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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0439200 |
Transcript ID | LotjaGi1g1v0439200.1 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Receptor-kinase, putative; TAIR: AT3G47570.1 Leucine-rich repeat protein kinase family protein; Swiss-Prot: sp|C0LGP4|Y3475_ARATH Probable LRR receptor-like serine/threonine-protein kinase At3g47570; TrEMBL-Plants: tr|V7B684|V7B684_PHAVU Uncharacterized protein; Found in the gene: LotjaGi1g1v0439200 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:93516877..93526196) extracted from Lotus japonicus Gifu genome v1.2.
GAAAAAGAGCCCTATTATTTGTGACACTATTCCTTTAAAATGTACAAAATCTAAAACCTTAGATATAATTTCAGACTTGG CCTCAAAATCTTGAACTTTAAACATGAACCATCCTTGTGCAAACTCCAAGAGCCCATTGTTGCGAAATCTTAATGGTTTT CTTCTGTTATGCATGATCTCAAGCTTGCACTTGGTAACAACAGCAACATCAGAAGAAAATGAAACTGATCTCAGTGCTTT ACTTGACTTCAAGAGTAAAATAGTTGGAGATCCATTCAACATTATGAGTTCTTGGAATAACTCCTTCCACCACTGCAATT GGACAGGAATCAGCTGCAACATTTCCAATGGAAGGGTCATGAACATGAACCTTGCAAAACTGAGATTAAAAGGTACTCTT ACACCATCCATAGGAAACCTCACATTCCTCACCACACTGAACCTGTTTAGCAATAGCTTCCATGGTGAAATTCCTCAAGA GTTGGGTCGTTTACTCTACCTGCAAACTCTGGAATTCACCTTCAATGACTTTAGTGGGAACATTCCAAATAACCTCAGCC ACTGTAGAGAACTATTGTCACTTGGTTTTTGGGATAACAATCTCACAGGAACAATCCCAAATTGGATCGGAAACATTTCT TCTCTGACCCGTCTTAGTTTTGCCTTGAACAATTTCCATGGAAGCATACCAAATGAGCTTGGTCTTTTATCAAGTTTAAC ACGACTAGTACTATATGGGAATTTTTTGTCTGGCACAGTTCCTTCTTCAATCTATAATCTTTCTTCCTTGTTCTATTTCA CTCTCGCTCAAAACAATCTCCATGGAAGTTTACCATCTGATGTCGGATTTACTCTTCCTAACCTTGAAATATTTGCTGGT GGACTCAACAATTTCACAGGGAATGTTCCTGCATCATTGTTAAATGCTTCAAAACTAGTATTTCTTGACTTTTCTGTTAA TGCCCTCACTGGATCACTGCCTAAGAACATAGGGGCCTTGAACCGGTTAACTAGACTTAGTTTTGAGCATAATAGGCTTG GAACTGGTAAAGCAGGAGATCTTAATTTTCTTGATTCTTTGGTCAATTGCACATCTCTACAGGTTCTACTCCTCGGAACG AATCGCTTTGGTGGAGTATTGCCTGATTCAATTGCTAATTTCTCAACCCAATTGTACAGATTTGCCTTTGGTTCCAATGA AATACAAGGAAATATACCTGCTGGGATTAGCAATCTTGTTAACTTGACCCTTTTATCATTGGAAGGAAACCACTTAACTG GTAGTGTTCCTGATGCAATAGGCAAGCTGCAAAATCTGCAAGAGTTGTATCTCAATGTCAACAACTTTTCAGGAAGAATC