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| Field | Value |
|---|---|
| Gene ID | LotjaGi3g1v0172200 |
| Transcript ID | LotjaGi3g1v0172200.1 |
| Related isoforms 2 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | AP-2 complex subunit alpha; TAIR: AT5G22770.1 alpha-adaptin; Swiss-Prot: sp|Q8LPL6|AP2A1_ARATH AP-2 complex subunit alpha-1; TrEMBL-Plants: tr|A0A151RV94|A0A151RV94_CAJCA AP-2 complex subunit alpha; Found in the gene: LotjaGi3g1v0172200 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:23691479..23711881) extracted from Lotus japonicus Gifu genome v1.2.
ATTAAAGACAAGTATTTGGTTGGAAGAAAAAGAAGAAGTAAAAAACAGAAAAATGGAATTGGTAAATGGTAAATAAAGGT GGTTCCAAATTCCATTTCATTCCAGCAGTGTGCGAGCGAGGGCTGTTTTTTTAATTTTCGTCAGTCCACCCTCTCTCTTC TCTCTCTCTCTCTCCTCCACCACCCGCGAACTCTTTCTTTCTCGCTCTAGACGACAGATCAACCGTAACAGAACCCACAA TCCTCCCTCCTCCTCCTCCGTTCTCCTCCATCTCCGTTCGCCGTATCGGAGCTCAAGATCGGCGACCCTCAATTTCGATG CTGCTGGATCCGCCGCATCCGTAATCCAATCGAGTTTAGGGATCTAAGAATCGAAGAGAAGAGAAGAGAAGAACGATCTA GAAGCTTAAACCACCGGCGATGGCGATGTCAGGGATGCGAGGACTCTCCGTGTTCATCAGCGACATCCGCAATTGCCAGA ACAAAGACCAGGAAAGGCTTCGCGTTGACAAGGAGCTCGGCAACATTCGTACACGCTTCAAGAACGAAAAGGTTCGCTTA GGGTTTTTCCTCCTTTTTCCTTTTAGCTTTTTCACTTCAATTGCCACTGCTGCACCGTTTCTTAGTGATTGTAGTGCATT GAATTTTGATGTTATTTTCACTTTGAGATTGTTGAAACCTAGAAAATGAAATGGCGGAACGAGTTGATTGGTAGAGTTAG GTTAGATGTTGTGCATTTTTTGAATTTGGGACGATATCGTAACGAATAGGACTTGAAGTGTTTTTGGAAGTAGCCAAGAT TCCAGAGGCCTGTAGAGTGTACTGGACATTATGTTATGTGCTTTCTCGGTTAATTACTATATCTAGTTATTCACTCCCTT GTGTATCATTGGCTGCATAGTTGAAGTTAACATAGAATGGCTCGATAGCATAGCACACGTGTAGATATTAGTATACATGT TGTCATGTTTTAACCGTATTAGAAGAATGCGAAGGTCGCGAATGGTAACATGGGGGGAAGTAATGTGCGGGGATGTAGCT GTTATAGGATGGAAATCAAGGGTCAGAATTGCTTTGTGAGATTTGTTAAAAACTTTTCAGGGTCATATATGATTTCCGTA ATAGGAGGCCAATATTTCTTAGTTTCAATAGATTCAGTACTCAGTAGACATTGTAAGAAGCATAGTTTCTTTCAGGGATA AATTCTAGTGACTATACTGTTACTTTGTTAAAGAATGTATCGGAAACTATACAATGATGCATTAAATTTTTTTCCTCAAT AAGATATGGTTCTTGGAGCTGGAGGAATTGACTTAAGATATAAAATTCTTTCTTCCGTCAGTTTTTGAGGTCACGTCACA AAATTATTCATTTTCTAATCTCTGTAGATACTTCAATATTTCTGTGTCAAATTTAGTTATATATGACCGGAAGATGGCCT TTTCTTGCTCTGTACTCGAGAAGTTCACGAGTACCAAATAATAAAGTGGAGGAGACCAAATTCATTCCCACAAGGACCGC ACCTAATTACCAGCTACTCTAACCCTTAATTTATATGGAAGAAATTGAAATTCTAAGAAAATATTGAACACTAGAAAGCC TGAAGGAAAATGCATTGAACATTACAAGAACAAGTTAGGAAGTAAGAGTGCAGTATTGAAGACCGTAGGATCCAATTTCA CTTGGTTTTTCTAACTGGTATTTACAATGCTGACTTGGTGAAAATCTAATCAACCCATTGATAGGGAGATTCCTTGTGTA ACTACTACTCAATTCTCTGGTGTATCATTCTCTTTAATTACTTAAACCTAATTAATTCCTTAGCTTGAACTCTAAGATTA AAGACATTAAATATTTAGACTCTCGAAATAAATCCCTTACAAACACTAATTACTATTATTAGAAAATCAATGAATATAAT ATTCATCACATGGTTAAGTCATGTATAAAATTTCCAATTTTCTACACAACTCTCAAATTAAATTTATGAATGGTCAATTC ATAAAAGTGCTAAGAACATGTATACACGCTCAATGGTCAATAGAAATCCAAATACATCATCATTCAAACCAAGCTACATC TTCACCCTAGTAGGATAAAAATTCATAAAAAATAACAGAAGAAGAAAATAAGACTATTAACATTACAACTTTTGTGTACG CGTCTTCTCCCTGGAACTCTCTAGCTGTCTTCTTTCACAAGCTCAGAAGAAGAAAATAAGACTATTAACAAGCTCCTTTC ATGATGGCTGCCCATCTGATAGCTCTCGAACAATCTCAAAAAATCTCCCCTTCTCATATATAAATTAGGTCTTGAAGTCA TATACTCGTGTTTCATGATTTATTTGTTCTTAACCTCCTTCTAGACCTGTAAGACCTTTATTTATTTTTGGTAAAAATAG GGTTTTATTTGATTCTCTTTATGAACTTAAAGATTTGGGCAACACTTTGAGCTTGATCAAATCTCCTCTTTTCAAAATAT CTCTCCATTATTTGTCCAAAGTATTCTAGAATAAACCGAAAAACTCAAATCAAACATAAACATGATAAGGGAGACTAATT TGTGCAAATCCTGAGAAGGTCAACTGTGATGAAATAAAATAAATTGAAAATTCTAATTATAGAACCCAAAGATTTGTGCG ATGTTGCAGTGCGGCCTTTTATGTTTCATGCAATTCAAGAACTAATTGATATTTATTTCTCCTCTTTATTTTAACGCATA ATATGCTATTTAAAATATCAATAAATGTTTACTTTTAGATTATATACCTATGAATGTCCAAATTATCTAACACTTTATGT ATATGATCTTCAATAATATGACATGATTCAGCAGTTGCATTGGTTAATTTCGCATTGTAAAAAAAGTTATGAAGGGTCTA ATCTAATATACCAAGACCTATAGCTAGTGTCAACGGATTCTGACTCGCCATACTACAATTTCTTTTGCTGACAAGTAAAA