Your browser is unable to support new features implemented in HTML5 and CSS3 to render this site as intended. Your experience may suffer from functionality degradation but the site should remain usable. We strongly recommend the latest version of Google Chrome, OS X Safari or Mozilla Firefox. As Safari is bundled with OS X, if you are unable to upgrade to a newer version of OS X, we recommend using an open source browser. Dismiss message
Field | Value |
---|---|
Gene ID | LotjaGi5g1v0121700 |
Transcript ID | LotjaGi5g1v0121700.1 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Kinase; TAIR: AT2G24370.1 kinase with adenine nucleotide alpha hydrolases-like domain-containing protein; Swiss-Prot: sp|Q9SW11|PUB35_ARATH U-box domain-containing protein 35; TrEMBL-Plants: tr|V7CVM8|V7CVM8_PHAVU Uncharacterized protein; Found in the gene: LotjaGi5g1v0121700 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr5:25506004..25520506) extracted from Lotus japonicus Gifu genome v1.2.
TTCCACATTCTGTTTCCTAGAGGGACATAGTCAAGGGTAATGCGCAGAGTTTGGTTATTCTCTCATGGGGAGAGGGAAGA TAGAAAAATATGTGTGGTTTTCTACATCCGAGAAAAGCTCCAACTAGTTTTAGGAAACCCAAAAGACACAACATACACAA ATTAAAAGTGGATCATATTAAAAAGGATTAGATGTTTGTTACTTTTTGTGCTCTTCATTCTTCCAAACACCAAAAGAAAC AAAGAACAGAGTATACAAATTAAACATCATGAAAGCCCTTTTGTCTATTGTTACATAGAGAGAAACAAAAGATATTCCAA AGAAAGAAAGCTATCATGTATTTTTCTTGGAGAGAGTTTCCCTTTTTTCACAAAATCAGGCCCCACAAGTGCTTCATTTA AGGATCTCAAGATGCAACAAATGATATCCACGATAAATATTCAGAAAAACAAAAGGAAGACACTTTAGTGTTCTTAATCT CATGGTGGATGAATTATAAAGAAATATTTGGGTTTGTTATGGTTGTTTCTTTTCACTGAAAGAGCATAGGAAGCTTGGTT GAAGATTTCACATATTGAGAGACGTTTGAAACGAACAGGAAGTGATTTGAGGAATGTGGTTACAAAAGAGTCAAGGGGAT AGGAAGGATGGGGTAAATGGAATAGTGGCAGTGGCAATAGATCATGATAAAGGTAGTCAAAATGCACTCAAATGGGCCAT TGAGCATCTCCTCACAAAAGGTGGAACTGTAGTTCTCATCCATGTCAAGCATAAGCCATCTTCTTTTTCAACATCAGCTT CTCTTTCAACCCCAAGTGAGTATTGTCCCTCATACATTCTCTAAGAGACATGGAATTGTGATCACATAACAATAGTTGCA TGCATGCCTCCTCGGATCATTTGTGAATCTTTTTGTTTTTCTACGATTTGATTGGATATTGTCTAACTTATCTTGAAATA CATAAACGTCTGTTTGGATAAGTAACTTAATTAAGCGCTTTTGAAAATAAGCTTTTATCACATATGCACTTACTCACAAG CTAATTTGATAGGTTAATCAAATAATGATAAATAGGTTGTGGATAAGCATAAACTTTTAATCATAAACTAATTTGAACAA TTTATGAAAAATATGTTTAAAATAATTTATTGGTAGACCATAAATTAATTACATTTATAAGCTATCCTAAGCGCTTATAA TATCAAATAAGCTTAAATAATCTCTTCCGAATAATTCTATTTATGTTTAATACTTCATTAACGAATTTGATTGAATATAA ACTTCCTCATAATTCTATCCATGAGATTGAGTTTGACAAAAAAAAAAATTGTAAGCAAATTTTTTTATCGATAGTGAATC ACGAGTACAACCTTCTCTTGTAACAAGTAAAAACAGAACATCCTATATTAACCCACAACAACCTAGCGCACTTAAAGACA GTTTGAAGATAACTCAGGGAGCTTCCAATTAAGCTAGCTAGCACCAAATAACTCACTTGAAATTGAGTATACATTTTACA