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Field | Value |
---|---|
Gene ID | LotjaGi3g1v0214600 |
Transcript ID | LotjaGi3g1v0214600.1 |
Related isoforms 1 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Disease resistance protein (TIR-NBS-LRR class); TAIR: AT5G36930.1 Disease resistance protein (TIR-NBS-LRR class) family; Swiss-Prot: sp|Q40392|TMVRN_NICGU TMV resistance protein N; TrEMBL-Plants: tr|K7KDG9|K7KDG9_SOYBN Uncharacterized protein; Found in the gene: LotjaGi3g1v0214600 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:32246720..32257169) extracted from Lotus japonicus Gifu genome v1.2.
GGAAACTAGTGCATGGTAGACAAAATGAGAAAAGGACTTATTTTATATTTCTTCCCGCGGCCTTTCACTATCATTTCTCA CTGACCGTGGACATTTGACGAATGTATGCAAGTGCGATGCTGCAAGGAGTATCTATTTTGCAAACCAATTTCCATAGTTT AGCATAGTAGACTGCAATTTCCCAAGTCAATTATTCTGTTTAATCTCTTCATATTACTTTGACTTCCTTCTCTCCAGATC TCAAATCATCCATGGCGGCTGAGGACTCAAATTTCGATGAATATTGGTGGGATTACTTCTTTCCCCCTCCTCCTTCTCCT CCTCCAGCTCCAGCTGTAAATGATGTGCTTTGGGACCAGTTCTTAACGGAAAGGCCAGCCGGAAGCAATTCGCCATCAGA GAGCTCAAATTCCGATGAATGGTGGGATTGTTCACCGTTCGATTTGGATCCTCCTTCTCCTTCTTCTTCTCCTCCTCTCC CTCCTCCACCTCCACCTCCACCTCCACCTCCAATGGGTTGGGAATATTTCTTTCCTCCTTTCCCAACGAGAATCCACGAT GTGTTCTTGAGTTTCAGAGGGGAAGACACTCGTGCTTCCTTCACTTCACATCTCTATGCCGCTCTTCAAAACGCTGGAGT CAACGTTTTCCGGGACGACGATTCCCTTCCAAGGGGAGATCAAATTACAAATTCACTGATCGCAGCAATCGAACAGTCTG AAATTTCGGTTATCGTTTTCTCACCAAATTATGCGGATTCGCGGTGGTGTATGGAAGAGTTGGTGAAAATAATGGACTGT CACAGAACCATAGGCCAGGTGGTTCTGCCGGTGTTCTACGGCGTCGATCCCTCTGAAGTGCGGCGCCAAACCGGTGAGTT TGGGAAGAAATTTCACAATCTTGTAAACAAACTGCCAATGGATCCGGGGGGCCGTTGGAAGCGTTGGAGGGAAGCGCTTT GTGAGGCTGGTGGCATTGCAGGGTTTGTAGTCTTGAATTCCAGGTAATGTTACATTTCATTTCTGCATTGGATTCTTTCA TCATCACACTTTTGGTCCTCTACTTTGGACTTTGTGTGATTTTATAGTCCCATTTTTTTTATTGAGCTAATTAAGTCTCA ATAGTCTCAATTGTCAATTATGGAGTTAAAACCAGATTTGGCCACTTTGTCAATTAGTACAAGTTATCCCTCCTCAGGGT TCCTCAGGGTTCGAACCCTGACCCTTCACCTTTAATTACCCTTAGCTGAACCATGTGAGCTACCCATACACTTTGTCAAT TTTCATATGCTAAGTGTACTTAAATCTTCATTTTTCATTTAAATATTTTGGAGTTGAACTTAGGAGTATAATATGTATTT GAAAGTTTCGCAAAACTTAGTGAAAATTTAATAAAATTTAGGGGTTTATACTTTATAGGATATGAGGGTAGTGTTTAAAA AGGTAAAATATTTATATTATTTTATAATTTTAGCTGAAAATTAATATTTTGGTGGCTGAGTTTTGAGTTGAACAAGGTTT CCAATTATCTAATAAAATTAGTTTCAGAAAATTTCAGTTAAAAATGAGGTTTTGAGAGTTTTAAATAGCATTAAAGTGAT TGAAGGAATTAATTGTAGCAATATCAAAAAATAAGGGATTAAATTTGCTAAAAAACTATAGGGGATCAAAATCACACGCT