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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0284200 |
Transcript ID | LotjaGi1g1v0284200.1 |
Lotus japonicus genome version | Gifu v1.2 |
Description | Histone-lysine N-methyltransferase; TAIR: AT5G53430.1 SET domain group 29; Swiss-Prot: sp|Q8GZ42|ATX5_ARATH Histone-lysine N-methyltransferase ATX5; TrEMBL-Plants: tr|I1JYS9|I1JYS9_SOYBN Histone-lysine N-methyltransferase; Found in the gene: LotjaGi1g1v0284200 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:69176904..69188234) extracted from Lotus japonicus Gifu genome v1.2.
CTAGTCCTTCATTCTCTGGTTGCAACTTTCAACTTCAACACAGGCATGCATGGCATATACAAGCTTATAGAACGAAAAAT GTTACACACGAAAGTAATGAAACCCGGCCCACCCACGAAGACGAAGCAGAGTTCCATCACCACCACGTTCAGTGACGAAT TGACCAACACACGAATCGCGAGTGAACCACGTAACAAAATATATAAACTCACTCAAGATAACGCTGAAAGCCTCTCTCTC TCTCTCTACTCTGTCACCTCCTTCCTTGTTTCCAACTCCTTTCTCTCTCTAGAAAAAAAAACCTCATCCAGTTTTTTTTC TTCTCTTCTCTGCTCTGTTCTATAAAATACAAATTACATTGCAATCTGCATAAATTAAAATTAATATTCACTCTTCTCTT CTGATTTCTCTCTCAACTTCTCTCTCTTCTCTCTCTCTCTTGTTGCAGTTGGTGAGAAAACAAAACAGATCCCTCTTTCT TCTTCCTCCTCCTTCTTCCTCTGCTCCTCCGATTCGATCCTCTCGATCACGCTCTCCGCCATTCCTCTACTCAATTCCCT CTCTTCCTCCGTCGTCTCTCGCCGTTTCTCCGGTCACCACTCGCCCTCGCTTCTCGCTTCCGCGGTTGCTCTGTTTCTCC GAATTCTTCAATTCGCGATTAGGGTTTATGCGTTGTGCTGTGTTTGCTGAGTGTTTGGGTTACGGAGTGGAATTTTGCTG TCTGTGGTTGATGGAATTGGAATTTGTTGCTTCAATTTAATGCAGTGAGTGAGTGATTGATTGTTTGTTTGTTCCCAATG ATTATCAAGCGGAACCTGAAATCGCAAATGCCGGCTCTCAAACGGTGTAAAACCGGTGATGTTGCCGGCGAGGATGACGA GTCTGCTCAGGCGAGTAAGAAGAGGAAAACTAACGGGTACTACCATCTGAATCTTCTCGGTGATGTTGCTGCCGGGGTGA TTCCGGGGAGTTTTCATGGTCTTTTGAGTGGCGGCGTGGAGAAGGGGTTCTCTGCGTACGGTGGAGTGGAAACGAAGGGT GGTGGTGTTCCGGCGAAGAAGGACCAGGTTCAGCGGCCGCCGTTGGTTAGGACTTCGAGGGGGCGAGTTCAGGTTCTTCC TTCGCGGTTTAAGGACTCTGTTATTGATAATTGGAGGAAGGATGGGAAGAATAGTTTGCCGGATTGTGAGGTTGAAGATG AGGTTGAATGCAAGGTGGAGAAGTTCAGCTTCAGGGCAGCGAAAACTTGCAACCAGAATGCGAGGAAAGGGCGGAACGAT GAGAGAATCGGGTATAAGGCTCGCAAGTACTCGGCATTGTGTGGGGATGAGGTTGGTCCGAGGTTTAGGAGTTTTGGTGC AAGGAAGGATTCGAATTTGCGGGGTGCATTGGCCTCGAGGCGGGAGGTGCTGGTTGAGGATGAGAAAGGAAGGTTTTTGG