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Field | Value |
---|---|
Gene ID | LotjaGi3g1v0511900 |
Transcript ID | LotjaGi3g1v0511900.1 |
Related isoforms 1 | |
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|Q8GSP1|Q8GSP1_LOTJA Serine/threonine-protein kinase; Found in the gene: LotjaGi3g1v0511900 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:92891663..92902660) extracted from Lotus japonicus Gifu genome v1.2.
CCAGTTCACATCGAGTGAAAGTGTGCTAGCTTTATCATAAACACAATGGATAAGAACAAGGTTCTAGTGATATACTCTTT CTTATTCTGCTTCATGCCCTTGTTATCTAGCCAGAATTATATCACTGTGACTCAGAATCAATCTATCCAAGATGATGAGA CCCTGGTTTCAGCAGAGGGAACTTTCGAAGCAGGATTCTTCGGCCTTGGAAATTCACAACGCCAATACTTTGGTATATGG TACAAGAGCATATCACCAAGGACAATTGTGTGGGTAGCTAACAGAGATGCCCCAGTTCAAAATTCAACAGCAACAATAAA GCTCACTGATAAAGGAAACCTCCTCATCCTTGATGGCTCAAAGGGTATAATCTGGTCCTCCAATGGATCAAGAGCTGCAG AGAAACCTTACATGCAACTTTTAGACTCGGGAAACCTTGTTGTGAAAGATGGAGGCAAGAGGAAGAAGAACCTTATATGG GAAAGCTTTGATTATCCAGGTGACACTTTGCTTGCAGGAATGAAGATTAAGAGCAATTTAGTGAAGGGGCCTACCAGTTA TCTAACATCTTGGAGAAATACAGAAGACCCTGCTAGTGGTGAGTTTTCATATCTCATAGATACTCGTGGCTTTCCTCAAC TAGTTATTACAAGGAATGCAACTGCATATTACAGAGCAGGCCCATGGACTGGCAAATTGTTTTCAGGATCTTCTTGGCTA AGACTGCGGAAAATCTTGACATTCTCTATGCAGTTCACTAGCCAGGAAATTTCTTTAGAATATGAAACCGCGAACCGTTC GATTATTACGAGAGCAGTGATCAACCCATCTGGTACCACACAACGTTTGTTGTGGTCAGATAGGAGTCAAAGTTGGGAGA TTATATCTACTCACCCCACGGACCAATGTACATATTATGGCCTTTGTGGTGCTAATTCCATGTGTGATATTTCTAACAAT CCCATATGTCATTGCTTGGAAGGTTTCAGGCCCAAATTTCAAGCAAAATGGAATTCATTTGACTGGCCTGGAGGGTGTGT TCCAATGAAAAATTTAAGTTGTCAGAATGGAGATGGCTTTCTGAAGCACACAGGAGTGAAGTTGCCAGACACATCTTCTT CCTGGTATGGCAAGAACAAGAGCCTTGATGAGTGTGGGACGTTATGTTTGCAAAACTGCTCTTGCACATCATATGCATAT TTAGATAATGATATTGGTGGTAGTGCCTGCTTGATTTGGTTTGGTGACATTCTGGATTTGAGTATACACCCTAACCCTGA CCAAGGACAAGAGATATACATAAAGGTGGTTGCTTCGGAGTTAGGTATTTTCATTTACCATTCCACCATTTGCTTTGATT TTTCATTCGAACATTAGTTTTAGTTGACCATCTATTATTATAAGTCACATTTGTTGATGGTTTTTTTTTTCTTCAAGAAC AATTCATATCAATAAACTCCGCCTATGCTTGCGTAGCCGGTCCCAAGGTCGGACAAAGGAGAGGGTTGTGTTAGGTCTCA GCAGCCAACATAAAACCCGTTGCTATCTTCAATATGGATCAAACACAATAGATGATCGAGCTCAATGGCGTAGTGTGATC CATATAGTCAACTTCGCTTAGTGGGATAAGGCTTTTGTTGTTGTTATTGTTGTAATCATTCATATCAATAGTAGAAAGTA