TAAAATATTGAGTATTTATTATAAACTGTACCCTGATGATAGAAACTGAAATCGGCATTTTCCCCTCTATATCTTTTTTA ATCTACCCTTTCTTCAAATTCATTCAAATTTCTCATTGATAAATGTTTCCCTTGTATTTTTTTGTTGGCTTTCTCCTTCT TGGGGTGATGGAGATTATGAGGTTTGGAAAGTCTTAAAGGAGACTTTTGAGCTTTAACTAACAACTTTTAAAAGTTATTT TATCTCCTTTTAATAAAAAATGGATTCTCTATTGTCATCTACCCACTATTTCAAAAGCTAGCTTGAGCACAAGAGTCATT TGTGTTCGTATCATGGACAATGCACAAATTCACCCACCTTCTGTAGAAATTTGACTTTTCTTATTAGCAAAGGGGACATA AGAATTGAATTCTAAATCACTTGGCCATCAAAACTCTAATACAATTATCTCCAGTCACTTGACCTAACTATCTTAAAAGC TTAAGTTGTTAGTTGACAACACATGGATGGGTTTTGTATATATCTTTGACATTTACCTTCTTTTTGCGCCGCAAATAAAA ATATCTACTCATCTATTACCCAGCTTCCACTGTTGCTTGCTGTTCATCAAAGAAACTTGAATGTCTTAATAATATCTGAA TTTGATTTTTACCTATTGGTTCTTTCTTTAGGCTCTGACTCCATATGAGAAAAAGAAATATGTTTGGAAAATGCTTTACA TATACATGCTTGGCTATGACGTGGATTTTGGTCACATGGAAGCTGTTTCGCTTATATCTGCCCCAAAGTATCCAGAAAAG CAGGTTTATTATTTTACTTTAATGTGTCGCTTTATATATATATGTATGCATGTGTTTGCGTGGGTGTAACTGTGTATAAC TCTTGTGAATTGTCATTCAGTTCATTTACATGCTTACCTTGCAGAAAAAACATATGGACTGAACAGAAGGAATTTTCTAA TTTTCCCATAAATGACTGCAGGTTGGGTACATTGTAACATCAAGTTTGCTTAATGAAAATCATGACTTCCTCAGGTTGGC TATAAATACTGTGCGCAATGATATTATTGGTCGCAATGAAACCTTCCAATGCCTAGCTTTGACTATGGTACGGTAATGGA AAAAACTGCCGACTTTCTTAGGCTTGTTCGTTATATTTATCATTTAACAATTATCTATGTTACTGAGTTTGTCATAATCT CTTAATGCACTACGTGGAAAAAGTTTTGCTGTGTGTGGACGACTTCCTCGTTTTTTATTTTATTTTTTATATTTTACCAT CCTCTGCTGATGTGTGTACCACGAAAAAGCTTTTACACAGTAATCCTTTTTAATATATAATTTACAAACTAACAAATATC CACCCTGGATGATTCTGTAATGTTTTTTTTTCCATTATGGTTCCAAAATATGTGAGTTAAAGATCTCATTATTTTACAAG ATTTTGCAATCAATACATCTAGTAAACTATGGAAGTTGATAAGACTTGTGACTCTGTTGTTTTCCTCTGACAATGAATCT TTGCTGCTGGAAAATTGTTCAAAAAGCACATGCAAATGCCTGATTCAATCAGATTTAATATATACATGTTTTAAATTATT TATGGTTAACTTCCCATCCTTTCTTTTGCTGATTTGATTCTCAGTTACACTCAAAAAGTAGTTAGACCAGATAGTTGGGG GTTGTAAAACTTCCAATATCTTTTGGCGAGAGGCGCTACAGACTTCTCTAAAGAAAGGTGCTAATAGTAGAAAAAATGTG ATAACAGTAAAATACTTGATTCTTTCACAATTTACCTTAATTTCCCAAGTAAACTAATTGAGCTGCACAAAACAAACATA GTAAAGTAAAATGTTAGAATGTCCAATCTGCTAAATCCTTAGCTGCTTGCTGTTAAAAGTCTTGAAGATCAATAATACAA TGCAAAGGGTAGTAATTTTAGCGTCACAATCAGCATGTTTGATGGCTGTGATTTTAGATTTCTTTTACAGTTATCAGAGG CCAGTCGGGCAGTGGCTTACCTAAACCAGAAACAGTTGCCTATGCAGCTAGAGTTGTGTGCCTTAACCAGCAAGAGCCAC TAACCCCTTTTGTTCCCTTGCCTCAACCAGCAAGAGTAGAATTTTCGCTAACAATATATTTTCCTAGTTTATCTTCTGGC CTTGCTATATAAGCTGGAATATTCATTTTAGTATAAATCGGATTCATTTGATTCCTTTCTTTATACTGATACTTTATTAT GATATGTACTGTACATTTATATCTCTATCAGCTTTTCAACTTTTGAGTCGCTGCCACCATATCTTCTATTTTGTAGGTTG GAAATATTGGCGGTAGAGAATTTGCGGAGTCCTTAGCACCTGATGTACAGAAGTTGCTGGTAAGAAATTTTGCATTAATA TTAAATAGGCGTGATTGGAAAATATTGATCTCAACTTCTTTTTGTGATCTAGTTATCTAGCAGCTGCAGACCACTTGTAA GAAAAAAAGCCGCGTTGTGTTTGCTCCGCTTGTACAGGAAAAATCCTGATGTTGTCAATGTAGATGGATGGTAAATGTGA ATGTAACTTTTCTGGTTATATACTCTTTCTTTATTGCTTTTCTTCAAATGTATCTTATTACTCCTCTTTTGCCTTAATTT TAAGGGCGGATCGGATGGCACAACTTTTGGATGAACGAGATCTTGGTGTTTTGACATCTTCTATGAGTCTCCTTGTTGCT TTAGTATCAAACCAACACGAGGGTTATTGGAGTTGTCTTCCTAAGTGTGTTAAAACTTTAGAACGTCTTGCTAGGAACCA GGATATTCCCCAAGAATACACTTACTATGGTATCCCATCTCCCTGGCTTCAGGTTTGTAAATTTTTACTTATCATAAAGA ACATTTGTGTTGGCTTTGGTTTTATGAAGATTTTCAAATGCTATTCTTACGTCTTGCTTAAATTAAGAACCAAGAGTTGC GAACTAAATGTGATCTTATCCAGCAAGTTAACCTTAATTAATGCTCAATGTAGGTCAAAACGATGAGGGCTCTTCAATAT TTTCCTACCATTGAAGATCCGAATACCAGAAGATCGTTGTTTGAGGTTTGTAATATCTTAATAATGGCACGTCCATAAGT TAACAAATTGTAGTGAGTCTTGATTGATTATTTCAGGTCTTACAAAGGATCCTGATGGGAACTGATGTTGTGAAAAATGT GAACAAAAATAATGCATCCCATGCCGTTCTTTTTGAAGCCCTTGCTCTGGTATGTTCATTGTAAACAAATACAGTTGTTC ATTCTTTACAATCTCGTTATAGATAAAACTGTACGTGTAAAAGCATTTTTATTGTGATGTTGGTTAAACTACCTAAAACC CTAGCAGGGGAGTCTCCAACTTTTTATTTTGGTATTCTAGCATTTTTTTGTCTTCTTGGTTCTATTTCTATATGATATAT TAAATTATGTTTAATGATTCATATTAATGATTTATTTCAAAAGATTTACATTTTCATACTTCTGGGCTTTAATAGATGCA GTTATGAACATATTCGTGTATTTGGTAGATTCTTCATGATGTGCACTGTTAATTTGGTGGGCTTTATGTTTTTCCCTTTC