AGGTGGATGGGGTTGATTTGATGGAGGATGATGGAGTTTTGAAGGAGAATGGGGAGAAGAAAGATGGGTTGTATGGACCA GAAGATTTTTATGCAGGAGATATAGTGTGGGCCAAAGCCGGGAGGAAGGAACCTTTTTGGCCTGCCATTGTCATTGATCC TATGAAGCAGGCACCTGAGCTGGTCATGAGGTCTTGTATACCTGATGCAGCATGTGTCATGTTTCTTGGCTACGCAGGCA ATGAAAATCAAAGGGTGCGTCGTAGTATTTTGACTATGGTCTAATAGATTTCTTCCTATATAAAGCTTCTTTGCTATTTT GGAAATTGCCTATTTATTGTGTTTTGATGATTTGAGCAGGACTATGCATGGGTCAAGCATGGCATGATATTTCCATTTAC AGATTATGCAGACAGGTGAGGAGTTGCTAGCTAGTTACTGTCTCCTTGTTTACACTGTTTAAAACTACCACTTGGTTTTT CTTTGTGGAAGAATTTTTGCTTACTAGGAATTATGTTCTTTGGTTTAGGTTTCAAGGGCAGTCTGAATTGAGTTTCTATA ATCCCCCTGACTTCCAAATGGCAGTAGAGGAGGCATTTTTGGCAGAACAGGGCTTCACCGAGAAGTTGATGGCTGATATA AAGGCAGCAGTTGGTAGCATTGGTTGTGATGATGATACTACTCTGAAATCCTTTCAGGAGGGCACTGGTTCAAACCGGTT TGCAAGACACCACTTTCTAAACCAGGTAAGTCAGCTACAGTCTGCACCGTTTCTTCTCCCCCACCCCATAGGTGGAAAAG CACTCTTGCATCATATTTAGGGGACACCTAGGAAAGCTTATAATATAAACTTAGTTAGCAACTTGAAGTCAACTGTGGCA CCACTCAGTGCTTTTATCATTGTGGAAGTCAACTTGTAGATTTGGCATGCCACTATTTTTTTCCTTTATGTATTTGTGAT CCACAAAAATGCAGGAATGAGCAATGCTGCTGAAGTCTGGTCAAGTTTAACATTTCATTGAATTGAATTCCTAATGCAGG ATTTATTTGATAAGAAAGGCACACGACCCTGTGAAGCCTGTGGATCGCGCCTTCCGTACAAGATGTCGAAGAAAACAAAG GATTCAACTCCTGGCGGTCAATTTCTATGTAAAACATGTGCCAGGGTTTGTATATCGTACACTTTTCTTCTATCAATTCA TATTTAAGTCTGCAATGAAAATATTGCATGTAAAGTACTGTTTTTGTTTTCAAAATTGCATATATTGTAGTGTTTGAAGT CATTTCCTTTTGGCAGTTAACAAAATCGAAACATTATTGTGGCATATGCAAGAAAGTTTGGAATCATTCTGATAGTGGAA GTTGGGTGAGTTAGTTGGATTCTGTTAGCTAGTTGAGGTTACTTTCTGCCCAAAGACTTTTTCGGTGGTATTAATTTATT CTTTGACCTTTGCGGATATCCCTCCCGCTCCCCCAAATCAGGTGCGCTGTGATGGATGTAAGGTGTGGGTGCACGCAGAA TGCGACAAAATTTCTAGCCGCCTTCTCAAGGTTTATCCATTACTTGATATCTATATTGTCACTTCTCTACATTCAAAGCT CATAAAAAAGTGATATTTTGTTTTTTTTGCTGACGGGTATATTCTGTTTTCCAAAGAATCTTGAAGACACTGATTATTAC TGCCCAACTTGCAAAGCCAAGTTTGATTTTGAGTTATCTGATTCAGAAAAGTCACAGCCAAAAGTCAAGTAAGTCTATTA TGATTATTTTCGTTGTCTCCTCCAGCCCCATTTGTGACTTAACCTGATGATTTCTTGTAAAGTTATCATAAAGTCCATCC CATCTGTTAAGATTCAAGTTCATATACTGAAAATATTTTTGTTAGGTATTATAGAAAATGTCATTTTTTCTTTTACAATT TGTGAATTTTCTCACAATAGTGGAGGCTTTGGTACAGGTGGAATAAAAACAACGGGCAGTTACTGCTTTCAAATAAGGTT ACTGTTCTATGCAATGGTGTGGAAGGCATATATTTTCCAAGCCTTCACTTGTAAGCACAAATGCCTTAAGTCTTTGACAT