GAACATGAAAGATCAGGATTTAATTACCCTCTTTTCTTGTTCGAATTTGTCAGGGATAAGATCTGTTCAGATTTAATCAC CCTCTACCATGTAGTGGAACTTTTATTAGTTACATTCAGCTTCCAAACTGAAAACTTTGTCCTTGAGTCACATGTTTCTA GGTTCTTTGTTGATTGAGTCTCAATTCTCTTAATTCACAGATCATAGAAGAAATAAGAAGAGCTTCATGACTAAGAAGCT TGCAGGGAGTCTGGCAGGAATTGTTGCATTAGTTATATGCATAATAATCCTTGGATTGGCTACATCCACATGTATACAGA GGAAGAAGAATGAGAGAGGGGATGGAGGTGAAGTTAAAAAGAAGAATTGTTCTATTCTATATTTTACTTTGTTTACCTTA GAAATATAATGCTAAGTATACACTATCCTTTTTTTCTTATAAGCATATACACTATCCTTATATCTTATTACATCAGGAAC TATGAATCACTGGAAGGACAAGAGAGAGGATGAAGACATTGATCTGGGTACAATATTTGATTTTTCAATCATCTCTAGTG TCACAGATCACTTTTCAGAAAGTAACAAATTAGGGGAGGGTGGCTTTGGACCAGTCTACAAGGTAGTGAAGCTGAACTTC TCAATAATCCCTTCGTTACCAAGGTGTATTAGCCCAAGTTCCAAATTTTTCATAACTATTGCCAGGGCATATTAGCAAAT GGGCAGGAGATTGCTGTCAAGAGGCTTTCTAATGCTTCGGGACAAGGAATGGAGGAGTTCAAAAATGAAGTCAAGTTGAT TGCAAGACTTCAGCACCGCAATCTCGTAAAACTTTTTGGTTGTTCTATTCATCAAGATGAGAAGTTGTTGATCTATGAAT TCATGCACAATAGAAGCTTGGATTACTTTATTTTTGGTTTGACTTTTCACACAACTACATTTTTTCATCACTTTCATTTT TGCACTCAAGTTTTTGCCATGCTAATTAAGATTGTAAAATTTGTTAGATTCAACACGAAGTAAACTACTAGATTGGAATA AGCGCCTGCAAATCATTGATGGGATTGCTCGAGGGCTTCTCTATCTTCACCAAGACTCAAGACTAAGAATCATCCATAGA GATCTGAAAACTAGTAACATTCTTCTTGATAATGAAATGAACCCAAAGATATCAGATTTTGGTTTGGCTAGAATTTTTAT AGGAGATCAAGTTGAGGCTAGAACAAAGAGAGTGATGGGAACATAGTAAGTATTTCTCTGACTTATTTTGTTTTCATTAT ATTGCAACTTCTTTCAATGTTCTTATTACTTCAATGTTATTTTGCAGTGGCTATATGCCTCCTGAGTATGCGGTACATGG ATCTTTTTCTATCAAATCTGATGTTTTTAGCTTTGGTGTAATCGTACTTGAGATAATTAGTGGGAAGAAGATTAGGAAAT TTTATGATCCTCACCATCATCTTAATCTTCTCAGTCATGTAAGCTTGAAATGCATCTTTCCTTCAAAACTATGTATCTGA CATATTCTTTTTATATGCATCCAGTCAAGTAACTTTGCTGTGTATCTCATTAAAGCATTCAGGATATGCATGTTTTAAAA GGTGAAAAACTGGAAGGTAAACCTTGAATAAGAATTCAAATAACTAATTTTTGGTTTTCATGTAATTTCAGGCATGGAGA CTATGGATTGAAGGAAGTCCATTAGAGCTAGTAGACAAGTTATTCGAAGATTCAATCATCCCAACCGAAATATTGCGATA TATTCATGTAGCTCTATTGTGTGTACAACGGAGACCAGAAACTAGGCCTGACATGTTATCTATAGTTTTAATGTTGAATG GTGAGAAAGAACTCCCTAAGCCAAGCCTGCCTGCATTCTACACGGGAAAGCATGATCCAATTTTGTTGGAATCTCCTTCA AGAAGGTGTTCAACTTCTGTTACCATCTCATTAGAAGCTAGATAGAATACCACCAGTATCATGGTGCTACATTGTGCAAC CAGAAGGCCCTAAGAAGCAGAAATGATTGATTTTATTTTTAGAATCAATTATAAAAGAATCTGCAAACATCCACAGATCC