CCATCCTCTTTAGGAAATTTGTCTTCAATAATTAAACTCTTTCTGGAGCAGAACAATTTTGAAGGAAGCATACCTTCAAG TCTTGGAAAGTGCAAGGAGTTATTGTTGTTTAGCCTTTATCTTAACAAGCTTAGTGGCACAATACCAAAAGAAGTTTTTA ACCTTTCTTTTCTATCAATATATTTGGATGTATCTTACAATGCTTTGTCAGGGTCACTTCCTGTTGAGGTGGGTAAGCTG CATAACCTTGGAGAGTTGGTGCTGACTGGGAACAACTTCTCAGGAGTCATTCCATCTTCTCTTGGCAGCTGCCTTAGCTT GGAAAGGCTGCATTTGCAGGGTAACTCTTTCCAGGGAAACATTCCTCAAAGTTTGAAGGGTTTGAGAGGTTTACTTGATA TAGATCTTTCGCGCAATAACCTGTCAGGTAAGATTCCTGAGTTTCTTGGTGAGTTCACACAACTCAAGCGTCTTAATCTT GCTAACAACAGTTTTGAAGGTGAAATACCAATGAATGGAATCTTCAAGAATGTAACTTCCATTTCACTATATGGAAACAG CAAGCTCTGTGGTGGTGTCCCACAATTAAATTTTCCTTCATGCACTGTGAGGAAAACCTCTTCCTTAAGAAAACTTCTTT CACCTAAGGTGGCTATCCCTATAGCTATTGCACTTGTTCTTGTACTCTTGATATCATGTTTTCTTACCATCTTCCTCATT GTTAAAAGAGCAAAAAAGAGAACTTCATTATCAACTACCTCCTTGGAATTGGGATTTTCTTACTCAGAAATTGCAAATTG CACTGGTGGGTTCTCCCAGGATAACTTGGTTGGCTCAGGAAGTTTTGGTTCTGTATATAAAGGAACTCTTTCAGGTGATG GATCAATTGTTGCAGTGAAAGTGTTGAATCTTCAACAAAGAGGGGCTTCGAGAAGCTTCATTGATGAATGCCAAGTTCTG AGGAATACAAGGCACCGCAACCTTCTCAAGATCATAACTGCCATCTCAAGTGTTGATCGACAAGGTAATGAGTTCAAGGC TCTAGTCTTTGAGTTCATGTCTAATGGCAGTCTAGAAGATTGGTTGCATCCAATTAGTAACCTGCAATCACAGACCAAGA CATTGACATTTATCCAGAGACTGAACATTGCAATTGACGTTGCTTGTGCCCTGGAATATCTGCACCACTTGGGTGAAACA CCAATTGTTCATTGTGATATAAAGCCAAGCAATGTTCTTCTTGACAATAATTTTGTAGCCCATGTTGGTGACTTTGGCTT AGCTACATTTCTGTTTGAAGAACCAAGCAATTTGTCCAAACCATCTATCATGTCAGCTAGCCTAAGGGGCTCTATTGGAT ATGTCCCTCCAGGTATGTTTCTTAATCAAGTAGTGCTAAATTGTAGGTTATATATTCAAATATAACAAAAATTGGAATGA ACATGTTAATTCGCACATTGACTGGAAATATGGCTAATGAAATACATATAAATATGAGGGCAATCTTTACATTAAGCTAG CTTTCAGGATAGAATTGAGTCTAGCCCAAATTAAATGGGAAGCAATCTTCAACTCAGAGTTAGCTTTTGAGATAGAGTTA AGCTTAACACTATAATTGACCACTTATAAATGATTGCAGAGTATGGCATGGGTGGAAAACCTTCTACGCTTGGAGACATC TACAGTTATGGAATACTATTACTAGAGATCTTCACAAGAAAAAGACCAACTGATGAAGCATTTGAAGGTGGCATGGGAAT TCGCCAGTTTATAGCAATGGCTCTACCTATCAATGTCATGGATGTAATTGATCCTTCATTTGTCTGTGAAGATGAATTTG ATGATGAAAGTGAAGAATTTGAAGAAAATGTAGAAGAAGAAAGAGCTATTAGGGGAAACTATGAGCTTGAAGTTCATGTT AGAATTTTGGGTCACAAATATAACTTTTAATTGTGTTAGGGCCATTATTTAATTAGCCAAACTAAAGTGGTCTATTTAAT