GTTGATTGTAGTTCCAAAATCATTTATTTTGAGTCCCCGTATGATAGCTCAAGTGGTAGGAGCTGAGGGACATATGGGTT GGGTAGAGGGAGGTCCAGGGATCTAATCCTGGCGGGTGCAATTTATCTTTCCGATGTACCAAAAAAAATCATATATTTTA ATTACATTAAAACATCTAAAATGAGGTTAATTAATTATTGGTATAAGTTATACAAACACATAACTAAAGGTTAGGAAATT CCAAGTAGATAAACAAAAATAACATGTAAAAAAGAGTGCATGGTAGCATTTCTATTGCAAATATAAAATACTACACAGAT ACTAAAAAGTTTGAAAAAGACAAAACACAATACTACATGCATAAGTAATAGAACTTAATATAAATCTAAATCATAATTTA AATCAACTGGAATTATTATATATTTAATTAAACGATATAATTAACACTCACTTGTTTTGCTATAGGGGCAGGGATACATG GCATTGCTGAGCATTCATTGGTTTGCCACGACCCGGATGAGCACACCAAAGAAATTTTTCGGCCGTATCGTGTCTTTTGT GCACGGAAAGATGTGAGTTTTGTTTTTTGGGAAAGAAAAATAAAAATAAATAAATACTTTTAAGTAGTATTTGTCCCTTA TCTGCATTTTTTCTTCCATTTTTAAGTATAAAAATGTGATCTTATATAATATCTTTTCTTTTTAATTAGAAAACATTCAA ATGTACTTATACTATTATTTATTCAAATAGTTGAAATAAAAAAATAACAAAATAAGGTGATCTTTTTATTGTTAGAAACT AAAACAAATAATGGACACAAATCTTCCTCTAATTAGTTAAAAAAAAACTTCCTCTAATTAAACGGGTCCCAATTAATTTT TCCTCAAGAAACATATCTGATACAATCAAGGAAAAGACAATGTTTTACATTTTACAATTCCTAAGATTATTTGACCACTT AGTCATCCTTTTCTATGTGTCTTATTTTTTTTCCGTCTATGTATACAGATACACTGCAAGGATGTTGTACTCGAAGAAGT AGATGTATCTAAAGCACTAATTGAATATGTTACCCAGTCATCAATTGAGCATTTAGTTATAGGATCTTCACACAAAACTG GATTTCTTAGGTATAACTTTATGCCTCTCTGTCTATATCATATGGTTATGCCCTGAAACTTTTTAAAATTTTCTCTTCAT CGCCTTGTGACATTTTAAGCCTTTGTGAAATTGTGGGTTGTCACTTGTCACGAAAAGACAAAACTTCTGACTTAATATAA AAGAAGATCAAATGTAACTCTTATCCCACTATTAGAATTTAATGTAGAACAAATTACTCAACTGATATAATTGTAATAAG ACAAGATGAGATAAATTGAAGATATAACTTGTTTTGGTACAAGGTGGTATCAAATGTTTCTAGTATTATATAGGGTTTAT AATTTCTAAATGTAAATTATTCATGAAAAATTTATATTATACTTATTGCTTTGGCGATAAATTCGTATTATTTAATCTAG ATTAAGAAAATATCTAGAAAGATGTGCATCATAGTGTAACAAATATATATATATATATATATATATATATATATATATAT ATGCAATTAATTGACTAAAGAAAGTTTTTGGCATCAGAAGATTCAAGGTAGCAGATATTCCAGGAAATGTTGCAAAAGGG GCTCCAGATTTTTGTACAGTTTATGTTGTTGCTAAAGGAAAAATCCAAACAATGCGATCTGCTTCTCGTCCAGCTCCTTC CTTTACACCTCTACAAACCCAAATCAATCAAGCCTCTACTAAGTCAACCCAATCAGACCCACGTGTGCATTTGACTAATA GTGTGAAAGGTTAGATTTGTTCTCTTTAACAATCACACACTCCTATATGTGACATGTTTTTGCATATTGATCATTATATG ATATTGAATGAGAAATGTGGTTTCTATTAGGACTTGAGAGGAGATCGGTTGATGCACCAGTTAAATTACAGGATGGCACA GAATCTTTCAGGTTAGTTACATTATGCAATACTTGTTATACTAGATATAAATCATGTGCGTTGCACATGTTTATTTAATT TTTTTAATATTTTATAAAAATATGATATTTTAAAAAATATGAAAATATTATTTACTTATAGAATATTATAAAATTAAAAT TAATTTCGTTAAAATTTACTAAATAATATTTTGCGATATTTAAATTATAATATATAATATTTTATCATTAACAAATTTAA ATTCTTAATACTATAAATAATAACTTGGTTTTATTTTAATATTTTAAATTTTTTCCTCAAATTATGACATAATAATATTC TAACTATTTTTAATTAATAGTTATTGACTAAATTTTTTATAAGAAACTGAAAAGGTGATAGTTAATAGTTAATACAATTA ACAACATGAAATTGCCGTCATTGATTTATTACTATTGTCATTAATACAAAGCTCAATTGAATTTTAAAATTACTTTATAA