GCTAAGCAGGTAATAAGTTTCAAATGACCTGTATTGCCTTCAATTGGCACTTTTTAGTTTCTATATCTAATCTTTTGATT CTTCCCCGAAGAAACCATATTTTTCCTTCTATCCTCATGTACAAATAGAACAGTGTTGATAATATAGAGGCTTTAGCCAT GCGGATTAGGATCCTCTCAGTGGTAAGAAAACTTGACCATATCAAGTTTTATCATCTCACCATTGATTTGACTATGGTCA AGTTTTTCTCCCAAACAATCTAAAAATCAAAATTTCCATTAAACTCTGACACACTACTACCTTTGATGTAAGTTTGAATG TGCAACTTTCTTGAGGCCCTTATGATCAGTGTTCTGGCCATTCCACCACAAGCAAGTTCAACTCGCAATAAATTGATAAG TCAAACTCTAGGTGCTTACAGCTGCCACTAATAAATACCTTGTGTTTTCCTTTCCTTTCGAAAACTTTCTCATCCAAACT TCAATAAAAAAAATCTAGCAATGTAACAACTAAAAACCAAAATTAATAATTAGAAATTTAGAATCGAACCATAGTCATTA AACAAACTTTAGTGCATACTAATCAAACAACCTCATGATTACATATATGAACAAAATCAAATTTCACATAGAAATCTTAC ATGTGTTGTCAGAATAAATTGCGTGGAGACAAGAAGATGGAAATTGAAAGTGAAAGTGGAAAAATAGTCCTTGTCCGCAT AGAAGAAGGAACCTCAAAATTATTTATACAAAAAGCAATTCACATTTCTATTACAGGAATAGGGAGTTGGAAAAGATAGT TAATATCTAATAAAAATTCATTTCGTGGTCATAAAAGTATAAATTTACTTTTCCTTGTCCATGCTCCATATACCATCTGA ACAGATTCAAAAGAATCTTCATCACAACTTTAAGAGCACTTTTTTGAATGTCATAGACAAACAATATGAGCATAAAAATC AAATGCAGTAATGTGCTGGTTGCCAAACTAGGCCTTGATGGCATCATATGGGAGTCAATTAACCTCAGTTTCAACAATAG AATCAGTTTGCTAACGAGACGCGCTTGCATCCTAAGTATTATTTCTATGTATTGAAAATTTGCAATGCAGCAATTTCAGT CCTGCACAGTCTGCTGCCAACACTCAAACAGTCAAATTTCATAGCTTGTGAATACGATTTGGGTTAGGGTGACGGCATGC TGTTTGAGGAACAACATATTATAGGAGATTACATATGATAAAGGGTATAAAGTACCAAATTGATATGCAGATGAAAAGTT GAAGAAGGCTATTATTGTATGATACAAAGTTTAACAAGGCTTCTTACTCATCATGATGATATCTTCTTCACATGGCAGCT CAGGTAAAAGAAGTTAGTGATCAATGTCAACCTTTGCTGAATGAGCCCCAACTTTAAGATCACTATTTCAATTTCTGATA AATAAAGCTCTAACTTGTATAATATATGTTCAAAGGTTCAACATTATGCTCGTTCATTGCAACAGTTGTGTCAACAGATA AATTAAACTTGCTAAGAATATTATTAGTGATCAAAATGAAAGCATGTTTATCAGCGGTTGCACTGCAAAATTTTCAACTT AAAAAATACATGCTACACTTTAGCCTCTATATATTGTACATGAGGATAGAAGGAAAAACAATGTTTCTCCGCGAGAAAAA TCAAAAGTTTAGAATTAGACAGTCACCAGTGAAGGATGAACAGGTGATTCGAAACATATTACCTGCCTAGTGGATGTTTG GAAATTCTTCTATTATTGATTTGAAGTTAAAATCAATTCTAGAGAGATGTTAGTGTAACTAGCTTCTGAGTGTGAGATAA TTTGGTCAAATATATCAATATAGCAACATGATAGTGGTTTTCTATCTAGCCTCTAATAATGAGATGGTAATAGAAGTTGA ACACCTTGAAGGAGATCCCAACCAAATTGGATCATGCTTTCCTGTGTAGAATGCAGGCAGCCTTGGCTTAGGGAGTTCTT TCTCGCCATTCAACATTAAAACTATAGATAACATGTCAGGTCTATTTTCCGGTCTCCGTTGTACACACAATAGAGCTACA