ATTGATCTTATGGCTAAGGGCATATGTGTTATGAAAAGGTATTGTGCAGATACCATAAGGCAATATTCTAATTTGATGAG GGGCCAAATTAGAAATATTGAAAACAGAATTGTAACTGATGCAGTTACTTATAGGGTTATGGTCCCCAATTGTAGACATA ACGTAATAAACGTGAAAAGTTTCTCTTCATCCCCATCAGAGGAGAACATCAGGAAACCCTAAGGGTGATCTACAATTGGA AGATCACAACCCCAAATACTTCAACGGTTTCCATGGCTCATTCAGGTACGCTTCCGCTTTATGTGTTTCATCTTGAATTC GGGTATGGGTTAATCAAGTGTGGTTTAGGATTATGCTCCTGTTTTCTATATGGGTAGAAAGCATGTGGTTAGGATCAAAT CCTTATTTGTTAGAAACCAACAAGTGGTATCAGAGCCACCCATGCCTGATTCATGTATGATTTTGGTAATTTTTTTAAGA TTAGGGTTTCAATTTTGTGATATTGGGAATTATGTTCATCGAACAGTTTCATGAGAAAATATGTTTCCGCTATTTATTGT GTTATGTGATAGTGTGGTTTTTTTTTTATTTTAACACCGGTGGCGGTGATTAATTTTTTTTTTGGTGCTGTGATGGTGTT GCTTTTATTGGGGATTTGCTGCACTGTTTTCATTTCACATGTCTGCCACGCTTGCACTCCATGTGTGAATTCAGTCAAAG AAACTATATAGACTTGATTCAGTTTTATAATTGCATTCATTCAACAGTTTCGTCTTTTATATATATATGAAACGTGAATA TCAAAAACAGCATGGATATTGATTTATTTGCAAAGCACGTGAATATCAAAATTGCATTCAGTTTTGTTTGCAATATGGAT ATATTGATTGTGAATCAATTTATGTTTTCTGGGTTCACGTGAATCATGAATTCTTTTTTTCATATATGTAAGTTTTTGAA TTTGACATGTTAAAAGAGATTATATAATTGTGAACCATGCTTCTGTTTCAATTCGTTGATAATTCGGCTATGGGTATATG GAAAATTATTAGTGTGCGTTCAAATTTTGGCTATGGTTTGTAATATTTAATCAATTGTTTAATATTTTAAATGAGTCAAT TAAAATAAGAAAGTCACAAAAGTGACCTCTTTTTATGGAGATTGCTCATAAGAAATATTAAAAGTTTGTGCGTGTGTATG TTTATCCATGCGAGTATTAATGGACCCCAAAGGAAAAGTTAATGCTTGGCCGGATTTCATACACACCTGTGATGATAAAC ATGTGATAATTTTAAGGGTTTACATGTGAATGATAAATCAATCCAAAGAAGGGTTTGTTATTTGACATGATTTATTATCA ATGTTTGATCATTACAACAAGAGTACCACTAGCAATTAGTATTACTGTCAAAAGACATGATATTGATGGTGCACTAGGTA TCTTGAGATGGGTTATGTCATTATTTGAACATACAAATGATTTGGTTTTTCTAGTTTATAATGTGAGTATATTTATAGTA TCTATTTTGTTCTACATTCAGCTACTATTGGTTCGATATCTGCTAATCTAAATTTGGTTCTGGTCCTTAATGGAACAAAT TTTAAGGACTGGAAAGAGAACATGGAAATTGTTCTTGGCTGCATGGATCTTGACCTTGCATTAAGGGGGGCCTAACCCGC TTCTCTTACGGAATCTAGTACCTCTGAACAGAGGAAAGATTATGAGAAGTGGGATCGCTCCAATCGCATGAGTCTCATGA TCATTAAGCGCATCATTCCTGAGGTCTTTAGGGGTACTATCTTGCAAGAGATAAAAGGTGCCAAAGATTTCCTTGCTGAA ATTGAAAAGCGCTTCGCAAAAAAAGCGATAAGGCGGAAACAAGTACTCTTCTTCAGAACTTGATTTCCATGAAATATCAG