CCTAAAATGTTCATGGTATGTTTTAGTTATATGTTATTCTAATTGCTCTATTCAGGTGATGCATCTTGATGCTGAAAAAG AGATGATGTCTCAATGTGTGGCTCTTCTTGGGAAATTTATTGCTGTCCGCGAACCAAATATTCGTTATCTTGGCCTGGTA AGTTTTGGGGGGTGGGGGGCACACTTGATTTATCCATAGTTTTGTTTTCCAGTTCTCTTCCTTCTTTTTCATTTTTCTGT TTCGATAGAGGGTCGTGTAACCAATATTCCATGGTAGATTTCATTGCATCGTGTAGTTTAGAAGGCTTGGTGTTTGTTGT TGTCATAATGCAATCCCCAGTAACTCACATGCTTTTGTGGTGCAGGAGAATATGACTCGAATGTTGATGGTTACAGATGT GCAAGATATTATTAAAAGACATCAAGCTCAGATTATTACTTCATTGAAGGATCCTGACATCAGGTTACATTTATTAGCCT ATATTTTGATTTCATTGATCATGTATATATTTTCATGGAACTACGTGCTGAACCCAGCCTGCACAAATTCTGTCGGTAAC ATAATTATACATGTATGTATAATCTCGTTATAATTATGAATGATAAGATGTCCATTTATGGAAGTTGTTAACTCATGCTT TTAATTTTTACTTAACAGTTAACAACCAAATATCATCTGTCTGATTATATGAAAGGCTCTATGTTAATCAGTTGCCATCC AAACAAGAATTGCTATCTAAACAGGTGTATGAAATGTCATGTTTAGGTTGATCACACATTGCATTTGATTATTTTCTATC TTTTGCAAATTAATGAATGACTTTTAATGTTTTGTTGATTGGTTGGTAATTAACACGTTTGTACACCTGTTTTCTTGTGA ATTGCCATCAGGACCTGCTAAACATGTTCAAACTAAATTGTAAAAATAAGGAATGGTTTTTGCATTTAATTTCTTAACTG CAGGATTCTTTTAGTTAGGTCTTACGTACACTAATAACTGATACCTTGTTGTGTCCATCATTACTGGTGAATATTTATTC AGAAATATTAATCTAGTAGCACATATGCTAATTATCTGACTTGGGGTCTACATAATGTTGATTTGCTCTCAGCACAAACT CACTTGCTCCTTGGTAAACAATTCAAGCTGACTTATGAGCAAAGATGAAAAGCGATGTGGATTTTCTTTGGAGCATCTTT GTTTTTATTACATTCTCTTGTGTTGTTAATAAGTAGATTTTAAATCCTGTGATTTATTTTTCTTCAAATATTTAATTTAG AAGAGAAAATTGATTCTATTTACCAAACTAGCTTTTAGAAGTGCTTGAAGATGCAAATATGATACACAGATAATTTCTTT GTTCTCAATTTTTATTAAATCTAGTATTTCTGACTGCATTGATAAATATATGCAGTATTCGGAGGCGTGCTCTAGATTTG CTTTATGGCATGTGTGACGTTTCAAATGCAAAGGATATAGTTGAAGAACTACTGCAGGTATAGAGCTAGATCCAGACTAA TTCATGCTTTTCAGATATCTCACTGTAAACCCTTTTGCTTCGCCAACCTCAGAACGAAAACCAAAAGAAAATAAAATGAA CCACTGTTACATGTCAACCACAAAATAATTAGTTTGTGTCTTGCAATTCCAACTGTTTTGTAGTATCTCAGCACAGCAGA GTTTGCAATGCGCGAGGAATTGTCACTTAAAGCAGCTATTCTAGCCGAGAAGTTTGCACCTGATCTTTCATGGTAATGCC ATAAAGCCTACCTGAAAAATACACAAATGAATTGCTACTTCAGGATTAGTTGTAGCCTTTTCTGTGTCATGTTGTAACAA AATGCCAGAGCTTTTAAGGACAATTTCTTGCTTTCCCCTTTCTATTTGACAGGGCATTCTTTTCTAATTCCTTATGGTGC CTAGCGAATGGTTGCTTTTGAGGGTGGTTTCATTACCATATATGCGATGGGTTTTTTTTATTTCCAAAATGAAAATTCAG CATGATTGAAGAGATTTGTTTATTTAGTTAATTTTGGTTTTGACGTGTTTTGGGTTTTCTTTTGCCGGGGGGGGGGGTAA TTCAAATTTTGCACCTTCCTCCCCTGTCAGAAAAATTCTTGGAAAAAAAGAGGCATGATAAGTTGATAACCGTAAAATTC AAAATGACAGCTGACCCATGTAATGTCAAAATCAGGATTTTCTATGATAGAAATGTATGATCAATTTAGAATTTCGTGGG GATTAGTTTGCATCCTTTTTTGAAGTTGTAAAATGAAAAATCATCAATTTCTGGACATTTTTGTGTAACTTTAAGTGATT GCTGAATTTATTTATGTGAATCTCAGTATTCGTAGAATAGACCTATATTTAAGCACAAAAAGATTGCCAAGCCTTCATGA GCAGAACTTTTGTTAATGTTACTATGCCATTCCTTTTTTTACAGGTATGTTGACGTTATTCTTCAATTAATTGACAAGGC CGGAGATTTCGTTAGCGATGACATCTGGTTTCGGGTGGTGCAGTTTGTTACAAACAATGAAGACCTACAGGTGAGTTTAA AACTTGAAGTGACTTTGTTACTGCTTCCTAGTTGACACATCATTGACATGGTTTGTTATGTCTTTGATTAGCCTTATGCT GCAGTAAAAGCTCGAGAGTATCTTGACAAACCTGCCATACATGAGACAATGGTTAAGGTTAGTGTGTTTTCACTGCCATT CTGTAATAGTATGAATATTGTTAGTGTATGTATAATATTTATATGTTGTGTGTGCCACCCGCTGATGGTTTCTAAACTGT AGAATATGTATGAAATATTTATCCATAACGGTGAGATCTTTGTTAGAAGGGTTCACTTAAGTTGAACTTTGGTATTCTCT TATGACGTATGAAGAATGTCAATAAGCATTTCTCTCTGTTCATGCATGGATTTTTCTGTATTGATTTATTCAGTTACTAA ATAATTTATTACACTGAAATAATAAGCGGTCTGATTTTAGTCGTGTATTTGTATAATATAATATCTATTTCACGTCTCTA AATACTCTTCAACAGGTCAGCGCATATATTCTTGGGGAGTTTGGACACCTTCTAGTGAGACGACCTGGATGCAGTCCAAA GGAAATATTTAACATTATACATGAGAAGCTTCCTACTGTATCGTAAGCAGAATCTCTCTCTCTCTCTCAGTTTGGATCTG TGTAGCTTGGATACCTTATAAGACATGCTTCACTTTCAGAACTTCTTCTATTCCTATTCTTCTGTCAACATATGCAAAGA TTCTGATGCACAGTCAACCACCAGACCCTGAATTACAGAATCAGATTTGGACAATATTTAAAAAGTGAGATTTACGTTCG CAATGTACGATTTTTTCATTATGTATTGTTCTGTGCTTTTTCATGATGCATTTTTTAACTCATTTTCTCATCTTTCTAGA TATGAAAGTTCCATTGAAGTTGAAATACAGCAACGAGCTGTTGAATATTTTGCTTTGAGTAGAAAAGGTGCAGCCCTAGT