AGGAACCAAAACATAATTAAGTTTTTTTTCATTATTGCTTTTCTTATCATTTAATTCGGTAAAAATAAAAAATATGTACT TAATAAATTAATGAACAATTTACTTGAATATTCAAAATATATATAACTAAAGGAAAATTATTTTAAAATCACACTAAGAA AGAAGAGTAAACTTTTCTCTTATCTAGAAATTCCGAAGACTGATAAGATTTTTATATAATTCACAATAACTGAATATTGT CCCCAAAAACAACCAGGCTGTGTCTAAAAATATGGTAGCTTTTGTTATTGGAGGGTTTAGTGCAGTGTAAATCATCACCA ACCTTCATTAATATTTTTCTAGCTTTTTGAGCTGTGAAATTATTTTCAAAATTTTAAGTAATTCAGACATTTCTCTCTCG ATGAATAATATGGTTGGTCCATTCAATTTATCTCAGGTAGGATATAATCAATTTTAATTCTGAACAACTTCTTTCATCAC TAGTATTTAGTAATACGCAATGGTGCATTTGGAAAAGAATCCAATATTTTGATATAGTTTAATATTTCTAATGAAGTGTT AATTTTTCCTTTAACTCTTCTGTCAATACCTTCCGTATGATAGTTATACGGAATCATAGGGTCCAGGGTGAGGCCATGCA GAAGGTACTTGTTAGGATACATCCATAGTTGCTTGGGCTCTCAATTCCAAGATTGAGAGAGTTCCCATTTAACTGTTTTG TCAATTTCAGTATATATATGCGCCAAGGCTCCATTATTCTAGTGGAATTCACATTTCTTCTCAATATACATTTCCATTTT GTTCATAGTTGAGCTAAGTTTCCATCACTCTCAAAATTTAACAATTTATAGTAGTGGATAAGAAGATAAAGGAGAACGAA ATGGAACAAGACCAAACTCTTGACACCAACACGTCAAATTAAACACCATTGTTACTCAGTTTAACCCGATAACAAATTGT AGTTTTTTATGGTATTAGCAAAGAATTTGTCTGAAAACAAGCCACCTCTGTCATATACCTGATATTCTAATTTTCTAAAT AATATATTAGATAATCTCACCTTTTATGCACTCACTTGACGTTCATCCCCTTTTTACCTTTTGTTTAAATTAAGTTCCTT TAGAATTTTCTTTTCCATTTCTTTTAAAGAGTCCTCATTCTGCTCAAATACTCTGTCATGCATCTGAAAGAATCATTCTA TGCTTAAATATGTGAGATAATAATGGATCAAAATCTGCTCTTTCTTGGCATGTTCTTATTGTACCAAATGATAATTGCTC TTACATTAGACACACATTCAGAATCATTGCAACTCCTTCGCAAACAGTTCAGCCACATGTCCACCTATAATTTTCTTCGA TCGCCCCTCTACTTTTGATGCGCACGCGTGCACACACACATACACATATGTATATATATTTATGCACCTTTTCTTTGTTC ATTTTTATAGGAATGAAAGTGAGGCTATCGAGAAAGTTGTCGAAAATGTTACACAATTGCTTGACAAGACTGACTTGTTC ATTGCTGATAATCCAGTCGGAGTTGAATCTCGAGTGCAAGATATAATTCAACTGCTAGACAACCAACCCTCAAATGATGT TCTACTACTCGGGGTATGGGGTATGGGAGGAATTGGCAAAACAACCATTGCAAAAGCTATTTACAATGCAATTGGCCGCA ATTTTGAGAGTAGGAGCTTCCTTGCAAATGTTAGGGAAGTTTGGGAGCAAGATGCTGGACAAGTGCATTTGCAAGAACAA CTTCTGTTTGATATCTTCAAGAAAACAACCAAGATACATAGCACTGAATCAGGAAAAAATATATTAAAGGATAGACTTTG CAGTAAAAGAGTACTTCTTGTACTTGACGATGTAAATAAATTGGACCAATTGAATGCTCTGTGTGGAAGTCGTGAATGGT TTGGTTCAGGGAGTAGAATAATCATCACAACCAGAGATCAACATATACTTAGAGGGAATAGAGTTGACCAAGTATACTTA ATGGAAGAGATGGATGAAAGTGAATCTATTGAGCTTTTTAGTTGGCATGCATTCAAGAACGCAAGCCCTAGTGAAGATTT TGCTGAAATTTCTATAAATTTAGTTGAGTATTCTGGGGGATTGCCGCTAGCTTTAGAAGTCCTTGGGTCCTATTTGTTCG ACAGGGGGGTAACAGAATGGAAGAGTGTCTTGGAGAAACTCAAAAGAATTCCCAATGATCTAGTACAGAAGAAGTTAAAA ATAAGCTACGAAGGCTTAAATGATACAGAGAAAGAGATATTCCTTGACATAGCATGTTTCTTTATTGGGATGGAAAGGAA