GGCAAAGGAAATATAAGGAATACATTATGGGCATGTCAAATATTGCTTCAAAACTTAAGGCGCTAAACTTGAGCTGTCGG ATGACTTGCTCATTCATTTAGTATTTGCTTTCTCTTCCTGCACAATTCAGTCAGTTTAAGATATCTTATAACTGTCAAAA GGAGAAATGATCTCTTAACGAGCTCATTTCATTTTGTGTGCAAGAAGAGGAAAGGTTGAAGCAAGAAAAGAAAGTGCTAA TTTTGTTAGCACATCTAAAGACAAAGGCAAAAGAAAGAAAACTGTTGAGCCCAAGAATGAAGCTGCAAATGCTCCAGCAC AAAAGAAACAGAATGAGGATGATAACTGTTTCTTTTGCAATGTGTCTGGGCATGTGAAAAAGAAATGTCCTAAATATCAC GCTTGACGTGCAAGGAAAGGTACATTTATGAGGTCAATTTAGCTTCAGTACCTAGAAACACTTGGTGGTTAGACTCCGGT GCAACTACTAACATCAGTGTTTCAAGGCTGGGCTGCCTGAACTACCGAAAGCCAAATGATGTTGAAAGATACATTTATGT TGGAGATGGCAAGTCGGTGGATGTGGCAGCTACAAGGCATTTTAGATTATTATTGTGTACTGGATTTTATTTGGATTTGA AAGATACTTTTGTGGTTCCGTCATTTAGACGGAATTTGGTTTCAGTTTCTTATATGGACAAATATGGTTATTTATGTTCA TTTGGAAACAATAAATTCAAGTTGTCTTTTAACTCAAATGTTGTTGGAACCGGTCCACTTATGGGATATGATAATCTATA TTTGTTGATACTGTAGCTACTATAGTGAATCTCTGAATGTGGAATCGTCCCACAGTACACCATGTCAGGGTCACCTAGCA TGAATGGTGTGGCTAAAAGACGAAACCGGACTCTTAAGGATATGGTAAGGAGTATGATTTGTCATCCTACCTTGCCAGAG TCACTTTGGGGAGAGGCACTAAAGACTGCAGCTTACATTCTAAATAGAGTGCCAACCAAGGCAGCTGCCAAAACACCTTA TGAGCTTTGGACTGGGCGAAAGCCTCTAGTTTGAAACATTTTCATGTATGGGGATGTCCAGCTGAGGCAAGGCTTTATAG GCCAAATGAAAAGAAATTGGACTCCCGAACAGTGAGCAGCTACTTTATTGGTTATTCTGAAAGATCCAGGGGCTATAAAT TTTATGATCCCAAATTAAAGACAATTTTTGAGACGGGAACAGCCACGTTCTTTGAGGATATAGAGTTTGGAGGGGAGAAT AAGATTAGAGACTTTGTTTTAGAGGAAGAGTCGGTAACAATTCCAAAACCGATTCATACAGTTGCTTTTGATGAAGCAAG TACGGAACCTCTACAAGACATTGTTGTTGAATCTCCTCCTACTCAAGGTGATATGGTGGTTCATGAAGAACAAACTCAAG ATCCTCAAGAACAAGTGTTACAAGAACCAATACCTTTGCGGAGATCCACTAGAGAAAGGAGAAATGCTATTCCAGATGAT TACATAGTCTTTCTCCAAGAACATGAGGAAAATAATGGTATGATGGAAGTTGATCCAATCAACTTCCAGCAAGCCATGCA GGATTCCAACTCTAAAAAGTGGATTGAAGCAATGAAGGAAGAGTATAAGTCCATGCAAGACAATAAGGTTTGGGAACTTG TCCCATTACCAGAAGGTGTGAAACCCATTGGTTGCAAATGGATATTTAAGACCAAGCGGGATTCTAATGGTAATGTGGAG AGGTATAAGGCTCGTCTTGTGGCTAAGGGTTATACTCAAAAGGAAGGGATTGACTTTAAAGAGACTTTCTCTCCGGTTTC ATCGAAAGACTCTTTTAGGACAATCATGGCTCTTGTTGCACATTATGATTTGAAACTTCATCAAATGGATGTCAAGACAG CGTTTCTCAATGGAAACATTGATGAGACAATCTATATGGTGCAACCAGAAAACTTTGCGTCAGGAGACCCAAAGAATACG