AATCTTTTTGTGTTCTCTGCTGATGAAATCACAGTTTTTTTTTTTTTTCACTAGCTTTAGTTATTTATTACTAGTAAGTA GTCATAAATTAATGCCTTTATTAAGCTTGGCAATTATTACCTATTTGATATTTCCTTTAAAAAAAACCTATTTGGAAAAA TCTGATTTTAAATTTCGCTCTTAAGGTGTTGGAGCGGGAGGATAATGTAGAGCATTAGTTCTATAGTGAAATTCTTTTTT CCTAGAAGAAAATAAAAATAAATAAATAAAATGTGGTGGCCACTGTAAGAACATTCCTGCTTAAGTTCTTTTGTTTTATA TCTTCAAGAATGAGCATTCCTAATTTCTATAAAAAATTATGTTCAAAGAATGTTCTCTCTTGCTCTAATAACACCCGTAA GATTCTTAATTTTCACCAATTTGTACATTAATCAAGTTTTCAACAAAATTTGTGCCAGGCAATATTTGATATACTTTTTT TTTTTTTTGATAGGCAAATGTTAGTTGTTAGAAATGTTAGTAAATTAATCCCTCCTCCGGGTTCGAACCCGGGACCCTTC ACCCTTTACCCCAACCCAACCCTTATGTCCCTAGCTCTTACCATTTGATATACTTCTTTTCATCATACTTATGGTGCTAG TTCATCTTTTCACATTATCATGTTTCTAATTGATTGATGCAAATTTTGAATGTGTTCTTGACTTGTTGTTATTACTTCTA CAACTGGAATATCATGTTTCAAGTGGATTGATGCGAATCTTGATGTGCTGTTGTTAACATGTTATTACTTCTATAACTGG AAAATGATTCATCTTCTTTATGGTTATGATACATGTTCTCCACCAGAGTTGTGTGCAAATGTGGTTTTTGTGGGACTGAA AAGCAAGCACTTAGTGAATGGGAAAGACACACTGGTTCCAAATTACGAAATTGGAAAACAAGTATTACGGTGAAAGACTC CATGCTACCGCTGGAACAATGGGTTTGTATCCTATTGTCATTATTGTTTAACTATGGTGCATAATATTCCCCATCTCTTT GTGCTGAAAATATACTACTAATTTATTGTTTATTTTGGTCTATTTGTTCGAGGTCTAACCATCTTTTAGAATTGAAATTC AGTATGATACAATAATAAATTGAATGTGCTTATGGTCTATCGAATTTGAGTATTATGTTCTGCCACCAAATAATATTATA AATATTAATTAAAAAACTTAATTTTATTCCTGGCCTCTAGAATTTCGGCAAGGTTTTGTTCCCTATAGTTTCAATTGCTC CATTTAAGTCCCTCTACTTTCAAAATTTAACAATTTGTTCCAGATATCAACTTGTTATGCAATAACTAACGGAAAAAAAT TGACATATTACACAATGTTTGACACGGAAGTTGACATGGATTGTCTCAGACTCAGCATGTCATGCGCATAAAAAATTGTG ATTCACATCAACTTTCTTCGTTAGTTATTGCATAAGTTGATATCTGGACCATATCGGTTCAATTGCAAAAGTAGAGGGAC TTAATTAGAGCAATTGAAACTATAGGGACCAAGATTACACATTTAAGCTTTACTAAGGACCAAAAGTGCAGTTAAGCCTT AATTTTTTTCCACCTTATGGATGAGGTCTTAGATTTGATAATATCTCTATTTGTCCATATCAAATATTTTATTTGAACTT TGTAGTCTTCAGTGTGAAAATGCTAATGATACTCCTGATCTATTACGCTAGAAGTTCATAATATTGGTCTGTGTATTTCA TGACATGGGACACTTGGAAGAAGAAAGATTTGGATTGCATATTTTTTTTGGGGGGAGATGGGGGTTCTGACATGAGGATA CCTGTATCTAATACAATGCTATTTGACTTCTCAGATGCTGCAGTTGGCAGAATTTCATGCTAGCGCTCTAGTGTCTGTCA AACCTAAAAAACCTTCTCTAAAAGAAAGGAAGCAGAAGTTGCTTACCTTTTTACGAGGTGCCCTTTTACCCTTCCTTTTG TGTACAACTTAGCAATATGATGAGTTTACCAGATGAAATTCTCATAGTGACAACGGTACTACAAACTTTTTTCTCTGACA