TGACGTTATACATATATTAAATGGTTGTGAACTCTATGCAGAAATTGGAATAAGTGTCCTTGTTGAAAGAAGTCTTGTAA CTGTTGATGATAAGAACAAGCTTGGAATGCATGACTTGCTGCGAGACATGGGGAGAGAAATCATTCGTGAGAAATCACCA AAGGAACCTGGGGATCGTAGCAGGTTATGGTTTGATGAGGACGTGCTTGGTGTATTATCGGAACAAACTGTAAGAACTTC AATTTCCTTTTGGATTTAAAATATCAATATCTAAAATCTAAACGAGGCATAGCAAACATTTACCAATCAGCTGTTAACAT TCATTAGTTTTCTTGATTTGTTTGCTTATGAATTGTTTGAGCTTCCTGGTTCCTAGTAACAAAATGATGGGTTTCATCTC AATAACTTGTAGCTGCCTTATATCTTTCAGCTATGTTATTTTTACCCCCTTTCTATTTTATTTCACAGGGAACAAACGCT ATTGAAGGACTGGCTTTGAAGTTGCCATCTAATAATACAAAATGTTTCAGCACTAAATCGTTTGAGAAGATGAAGAGACT CAGATTGCTTCAATTTTCGGGTGTACAACTTCAAGGAGATTTTAAATATCTGTCAAGAAATTTAAGATGGTTGTGTTGGC ACGGATTTCCTTTATCATTCATACCTAAACACTTATATCAAGGAAGTTTGGTTTCCATTGAGTTAGTAAACAGCGACGTC AAACTTGTGTGGAAAGAGGCCCAGGTATTAATTCTGAGTTTAGGTTTTTGCATTTCATGAGTTGTTTTCCTCTTTCGTGT TCATGGATGCAATTTTAATTAAGCATTTTAATTAGTTGTACTGTTTTATTATATGATACTTATAGACAGTTTTCATAATG CTATTTCCAGTCTTTTAATGTTGCAATATTCAATATTGTACGTAGTTGTTTGCCAAATGTTTTTTTGTTTTGGTGAACAT TTCTCTTAATCAAGAATATAAATCTTTTTTAAGATGAGTTGGAATTTGATTAATAGTCAAGTGTAAAATCATTTACATTA ATATCTGATGATGCAGTAGCGCCTCATTACAAAACTCATATATCCTATAAAGTAATTGTGATGGTGAAACTTATTTAGTA ACTTGCAATACATAATTGGATGAAAATCTACAGAAGTTTTACACTAACCATGAATTGAAGTTCAATTTCCATGGGATTAC CTAATCAAAGGAGTTTTATTTATTAATTTAATATGGACTTTACATAAAAGCTCTTTCAACTACAACGAACAAAACATATC TCCTCCTAAATCTTGTGCATGTTCGGAGATATATTGATATAGTAAAAAGAAGGGAAAGGAAAGGACTGGAACCTTGATAA TTTGATTAGAGAATCTCCAAATTCAGATGTCAAACCTATATATCATCCCAATGTTCTAACTTCTAAGCTCAGCAGAAACA TGATTTTAGTAATTTCTGTGACATTGGTAGCACTACCAACCCAATGGATATAGGCATTAAAAGTTGACACTCACCAATGT AAATATTTACTTTCCACTCTAGTGACACTGCAATTGCTTCCATATATATTTTAAGCTTTTTCCCTAAGTTCTCTCTATGA CACTTCTCATCTTGCAGATGATGGAGAAGCTGAAAATTCTGAATCTTAGTCATTCACAGCATTTGACACATACCCCAGAC TTTTCAAATCTGCCTAATCTTGAGAAGCTTGTACTTAGAGATTGTCCAAGCCTGTCTGAGGTTTCCCCTAGCATTGGACA TCTCAATAAAGTTGTTCTAATAAATTTGAAAGACTGCATTCGCCTTCGTAACCTTCCAAGAAGCATCTATAAGTTGAAAT CTCTGAAAACCCTCATTCTTTCTGGATGTCTAATGATTGACAAGTTGGAAGAAGACGTCGAACAGATGGAATCTTTGACA ACCCTGATTGCAGACAACACTGCAATAACAAGAGTTCCCTATTCATTAGTAAGGTCAAAAAGCATTGGTTATATATCTTT GTGCGGCCATGAAGGATTCTCACGTGATGTGTTTCCTTCTATAATTTGGTCTTGGATGTCGCCAGCAAATAATCTCCCAT CTCTAGTTCAAACATCTGCAGGCATGTCATCTCTTGTTTCTTTAGATGTATCAAATAGTAGTTCCCATGGACTATCATCT ATTCCCATGGACCTTCCAAAGCTTCCAAGTCTGTGGATGGAGTGCGGCTCAGAGCTTGAGCGATCTCGAGACGCTGAAAT AGTTTTGGATGCCTTATATGCCACAAATTCTTCTAAAGAATTGGAATTAACTGGAACTACGTCAGAACTATCAAATGTGG