GTTTGCAAATTGACAAAATCCATTTATGGACTAAAGCAGGCATCTCGTCAGTGGTACCACAAATTTCATGAAGTAATTCT CTCATTCGGTTTCGAGGTGAATGTTGTTGAGGATTGTGTGTATCACAAATTCAGTGGGAGCAAGTATATTTTCCTGGTTC TGTATGTTGATGATATACTGCTTGCCACTAATGATATAGGCATGTTGCACGAAACCAAGAGATTTCTATTAAGAAATTTT GAAATGAAAGATCTTGAGGATGCTTCCTTTGTATTAGGAATTCAAATACACCGAGACCGATCTCGAGGTATTCTGGGATT GTCACAAAGGAGCTATATCAAAAGGTACTTAAAAGGTTTGGCATGCAGAATTGTACATTAGGGGATACTCCAGTTGCTAA GGGAGACAAATTTAGTCTCAATCAATGCCCAAAAGGAAACTTAGAAATTCAGGAAATGCAAAAGATTCCTTATGCATCAG CTGTAGGGGGTCTTATGTATGCCTGTTGGGATGTTAGGCAGATATTTGAGCAATCCAGGAATGGATTATTGGAAAGCAGC CAAAAGAGTTATGAGGTATTTACAGAGAACAAAAGATTATATGCTCACATATAGGAAGTCAGACCAATTAGAGATCATTG GATATTCTGACTGATTTTATGGGATGCCATGATAGTAAAAGATCCACTTCGGGCTATATTTTCATGTTGACTGGTGGTGC AGTTTCTTGGCGTAGTACCAAGCAAACTCTTATTGCTTCATCCACCATGGCAGCTGAATTTGTAGCATTTTTGGGGCATC TAACCATGGGATTTGGTTGATTAATTTTGTCACTGGGCTGCGAATTGTGGAAGGAATTGAAAGACCGCTTAAGTTATACT GTGACAATAAATCAACCATCCTATTTTCAACAATAATAGGAGCTCGACCAAGTCAAAACATATTGACATCAAGTTCCTAG TTGTTAAGGAAAGGGTACAAAGTGGACAGATTTCTATAGAACACATAGGGACAAACTCCATGATAGCGGATCCTCTTACA AAAGGTCTACCGCATAAGGTCTTTCATGAGCACACTACTCACATGGGTGTTTTGCCGTGTGAGGAATGCTTAGTTTAGTG GGAGTTAGTCATTTATAAATTTTGTGTTCCATGTTTGGTATTATGCATGCATACTCTAGTATTTGGATTTTTTTTTGTTA ATTATAAAGTTTGGTATTCTGTCATTTATGCTTTGTACAATAAGGTTATTGGATGATCTCACTAAAGTAAAGTAGGACCA GTTGAAAATTGACAAGTACAGGCCACCTTCTTGTGATTTTCATGCTGCACATTTCATAATGAATCTATGTCATTTAGTTA TGTCAGTACTAGTAATCATTGATGGGTTTAGTTATGATTGATATAACGAAAATCGCTTTGGTTCTATGTACTGGCATGAC TAATGGACGAGATTATTTGGATATGCTTAAGGTATATAATGGCAAATTTTTGAGCTCATAAAGTCTAACACGTGTGTAAA GTTACATATGTGACCAGTGGGAGATTGTTAGAATTTTGGGTCACAAATATAACTTTTAATTGTGTTAGGGCCATTATTTA ATTAGCCAAACTAAAGTGGTCTATTTAATATTGATCTTATGGCTAAGGGCATATGTGTTATGAAAAGGTATTGTGCAGAT ACCATAAGGCAATATTCTAATTTGATGAGGGGCCAAATTAGAAATATTGAAAACAGAATTGTAACTGATGCAGTTACTTA TAGGGTTATGGTCCCCAATTGTAGACATAACGTAATAAACGTGAAAAGTTTCTCTTCATCCCCATCAGAGGAGAACATCA GGAAACCCTAAGGGTGATCTACAATTGAAAGATCACAACCCCAAATCCTTCAACGGTTTCCATGGCTCATTCAGGTACGC TTCCGCTTTATGTGTTTCATCTTGAATTCGGGTATGGGTTAATCAAGTGTGGTTTAGGATTATGCTCCTGTTTTCTATAT GGGTAGAAAGCATGTGGTTAGGATCAAATCCTTATTTGTT