AATAACATGGCACAACATTATAAACAAATTATAGTTTTTTTTAAAATGAATTTATTTATACAAAAATCTCAGAACAAAAC TCAGATGAGATAAGAGATGAAAAAATCCACTAACACAAAATAATATTCACTCCGTTACTTTTCAAGTGTCATTTTAGCAT ACAACTCTCCAACCAAGATAGTGGATTGTTAGTTTTTTTCTTTCCTCTCATATCATTAAACCATTTACCACTCTCACTCA ATCATAAAGTCATAAAGCTCTTCATAGTTATTGGGAAAGGAGAATTCTATGAAAATTGTGAAGTGAAGTTATTGAAAAAG TAAGGGTATAATTGACAAATTGTAACTTTAAAACATGAAAATGACAGTTAAATAGGAAAAAAAATTCTTCTAAAACGACA CTTAAAAAAGAACGAAGGGAGTACCAAACAAGAATAGTCTCAAACACCCACCGTTAAAGCAAATACAAATATTAAGATTT AATTTAAAATATTATAAAACCCCAAGACTACAGAACCGCAATACAATAAAAACAAATTGAACTCCCTTTCTTATATTAAA TTATAATTATAATAATTATTTTTATTTAAATATTGTCCTTGACTTTTGATTAATAATTAAATTAAATTAATATTAAGATT TAATTTCAAATATGATAAACTGAAATTTTTTCTAATTATTTATAAATTTTATTTTTTAACTTCATTTACAATGGAAATTT TATTTCTTGATATATATTTAAAAACAAACCTATATTTATATATCATTCTCTCATTGAATTAATCAGGGAAAGAAATTTCC TTCATGATATCAAGAGCACTAGATTTTCCTTCCTGCTCTTTCTTCCTACGCAGTTAGCGCCGCCCCCACCTTCCTTCCCT TCTCCATTATTTTTCTTCTTCCTCCCTTCGCATACTTTTGGCTCAATCTTCTCTTTTTGGCATCATGCACTTGAAATAAC AACTTTTTTTTACAGCACAAGATATATATATATATATATATATATATATATATATATATATATATATATATATATATATA TATTTCTTGTTGGGAATAGGATATCTAATCCAACAAAGAGCTTGATTGAGAGGTTTGTAGTTGATGACCAGTCTAGGGGT TCCACGTTCTATCTCAGCTTGTTTGTTGACATAGAAGACTGCACAGGACCAAGGACTCTTACTCCTGCGGATGAGTTTCT TCTTCAGAAGGTCATCAATTTCCTTTTGGCAAAAATGAAGAAGTTCTTCATTCATCTGGATAGGTCTAGCCTTGGTTGGG ATCTGTTTGTCAGAAAAATCCTTTTCATAAGGAAGTTCCACCATATGGCTCTTCCTTTCCCAAAAGGCGTTGGGTAGATC AGAACAGATGCTGGATTGAATATTTCCCAAAATACTTTCAATCCTTGATTTGACAGAAGATTGTTGTAAGAGATTTCTTC CCTGAGGAAATTGATTTGCTTTTCCTTGTAAGATATGACATTCAGGGTCTTATCAAAGGGAGGTTCAGAGAATCTGAACA GAATTGGCTGTCCAAGATGCTGAACAGTGATGCCTATATATTTATATATATATATATATAATTGAATTGGTAAATTTTAT GAGAACAACCCTCTCACAAACACGATAAATCATCAAAACTCCACCATTCAAAACCACCTCAAAGACTCCACCCAGAAAAC ATGTCTCCTTAAAAAATTCATAGGAAAAACTCATTGGAATAAAAACCTAGTGAAGGAAAAAAAAAGTACAACATCCCTGA GAAGTGCCTTTGAGTCACACGAGGCAAAATAGGTAACCAATACAATAAACAATGAACAACCTAAAACTAACCTCAATAAG TCAACTAAAAAAACCCTAAAAGCAACACCGAAACTAAAAAGATGAAAGGAAAACAACCCAAACCACAATGAACTAAAGCC TCAAGGGGACTGATACTTATTAGGGTGGGTACGTTTGAGATGCTGCACACACCCCTCAATGGCCTCCTCATTAGAAGTTT CCCAAACAAGACCTAACTCTTTACCAACCGTCCACATCTCACGGGTGCGCTAATAAACACAATCCTAGGGCTGAGAAGAT AACATACCAGACATACACGATGCCTCTACGACATTAGAACCAACAACCTGTAAACCTTATTTTTTCCTTTCCCTCTTAGT GACTTTCTTAAGCCTAGCTCTTTTTCTCCCAACATAAGAACCTAGGCCCTTAACGAGCTTCTTCTCCACATAAGAACAAC GGGATAAAGGCTCAAACCGAGAGAAAATCTCATGGAGGGGAATCAACGAGGGAAAACCATGGTCCGACACTAGACGCTGA TTGACTGCATTCCCCGGATCATCCAGAGCTGATACCTCAGAAACAATATGACATTGACCCAACTCGTAGCCTGCACCAAC AACTACAACATCACCCAACCTTATATCTGATGGAAACTCAATCTCCATAGAGGAGCCATCACCAATAATATCACATGAGA