TGAATATAACGTAATATTTCGGTTGGGATGACTGGATCATCTAATAACTCGTCTACAAGCTCTAGTGGTCTTTCTTCAAT CCATAGTCTCCATGCCTAAAATGACATGAAACCCAATAATTAGTGAGTTAAATTCTTATTCAGGTTTTACCTTCCTGTTT TTCACTTTTTTAAGTATGCATATCCTGAGTGCTTTAATGAGATAAAAAGCAAGTTACTTGACTCGATGCAGTTAAAAGGA ATATTCAGAGATATAGTTTTGAAAGAAAGATACATGTCAAGCTTACATGACTAAGAAGATTAAGATGATGGTGAGGATCA TAAAATCTCCCAATCTTCTTCCCACTAATTATCTCAAGTACGATTACGCCAAAGCTAAAAACATCAGATTTTATTGAAAA AGATCCATGTACCGCATACTCAGGAGGCATATAGCCACTGCAAAATAGCACTAAAGTATAAGAACATTGAAAGGAGTTGC AATATAATGAAAACAAAATAAGTCAGAGAAATACTTACTATGTTCCCATCACTCTCTTTGTTCTAGCCTCAACTTGATCT CCTATAAAAATTCTAGCCAAACCAAAATCTGATATCTTTGGGTTCATTTCATCATCAAGAAGAATGTTACTAGTTTTCAG ATCTCTGTGGATGATTCTTAATCTTGAGTCTTGATGAAGATAAAGAAGCCCTCGAGCAATCCCATCAATGATTTGGAGGC GCTTATTCCAATCTACTAGTTTACTTCGTGTCGAATCTAACAAAATTTTCATTTTTTTGTTAGCATGAGAACTACAAGAT TGCAAGAATGAAAGTGATGATGATAAATTTAGTGGTGTGAAAAGTCAGACCAAAAATAAAGTAATTCAAGCTTCTGTTGT GCATGAATTCATAGATCAACAACTTTTCATCTTGATGAACAGAGCAACCAAAAAGTTTTACAAGATTGCGGTGCTGAAGT CTTGCTATCAACTTGATTTCATTTTTGAACTCCTCCATTCCTTGTCCTGAAGTGTTAGAAAGCCTCTTGACAGCAATCTC CTGCCCATTTGCTAATAAGCCCTGGCAATAATTATGGAAAAATTGAAACTTGGTTTAAGATACCTTAGTTGGTAGTAATT ACTAGTTATTGAGTGAATTTCAGGTTCACTACCTTGTAGACCGGTCCAAAGCCACCTTCACCTAATTTATTACTTAGAGA AAAATGATTTGTGGCACTAGAGATGGTTGAAAAATCAAATATTGTTGCCAAATCAATGTCTTCGTCCCCTCTCTTGTCCT TCCAGTGATTTATAATTCCTGATATAGTAAGATATATGAATAGTGTATACTCAGCATTTTATTTGTAAGGTAAATAAAGA AAAACAAAATAGAAGAATACTTCTTTTTTATTTCACCTTCGTCCCCTCTCTTATTCTTCTTCCTCTGTATACATGTGGAT ATGGCCAACCCAAGGATTGTTATAAATATAACGAATGCAATGATTACTACCAGACTCCCTGCAAGCTTCTTGGTATTGAT GCTCTTCTTATTCCTTGTACGATCTGTGAATTAATAGAATTGAGACTCAATCAACAAACATAGCTAGAAGCATGAGGCGC AAGGAAGACAAAAATAAAAGGAAAAAGCTTTCAAATGGGACTCTGAATGTAAGTAATATAAGTTCAACAATATTAAAGAG TGATAGATACTGTCACTTAATACAATTAGTTAGTCAACAGAGTAATAGTTAGTTAGTGGGTTAGTGAGTTAGGCATGTTG CCTATAAATAGTGAGAGATTGAGAGAGAAGTGTGTTTAGTCATTTGAGATTTTGGGCATTGGGAAGCTAGTTAGTTAGTT AGTGGGTAAGTGAGTGAGGCATAATACCTATAAATAGTAAGATAGATTGAGAGAGAGAAGTGTGTTTAGTCATTTGAGAT AGTTGAGGGCCTTTGCGCATTGGGAAGCTTGGAAGATCCTCGAAGTTCTGCTATTGTGTTCAGTGATCAAGGGGAATTTC CCTATTTTCAGCAATAAATTCTAGTTTCTACAATAGAGGCATCTTAAGAACAGCTCATATCACTGATACAATTCTGACAA