GGATATATTGGCTGAGATGCCTAAATTCCCTGAACGACAGGTACAATATTTGATTTGAGGCAATTTGTTTGCAGTTTCTA TAAATTATGATCACTTTGAGTAACCAATGGTATAACATGGATTAATTTAATACTCTTCTTCAAATTCAGTCTTCATTGAT TAAAAAGGCCGAAGATACTGAAGTTGATACTGCAGAACAAAGTGCCATAAAGTTGCGAGCTCAACAGCAATCTCAAACAT CAAATGCTTTGGTTGTAACTGACCAAAGTCATGCTAATGGAGCTCCGCCAGTCAGCCAACTTGGTCTAGTAAAAATGCCC AGTACGAGTAGTAATGTGGTTAGTATCTCCCTCCACTTTTAGTTTTTACTATATTTTAGTCAACGCTCCAGCGTAAAACT GTCAAATCTACTTAACATGGAATGATTTGACATTTTGGTTAACATTTTACTGTATTATTGATCACAGTGTCATCCTTTTT TACCACAAGGTCGTTCCTCCTGTTGCTTCTTAATTTGATACTGACTTTGTTTCGAAACAGGATGATATTTCAGCAGATCA AAGATTATCCCAGGAAAATGGGACATTGAATAATGTAGATTCTCAGTCTCCCTCACCAGATCTCCTTGGTGATCTCTTGG CTATCGAAGGCCCTCCCAGTGGCAGTCTCCACCCTCAGCCGAGCTCAAGTTCAGGATTGGAAGGAACTGCAGTTGAAGCC ACAGCCATAGTGCCTGCGGGAGAGCAGGCCAATTCTGTGCAGGTACTGGTGTTGATTTATAGTGCCTAAATAAATAGTAA ATGCTGCATCATAGTTAAATTTGAAGATTATTAGTATTATATTTTTTTAGATCCGATATTCTCTTTTACACATAATTAGG GTTCATGACGAGTCACATTATTACACTAAAACTGTCATTAGTCTTAACTGGAATGAACACTAATTTATGATAGACACTGT TAAAATTAGAGAAGCAATGAGAGAGAGAAGAGAGAAATAGAAATATAGCAGAAAATGTATTATTGATAATCTGAGTGATT ACAGAAGATGTGATATCCTTATATAGAAGAACAGGAGAATGCCAACAGCTGTAACATACAGCTGACATAAATAGGAGAAT ACCAACAGCTGACATAAATAGGAGAATACAAACAGCTGCATATGTCAGCTGTCATAACTACTCAAAAGATGATGCAGCAG CATAGTAAATACAAACTCAATGTACTCTAACATACCCCCTCAAACTCAAGGTGGTTTGACAAATGAAAATTTGTCAACCA CATTGAGTTTGTCCTTAAGCTCATGAAACCTTTCTGAAGAGAGGGCTTTAGTAAAGATATCCGCTTTCTGCAGAAGAGAA GGAACATGCTGAACAATAAGAGTCTTATTGAGAACCTTCTCTCTCACAAAGAAAAGATCCATTTCCATATGCTTAGTTCT AGTGTGAAGGACCGGATTAAGAGTCAAGGCTACGGTGCTCAGGTTATCACAGAAAATTGTTGGTGTTTGGAAGGGAATAT GCAGCTCAGTCAACAAGGATTGAATCCAAAGAATCTCAGCTGCTATGTTGGCCAGACTCCTATATTCCGCTTCTGTGCTT GAGCGAGCAACCAAAGTTTGCTTCTTAGCTGACCAAGACACTAAATTGGGGCCAAAGAACACACATGAGCCAGAAGTTGA CCGTCTATCATCCGGGTCAGAACCCCAATCTGCATCACAGTAGGCATGAAGTGCTACTGGACGATCAAGAGAGAAAGGCT TAAAAAGCAACCCATGATGAATGGTACCCTTAAGAAACCGCAGAATTCTCTTAACTGCCTTCCAATGTTCATCATGAGGC TGAGACAGAAATTGACAGACTTTATTGACTGCAAAGCTGATATCCGGCCGGGTAATTGTAGCATATTGCAATGCTCCAAC TATGGATCTATAGAGAAAGGGATCATTCATGCAAGTACCTCCAAACTTTGACAGTTTGCTGCTACTAATCATAGGAGTGG GCAGAGCATTGGCTTCAGACATATTTGCTCTCTCAAGAAGATCTTCAATATATTTGGTCTGATTAAGTAGCAAAGAGCCA TCAGACAAGTGTGTAACCTGAACTCCAAGAAAATAATCAAGTTTTCCTAACTGTTTTAAAGCAAAAGAAGAATTCAGTTT GTCAACAAGATGTTGAATTAGGACTGAAGAACCTCCTGTGATAATAATATCGTCCACATATACTAGAACATATGTGCAGC AAGTTGGTGAAGACAAAGTGAACAAGGAGGGATCACACTTACTAGCCTTGAACCCTAATTGAACAAGAGTGGCAGTCAAC CTGTGAAACCAGGCTCGAGGAGCTTGTTTTAGGCCATACAAAGCTTTGTCAAGCTTACACACAAGGGACTTATCACCCTG TTCAAATCCAGGTGGCTGAACCATGTAAACCTCTTCTTCTAAGTTCCCATTGAGAAAGGCATTATTCACATCTAACTGTT GAAGAGGCCACCCTTTGGAAATAGCAAGAGATAGAATCAACCTCACAGTTATAGGTTTGACCACTGGAGAAAATGTTTCA GAATAGTCAAAGCCATGCACTTGATTGAACCCTCTAGCTACAAGTCGAGCCTTGTACTTATTCACTGTTCCATCTGGATT TTCTTTAATCCTGAAAATCCACTTACAACCAATAGGCTTTCTTCCAGCTGGAAGTGACATAAGAGTCCAGGTCTTATTAG TCATCAATGCCTCATACTCTTGCTGCATTGCACTAAACCACTTACTGCTCTTGAGAGCTTGTTTGACTGTAGTAGGCTCT ACTTCTGTCAACAAGACAGAAGGAAACAAGCGAGGCTTGACAATGCCATTCTTTGCTCTGGTGAGCATTGGATGAGCATT AACAGGGATGACAGCTTGAACATTATCAGGTGTAGCAGCTGATGCTGGAGGCTGCTCAGAAGAAGAAGGAGAGACATCCA CTGAACCAGAGGAGGAAGAATTAGAACCCTCAGAATGCACTGTCACAGCAGGAGAAACAGGTGCAGAGATAACTGGAGAT TGCTCAGACGAAGGAGAGACATCCACTGAGCCAGAGGGTGAAGAATCAGAACCCGCAGAATGCATTGTCATAGCAGGAGA AGCAGGCTCAGCAGCTGGAGAAGCATTAGAAATAATATTTGGAGCAGCAGCAAGAGGAATCAGCAAAGAAAATGATTCTG GAGAAGTTGTTTCTGTAGCAGAATCAGGAAACATTTCAACATAAGGGAACCTATGCTCATTAAACAACACATCTTTAGAG ACATAGACTCTGCCTTGAGCATCCAAGCACTTGTATCCTTTGTGTTGAGAAGAGTAGCCCAAAAATACACACTCTTGGGA CCTATATGCCAACTTGTTATTGGTATACGGGCGCAGAAAAGGATAACAAGCTGACCCAAATACCTTGAGGAACTTGTAAT CAGGTTGAGAACCATACAACTGAAAATAAGGACTTTGTCCTCCTAAAACAGAAGTAGGCATCCGATTGATAAGATAGGTA GCTGTAAGAAAAGCGTGATCCCAAAAGTGCAATGACATTTTGGCATAAGCAAGCAAAGCAAGTCCCGTTTCAACAATATG