CDS sequence (LotjaGi1g1v0439200.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGAACCATCCTTGTGCAAACTCCAAGAGCCCATTGTTGCGAAATCTTAATGGTTTTCTTCTGTTATGCATGATCTCAAG CTTGCACTTGGTAACAACAGCAACATCAGAAGAAAATGAAACTGATCTCAGTGCTTTACTTGACTTCAAGAGTAAAATAG TTGGAGATCCATTCAACATTATGAGTTCTTGGAATAACTCCTTCCACCACTGCAATTGGACAGGAATCAGCTGCAACATT TCCAATGGAAGGGTCATGAACATGAACCTTGCAAAACTGAGATTAAAAGGTACTCTTACACCATCCATAGGAAACCTCAC ATTCCTCACCACACTGAACCTGTTTAGCAATAGCTTCCATGGTGAAATTCCTCAAGAGTTGGGTCGTTTACTCTACCTGC AAACTCTGGAATTCACCTTCAATGACTTTAGTGGGAACATTCCAAATAACCTCAGCCACTGTAGAGAACTATTGTCACTT GGTTTTTGGGATAACAATCTCACAGGAACAATCCCAAATTGGATCGGAAACATTTCTTCTCTGACCCGTCTTAGTTTTGC CTTGAACAATTTCCATGGAAGCATACCAAATGAGCTTGGTCTTTTATCAAGTTTAACACGACTAGTACTATATGGGAATT TTTTGTCTGGCACAGTTCCTTCTTCAATCTATAATCTTTCTTCCTTGTTCTATTTCACTCTCGCTCAAAACAATCTCCAT GGAAGTTTACCATCTGATGTCGGATTTACTCTTCCTAACCTTGAAATATTTGCTGGTGGACTCAACAATTTCACAGGGAA TGTTCCTGCATCATTGTTAAATGCTTCAAAACTAGTATTTCTTGACTTTTCTGTTAATGCCCTCACTGGATCACTGCCTA AGAACATAGGGGCCTTGAACCGGTTAACTAGACTTAGTTTTGAGCATAATAGGCTTGGAACTGGTAAAGCAGGAGATCTT AATTTTCTTGATTCTTTGGTCAATTGCACATCTCTACAGGTTCTACTCCTCGGAACGAATCGCTTTGGTGGAGTATTGCC TGATTCAATTGCTAATTTCTCAACCCAATTGTACAGATTTGCCTTTGGTTCCAATGAAATACAAGGAAATATACCTGCTG GGATTAGCAATCTTGTTAACTTGACCCTTTTATCATTGGAAGGAAACCACTTAACTGGTAGTGTTCCTGATGCAATAGGC AAGCTGCAAAATCTGCAAGAGTTGTATCTCAATGTCAACAACTTTTCAGGAAGAATCCCATCCTCTTTAGGAAATTTGTC TTCAATAATTAAACTCTTTCTGGAGCAGAACAATTTTGAAGGAAGCATACCTTCAAGTCTTGGAAAGTGCAAGGAGTTAT TGTTGTTTAGCCTTTATCTTAACAAGCTTAGTGGCACAATACCAAAAGAAGTTTTTAACCTTTCTTTTCTATCAATATAT TTGGATGTATCTTACAATGCTTTGTCAGGGTCACTTCCTGTTGAGGTGGGTAAGCTGCATAACCTTGGAGAGTTGGTGCT GACTGGGAACAACTTCTCAGGAGTCATTCCATCTTCTCTTGGCAGCTGCCTTAGCTTGGAAAGGCTGCATTTGCAGGGTA ACTCTTTCCAGGGAAACATTCCTCAAAGTTTGAAGGGTTTGAGAGGTTTACTTGATATAGATCTTTCGCGCAATAACCTG TCAGGTAAGATTCCTGAGTTTCTTGGTGAGTTCACACAACTCAAGCGTCTTAATCTTGCTAACAACAGTTTTGAAGGTGA AATACCAATGAATGGAATCTTCAAGAATGTAACTTCCATTTCACTATATGGAAACAGCAAGCTCTGTGGTGGTGTCCCAC