ACACTTCTGTGTTGACGGAATGCAACAGTCAAGTGCATGATTCTGGATCAAAAAGGGTCTTGAAATCTCTTCTAATTCAA ATGGGAATGAATTGTCAAACCACCAGTATTCTGAAAGAGAGCATTTTACAGGTTTCTATCGCTCGCTATTTCTTGCATGG GTTCGCATTTTAAAAATTAAAATATATAAAGTCATATGTGAATTCATGCTTATATGTCTATAACTATTAAATAAATACAT TTGAGCACCTAGCAATACTAATAGGTATATTTTCTTTGTAGGAAATGAATTTTAGTCCATCAATCATTCCTGTAAGATAA AGAAATCCGTGAATCTCATTTTTACCTTTTGCTAGTACGTAGAGTAGTGAGTGACATCATTTGTGTGTGCTTTGTGTTAT CAAAAACTATTTCAACCTTCAACGCCCACTATGATTTTAGTGAGTGGCAGAATTTGTTTATATCACTGTATAAATATTAA AAGGAATTAGGAAACTCACTTATTTTTTGTTGGAATGGTTTTTTAAGCTGGACTGATAGTCTCTGTTTGAACAATAGAAG CAATGATTTCCATGGTTTAGTTTTTTTCTTCAATAAGTTTTCACTTCATAATTTGTCTATTAACCGGAAGATCATAAATT TTATCTCACAAGAAAATGATTAGTTATCTTATGAGTATAACTATATTTTAAATTGTTGAATAAATGATAAGATGGTATTT AGATATTTTTCAACACAATCAGAGCATATTTCCATTTTGACAGAATATGACAGTCAGAGGATCTGGTATTAGTTTGCTCC CTGGAGACAATTATCCAGATTGGTTGACCTTCAACTGTGAAGGTTCTTCTGTGATTTTTGAAGTCCCTCACGTGAATGGG CGTAGTTTGAAGACAATGATGTTTGTTGTCCATTCTTCTACCGCATATGACATAACGTCAGATGGCCTAAAAAATGTGTT GGTGATAAATTGTACAAAGAACACAATTCAGCTCTATAGGTGGAACACATTAGTCTCCTTTGAAGATGAAGAGTGGCAGA GAGTAGTATCAAATATTGAACCTGGTAACAAAGTGGAGGTGGTGGTTGTTTTTGAGAACGGATTCACTGTGAAGAAGACA GCAATTTATCTCATATATGATGAACCATTTGAAAAAGAGGCAGTTCACCACCATGAAAATGACACGAATGTTGGTGTTTC TGGGGATGATGAAAATGTAAGTCATCATTGTGTAGATATATGCACATTCTATATGAATTTTGTTCATATTGTTATGCTAG CAGGATTTAGGAACTGAATTTGGTAATGTAAAATTGTTGTGTCAGTTACCTCTTAAACATGGTAATATAAGTTGGACTCA CTGAACTGTTTCAACTACTAGAATGGATTAAATTATTGCCCCTTTGAACATTATTTTTATTTCTTCTAACTGTATTATTT CACTCACGAGGGTCCTCTTTCTCTTTGTTTATGGTTTTAGAGATTTGATAAACTATTTTCTCTACTTCCTCCCATTGTTC GAGCCGTTCTGACTTCAAAACCTTTCTGGTTGATCGGTCTAGCTGTTATCTTGATTTGGTCTCGCTGCTTTTTTAATCAG CGACGAAGACGTAAACCCATTTTAAGGTACAAACCCATCTTTTTTCCCTTCGCAAACCATATGCATGATAAGAATCATTT TATGTTGCTTTTGAAATCCTTTAAGCTTCTCTAAGAAGCTATCAGTCATTAAATAAAAGATTATCATCCATTTAATCTGT GGTGATATTTGTTTTTGGTTTATATTAGTTCCCTCTAAATCATAACTTTGAATTTAGATCTTGATTGCTATTTCCCTTTG GAATTCATGTTTGCATGCTATATTATATAGAGTGAAGCTATGTTTCAATAATGATTTGATTTCTAATATCTGAAATTGAG ATCTTCCTGTCACTTTACTGTTTTGTGTGAAGAGGTGGGATGACGAAAATGAATCAATCTTTCTATGAAAGATTGGTTGA TGCATATTGGCAGGGCATTTATTCCAAGTACTTCAAATTTATAAAAGTCGTTGGACGAGTTTACAAAACAAGTCGAGAAT AAACTGATTGAACACAATGGTGTTCAAAGCCTTTCTGTTCATTCAGGCTGGTTATCTTGATTGGGTCTTGCTGCTTTTCT AACCAGCAAAGGAGCTGTAAACCCATTTTAAGGTACAAACGCATCTCTTTTTCTTCCGCAGGACATTTATACGTTCACAT ACTTTTAAGATTTCCTAAGAAACTATCAATCATCAGTAAAAGGCTATTTCCATTAATTTATCTTGAACATTCTTTTCTTT