GCGATGTTTCCTCTCCACACTCCCATTTTGATGGTGTGTGTGAGGACAGGTCACACGATGAACTACCCCTAACTGAGTAA AATAGGGAATCAAGGATCGAAACTCTCCTCCTCCATCAGTTTGCACACTCTTAAGCTTACATTGAAACTGCAGTTCAACC AATGCTTTGAAGTTTTTAAAAGTCTGAAAGGTGTCAGACTTGTGTTTTAAGGGATAGATCCAAGTGTATCGTGTGCAAGC ATCAACACAAGTAAGAAAATATGAAAAACCAGCAAAGGATTCTATGGAAGCTGGTCCCCATAAATCAGCATAAACCAACT CAAAAGGCAGAGTATAAACAGTAGAAGAAGAAGAAGAGGGCAACCTATGTGCCTTTCCCATACAACAACCAACACACATG GCAAAAGAAGTTTTATTAGGCAAAGGAACATTACATAGTTGTAAAGTAGTTTTCAAGACCTCATGATGAGGATGACCTAG TCTACAATGCCACAAGTCATAGCTGGAATTACCTAAACTGGAAACAGAAGACATATTCTGTGATTTTCCAGTACCTGGAT ACACTGTAGATAAAACAGAAGGAGTACTAGTAGACAAATCAGATTTAGAACAACTAGAAGAGACACTAGCAGCGTTGACA TCATCAAAGGTGTATAAGCCATCAGAACCAACACTTCCACGAAGCAACACTTTAGATGTATCCTGTGATTTAACAAGACA GAAAGAAGCGTGAAACTCAAAATAAACATTGTTATCCTTGGCAAACCTACTAACACTGACAAGGTTTTTGGTGATAGAAG GAACTAGAAGCAGTTGACTAAGAGTGAGAACAGTGTGTGAATCATATGGTGAGGGAATGGTGCAAGAACCAATAGAGTGA ATTGGCAAACCTTGGCCATTGCCCATCAAAATCTGCTCAGTTCCAGTGAATGAAGAAGTGTCTGAAAAATTTCCAGCAGC ATTGGTAACATGGTGAGTGGCACCAGAATCGGGATACCACAAAGTAGGCTTGTCAGGACGCTGAGATGCGGAAGAAGAAG CATGGTGCAGAGGACCAGCAAGCATAGCATGAGCAGGAGAGCGAGGCTGAGAGCCAAGAAGGCCCGGATAAGATGGAGGT GAGGGCCGAGGTGAATTCCAAGAAGATGATACTGGACCAAAAACAGCTCCAGGTGCAGAATATTGAGAACCACCAGTAAA AGCAGGAAACTGAGAACCTGAAGGGTAAGCACCATTGTAAGGTCCTGCGGAAGAGCCAAAGTAATTCCACGGAGCAGGTC CAGAAGCATAAAAAGACGGTGAGGAAGAGCCAAAAGTGGCAGAACCAAGAGGCATAGGAGGAAAGGCTCCAAAAGGTGCA GGACTAGGCATATTAGTAAAGGTGCCATTCTGTACAGAACCACCTCCAACGGCGCGATGGTAGCAGACACTCGCATCATG TCCCCACTTCTGACAAATCTGACACTGCAAATTACGGCCGCGCCCACGGCCGCGTCCACCACCGCGTCCACCAGCAGGAT AGCCACCACGGCCATCGCCTGGTCCACGTGAATCATTCTGGTCATGATAGGTATCACGATTGTCACCAGAATCACGATAA TTTGGACGTTGTTGATCATTCCGATAGTCACGTCCACCACGAAATTCAGCAGCATAATTGGCCTGAGACGGCGTCAAATC CACAGAAGGTGGCGGCGTTCGGGAGATCTGAGGTGAAATCGGAGCAGGAACCGATGCGAACGCATGTGTATGCGCAAGCA ACGCAGAAGCAGTAGAATCGCTAAGGCTACGTTTCCGTGATCGTTCCAGGCGAGCATCATGAGTAATGATCATCGCTTCG ACCTCAGAAATCGTGCTCGAAGAAGCATGAGTGAAGATAATCGTGCTTAAAGCACTATAATCTTCAGGTAAACCATCAAA AATCGCTTCAAGGTGATCGCGAAAACTTACGGGTTCACCAATGGAAACCAGAGTGTTGACGATCGTCTTGATGCGTCGAA GATATTCAGTGATCGACTTCGAACCTTTGGTTATGTTCTTCAGCTCAGATCTGAGCTGAGCAGACTGTGCGCGACACTGA TTCTCAAAAAAGTCAAGGATCTCACGCCAAACCTGCGATGATCTCTCGCAGTTGATCACCGTTGGAAGAACAAACGGAGA TAGAGTCGTCAAGAGCCATGTAAACACCATGGAATCTTGCTTAATCCAAGTCGTATAAGCTGGATTCTCAGTCGCAGCTA CACGATCCTCTTCAGTCAGAAAACGTTGTGGAATTTCTGGATCAACCAGAAAATCATGAAGCTGATGCGATCGAATCGCA CCTTCAACTTGTTGACGCCAAGAATAGAAATTCGAATCATCAAGCTTGATTGTTGCAGTACGAGACAGAGACTCAAGAAC ATTGACAACGGAAGCAGGTGCAGCAGCCATGTATCAAGGACCGATTGAAGCTCTGATTACCATGTTAAAATTAGAGAAGC AATGAGAGAGAGAAGAGAGAAATAGAAATATAGCAGAAAATGTATTATTGATAATCTGAGTGATTACAGAAGATGTGATA TCCTTATATAGAAGAACAGGAGAATGCCAACAGCTGTAACATACAGCTGACATAAATAGGAGAATACCAACAGCTGACAT AAATAGGAGAATACAAACAGCTGCATATGTCAGCTGTCATAACTACTCAAAAGATGATGCAGCAGCATAGTAAATACAAA CTCAATGTACTCTAACAGACACGTAGCACATCACTTTTTTACTAGACTCCATTTCCATTCATCATTAGAAGAGTATTTCT ATGAAACAATTTGTGGGCATTGGGATACAACTTATTTCCTTTGTATGTGCAGCCAATTGGAAATATTGCTGAAAGATTTC ATGCTTTGAGCTTGAAGGATAGTGGTGTTCTATATGAAGATCCTTATATTCAGGTTTTTTTTTGTTCATATTTTTTCTAA TGCTCTCTAGTATTTGTGTGTTTTTGTTTTTGGTCATACATATTTGCAGGTTACTTACAAAGTCCTTTATGTTTGGTAAT TTAAGTTAAGCTCAAAGTTGTTTTCTTATATTTTATTTTTATGTATATATTTTCAGATTGGCATTAAAGCTGAATGGAGA GCTCATCAAGGGCATCTTGTTCTTTTCTTGGGGAACAAGAATACTTCTCCTCTTGTCTCAGTTCAAGCTTTAATATTGCC TCCTGCCCATTTGAAGATGGAGCTCTCTCTAGTACCAGAAACTATACCTCCCCGGGCACAGGTGAGAATCTGTTGTTACT GTTATGTTGTGCTTTCATATATTGTTAGTTTTATTTACATTTCCCCTCTTGATGGCATAGGTGCAATGTCCACTTGAAGT CATTAATCTCCACCCAAGCAGGGATGTCTCGGTTCTTGACTTCTCCTACAAGTTTGGTAACGAAATGGTACTTTCTTTAA ACTCGTTTTACATTCCTAATATGAATAAGGTTTAGTCTTCTAGGTTGAGAGAGAGGAAAGGGACTACAGACTACTCATAA