AATTAAATTTTCCTTCATGCACTGTGAGGAAAACCTCTTCCTTAAGAAAACTTCTTTCACCTAAGGTGGCTATCCCTATA GCTATTGCACTTGTTCTTGTACTCTTGATATCATGTTTTCTTACCATCTTCCTCATTGTTAAAAGAGCAAAAAAGAGAAC TTCATTATCAACTACCTCCTTGGAATTGGGATTTTCTTACTCAGAAATTGCAAATTGCACTGGTGGGTTCTCCCAGGATA ACTTGGTTGGCTCAGGAAGTTTTGGTTCTGTATATAAAGGAACTCTTTCAGGTGATGGATCAATTGTTGCAGTGAAAGTG TTGAATCTTCAACAAAGAGGGGCTTCGAGAAGCTTCATTGATGAATGCCAAGTTCTGAGGAATACAAGGCACCGCAACCT TCTCAAGATCATAACTGCCATCTCAAGTGTTGATCGACAAGGTAATGAGTTCAAGGCTCTAGTCTTTGAGTTCATGTCTA ATGGCAGTCTAGAAGATTGGTTGCATCCAATTAGTAACCTGCAATCACAGACCAAGACATTGACATTTATCCAGAGACTG AACATTGCAATTGACGTTGCTTGTGCCCTGGAATATCTGCACCACTTGGGTGAAACACCAATTGTTCATTGTGATATAAA GCCAAGCAATGTTCTTCTTGACAATAATTTTGTAGCCCATGTTGGTGACTTTGGCTTAGCTACATTTCTGTTTGAAGAAC CAAGCAATTTGTCCAAACCATCTATCATGTCAGCTAGCCTAAGGGGCTCTATTGGATATGTCCCTCCAGAGTATGGCATG GGTGGAAAACCTTCTACGCTTGGAGACATCTACAGTTATGGAATACTATTACTAGAGATCTTCACAAGAAAAAGACCAAC TGATGAAGCATTTGAAGGTGGCATGGGAATTCGCCAGTTTATAGCAATGGCTCTACCTATCAATGTCATGGATGTAATTG ATCCTTCATTTGTCTGTGAAGATGAATTTGATGATGAAAGTGAAGAATTTGAAGAAAATGTAGAAGAAGAAAGAGCTATT AGGGGAAACTATGAGCTTGAAGTTCATGTTAGAATTTTGGGTCACAAATATAACTTTTAA
Protein sequence (LotjaGi1g1v0439200.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MNHPCANSKSPLLRNLNGFLLLCMISSLHLVTTATSEENETDLSALLDFKSKIVGDPFNIMSSWNNSFHHCNWTGISCNI SNGRVMNMNLAKLRLKGTLTPSIGNLTFLTTLNLFSNSFHGEIPQELGRLLYLQTLEFTFNDFSGNIPNNLSHCRELLSL GFWDNNLTGTIPNWIGNISSLTRLSFALNNFHGSIPNELGLLSSLTRLVLYGNFLSGTVPSSIYNLSSLFYFTLAQNNLH GSLPSDVGFTLPNLEIFAGGLNNFTGNVPASLLNASKLVFLDFSVNALTGSLPKNIGALNRLTRLSFEHNRLGTGKAGDL NFLDSLVNCTSLQVLLLGTNRFGGVLPDSIANFSTQLYRFAFGSNEIQGNIPAGISNLVNLTLLSLEGNHLTGSVPDAIG KLQNLQELYLNVNNFSGRIPSSLGNLSSIIKLFLEQNNFEGSIPSSLGKCKELLLFSLYLNKLSGTIPKEVFNLSFLSIY LDVSYNALSGSLPVEVGKLHNLGELVLTGNNFSGVIPSSLGSCLSLERLHLQGNSFQGNIPQSLKGLRGLLDIDLSRNNL SGKIPEFLGEFTQLKRLNLANNSFEGEIPMNGIFKNVTSISLYGNSKLCGGVPQLNFPSCTVRKTSSLRKLLSPKVAIPI AIALVLVLLISCFLTIFLIVKRAKKRTSLSTTSLELGFSYSEIANCTGGFSQDNLVGSGSFGSVYKGTLSGDGSIVAVKV LNLQQRGASRSFIDECQVLRNTRHRNLLKIITAISSVDRQGNEFKALVFEFMSNGSLEDWLHPISNLQSQTKTLTFIQRL NIAIDVACALEYLHHLGETPIVHCDIKPSNVLLDNNFVAHVGDFGLATFLFEEPSNLSKPSIMSASLRGSIGYVPPEYGM GGKPSTLGDIYSYGILLLEIFTRKRPTDEAFEGGMGIRQFIAMALPINVMDVIDPSFVCEDEFDDESEEFEENVEEERAI RGNYELEVHVRILGHKYNF