AAGATAAAACCTCGCGACTCTCGAATGAAGCATAGTCTCCATGGTGCAAAGCATTCGTCCTAGCCTCAAAATCCTTCAGC ATGACATAGGTAGCGAAACCCCTATAACTAGTCCAATCCATTATATCCAACACAACTGAAGAATCAGGCCCCCAAAAAAC TTGACCTCGCCATCAATAATATACTGATACGAATCACCTACACTAATACGAGACTTCTCAAATAAGGTCAAATACGACAA GCCCACATCCTCATTCCTCGAAGAGTCACCACCGACGTCAAGCAAAGATAACATCACATTTTTAGGAACTTCGGAAATAC CTACACTAACACAAGTTTCCGGGAAAAGAAACGCATCCGGAATCCGCTCATCTGGAACCCAAGGCCTAACCACTGAAAGT GCAGCCATATCTCTTACTGAACCCGAAGAAAAAGGAGCACCCAAACCAGACGGTTCCCCATAGATAGAGCCTGGTACAAC CTTCATAGTTTCACCAGCAATCACCAATTCCTTCGCAGGAAGTTCACTCGCTCTCCACCTCGATCCCAGTAGAAATGAAT TTGCGTTGCCCTTTAAAAAGAGACTCAGCCATAGACACAAAGATACGAGAACAACCGATTATCCTTCCATGCACCGTTGA AAGCGCCTCCATAGCAGAATGCGAATTTGAAAATGACGACACTTAACCCCCTAACCCCTTAACCCCTTAACTCCATAGTA GAATCCCCCCGTGGAAGAATGATGACACTTAACCCATTGACGATACCTCTTTGTTCCACGAAGATCAAGACCTGCCACAT CCATTCTATCGGAGCCTTCAACGACCTCAACGCCAGCCTCGACATGAACCAGCACATCCTCATGCCCAACAACAAAACCA AAACATACATTATTGCACCCCAACGATCCACCACAAACCGAGGTATCCATCATGATAGAAGAAACAACTTATCTTTTAAA TATTCCCTCACATAAATCCCATAAAATAATAACCTACCCAAATTTAATATCATCGGGACCCGACTTACACACACCTTTGG GTTTTTGATTTTTTATGCTACCCTATTTTTCCTTCAACTGATATTCATAAACTGCAACCCCGCTCTACCTCGTGTGTTTT CTTCGGCTGCCCACATAATCATAGAGGCTACAAATGTTATGATTTGTCAAACAAAAAAAATAGTAATTTCTCAGCATGTC ATATTTGATGAAACACAACTTCCTTTTTCTCAGCTGCATCTCCCTTCTACTATAGCGTTAGATATTTTACATGACAACTT ACATTTTTCATTAGTTGAAAAATCAGTTTTTGCAGATTCCTCCAGCTAGCTCAGTGGAACCTGTAGCTTCCTCACCCGTC CCAACCTCGCCTCCAATGGCACCTAGCACCATTGAGCCCAGACAACCACCAATGAACCACGTACAAACACGACCTCCAAC CGTGTCTCCCCATGACCAGCAACCCAATCCACCACCTCGGACCATGGCAACTTGCAGTATGCATGGTATTTTACAACCCT AAAGCCACTTAAATTTTTTGTTGCTATCCCTGATTCCTCATCTTCCACGATTCTTAAAAATCCTAGACTTGTCTTGTTTG ATCCACATTGGAAAATCGTTATGCCAGAGGAATTTGATGCCCTTATTAGAAATACGACGTGGGATTTAGTTCCACAACCT TGTGATGTTAATATTAGGCTTAATTTCACTTTTGGTCCCCCAACTTTATCCTTTATGCAAAAATCATCCCCTAACTAAGA AATTAGCAAAAGAATCCATGAAGTTACCCTCTATTAACACATTTGGTCCCTTTAGTATTTTCCATCCAAAAACTAATGGT CTGAGGGATCAAAATGTAAAGTGCCTTGCACGTAGCGGAGTATGCGTTTGAGAGCATTAATGTTCTATGTTTTGGGATCA TGCATATGGACGAAAATATGTTGGACAACACAGGATATATTTGGGTGAGTGAAAGTTACATACTATAAGGCACTAGCAAA TCTCCGATAAAGAGTTGAATCATAGGCTCTTTCAACAACAAAGAAAACTTAAATAATGTAAAATATAATTTTTTAAATTT CTTCACTTTTTTAATAAGTTTCCTCTTCTTAATTCATTTTCACTAATATATAATAGATAAAAATATATATAATTTTTTTC AAATAAAACAACAATACCTTATTGCAAAAATTTTAATTCTAAATTATTTTGTCTAAATTTTTTATTAAAAATTTATATTT AATTATTTATTAATTTTAATTCTTGATAATTGTTCATATATGAAAACATTATCTAGTTTCATTTTATGAGTGTGTAATTT GTTTATATAGGCAAATTTGGTTCTTTATCATGAAGGATAGTGAGTAAGTAATATGAAAAATGAAAAGTCATGAGTTTTTT TTTTCAAGGAGATAATTTTTTTTTGACAGAAAAAAGAATGAAGATAGATAGATTGGTTTTCATTGGGTTGAAATATCTCT