CTCAAGAGGGTAAAATGAGAACTAAAATTATAATATTTCAAAAAGCGAGGAGCAAAATGAAGTTTTTAAAAATTAAGGAC TAAAGCCAAATATTGACAATTTTATAGTGGCTGAAAGTATAACTTTACCTTCATAGTAAAATTATATTGATACAATGTGA ATGATATGTCGGATGTTTATATAGAAGACAAAGCACACATAATCCTTATTTATACTGATACTGAACTTTTGGGTCCGGCT CCTCTGAAGTCATCCCACCATTGAGAGAGTAAAGTAAGTCACCACAACCATTGATTGAGTTTTTTTATTGACTTTCAAAG TTGGTAATCATTATTAATGGCTTTACCCTCTAAAGTGAGTGAGCCAAATCAAAATTTTAATCTTAATTAAATAAAGAAAC GAAATATGGTATATAAGGAAACATGGAAACCAATCTTAAGATATAATTTAAGTAACTTTAACATTTTATAATGTAGGATA ATGATGTCAGAATTTTTTAGGTATACTCCTTAGTTTGTTCATTTACTTCCAGAGCCAGTCAGAAAAAAATGCATTCTAAC CACCTTGTATATACATTTAGTTCATAAACACAAATGATTTTGAGATGTTCCTTTGAAGAAGTCAAGCATGGGATCCAAAG CCTTCAAGATGTTGATTTTTCTTAAAAATTGAATTGGGTAGTGGAACATGATTCACCAAAGGTGGGATATACCTCAATTT CTAATTATCAGAAAGTTTGTTCTTAAATAATAGAACAGATAATAATTGAAGAAAAAATAATTTATCATTATTGAAGAAAT TTAAATATTAGAAACAGATCATAAAGGAAGAGCATAAGTTTAGATTGTAAGTTTGGAAAAAATGGATCTTATATGTTAAG TTAAAAGGAATATTTGTTGCTATTTTTGACATTCGACAATGGTTAACGTTGAATTAATTTATTTTCATGTGTTGGTTTTC ATAGGTCAATGTCAAGCTTCGCATGCCAGCTGTCCTAAATAAATTTCTTCAGCCTATAACAATATCTGCTGAGGAGTTTT TCCCTCAATGGAGATCCCTGCCTGGACCACCTTTGAAGCTTCAAGAAGTGGTATGTAATCTGCTTTGTGTACATTGCGAA GTGCCGAAGTATGTATATTTACTAAGTTGGTTATGGTTTACCTTGAGAGTATGGTATTCACAGTGGCATATATATTTGTA TTGCTGGCTTGTTCTTCTGGTCATATGCACTGATAGTTTCATCTTTTCTGCTGGTTTTGCAGGTTAGAGGTGTCAGACCA CTTCCACTGCCCGAAATGGCAAACTTATTTAATAGTTATCATCTGACAGTGTGCCCAGGGCTTGTACGATATTTAAGTCC CTCTTTTTTACTTCCTTATTTTAGTCTATTTTGCCTGAAATTCTTCAATAACTACTAATTTTTATATAACTTGTTTCTTC CTGTCTGTGTTTTAGGACCCCAATCCAAACAATCTTGTTATTAGTACAACATTTTATTCAGAAAGTACAAGGGCAATGCT CTGTTTGGTAAGTATATATGTCGATCTTGCACTGCAGTCATGAATTCTAAATAACCTGATTATTCTGATATAGAGGAGGG GAAATTGAGGCAGCCTTTGTGGCCTGCTTTAAGATCATGATGATCAAACTATGTTACAGTGTCACTCTGTTTTGGGTTTT TTCATAAAGAACCTCCATATGTGCAGACAAGAGAGGATAGGTTGTAAATGTTTTTCCCCTCTTGGAGAAGCATATGGTTG CTTGTTGATCCTCCTTTTCAAACACCTGACGTAATTGTTTGATCATTTTATGTAAATGAATGTGCAGATAAGAATTGAAA CAGATCCAGCGGACAGAACCCAGCTGCGAATGACGGTTGCTTCAGGGGACCCAGCATTAACGTTTGAGTATGTGATTTAA TTTCCTGCTTACCCAGATGTCATCAATGCATTCTAGAGCTTTAACAAATCATTCTAATATTGGTTTGCAGGATGAAGGAG TTCGTCAAGGAACAACTAGTCATCATCCCCCCAACATCCCGTGTACCTGCAACACCAGCAGCTCCAACACCTCCAGTGGC TCAACTAGCTATTGCTCCCGCAACAACGAACGATCCTGGGGCCTTGCTTGCTGCTCTTCTATGACAATATAAAGATGTGA TCATTTGTCATTACACTCTTGTAACTTGATCTGCACAGCCTAACCCACCTATGTATCCCTCAAGCGTGGGGTGGATAAAC AAAATCATGATGCAAGGGCTGGCGGAGTTAACGGTGAGTGAGCTTATTTGCCAGCAGAGTGTTCGAGCAGGGTTTTCTGG GTTGGTGGGCATTTTTGAGATTCTTTCAGCACAAAAGGATTGTACTTTTAAGCGATATTTTATATCATTTGGGGTGAGGG TTTTCAGTTTTCTCATATTTTTCGCCTTCCCAGTTTCACTGGATTGTTTGCGGTGCACCTGATAGCATGATAGCATATGT AAGATATTGCCAACCAATTGTAACAGTTTGAAATTCTTATTCCGAAATTATAGTTGCAATAATAGCTTGTGGAGTATTTG CATTTTTATTATCGAATGCTTTTGGGGTTCCATGTCAAGATGATAACTATATTGTATGACTACTAAAGGTGTGGCTACTT GATTATTTAAAATGAGGCTGATTTCATCATGCCATAGTTAATTTATAGGAACATTTTAATGTGTGCCTGGAGCATAGAGG GATGCGAGAAATACATGCCAAAGTGTTTGAGGAACCACAAAGTTGGACTAGTTTTGAAGGGGTGAATATTAGGTGAGCCT TATCTAGTGAATCACATTTTTGGTCTCATTTCAAAGTGCATTGTAATCTCACGGCCTCTGATGTTATCCGTTTGGACTAT AGAATGGACTGATGTGACGCGTTTATAATTTTATACCACCTTAGCACACGGAATAAGAAAAAAAGGGAGTGATGAAACAT ATACCCTTTTTATTATTAGTATGTAGTCTCTTTCACATTTACGCTTACATGATTTACCAGGACGAGGCGATACACAATTT AAAGTCTAAAACAATAACTTCTTGGTATGTGGATGAGGCTTTGAAGGGTGAGGCTTTGAAACATATACCCAATAACTTGT TAGAAATGAGGATTTTACTTTCTTTGTTGATCATGTAGCCTCAAAGTTGGCTTCTTGGAAAACTAATTTGTACCATAAAC TGG