TGGGTTTCCATAACTCTGTAAGTTGATCCTGATTACTCATTTTACTTCGGAATTCGTGATTGCATGCTAATATTTGAGAC ACTTCCTACTACTCTATTCTTTTGTGTGAAATAGGGAAATGTCCACGGAGAGCACTCAAGGTTCCAATAAGCAAGTAGAA AGTGATGAACTCCCTCTGCAACTTGCTCGATTGATGGTTGTAGGAGAGTGAGACATACAACAAAAGCCCTAGTCTTTTTA TCACTACAAGATCTAGAGATCAAAGCAAGACAATTTCCAACGGAGATCACTCCAAATCTTCTATCCACTACAGGTACGCA ACCCATCTCTATATATTTGGTGTTCTATAATCATATATGGGATCTCAATTATTCTTACGAGAAATTGTCAGAAAACTCAA CAAAGACCCTCAAACTGTTTCTATTTAAGATTTTCACTAGCTAAGTGAATTAACACAATTTTCTAGCATTGCAGACTTAT AAATGTTATAAAGATTTATGTCAAAAAAAAAATGTTATAAAGATTCATATACCTGAGATGTTCACAAGACATTCTAAATA ATATATTAAATAATCCCATCGTTAATGCTCTGCCCTCACTTGGCATTCATATCCTTTTGACCTTTTGTTTAAATTAAGTT CCTTGAGTATTTTCTTTTTCTTTTCTTCTAGAGAGTTCTCAATCTGCACAATCGCTCTTTCGTTGGTGTAAGGATGTCGT CTGGCGGTCCTGCAAAATGGTTCTTCCAGTGTGTGATTTGTTGCATAAGCATGGCATCCTCCCTGATCCCTTGGGCTCGG TTTGCGGATCAGAAATTAAATCTGTCTCCCAAGACTTAATCCAATTCCAGTGTTCCCATGCCCAAGCAATGTGGTTCGGC TCTCCACTATCTTTGCGAATCCCCTGCTAGCAGTATTGATTTTATGGAATTGATCACAACAAGTGCTTTATATTGCTGTG AAATTTAGGAAACTTAGCATGTGTTGGCAGTGATGCAGCGATCTGGATGCGCCGGAACAATAAGACTTTTAGCAATTACC TGCTCACAATCGACCAGACCTTGTAGCTTGCTGCTGGAGTTTGCTCGCTGTCTGATAGCATACATGTTAGGGAGAAGGGT AAACCCGTCATTTGGAGGGTTTATCAAAGGAGAAAAAAGTAATTAAGTAATATAATATTAGTTAGTTTGAATTCCAAGTT GGTTGTTGTGTGGATTGTATTTAAGTTAGTCTGCTGTTTTATTGTCAGTTTTTATGTTGGAAGTTTTATGTGGTAGTTAC CTAGGCCAGAAGAAGTTATCTTCTGAGAGAGCAAACTGCTCTTGTGGTTTTCAGATTGTGTTTTACTGTGTGTTTCAGAT TGTATTCCCTTTGTTATTATCTATGAAAAATCGCAGGTTATCTGCTATCTCTCCTACTCTATAATTCTGTTCTACAAACT GATATTGCTGCACTGTACACACATTTACTGTTCATGCGTGTACTGTTCATACGAACACTGTTCATACAGAAACTGTTCTC AAAACTAGATATCTCCTTAACTGTTGTAATTATGGTTCTTATCAATTTGGTCCGACCTGCCGGATGCCACCGAAGAAGAT GGAAGCCTTGGAAGCCAAAGTGACAGCACTTGAAGAGAAACTCGCCACTTTGGAGGTATCTTTACATGAAATGCAGAATC AAAATAAAGATAACCAGGAGAAGATCATCTCATTATTAAATTCAAGTAAGGAGAAGAATGTTGGAGAAACATCGCATCAT AATGAGTCAGTTGGTACCAAAAAGCAGAATTCTGACTTACATGGTGAAGC
CDS sequence (LotjaGi3g1v0214600.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCGGCTGAGGACTCAAATTTCGATGAATATTGGTGGGATTACTTCTTTCCCCCTCCTCCTTCTCCTCCTCCAGCTCC AGCTGTAAATGATGTGCTTTGGGACCAGTTCTTAACGGAAAGGCCAGCCGGAAGCAATTCGCCATCAGAGAGCTCAAATT CCGATGAATGGTGGGATTGTTCACCGTTCGATTTGGATCCTCCTTCTCCTTCTTCTTCTCCTCCTCTCCCTCCTCCACCT CCACCTCCACCTCCACCTCCAATGGGTTGGGAATATTTCTTTCCTCCTTTCCCAACGAGAATCCACGATGTGTTCTTGAG TTTCAGAGGGGAAGACACTCGTGCTTCCTTCACTTCACATCTCTATGCCGCTCTTCAAAACGCTGGAGTCAACGTTTTCC