CATACTTCTTTAATATATTTTTCTTATCCAAAAAAAAATATAGATAGATTGGTTGTAATGTAGCGTGAAAATTAAGTTCA TATGATATAATTTAGCCTATTGTTACTTCCATTGAAATTTTGGGGTGTTAAACATTATATAGAACTGGTCATTTTTATAA GAATTTCTTATTTCTATTAATGTATGATTTAAGAAGATAACATTAATTACTAAGCTCTCAATTTCACACTTTTTTGCACC CTTTTAATCAATGAAAAAATGAAAACAAGAATGATTGAAATATAATGTGTTAAAGAGAACCCTGGTGTATTATTTAATAG AATAATAATTCTAATGCTAACTTGGGTTAACACAATTGGTTACAGGTTCCGAGTTCAACTCTCCAACTCCATAGATTGAG AGTTTGAAAACATGTTTTTTTTTCGGCAAATTTTAGAAACTTTTCTTAATAACCTTGTACAACACTTAGGGTAAAGAGAA ACTTTCCTCAACTTTTCCTAATTGTAAGAAATTATGGAAACCTACAAATACTAAGTTTTGTATTAATTGCAACTAGAATT GGACTGAAAATGAAGAGATTGAATTGCTTGGTTGAGATCACCATAAGTTCAAATATTATTACCTTAATTGTACCTAGAAA GAAATTATCAAAAGATTACCAGATCGGTATTACTGAAAAATAGTAGTAAATTAAAAATAAAAGAACTTGTTGTAAGAAAT TAAATAAATAATAATTGTTTAGGTAAGTTAAAAGTTCTAATAGTTTCTTATACATAAGTTTTGAAGAATTTTTACTCATA TTACTAATATATTAAATGACAAAGTAGATATAATTAGTAATATAATTAAATCAACTAAGATTAGTAGATTAGAGAGAGAT GATTATTGACAAATCCTATATAGTTTAGGTACTGAATTCGAAGATGTATTTTTTTTAAGAGCAAAATATATTATTATCAA AAAATATTGAGAACATAACTCTCTCAAGTGAGTAAAAATAACAAACCTCTCTCCAAATAATATCTTAACAAGAAATAGAT TTAAAAAAAACCACCCAAACTCAATTCGAAGATATATAATTGAAGTAAATTATTTAAAGATAAGAATTTTAGGTAACTTT TTTTTTATTCTTGGCATAATCAACTTATTACTCATTTGACTATTTTCATCATGTTCTAAAATTTGTACGGTATTGCAACA GGTCACCATTCAATAGGAAAGGTATGCATGATAAGTCATACGGAGAAATTTCATTGTCGGATACTGACATAACCTTTGTA AGCTCAGGAAGGTCAAGTACAGACCGCATGTTCCCTTCCATTCATATCCACTCAGATACAAGCATGTCCAATCCTCGCTT ATCATATAGCTCTGACATAGATCCAAATCATAGCTTTGAGTCAATGCATTGTGGAAGGACATCTATGGATATCAACTCTT CTGAATTCTCATCCTTCTCCCACGATAGTGATGGGTTATCATCTTCTAATTCATCGTCCATGGTAAGGACAAGTATAAAA TGTGCACTTTTTTATTTCTTTCATTATGTATGCATATACATTAGTAGTTCTCCTTGTTATAAGAAAAGTATTGTAGAACT TAGATACATTTTCGCATGAAAAGTTAGATTTTTGAGATGTCTTAGTTCAAGATAAAGACGTAAATGAGGTGTATGGCTAT CCTTCAATATTATTAAACATATTATTCAATTCATTCTAATCAAACAAAAAACCCAACAGATCCAAAGTTGAGAAAATTGA AATTTTTATTGGATTGGATCAGATTTGGGATTTGATTTTCAAAATCGAACAAATCCAATCCAAACCGAATGTATATAAAT ACATATAATTTTATTTATACTTGCATATTTATTTAAATACATATCATTCGTACTTACATATTTACGTCTTTATACGTTTA TAGAATTGTTATATAACACATATTTATTCATATGATGATATATTTGGGTAAATTAAATTTCAAGTAATAATTTAAAAATA TGCATCAAAGTAATTTTTTTCTTGTTATTATATTTGAGGTACTTGATATTTATAGGTTCTTTGAAAAACCGAAATCCAAG CCAATCCAATCCGATAAAAAATTGGATCGGATTGGTTCAGATTTAAAAAAAGAATAAAACTGATTGGATAATATAATGAC AAAACCGAAGTGATTGGATCAGATAGATTTTCACCTCAAAACCTAACCAATCCAGACCGCGAACACCCCTACATTCTATT ATCGATGTTTTTAAAATGTTTAAGATGTAAACACATCTATTGAAAGCTGATATATTTATAAAACAACTAAATTGAATATT TTTAAAATAAACCAGCAATTAAGTATATATTAAAGAATTGTAATACGTATTCTTCATAAATTCAGCATGAGTTGCATAGA TATTTACTTTGCATAGATATCAATGATAAAATGATTAAACATTTCTATTGCACATAATATTTTTTATAATGGTATGGCTT