CDS sequence (LotjaGi3g1v0172200.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCGATGTCAGGGATGCGAGGACTCTCCGTGTTCATCAGCGACATCCGCAATTGCCAGAACAAAGACCAGGAAAGGCT TCGCGTTGACAAGGAGCTCGGCAACATTCGTACACGCTTCAAGAACGAAAAGGCTCTGACTCCATATGAGAAAAAGAAAT ATGTTTGGAAAATGCTTTACATATACATGCTTGGCTATGACGTGGATTTTGGTCACATGGAAGCTGTTTCGCTTATATCT GCCCCAAAGTATCCAGAAAAGCAGGTTGGGTACATTGTAACATCAAGTTTGCTTAATGAAAATCATGACTTCCTCAGGTT GGCTATAAATACTGTGCGCAATGATATTATTGGTCGCAATGAAACCTTCCAATGCCTAGCTTTGACTATGGTTGGAAATA TTGGCGGTAGAGAATTTGCGGAGTCCTTAGCACCTGATGTACAGAAGTTGCTGTTATCTAGCAGCTGCAGACCACTTGTA AGAAAAAAAGCCGCGTTGTGTTTGCTCCGCTTGTACAGGAAAAATCCTGATGTTGTCAATGTAGATGGATGGGCGGATCG GATGGCACAACTTTTGGATGAACGAGATCTTGGTGTTTTGACATCTTCTATGAGTCTCCTTGTTGCTTTAGTATCAAACC AACACGAGGGTTATTGGAGTTGTCTTCCTAAGTGTGTTAAAACTTTAGAACGTCTTGCTAGGAACCAGGATATTCCCCAA GAATACACTTACTATGGTATCCCATCTCCCTGGCTTCAGGTCAAAACGATGAGGGCTCTTCAATATTTTCCTACCATTGA AGATCCGAATACCAGAAGATCGTTGTTTGAGGTCTTACAAAGGATCCTGATGGGAACTGATGTTGTGAAAAATGTGAACA AAAATAATGCATCCCATGCCGTTCTTTTTGAAGCCCTTGCTCTGGTGATGCATCTTGATGCTGAAAAAGAGATGATGTCT CAATGTGTGGCTCTTCTTGGGAAATTTATTGCTGTCCGCGAACCAAATATTCGTTATCTTGGCCTGGAGAATATGACTCG AATGTTGATGGTTACAGATGTGCAAGATATTATTAAAAGACATCAAGCTCAGATTATTACTTCATTGAAGGATCCTGACA TCAGTATTCGGAGGCGTGCTCTAGATTTGCTTTATGGCATGTGTGACGTTTCAAATGCAAAGGATATAGTTGAAGAACTA CTGCAGTATCTCAGCACAGCAGAGTTTGCAATGCGCGAGGAATTGTCACTTAAAGCAGCTATTCTAGCCGAGAAGTTTGC ACCTGATCTTTCATGGTATGTTGACGTTATTCTTCAATTAATTGACAAGGCCGGAGATTTCGTTAGCGATGACATCTGGT TTCGGGTGGTGCAGTTTGTTACAAACAATGAAGACCTACAGCCTTATGCTGCAGTAAAAGCTCGAGAGTATCTTGACAAA CCTGCCATACATGAGACAATGGTTAAGGTCAGCGCATATATTCTTGGGGAGTTTGGACACCTTCTAGTGAGACGACCTGG ATGCAGTCCAAAGGAAATATTTAACATTATACATGAGAAGCTTCCTACTGTATCAACTTCTTCTATTCCTATTCTTCTGT CAACATATGCAAAGATTCTGATGCACAGTCAACCACCAGACCCTGAATTACAGAATCAGATTTGGACAATATTTAAAAAA TATGAAAGTTCCATTGAAGTTGAAATACAGCAACGAGCTGTTGAATATTTTGCTTTGAGTAGAAAAGGTGCAGCCCTAGT GGATATATTGGCTGAGATGCCTAAATTCCCTGAACGACAGTCTTCATTGATTAAAAAGGCCGAAGATACTGAAGTTGATA CTGCAGAACAAAGTGCCATAAAGTTGCGAGCTCAACAGCAATCTCAAACATCAAATGCTTTGGTTGTAACTGACCAAAGT CATGCTAATGGAGCTCCGCCAGTCAGCCAACTTGGTCTAGTAAAAATGCCCAGTACGAGTAGTAATGTGGATGATATTTC AGCAGATCAAAGATTATCCCAGGAAAATGGGACATTGAATAATGTAGATTCTCAGTCTCCCTCACCAGATCTCCTTGGTG ATCTCTTGGCTATCGAAGGCCCTCCCAGTGGCAGTCTCCACCCTCAGCCGAGCTCAAGTTCAGGATTGGAAGGAACTGCA GTTGAAGCCACAGCCATAGTGCCTGCGGGAGAGCAGGCCAATTCTGTGCAGCCAATTGGAAATATTGCTGAAAGATTTCA TGCTTTGAGCTTGAAGGATAGTGGTGTTCTATATGAAGATCCTTATATTCAGATTGGCATTAAAGCTGAATGGAGAGCTC ATCAAGGGCATCTTGTTCTTTTCTTGGGGAACAAGAATACTTCTCCTCTTGTCTCAGTTCAAGCTTTAATATTGCCTCCT GCCCATTTGAAGATGGAGCTCTCTCTAGTACCAGAAACTATACCTCCCCGGGCACAGGTGCAATGTCCACTTGAAGTCAT TAATCTCCACCCAAGCAGGGATGTCTCGGTTCTTGACTTCTCCTACAAGTTTGGTAACGAAATGGTCAATGTCAAGCTTC GCATGCCAGCTGTCCTAAATAAATTTCTTCAGCCTATAACAATATCTGCTGAGGAGTTTTTCCCTCAATGGAGATCCCTG CCTGGACCACCTTTGAAGCTTCAAGAAGTGGTTAGAGGTGTCAGACCACTTCCACTGCCCGAAATGGCAAACTTATTTAA TAGTTATCATCTGACAGTGTGCCCAGGGCTTGACCCCAATCCAAACAATCTTGTTATTAGTACAACATTTTATTCAGAAA GTACAAGGGCAATGCTCTGTTTGATAAGAATTGAAACAGATCCAGCGGACAGAACCCAGCTGCGAATGACGGTTGCTTCA GGGGACCCAGCATTAACGTTTGAGATGAAGGAGTTCGTCAAGGAACAACTAGTCATCATCCCCCCAACATCCCGTGTACC TGCAACACCAGCAGCTCCAACACCTCCAGTGGCTCAACTAGCTATTGCTCCCGCAACAACGAACGATCCTGGGGCCTTGC TTGCTGCTCTTCTATGA
Protein sequence (LotjaGi3g1v0172200.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MAMSGMRGLSVFISDIRNCQNKDQERLRVDKELGNIRTRFKNEKALTPYEKKKYVWKMLYIYMLGYDVDFGHMEAVSLIS APKYPEKQVGYIVTSSLLNENHDFLRLAINTVRNDIIGRNETFQCLALTMVGNIGGREFAESLAPDVQKLLLSSSCRPLV RKKAALCLLRLYRKNPDVVNVDGWADRMAQLLDERDLGVLTSSMSLLVALVSNQHEGYWSCLPKCVKTLERLARNQDIPQ EYTYYGIPSPWLQVKTMRALQYFPTIEDPNTRRSLFEVLQRILMGTDVVKNVNKNNASHAVLFEALALVMHLDAEKEMMS QCVALLGKFIAVREPNIRYLGLENMTRMLMVTDVQDIIKRHQAQIITSLKDPDISIRRRALDLLYGMCDVSNAKDIVEEL LQYLSTAEFAMREELSLKAAILAEKFAPDLSWYVDVILQLIDKAGDFVSDDIWFRVVQFVTNNEDLQPYAAVKAREYLDK PAIHETMVKVSAYILGEFGHLLVRRPGCSPKEIFNIIHEKLPTVSTSSIPILLSTYAKILMHSQPPDPELQNQIWTIFKK YESSIEVEIQQRAVEYFALSRKGAALVDILAEMPKFPERQSSLIKKAEDTEVDTAEQSAIKLRAQQQSQTSNALVVTDQS HANGAPPVSQLGLVKMPSTSSNVDDISADQRLSQENGTLNNVDSQSPSPDLLGDLLAIEGPPSGSLHPQPSSSSGLEGTA VEATAIVPAGEQANSVQPIGNIAERFHALSLKDSGVLYEDPYIQIGIKAEWRAHQGHLVLFLGNKNTSPLVSVQALILPP AHLKMELSLVPETIPPRAQVQCPLEVINLHPSRDVSVLDFSYKFGNEMVNVKLRMPAVLNKFLQPITISAEEFFPQWRSL PGPPLKLQEVVRGVRPLPLPEMANLFNSYHLTVCPGLDPNPNNLVISTTFYSESTRAMLCLIRIETDPADRTQLRMTVAS GDPALTFEMKEFVKEQLVIIPPTSRVPATPAAPTPPVAQLAIAPATTNDPGALLAALL