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 | 36 | 36 | - | – | |
SignalP_GRAM_POSITIVE | 1 | 36 | 36 | - | – | |
SignalP_EUK | 1 | 36 | 36 | - | – | |
Phobius | 1 | 17 | 17 | - | – | |
Phobius | 18 | 28 | 11 | - | – | |
PANTHER | 27 | 133 | 107 | 0.0 | – | |
PANTHER | 27 | 133 | 107 | 0.0 | – | |
Phobius | 29 | 36 | 8 | - | – | |
Phobius | 37 | 635 | 599 | - | – | |
Pfam | 40 | 79 | 40 | 1.0E-10 | ||
Gene3D | 41 | 154 | 114 | 5.5E-31 | ||
SUPERFAMILY | 87 | 416 | 330 | 7.85E-50 | – | |
SMART | 106 | 130 | 25 | 160.0 | ||
PANTHER | 117 | 255 | 139 | 0.0 | – | |
PANTHER | 117 | 255 | 139 | 0.0 | – | |
Gene3D | 155 | 250 | 96 | 4.3E-23 | ||
SMART | 202 | 226 | 25 | 120.0 | ||
Gene3D | 253 | 317 | 65 | 6.3E-10 | ||
PANTHER | 262 | 965 | 704 | 0.0 | – | |
PANTHER | 262 | 965 | 704 | 0.0 | – | |
Gene3D | 318 | 621 | 304 | 2.2E-81 | ||
SUPERFAMILY | 356 | 610 | 255 | 1.19E-57 | – | |
SMART | 378 | 401 | 24 | 21.0 | ||
SMART | 402 | 426 | 25 | 52.0 | ||
Pfam | 404 | 426 | 23 | 1.1 | ||
SMART | 499 | 523 | 25 | 100.0 | ||
Pfam | 525 | 583 | 59 | 5.7E-7 | ||
SMART | 571 | 596 | 26 | 100.0 | ||
Phobius | 636 | 660 | 25 | - | – | |
TMHMM | 638 | 660 | 23 | - | – | |
Phobius | 661 | 979 | 319 | - | – | |
SUPERFAMILY | 667 | 927 | 261 | 3.37E-63 | ||
Gene3D | 673 | 771 | 99 | 2.5E-21 | – | |
SMART | 690 | 972 | 283 | 7.6E-24 | ||
ProSiteProfiles | 690 | 972 | 283 | 33.262 | ||
Pfam | 691 | 910 | 220 | 1.5E-39 | ||
ProSitePatterns | 696 | 719 | 24 | - | ||
Gene3D | 772 | 959 | 188 | 4.3E-45 | – | |
ProSitePatterns | 821 | 833 | 13 | - | ||
Coils | 947 | 967 | 21 | - | – |
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 LotjaGi1g1v0439200.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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