AATAGTTCTTTTGGTCTTTCACTTATCACAATTTTGCACTTTTGGTCTCTTCAGAAAAAAATTAGCAAAATTAGTCCCTC ACGTTTACACACTTTTGCCATTTTAGTCTCAAATAGAGATCATTTTTGCAAAAAATTAAGTAATATGGAGGACCAAAAGT GCTAATTTGTTTATTGTGGACCAAAAGTGCAAAATCGTGATAAGTGAAGACCACAAGAGCTATTAAGCCTAATGGTTTAA GGTAATTTTGTTCCCTTTTTTTTTTGAAAAGAGGTATTTTTGTTCCTTATTGCTACTACTTGTGGTTTGCAAGTATAGGA TGAAGTGGAAGCCGAAATGAGGAGACTCAAGTTGGAACTCAAACAAACAATGGAAATGTATAGCACTGCCTGTAAAGAAG CACTAACTGCCCAACAAAAGGTATAAAATAATTATATATATTTTACATGTGAAAAATCATGAGAATTTTCTTGACATGTT TCGCACGATAGGCTGTAGAACTGCAACGCTGGAAGATAGAGGAAGAGAGGAGGTTGGAGGAGGCAAGGCTAGCTGAAGAA GCTGCAATGGCAATTGCAGAAAAAGAGAAAGCTAAGTCTAAAGCAGCCATTGAGGCAGCCGAAGCACAAAAACGGATTGC AGAACTAGAAGCGCAAAAAAGAATTAATGCTGAAATGAAAGCACTTAGAGAAGCAGAGGAGAAACGAAAAGCAGTTGATG CTTTGTCAAATAGAGATGTCAGGTACAGAAGATATGCAATTGAGGAGATTGAAGCTGCGACTAATTTTTTTACAGAGTCT CTAAAGATTGGAGAAGGGGGTTATGGTCCAGTTTACAAGTGCCTTCTTGATCATACCCCTGTCGCGGTGAAGGTTCTACG TCCCGATGCAGCACAAGGAAGGTCGCAATTTCAACGAGAGGTAAGTTAATAAAGCAGAATTCTACTATTATATCCATCAA AATGAAAGTGAGTATGAACATCATGAAATATAATATTTTTTCTTCTATGTTATATGCATATAAAAATAAAATATTGCATT TCATTTTATTTAAGAACTACCTACAACTTCGATACCACAATGATAATTTTGGGTTGAACAAAATTATGAAAAAATTGAAA ACAAGACTCTTTCAAACAAATGAATTTTATACAAGTTTCACTAAATAATAACAGGAATACCCTTCATTTTGGGCCTACAT AAAATTCATTCACTAATTTAAATAGTAATAAAAAGAGTTGTCGATTACTAAGAAATAGAAACACAACAAGAAAGAGATAA TTAAAGTCCTAATTCTTGAACGTTTCTAGTTGCAAATTATATATGACCTAGTTCTATTAGTTACAACCTAACTCAATTTT ATAGGAAATGGTGGTATTCTACAAAAATGTATATCTTAATATAAGAAATCTCATTGGGCTTATATAATTCTATGTTGTGA GACTTGCTTAATAAGATATTAATTTATATGTTTATCTGAATTGGTTGTAGAGTTCTACATTAGGAAGAAAACATCACTAA ACTAAAAAGTATCTAGGATACTTAAATAGGGGATATGTAACTATTTCATAATAACTTGCTTTAATTTACGATAGATACTC CTACACTCATATGAAAGTTTTAAAGGAGACTCATTGTAAAAGTTGTGGTTTTTAGATTTAATTACAATTTTAACATTTTT CAAGTTTCTTTTTAACTATAATGGCATCTCATCATCCTGTATTCTCTATAGTCTTATGAATATTTGTAAGTGGAGCACAA TAGTTACTCCGACTAGTAAAGTAATTTAATAACGACACTTATGTACACACATTGCAGGTTGAGGTATTAAGTTGCATTCG ACACCCAAACATGGTTCTCCTCCTAGGAGCTTGCCCAGAGTACGGATGCCTTGTCTATGAGTACATGGCAAATGGAAGCT TAGATGATCGCCTCTTTTGTAGAGGAAACACTCCCCCAATTCCTTGGCAGTTTAGGTTCAAAATTGCAGCTGAAATCGGC ACTGGCTTGCTATTCCTGCACCAGACAAAACCAGAGCCTCTAGTTCATAGAGACCTTAAACCAGCCAACATTTTGCTTGA TCGCAACTATGTGGCCAAGATTAGTGATGTAGGTTTGGCTAGGCTAGTGCCACCGTCTGTGGCAGAAAATGTGACACAAT ATCGCATGACATCAACTGCCGGAACATTCTGCTACATAGATCCTGAGTACCAGCAGACAGGAATGCTCGGGGTAAAATCT GACATATACTCTCTTGGGGTAATTTTATTGCAAATATTGACAGCAAGACCTCCAATGGGTTTGACACATCATGTTGATAG AGCCATTGAGAAAGGAACATTTATTGACATGTTGGATCAAAATTTGCAAGATTGGCCAGTAGAGGATGCCTTGAGCCTTG CAAAGATGGCAATCAGATGTGCCGAGTTAAGGCGTAAAGACAGGCCAGATCTTGGTAAGGAAGTTCTACCAGAACTAGAA