GGGACGACGATTCCCTTCCAAGGGGAGATCAAATTACAAATTCACTGATCGCAGCAATCGAACAGTCTGAAATTTCGGTT ATCGTTTTCTCACCAAATTATGCGGATTCGCGGTGGTGTATGGAAGAGTTGGTGAAAATAATGGACTGTCACAGAACCAT AGGCCAGGTGGTTCTGCCGGTGTTCTACGGCGTCGATCCCTCTGAAGTGCGGCGCCAAACCGGTGAGTTTGGGAAGAAAT TTCACAATCTTGTAAACAAACTGCCAATGGATCCGGGGGGCCGTTGGAAGCGTTGGAGGGAAGCGCTTTGTGAGGCTGGT GGCATTGCAGGGTTTGTAGTCTTGAATTCCAGGAATGAAAGTGAGGCTATCGAGAAAGTTGTCGAAAATGTTACACAATT GCTTGACAAGACTGACTTGTTCATTGCTGATAATCCAGTCGGAGTTGAATCTCGAGTGCAAGATATAATTCAACTGCTAG ACAACCAACCCTCAAATGATGTTCTACTACTCGGGGTATGGGGTATGGGAGGAATTGGCAAAACAACCATTGCAAAAGCT ATTTACAATGCAATTGGCCGCAATTTTGAGAGTAGGAGCTTCCTTGCAAATGTTAGGGAAGTTTGGGAGCAAGATGCTGG ACAAGTGCATTTGCAAGAACAACTTCTGTTTGATATCTTCAAGAAAACAACCAAGATACATAGCACTGAATCAGGAAAAA ATATATTAAAGGATAGACTTTGCAGTAAAAGAGTACTTCTTGTACTTGACGATGTAAATAAATTGGACCAATTGAATGCT CTGTGTGGAAGTCGTGAATGGTTTGGTTCAGGGAGTAGAATAATCATCACAACCAGAGATCAACATATACTTAGAGGGAA TAGAGTTGACCAAGTATACTTAATGGAAGAGATGGATGAAAGTGAATCTATTGAGCTTTTTAGTTGGCATGCATTCAAGA ACGCAAGCCCTAGTGAAGATTTTGCTGAAATTTCTATAAATTTAGTTGAGTATTCTGGGGGATTGCCGCTAGCTTTAGAA GTCCTTGGGTCCTATTTGTTCGACAGGGGGGTAACAGAATGGAAGAGTGTCTTGGAGAAACTCAAAAGAATTCCCAATGA TCTAGTACAGAAGAAGTTAAAAATAAGCTACGAAGGCTTAAATGATACAGAGAAAGAGATATTCCTTGACATAGCATGTT TCTTTATTGGGATGGAAAGGAATGACGTTATACATATATTAAATGGTTGTGAACTCTATGCAGAAATTGGAATAAGTGTC CTTGTTGAAAGAAGTCTTGTAACTGTTGATGATAAGAACAAGCTTGGAATGCATGACTTGCTGCGAGACATGGGGAGAGA AATCATTCGTGAGAAATCACCAAAGGAACCTGGGGATCGTAGCAGGTTATGGTTTGATGAGGACGTGCTTGGTGTATTAT CGGAACAAACTGGAACAAACGCTATTGAAGGACTGGCTTTGAAGTTGCCATCTAATAATACAAAATGTTTCAGCACTAAA TCGTTTGAGAAGATGAAGAGACTCAGATTGCTTCAATTTTCGGGTGTACAACTTCAAGGAGATTTTAAATATCTGTCAAG AAATTTAAGATGGTTGTGTTGGCACGGATTTCCTTTATCATTCATACCTAAACACTTATATCAAGGAAGTTTGGTTTCCA TTGAGTTAGTAAACAGCGACGTCAAACTTGTGTGGAAAGAGGCCCAGATGATGGAGAAGCTGAAAATTCTGAATCTTAGT CATTCACAGCATTTGACACATACCCCAGACTTTTCAAATCTGCCTAATCTTGAGAAGCTTGTACTTAGAGATTGTCCAAG CCTGTCTGAGGTTTCCCCTAGCATTGGACATCTCAATAAAGTTGTTCTAATAAATTTGAAAGACTGCATTCGCCTTCGTA ACCTTCCAAGAAGCATCTATAAGTTGAAATCTCTGAAAACCCTCATTCTTTCTGGATGTCTAATGATTGACAAGTTGGAA GAAGACGTCGAACAGATGGAATCTTTGACAACCCTGATTGCAGACAACACTGCAATAACAAGAGTTCCCTATTCATTAGT AAGGTCAAAAAGCATTGGTTATATATCTTTGTGCGGCCATGAAGGATTCTCACGTGATGTGTTTCCTTCTATAATTTGGT CTTGGATGTCGCCAGCAAATAATCTCCCATCTCTAGTTCAAACATCTGCAGGCATGTCATCTCTTGTTTCTTTAGATGTA TCAAATAGTAGTTCCCATGGACTATCATCTATTCCCATGGACCTTCCAAAGCTTCCAAGTCTGTGGATGGAGTGCGGCTC