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 |
|---|---|---|---|---|---|---|
| PIRSF | 1 | 979 | 979 | 0.0 | ||
| Gene3D | 2 | 612 | 611 | 3.3E-215 | ||
| PANTHER | 3 | 992 | 990 | 0.0 | – | |
| PANTHER | 3 | 992 | 990 | 0.0 | – | |
| SUPERFAMILY | 5 | 581 | 577 | 1.03E-104 | ||
| Pfam | 28 | 581 | 554 | 4.6E-111 | ||
| MobiDBLite | 640 | 664 | 25 | - | – | |
| MobiDBLite | 676 | 718 | 43 | - | – | |
| Gene3D | 734 | 862 | 129 | 2.0E-33 | – | |
| SUPERFAMILY | 734 | 861 | 128 | 6.8E-30 | ||
| SMART | 747 | 856 | 110 | 6.1E-17 | ||
| Pfam | 754 | 850 | 97 | 5.7E-12 | ||
| Pfam | 862 | 969 | 108 | 2.0E-13 | ||
| SUPERFAMILY | 862 | 977 | 116 | 8.24E-30 | ||
| Gene3D | 863 | 977 | 115 | 7.9E-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 |
|---|---|---|---|---|
| Biological process | Intracellular protein transport | The directed movement of proteins in a cell, including the movement of proteins between specific compartments or structures within a cell, such as organelles of a eukaryotic cell. | ||
| Biological process | Protein transport | The directed movement of proteins into, out of or within a cell, or between cells, by means of some agent such as a transporter or pore. | ||
| Biological process | Vesicle-mediated transport | A cellular transport process in which transported substances are moved in membrane-bounded vesicles; transported substances are enclosed in the vesicle lumen or located in the vesicle membrane. The process begins with a step that directs a substance to the forming vesicle, and includes vesicle budding and coating. Vesicles are then targeted to, and fuse with, an acceptor membrane. | ||
| Cellular component | Membrane coat | Any of several different proteinaceous coats that can associate with membranes. Membrane coats include those formed by clathrin plus an adaptor complex, the COPI and COPII complexes, and possibly others. They are found associated with membranes on many vesicles as well as other membrane features such as pits and perhaps tubules. | ||
| Cellular component | AP-2 adaptor complex | A heterotetrameric AP-type membrane coat adaptor complex that consists of alpha, beta2, mu2 and sigma2 subunits, and links clathrin to the membrane surface of a vesicle, and the cargo receptors during receptor/clathrin mediated endocytosis. Vesicles with AP-2-containing coats are normally found primarily near the plasma membrane, on endocytic vesicles. In at least humans, the AP-2 complex can be heterogeneric due to the existence of multiple subunit isoforms encoded by different alpha genes (alphaA and alphaC). | ||
| Cellular component | Clathrin adaptor complex | A membrane coat adaptor complex that links clathrin to a membrane. | ||
| Molecular function | Clathrin adaptor activity | The binding activity of a molecule that brings together clathrin and one or more other molecules, permitting them to function in a coordinated way. | ||
| Biological process | Clathrin-dependent endocytosis | An endocytosis process that begins when material is taken up into clathrin-coated pits, which then pinch off to form clathrin-coated endocytic vesicles. |
Expression pattern of LotjaGi3g1v0172200.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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