AGGCTAAAAGCACTTGCTGAAAATAGTGATCAACATATGATGCTGGGTGGCTACATTAGCCCATCCAATCATAGCCAAGT TTCTCTTCATTTGGTAAGTTTCTTTCTAGAACAAATCATTCTGAGCCACATTTGATTATGATTGTATATATTGTGCTTAT GAAAGTAATTACTCTGTCAATTAACGTTATATTTTTTTTTGTTTTGAATACTTGGAATTATGAGTCAAGTTTATAACATG TTCAAATAAATTTCGTTGCATGAACCTTTTGTAGGATGGATCTTGTTCCCCTCTTCCTTATTCTGGGGAAAGCTCAAGAA ATCCTTCAAGCCCTTGACAAGTAATGATAAGATGATCCCTACAACAAAAAAGAAAGTTCATTTGAATAATCTTAATTATA AAATTGTAAACTATTTAGGTGCATTGATGTAAAATAACATGCACATTTTGTTTATTTAAACATGTTAAGTAATTTTATTA TATTTTTTCATATACTGGAAAAATAATATTGTCAAAAGTGTATGAAAGTTAAAATTTACACTAAGTCTCTATTCGAGTTA CTTGATCCCAGATTGAATCCCAA
CDS sequence (LotjaGi5g1v0121700.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGTGGTTACAAAAGAGTCAAGGGGATAGGAAGGATGGGGTAAATGGAATAGTGGCAGTGGCAATAGATCATGATAAAGG TAGTCAAAATGCACTCAAATGGGCCATTGAGCATCTCCTCACAAAAGGTGGAACTGTAGTTCTCATCCATGTCAAGCATA AGCCATCTTCTTTTTCAACATCAGCTTCTCTTTCAACCCCAAGGGCAGGGATACATGGCATTGCTGAGCATTCATTGGTT TGCCACGACCCGGATGAGCACACCAAAGAAATTTTTCGGCCGTATCGTGTCTTTTGTGCACGGAAAGATATACACTGCAA GGATGTTGTACTCGAAGAAGTAGATGTATCTAAAGCACTAATTGAATATGTTACCCAGTCATCAATTGAGCATTTAGTTA TAGGATCTTCACACAAAACTGGATTTCTTAGATTCAAGGTAGCAGATATTCCAGGAAATGTTGCAAAAGGGGCTCCAGAT TTTTGTACAGTTTATGTTGTTGCTAAAGGAAAAATCCAAACAATGCGATCTGCTTCTCGTCCAGCTCCTTCCTTTACACC TCTACAAACCCAAATCAATCAAGCCTCTACTAAGTCAACCCAATCAGACCCACGTGTGCATTTGACTAATAGTGTGAAAG GACTTGAGAGGAGATCGGTTGATGCACCAGTTAAATTACAGGATGGCACAGAATCTTTCAGGTCACCATTCAATAGGAAA GGTATGCATGATAAGTCATACGGAGAAATTTCATTGTCGGATACTGACATAACCTTTGTAAGCTCAGGAAGGTCAAGTAC AGACCGCATGTTCCCTTCCATTCATATCCACTCAGATACAAGCATGTCCAATCCTCGCTTATCATATAGCTCTGACATAG ATCCAAATCATAGCTTTGAGTCAATGCATTGTGGAAGGACATCTATGGATATCAACTCTTCTGAATTCTCATCCTTCTCC CACGATAGTGATGGGTTATCATCTTCTAATTCATCGTCCATGGATGAAGTGGAAGCCGAAATGAGGAGACTCAAGTTGGA ACTCAAACAAACAATGGAAATGTATAGCACTGCCTGTAAAGAAGCACTAACTGCCCAACAAAAGGCTGTAGAACTGCAAC GCTGGAAGATAGAGGAAGAGAGGAGGTTGGAGGAGGCAAGGCTAGCTGAAGAAGCTGCAATGGCAATTGCAGAAAAAGAG AAAGCTAAGTCTAAAGCAGCCATTGAGGCAGCCGAAGCACAAAAACGGATTGCAGAACTAGAAGCGCAAAAAAGAATTAA TGCTGAAATGAAAGCACTTAGAGAAGCAGAGGAGAAACGAAAAGCAGTTGATGCTTTGTCAAATAGAGATGTCAGGTACA GAAGATATGCAATTGAGGAGATTGAAGCTGCGACTAATTTTTTTACAGAGTCTCTAAAGATTGGAGAAGGGGGTTATGGT CCAGTTTACAAGTGCCTTCTTGATCATACCCCTGTCGCGGTGAAGGTTCTACGTCCCGATGCAGCACAAGGAAGGTCGCA ATTTCAACGAGAGGTTGAGGTATTAAGTTGCATTCGACACCCAAACATGGTTCTCCTCCTAGGAGCTTGCCCAGAGTACG GATGCCTTGTCTATGAGTACATGGCAAATGGAAGCTTAGATGATCGCCTCTTTTGTAGAGGAAACACTCCCCCAATTCCT TGGCAGTTTAGGTTCAAAATTGCAGCTGAAATCGGCACTGGCTTGCTATTCCTGCACCAGACAAAACCAGAGCCTCTAGT