GAGAAGTATGAACCGGTGCATGCTAAGTGGACTACAGAGCGCTGTGCTGTTTGTAGATGGGTTGAAGACTGGGACTACAA TAAAATTATCATTTGCAACAGGTAATATAACATCTTCAGCTTGTTTTTTGTTCATTTATTTCCAATATTTAACCCATAAA GGCATGTGGATTAGAATTTCAAACAAGTTGCTGCATTTGTCTGCAAATTTTGTTGCCAATAAATAATGTGATTAACATGA ATTTTATTTAGGACTGTATTATCAAATATCAAAACTTAGAAAGTACCTCCAGTACTTTCTCATAGTGCATTTGACGGGAA TATTCTCCTTAGCTTATGTTTTCAAATTCAACTATATGGTCTGCAGCTTGCCATTCCGATTTCCGACTAATCATTGTTGT AGCCTTGTCATCCACTGATATAAGTCAGACCTTTGCCAATGAAACCATTTGCTAATAAACCAAACATCCTTTCCTTCCTA TGCTAGTTGGAACTATGAAGAAAGACTTTTGTCGTTGCTGTATTTTCGCTATGTATGATGAATTACATTTCAATTGATAC ACAAATGCATTATATATTTTAGATGTCAAATAGCTGTTCATCAAGAATGCTATGGAGCAAAACATGTTAAAGACTTCACA TCTTGGGTTTGCAAGGCTTGTGAAACACCTGACATCAAACGGGAGTGTTGTCTTTGTCCTGTAAAAGGTATGTCTTCCAC AAAATTTGAATAGTATGTTATAGAAGGTGATCATCTTTTTATTTGTTTGTGTATTCTCTAGACTCTACTCTTTGTGAGTT CTGTTTGATGCAACTGTCCTGTCTTTTTCTTAACCTTGTACTTGGCTGAATACTTTTTGCCCCTTTTATTCCATGAGTTT AATTTGATCCACTGTACATGTAAAATTCTCTTACCTTGATTTGTTAGTTTTATATGTGCTATAATTCAGTTTAACTCAAT AGTGCTGCAATGCAAATACCCTCTCTCCTTTTTCGTATGACTTTTGAGTTATATTCTGGTCCATTGTATCATTCAATCAT GTACTGCCACATCATAAAGAGTTTGACACTTTGACTATTATAAAAATGTTCAAGCTATTATTGTGAAACTTTACATATGT TTCTATCTTGGCAATGTTATTTGATTACTATATAATCTTGTTCCCCTAATTATTTTTTAATCCCAGGTGGTGCTCTAAAG CCAACTGATGTTGATACATTATGGGTACATGTCACTTGTGCTTGGTTTCGACCTGAAGTCTCGTTTGCTAGTGATGAGAA GATGGAGCCTGCTTTGGGTATTCTGAGCATTCCATCAAATTCTTTTGTGAAGGTGAGTCTTTTGCCAACAAAAGCTTCCC CCAGCAAGTAATGTTAGTCAGCAGTGGAAGTGATTTCCTTCTTTGCATATTTATGACTAAACGAATTCTTCACAGCACAT CATAAATAGAAAAAGTCCCTATCTATTTGATTACCTTGTTCATTGATTGTAGTATACATGAAACGATCTAAACTCTCATT TCTTAATATCTTAGATGTCTTGTGGTCGAGTCTAAGAATGTTAGTGTTTTTTTCTTTCAGATTTGTGTTATTTGCAAGCA GATTCATGGTTCATGTACACAATGTTGCAAGTGTTCCACTTATTTCCATGCCATGTGTGCATCAAGAGCCGGATATCGAA TGGAGGTAAGGGTGTCCCACTTGTATTGGCTTGGCTTGCTTTTTATCTTATGATCTGACTTTTCTTTGAGTTTTAAGAAA GTTCAACGGCAATTTTCAATTTACTTTCTATTTCAAGCATATATATTTTAACTTCAATCATACATTTTTAAGACTGATTA GAGTTACTCAACTAACCTTATAGAGCATGCATTTCCAGTTTGGGCTTCAATAAGAATAACAAACGTCATTTTCATTCTGC CAAAGGACTAACAATTTCATTAGATTGATAGGGATCAATGGCATTAATTAATTTATGTAGCTGGATATCACTGGGATAAG ACTTGACTGTTGTATTGTGAATTTACATCTATTACAATATTTGATTAAATTTTATCCCCTTTAAATGCAGTTGCATTGTT