GACAGGAGGTGATTAAATCTTGCTCTTTCATGTTCTACTTTCTACTATTGACATGGATGATTCTTGAAGAAAAACAATTT GTCTGTCAGCAAATGTGACGTGCAACCATACAAGGTCAACTAAAAGCTAAATGTTTGAATGAAAAATCAAAACAAAGGGT GGAATGGTATGATACATGAAAATACCTAACTTTGAAGCAACCACCCTTATGTAGATCTCCTGTCCTTGGTCAGGGTCAGG GTGTTTACTCATGTCCAGAATGTCACCAAACCAAATCAAGCAGACACTCCTATCAACATCATTATCTAAACCTGCGTATG CTGTGCAAGAGCAGTTTTGCAAACATAACGTCCTACACTCATCAAGGCTCATGTTCTTGCCAAACCAAGAAGAAGATGTG TCTGGCAACTTCACTCCTGTGTGCTTCATAAAGCCATCTCCATTCTGACAACTTAATTTTTCCATTGAAACACACCCACC AGCCCAATCTAATGAATTCCATTTTGCTTGAAATTGAGGCATGAAACCTTCCAAGCAATCACATATGGGATTCTTAGAAG TATCACATAGGGAATTAGCACCACAAAAGACATAGTCTGCACACTGGTCCACCGGGCGAGTAGCTATGATCTCCCAACTT TGATTCCTAACCGACCACAACAAACGTTGTATAGTGCCTAATGGGGTAATCACTTCTCTAGTTATAATTGAACGGTTCAC GGTTTCATATTCTAAAGAAATTTCCTGGTCAGTGAACTGCATAAAGAATGTCAAGATTTTCTGCAGTACTTGCCCAAAAG CTCCGGAAAACTTATTGCCAGTCCACGGGCCTGCTCTCAAAGTTATAGCTGCTCCCTTTGTAACAACTAGTTGAGGAAAG CCACGAATATCTATGTGATATGAAAACTCACCACTAGCAGGGTCTTCTGAGTTTCTCCAAGATGTTAGATAACTAGTAGG CCCAATTGCTAAATTGCTCTTAATCTTCATTCCTGCAAGGAAAGTGTCACCAGGATAATTAAAGCTTTCCCATATAACGT TCTCCCCCTTGTCTCCATCTTTCGCGACAAGGTTTCCTGAGTCTAAAAGCTGCATGAAAGGTTGCTCTTTAGCTCTTGAT GTGTTGGTGGACCAGATTACACCCTTTGCACCATCACGGATAAGGATGCTTCCTTTATGAGTGACCTTCAAAGTTGGTGC TGTTGAGTTTCGTAACGGGGCATCTCTGTTGGCTACCCACACAATTGTCCTAGGTGATATGCTCTTGTACCATACACCAA AATAGTGATGTTGTGGATTTTCAAAGTGGAAGAATCCCGCTTCGAAGGTTCCGTCTGGCGAAACGAGGGTCTCATCATGT CTGATAAATTGTTTCTGATTCTGAGCCATAGTGATACTGATATCATCATCTTGCATGAAGCAGAATAAGATAGTGTACAT CACTAGTAGCACCTTATTCCTATCCATTGTGTTTGTAAATTCTGATACATTTTCCATTGTTACCAAATGCAGTCCAATTT ATGCTAGCTAAGGCGAAGGGTTCTATGCTGGTGACTAATTAACACAAACAATTGGATATATATTAATATTTTAAGCAACC AGCTGGAACAATGAAGACTAAAACAAAATGATATGATTTTTCCTCTCTTTGAACAATTACCTCTTCTCCTTCTCCTTGCA CACTGAGCAAATTAATGTAACTCACCCAAGATACTGTACAAGCCAATTTCTTCGTTGCAGTCATGTATGGTCGGATTCAG TTGTCCCAAAAATCGGAGTAACGTGGCAAATTTGGGTGGCTAGAGGGTTAGTGGTGGTTCACGGTGAACATAGTGGCGGC TCACGGCTCACCATGCACCGTCATTCCTTGGCTTAATGTACATTGCTCATACTTTTTGGAAGAACATCGGTAATTACCGC TCTTCCAGCTTGAATCTTCCAAAGTCAACGACCCATTCCCATTGCACTAGGACAAAACATTGTGTTCAAGGAGAAATAAA GCAGATTGCAGAGCTTCGCAGGAAGCACGTTTGATCCAAATGATCTAAGAATAATGTTTGGTGGATATATGTTTTTCATA