AGAGCTTGAGCGATCTCGAGACGCTGAAATAGTTTTGGATGCCTTATATGCCACAAATTCTTCTAAAGAATTGGAATTAA CTGGAACTACGTCAGAACTATCAAATGTGGACACTTCTGTGTTGACGGAATGCAACAGTCAAGTGCATGATTCTGGATCA AAAAGGGTCTTGAAATCTCTTCTAATTCAAATGGGAATGAATTGTCAAACCACCAGTATTCTGAAAGAGAGCATTTTACA GAATATGACAGTCAGAGGATCTGGTATTAGTTTGCTCCCTGGAGACAATTATCCAGATTGGTTGACCTTCAACTGTGAAG GTTCTTCTGTGATTTTTGAAGTCCCTCACGTGAATGGGCGTAGTTTGAAGACAATGATGTTTGTTGTCCATTCTTCTACC GCATATGACATAACGTCAGATGGCCTAAAAAATGTGTTGGTGATAAATTGTACAAAGAACACAATTCAGCTCTATAGGTG GAACACATTAGTCTCCTTTGAAGATGAAGAGTGGCAGAGAGTAGTATCAAATATTGAACCTGGTAACAAAGTGGAGGTGG TGGTTGTTTTTGAGAACGGATTCACTGTGAAGAAGACAGCAATTTATCTCATATATGATGAACCATTTGAAAAAGAGGCA GTTCACCACCATGAAAATGACACGAATGTTGGTGTTTCTGGGGATGATGAAAATAGATTTGATAAACTATTTTCTCTACT TCCTCCCATTGTTCGAGCCGTTCTGACTTCAAAACCTTTCTGGTTGATCGGTCTAGCTGTTATCTTGATTTGGTCTCGCT GCTTTTTTAATCAGCGACGAAGACGTAAACCCATTTTAAGAGGTGGGATGACGAAAATGAATCAATCTTTCTATGAAAGA TTGGTTGATGCATATTGGCAGGGCATTTATTCCAAGTACTTCAAATTTATAAAAGTCGTTGGACGAGTTTACAAAACAAG TCGAGAATAA
Protein sequence (LotjaGi3g1v0214600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MAAEDSNFDEYWWDYFFPPPPSPPPAPAVNDVLWDQFLTERPAGSNSPSESSNSDEWWDCSPFDLDPPSPSSSPPLPPPP PPPPPPPMGWEYFFPPFPTRIHDVFLSFRGEDTRASFTSHLYAALQNAGVNVFRDDDSLPRGDQITNSLIAAIEQSEISV IVFSPNYADSRWCMEELVKIMDCHRTIGQVVLPVFYGVDPSEVRRQTGEFGKKFHNLVNKLPMDPGGRWKRWREALCEAG GIAGFVVLNSRNESEAIEKVVENVTQLLDKTDLFIADNPVGVESRVQDIIQLLDNQPSNDVLLLGVWGMGGIGKTTIAKA IYNAIGRNFESRSFLANVREVWEQDAGQVHLQEQLLFDIFKKTTKIHSTESGKNILKDRLCSKRVLLVLDDVNKLDQLNA LCGSREWFGSGSRIIITTRDQHILRGNRVDQVYLMEEMDESESIELFSWHAFKNASPSEDFAEISINLVEYSGGLPLALE VLGSYLFDRGVTEWKSVLEKLKRIPNDLVQKKLKISYEGLNDTEKEIFLDIACFFIGMERNDVIHILNGCELYAEIGISV LVERSLVTVDDKNKLGMHDLLRDMGREIIREKSPKEPGDRSRLWFDEDVLGVLSEQTGTNAIEGLALKLPSNNTKCFSTK SFEKMKRLRLLQFSGVQLQGDFKYLSRNLRWLCWHGFPLSFIPKHLYQGSLVSIELVNSDVKLVWKEAQMMEKLKILNLS HSQHLTHTPDFSNLPNLEKLVLRDCPSLSEVSPSIGHLNKVVLINLKDCIRLRNLPRSIYKLKSLKTLILSGCLMIDKLE EDVEQMESLTTLIADNTAITRVPYSLVRSKSIGYISLCGHEGFSRDVFPSIIWSWMSPANNLPSLVQTSAGMSSLVSLDV SNSSSHGLSSIPMDLPKLPSLWMECGSELERSRDAEIVLDALYATNSSKELELTGTTSELSNVDTSVLTECNSQVHDSGS KRVLKSLLIQMGMNCQTTSILKESILQNMTVRGSGISLLPGDNYPDWLTFNCEGSSVIFEVPHVNGRSLKTMMFVVHSST AYDITSDGLKNVLVINCTKNTIQLYRWNTLVSFEDEEWQRVVSNIEPGNKVEVVVVFENGFTVKKTAIYLIYDEPFEKEA VHHHENDTNVGVSGDDENRFDKLFSLLPPIVRAVLTSKPFWLIGLAVILIWSRCFFNQRRRRKPILRGGMTKMNQSFYER LVDAYWQGIYSKYFKFIKVVGRVYKTSRE
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 | 1158 | 1158 | - | – | |