TCATAGAGACCTTAAACCAGCCAACATTTTGCTTGATCGCAACTATGTGGCCAAGATTAGTGATGTAGGTTTGGCTAGGC TAGTGCCACCGTCTGTGGCAGAAAATGTGACACAATATCGCATGACATCAACTGCCGGAACATTCTGCTACATAGATCCT GAGTACCAGCAGACAGGAATGCTCGGGGTAAAATCTGACATATACTCTCTTGGGGTAATTTTATTGCAAATATTGACAGC AAGACCTCCAATGGGTTTGACACATCATGTTGATAGAGCCATTGAGAAAGGAACATTTATTGACATGTTGGATCAAAATT TGCAAGATTGGCCAGTAGAGGATGCCTTGAGCCTTGCAAAGATGGCAATCAGATGTGCCGAGTTAAGGCGTAAAGACAGG CCAGATCTTGGTAAGGAAGTTCTACCAGAACTAGAAAGGCTAAAAGCACTTGCTGAAAATAGTGATCAACATATGATGCT GGGTGGCTACATTAGCCCATCCAATCATAGCCAAGTTTCTCTTCATTTGGATGGATCTTGTTCCCCTCTTCCTTATTCTG GGGAAAGCTCAAGAAATCCTTCAAGCCCTTGA
Protein sequence (LotjaGi5g1v0121700.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MWLQKSQGDRKDGVNGIVAVAIDHDKGSQNALKWAIEHLLTKGGTVVLIHVKHKPSSFSTSASLSTPRAGIHGIAEHSLV CHDPDEHTKEIFRPYRVFCARKDIHCKDVVLEEVDVSKALIEYVTQSSIEHLVIGSSHKTGFLRFKVADIPGNVAKGAPD FCTVYVVAKGKIQTMRSASRPAPSFTPLQTQINQASTKSTQSDPRVHLTNSVKGLERRSVDAPVKLQDGTESFRSPFNRK GMHDKSYGEISLSDTDITFVSSGRSSTDRMFPSIHIHSDTSMSNPRLSYSSDIDPNHSFESMHCGRTSMDINSSEFSSFS HDSDGLSSSNSSSMDEVEAEMRRLKLELKQTMEMYSTACKEALTAQQKAVELQRWKIEEERRLEEARLAEEAAMAIAEKE KAKSKAAIEAAEAQKRIAELEAQKRINAEMKALREAEEKRKAVDALSNRDVRYRRYAIEEIEAATNFFTESLKIGEGGYG PVYKCLLDHTPVAVKVLRPDAAQGRSQFQREVEVLSCIRHPNMVLLLGACPEYGCLVYEYMANGSLDDRLFCRGNTPPIP WQFRFKIAAEIGTGLLFLHQTKPEPLVHRDLKPANILLDRNYVAKISDVGLARLVPPSVAENVTQYRMTSTAGTFCYIDP EYQQTGMLGVKSDIYSLGVILLQILTARPPMGLTHHVDRAIEKGTFIDMLDQNLQDWPVEDALSLAKMAIRCAELRRKDR PDLGKEVLPELERLKALAENSDQHMMLGGYISPSNHSQVSLHLDGSCSPLPYSGESSRNPSSP
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 | 4 | 783 | 780 | 0.0 | – | |
PANTHER | 4 | 783 | 780 | 0.0 | – | |
Gene3D | 17 | 169 | 153 | 4.7E-14 | ||
CDD | 17 | 170 | 154 | 2.87855E-55 | – | |
Pfam | 18 | 166 | 149 | 2.1E-12 | ||
SUPERFAMILY | 18 | 167 | 150 | 2.93E-12 | – | |
MobiDBLite | 315 | 335 | 21 | - | – | |
MobiDBLite | 315 | 336 | 22 | - | – | |
Coils | 334 | 354 | 21 | - | – | |
Coils | 380 | 440 | 61 | - | – | |
Gene3D | 448 | 540 | 93 | 6.5E-24 | – | |
SUPERFAMILY | 451 | 723 | 273 | 2.02E-67 | ||
ProSiteProfiles | 468 | 747 | 280 | 35.241 | ||
SMART | 468 | 728 | 261 | 3.6E-28 | ||
Pfam | 469 | 721 | 253 | 3.4E-40 | ||
CDD | 474 | 734 | 261 | 7.31007E-85 | – | |
Gene3D | 541 | 749 | 209 | 5.2E-48 | – | |
ProSitePatterns | 586 | 598 | 13 | - | ||
MobiDBLite | 762 | 783 | 22 | - | – |
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 | 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 LotjaGi5g1v0121700.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
Loading expression data from ljgea-geneid. Please wait…