TAAATTATAAAATAGATATTAACTATATCTTAAATTATAAAACAGATATTAACTAATCATCCAAGGGTTTTTTTATTCGT TATCTTAATATTCTAAAGCTTCATCATCGTTCAGTATGAAACCACCAACATCTTCTTCTCCCCATGAAACTGAAACCACC AACCAAATTTTCTGAAGCTTCGTTTTCACTTAATCATTTCAATACCCTTGGATGATTAATCCCTCTACAATTAAGCCACC ACCCATAAACCAACCCTCATCCCAACAAACCCAAAAATCCCCACCCAAATCCTTTGAAGTAACTCACCACAACATAAGAA AAAGAGAAGATAATAGAGTGGAAAACTGCAGATCGAAGGAGAAAGAGGTGATTGCGATGGTGGCGAACTGTAGCAACCAA GCCCCAGATTTGTTCCTTCGCCGCACAATTTTGAGGGAGATGAAATCCATGGTGAGACCACATGGTGGTGATGGTGCGAC GATGTGGTAGGGCTCCTTAGGCTCGCAGATCTGCTGAGGTGATGAGAAAAGGAGACAAATCGAGGCATGGGGTTTGGGGA AGAGACAAATCACAGATCTACCTTTCTTACCCATTTCTCCCTAATCTGGTTTTTGGGGGTGACAGATTTACACCAAGGTT ATGCTTGCTTAGATTCTGGGTTTGATTCAGTGTTTCTTCTTCAATCTGGGTAGACATTCCTTGTTCGAATTTCTGGGTAG GCAAACACAACAGAAATTTGGAGATTTTCTGGGTAAATTCGAACAAGCTTCTTGTTGCTTGTTCAGTTCAATGTTTCTTC TTCAATCTGTGTTCAATTCAGATGTTAATAATTAGGTGAGTGGATTTGTGTAAGTATGTGAAAGGAAAGATGAAGAAAAG AAGGAAGAGATGGTTGAAGAAGAAAATCTGGGGTTTTGATGAAAGATTTGGAGATGAAGAGATTTATAATTAATAATTAG GTGAGGGATTAAATTAGTAAATTAGGTTTTAATTACAT
CDS sequence (LotjaGi3g1v0511900.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGATAAGAACAAGGTTCTAGTGATATACTCTTTCTTATTCTGCTTCATGCCCTTGTTATCTAGCCAGAATTATATCAC TGTGACTCAGAATCAATCTATCCAAGATGATGAGACCCTGGTTTCAGCAGAGGGAACTTTCGAAGCAGGATTCTTCGGCC TTGGAAATTCACAACGCCAATACTTTGGTATATGGTACAAGAGCATATCACCAAGGACAATTGTGTGGGTAGCTAACAGA GATGCCCCAGTTCAAAATTCAACAGCAACAATAAAGCTCACTGATAAAGGAAACCTCCTCATCCTTGATGGCTCAAAGGG TATAATCTGGTCCTCCAATGGATCAAGAGCTGCAGAGAAACCTTACATGCAACTTTTAGACTCGGGAAACCTTGTTGTGA AAGATGGAGGCAAGAGGAAGAAGAACCTTATATGGGAAAGCTTTGATTATCCAGGTGACACTTTGCTTGCAGGAATGAAG ATTAAGAGCAATTTAGTGAAGGGGCCTACCAGTTATCTAACATCTTGGAGAAATACAGAAGACCCTGCTAGTGGTGAGTT TTCATATCTCATAGATACTCGTGGCTTTCCTCAACTAGTTATTACAAGGAATGCAACTGCATATTACAGAGCAGGCCCAT GGACTGGCAAATTGTTTTCAGGATCTTCTTGGCTAAGACTGCGGAAAATCTTGACATTCTCTATGCAGTTCACTAGCCAG GAAATTTCTTTAGAATATGAAACCGCGAACCGTTCGATTATTACGAGAGCAGTGATCAACCCATCTGGTACCACACAACG TTTGTTGTGGTCAGATAGGAGTCAAAGTTGGGAGATTATATCTACTCACCCCACGGACCAATGTACATATTATGGCCTTT GTGGTGCTAATTCCATGTGTGATATTTCTAACAATCCCATATGTCATTGCTTGGAAGGTTTCAGGCCCAAATTTCAAGCA AAATGGAATTCATTTGACTGGCCTGGAGGGTGTGTTCCAATGAAAAATTTAAGTTGTCAGAATGGAGATGGCTTTCTGAA