VNLVVFDARNNMISGEIPRELTSLSKLTTLMLDGNQISGPLPSKIISWQSLNTMSLSRNKLSGRIPVAIASLPNLVYLDL SENEISGVIPTQVAKLRFVFLNLSSNNLSGNIPDEFDNLAYESSFLNNSHLCAHNQRLNLSNCLAKTSPPSSNSSSKFLS LILSVTSIVLLILASLALYTLKKQCGKKQLRPKISTWRLTSFQRFDLTEINLFSSLTENNLIGSGGFGKVYRIASDHSGE YVAVKKLWNSKDVDDKLEKEFMAEVETLGHIRHSNVVKLLCCYSSENSKILVYEYMENQSLDKWLHRKKKTSSITELSSP NKNHLVLSWPTRLKIAIGAAQGLCYMHHECSPRIIHRDVKSSNILLDSEFKACIADFGLAKILTKPGELHSMSALAGSFG YIPPEYAYSTKINEKVDVYSFGVVLLELVTGREPNNAGEHGGSLVDWVWQHFSEGKCLSGAFDEGIKETRHAEEMTTVVK LGLMCTSSLPSTRPSMKEVLQVLRQSCSHGSAHKRVATEFDITPLLGDTRYITSYKDSRVVSENEDTCLYSV
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 | 1 | 10 | 10 | - | – | |
SignalP_EUK | 1 | 33 | 33 | - | – | |
Phobius | 1 | 29 | 29 | - | – | |
Phobius | 11 | 21 | 11 | - | – | |
Phobius | 22 | 29 | 8 | - | – | |
Gene3D | 27 | 184 | 158 | 1.9E-44 | ||
Phobius | 30 | 637 | 608 | - | – | |
PANTHER | 30 | 996 | 967 | 0.0 | – | |
PANTHER | 30 | 996 | 967 | 0.0 | – | |
Pfam | 35 | 70 | 36 | 5.2E-6 | ||
SUPERFAMILY | 42 | 379 | 338 | 3.74E-63 | – | |
SMART | 97 | 121 | 25 | 17.0 | ||
Pfam | 99 | 157 | 59 | 1.3E-11 | ||
PRINTS | 124 | 137 | 14 | 4.7E-5 | – | |
SMART | 169 | 193 | 25 | 17.0 | ||
Gene3D | 185 | 289 | 105 | 1.9E-28 | ||
Pfam | 232 | 280 | 49 | 1.6E-6 | ||
SMART | 243 | 267 | 25 | 5.2 | ||
PRINTS | 243 | 256 | 14 | 4.7E-5 | – | |
SUPERFAMILY | 290 | 624 | 335 | 1.18E-46 | – | |
Gene3D | 290 | 385 | 96 | 2.0E-23 | ||
SMART | 314 | 338 | 25 | 350.0 | ||
Gene3D | 386 | 457 | 72 | 5.3E-16 | ||
SMART | 434 | 458 | 25 | 22.0 | ||
Gene3D | 458 | 526 | 69 | 3.2E-15 | ||
SMART | 504 | 528 | 25 | 54.0 | ||
Gene3D | 528 | 613 | 86 | 4.3E-19 | ||
Pfam | 530 | 588 | 59 | 4.5E-7 | ||
SMART | 552 | 575 | 24 | 53.0 | ||
Phobius | 638 | 661 | 24 | - | – | |
TMHMM | 639 | 661 | 23 | - | – | |
Phobius | 662 | 1032 | 371 | - | – | |
Gene3D | 669 | 775 | 107 | 1.6E-22 | – | |
SUPERFAMILY | 690 | 983 | 294 | 5.66E-74 | ||
SMART | 696 | 988 | 293 | 3.7E-31 | ||
ProSiteProfiles | 696 | 996 | 301 | 38.435 | ||
Pfam | 698 | 981 | 284 | 1.0E-46 | ||
ProSitePatterns | 702 | 726 | 25 | - | ||
Gene3D | 776 | 1001 | 226 | 3.3E-61 | – | |
ProSitePatterns | 834 | 846 | 13 | - |
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 , while the GO metadata was last updated on .
GO term | Namespace | Name | Definition | Relationships |
---|---|---|---|---|
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. | ||
Molecular function | Protein binding | Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules). | ||
Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
Biological process | Protein phosphorylation | The process of introducing a phosphate group on to a protein. |
Expression pattern of LotjaGi1g1v0409700.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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