MobiDBLite | 26 | 84 | 59 | - | – | |
MobiDBLite | 40 | 58 | 19 | - | – | |
MobiDBLite | 67 | 84 | 18 | - | – | |
SUPERFAMILY | 77 | 93 | 17 | 9.68E-6 | – | |
PANTHER | 99 | 1141 | 1043 | 0.0 | – | |
SUPERFAMILY | 99 | 245 | 147 | 1.44E-41 | ||
PANTHER | 99 | 1141 | 1043 | 0.0 | – | |
Gene3D | 99 | 274 | 176 | 1.5E-66 | ||
ProSiteProfiles | 100 | 242 | 143 | 28.704 | ||
SMART | 101 | 242 | 142 | 5.5E-45 | ||
Pfam | 102 | 267 | 166 | 2.5E-43 | ||
SUPERFAMILY | 268 | 531 | 264 | 4.47E-67 | ||
Gene3D | 275 | 432 | 158 | 9.0E-30 | – | |
CDD | 280 | 420 | 141 | 1.62092E-4 | – | |
Pfam | 283 | 518 | 236 | 1.0E-31 | ||
SMART | 300 | 439 | 140 | 0.0023 | ||
PRINTS | 303 | 318 | 16 | 2.6E-23 | – | |
PRINTS | 379 | 393 | 15 | 2.6E-23 | – | |
Gene3D | 437 | 521 | 85 | 2.3E-5 | – | |
PRINTS | 472 | 486 | 15 | 2.6E-23 | – | |
SUPERFAMILY | 509 | 613 | 105 | 4.62E-14 | ||
SUPERFAMILY | 592 | 906 | 315 | 2.72E-29 | – | |
Gene3D | 614 | 994 | 381 | 5.2E-29 | ||
PRINTS | 709 | 725 | 17 | 2.6E-23 | – | |
TMHMM | 1150 | 1172 | 23 | - | – | |
Phobius | 1159 | 1176 | 18 | - | – | |
Phobius | 1177 | 1229 | 53 | - | – |
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 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). | ||
Biological process | Signal transduction | The cellular process in which a signal is conveyed to trigger a change in the activity or state of a cell. Signal transduction begins with reception of a signal (e.g. a ligand binding to a receptor or receptor activation by a stimulus such as light), or for signal transduction in the absence of ligand, signal-withdrawal or the activity of a constitutively active receptor. Signal transduction ends with regulation of a downstream cellular process, e.g. regulation of transcription or regulation of a metabolic process. Signal transduction covers signaling from receptors located on the surface of the cell and signaling via molecules located within the cell. For signaling between cells, signal transduction is restricted to events at and within the receiving cell. | ||
Molecular function | ADP binding | Interacting selectively and non-covalently with ADP, adenosine 5'-diphosphate. |
Expression pattern of LotjaGi3g1v0214600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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