GCACACAGGAGTGAAGTTGCCAGACACATCTTCTTCCTGGTATGGCAAGAACAAGAGCCTTGATGAGTGTGGGACGTTAT GTTTGCAAAACTGCTCTTGCACATCATATGCATATTTAGATAATGATATTGGTGGTAGTGCCTGCTTGATTTGGTTTGGT GACATTCTGGATTTGAGTATACACCCTAACCCTGACCAAGGACAAGAGATATACATAAAGGTGGTTGCTTCGGAGTTAGA TCATAGAAGAAATAAGAAGAGCTTCATGACTAAGAAGCTTGCAGGGAGTCTGGCAGGAATTGTTGCATTAGTTATATGCA TAATAATCCTTGGATTGGCTACATCCACATGTATACAGAGGAAGAAGAATGAGAGAGGGGATGGAGGAACTATGAATCAC TGGAAGGACAAGAGAGAGGATGAAGACATTGATCTGGGTACAATATTTGATTTTTCAATCATCTCTAGTGTCACAGATCA CTTTTCAGAAAGTAACAAATTAGGGGAGGGTGGCTTTGGACCAGTCTACAAGGGCATATTAGCAAATGGGCAGGAGATTG CTGTCAAGAGGCTTTCTAATGCTTCGGGACAAGGAATGGAGGAGTTCAAAAATGAAGTCAAGTTGATTGCAAGACTTCAG CACCGCAATCTCGTAAAACTTTTTGGTTGTTCTATTCATCAAGATGAGAAGTTGTTGATCTATGAATTCATGCACAATAG AAGCTTGGATTACTTTATTTTTGATTCAACACGAAGTAAACTACTAGATTGGAATAAGCGCCTGCAAATCATTGATGGGA TTGCTCGAGGGCTTCTCTATCTTCACCAAGACTCAAGACTAAGAATCATCCATAGAGATCTGAAAACTAGTAACATTCTT CTTGATAATGAAATGAACCCAAAGATATCAGATTTTGGTTTGGCTAGAATTTTTATAGGAGATCAAGTTGAGGCTAGAAC AAAGAGAGTGATGGGAACATATGGCTATATGCCTCCTGAGTATGCGGTACATGGATCTTTTTCTATCAAATCTGATGTTT TTAGCTTTGGTGTAATCGTACTTGAGATAATTAGTGGGAAGAAGATTAGGAAATTTTATGATCCTCACCATCATCTTAAT CTTCTCAGTCATGCATGGAGACTATGGATTGAAGGAAGTCCATTAGAGCTAGTAGACAAGTTATTCGAAGATTCAATCAT CCCAACCGAAATATTGCGATATATTCATGTAGCTCTATTGTGTGTACAACGGAGACCAGAAACTAGGCCTGACATGTTAT CTATAGTTTTAATGTTGAATGGTGAGAAAGAACTCCCTAAGCCAAGCCTGCCTGCATTCTACACGGGAAAGCATGATCCA ATTTTGTTGGAATCTCCTTCAAGAAGGTGTTCAACTTCTGTTACCATCTCATTAGAAGCTAGATAG
Protein sequence (LotjaGi3g1v0511900.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MDKNKVLVIYSFLFCFMPLLSSQNYITVTQNQSIQDDETLVSAEGTFEAGFFGLGNSQRQYFGIWYKSISPRTIVWVANR DAPVQNSTATIKLTDKGNLLILDGSKGIIWSSNGSRAAEKPYMQLLDSGNLVVKDGGKRKKNLIWESFDYPGDTLLAGMK IKSNLVKGPTSYLTSWRNTEDPASGEFSYLIDTRGFPQLVITRNATAYYRAGPWTGKLFSGSSWLRLRKILTFSMQFTSQ EISLEYETANRSIITRAVINPSGTTQRLLWSDRSQSWEIISTHPTDQCTYYGLCGANSMCDISNNPICHCLEGFRPKFQA KWNSFDWPGGCVPMKNLSCQNGDGFLKHTGVKLPDTSSSWYGKNKSLDECGTLCLQNCSCTSYAYLDNDIGGSACLIWFG DILDLSIHPNPDQGQEIYIKVVASELDHRRNKKSFMTKKLAGSLAGIVALVICIIILGLATSTCIQRKKNERGDGGTMNH WKDKREDEDIDLGTIFDFSIISSVTDHFSESNKLGEGGFGPVYKGILANGQEIAVKRLSNASGQGMEEFKNEVKLIARLQ HRNLVKLFGCSIHQDEKLLIYEFMHNRSLDYFIFDSTRSKLLDWNKRLQIIDGIARGLLYLHQDSRLRIIHRDLKTSNIL LDNEMNPKISDFGLARIFIGDQVEARTKRVMGTYGYMPPEYAVHGSFSIKSDVFSFGVIVLEIISGKKIRKFYDPHHHLN LLSHAWRLWIEGSPLELVDKLFEDSIIPTEILRYIHVALLCVQRRPETRPDMLSIVLMLNGEKELPKPSLPAFYTGKHDP ILLESPSRRCSTSVTISLEAR
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 | 22 | 22 | - | – | |
SignalP_EUK | 1 | 22 | 22 | - | – | |
Phobius | 1 | 5 | 5 | - | – | |
PIRSF | 2 | 820 | 819 | 3.4E-287 | ||
TMHMM | 6 | 28 | 23 | - | – | |
Phobius | 6 | 17 | 12 | - | – | |
PANTHER | 8 | 438 | 431 | 9.8E-144 | – | |
PANTHER | 8 | 438 | 431 | 9.8E-144 | – | |
Phobius | 18 | 22 | 5 | - | – | |
Phobius | 23 | 439 | 417 | - | – | |
ProSiteProfiles | 25 | 146 | 122 | 18.681 | ||
Gene3D | 27 | 149 | 123 | 4.2E-17 | ||
CDD | 31 | 151 | 121 | 1.88203E-37 | ||
SMART | 31 | 151 | 121 | 3.5E-40 | ||
Pfam | 73 | 177 | 105 | 2.2E-34 | ||
SUPERFAMILY | 73 | 216 | 144 | 4.19E-28 | ||
Pfam | 209 | 318 | 110 | 5.8E-27 | ||
CDD | 336 | 421 | 86 | 3.99621E-24 | – | |
Pfam | 339 | 405 | 67 | 1.1E-18 | ||
ProSiteProfiles | 339 | 422 | 84 | 11.49 | ||
SMART | 340 | 421 | 82 | 1.5E-7 | ||
SUPERFAMILY | 343 | 418 | 76 | 1.8E-5 | – | |
Phobius | 440 | 460 | 21 | - | – | |
TMHMM | 440 | 462 | 23 | - | – | |
Phobius | 461 | 821 | 361 | - | – | |
Gene3D | 477 | 583 | 107 | 2.1E-35 | – | |
SUPERFAMILY | 492 | 808 | 317 | 1.48E-80 | ||
ProSiteProfiles | 508 | 790 | 283 | 37.559 | ||
SMART | 508 | 759 | 252 | 2.1E-29 | ||
Pfam | 509 | 711 | 203 | 1.8E-44 | ||
CDD | 514 | 781 | 268 | 7.65289E-91 | – | |
Gene3D | 584 | 788 | 205 | 2.4E-55 | – | |
ProSitePatterns | 629 | 641 | 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 serine/threonine kinase activity | Catalysis of the reactions: ATP + protein serine = ADP + protein serine phosphate, and ATP + protein threonine = ADP + protein threonine phosphate. | ||
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. | ||
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. |
Expression pattern of LotjaGi3g1v0511900.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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