TGGAGAAAAATGGTAAGCAGACAACAAAAATGGTTTCTTACTGTGCTTACCACAGGTATGCGATCCTCAATTAGAATTAT GAAAGCAATTAATCTTCGTCCTTTGCCCTTTTCTACCATATCCTTTAAAGTATTTGCTTTTTGCACAACACTGTCTTCTT TTAATTGAACATATGCAATATAAGTTTATCTGAAATTCACTTTAATCTGAATCTTCGTTTCAGCCTTTCATCTTAAACAT GTCTATTATGATAGGTAAATGAACAAGGAAGTAAGAGTGTGTTTTTATTGAAAGAATGCTATGAAACTACATATATTTCC TGGTATTTGAGAATCTAGAGACCAGGATTCTCCCCAAATGAACCTTATTACAATCTAGATGCCCAACCTATTCCCCTCCC CCTCCTATTTATAGTGTCTCTTCACTCGCTCTCTAACTAACCCATTAACTAATTATTTATGCTAATTGCTAACTAACCCT CACTAAATGTTACCTATCATATTATTTCTTGCAGGGCTCCAAATCCAGACACTGTTTTGATTATGCAAACCCCTCTTGGG GTCATTTCAACAAAAAACCTTCATCAAAACAAGAAAAAATCTGGAACAAGGTTATTCTCATCTATCAGCGCAAAGCAAGA AGATACCCCTGTTGATAACACTGAGCATGATCCATTCTCTGCTGCTAGGTGTAGAATCTTTCAAAGAACAAATCGCACCA AAAAGGTAGGGTAAAGACATTGTTGTTCATGTTGATTTTGCTGATTATATTTCCAAGGAAAGGGCTTTTGTATTTATACA TAAGATACATCAGTACGTAATCCATGTTACCAATATCTTATGTATTTTGCTAACAAGTACTGCTACTTCACCAAAATGGG CCTGCTGCTTGCATGGTTGTAAACTTGTATGTGGGATGTAATCATGATTTGCCATGGTTATTGCTTTCTTGCTTTGGTTC CTTTATTTCTACGTTCATCTTCTAGACCTTGTTATCCACTATTGCCTTGATTATGCTCTTAGCATTTTAAAATGCTGAAC TTTTTCTCATTTTTATTTCTTCTACATGTCAGAGAGCAGCAGATGAAGCCATTTTTCATCAAGCGAGGGGTCACTACCAT CATCCTGTAGATAAAATACAGAGTTTAAATACATACAGAGTAACTTAACTTCTCAAAATTATGATTGGTTCTTTACATTT GAGCTTAAGATTTGAACACCCCCCTCCCCCCCACCTTTTCCTGTTCACCTTTTCCTCATCACGTTCCCTCAAACAGGTGG TGGAGGAACCTCAGGCATTTACTTCTTTCAGAGAACGCCTTCGCCACTTGCAGGTAATTCATCTCTACCATCGGTGATTT ATTGGGTTTAGTGGTCAATTTTCTGACTATTTTATGGGTACGTATATGATTTCAGAGAACCGAAAATGAACGGGTTTGCT TTGGTAGATCGGGCATACATGGATGGGGCCTCTTTGCACGTAGAAATATTCAAGAAGGAGAAATGGTATGAATGTTACAA AGACCGACAACCTGATCTTGTGTGTTGATCAATAATCACTGATGCATTTTTTTTATTAGTAAAGTGAGGACCCATGAGGT GTTGGACTATTTGAGCATTTGAAAAGAATTGCAGGAAGTTATCTATTTAATTCCATTTTTGCATAAAATTGAGAGGCACA TAGAAGACACCTCTCAAGATTTTGTCTACCTGTGTTGACGTATAAGTGAAGAATATTGTACAGTGATTCATTTCAACTAA ATATCTTAACAGCCCTTGGTTTTCTAAATGATTTCACATTGTAAAACATAGAAAGTATGTTATATGTGGTCATGGTTTTT ATGCAGGCACACAGGCTGATTAAGCACTTTCAAAATCATTCAAAGCTTAATTTCCATTTACTTGCCCTCTCTTTTCTCTT TCTTGTGATTCTTTTGGTCTTGAGGATTCTTCTAGACTGGCTTCTGGTCCAGTTGTTTGCAAATTTTATCCACCTTTGCT TTCATCATGATTTGAACTGTGATTCTAACATCAGCAGAAGCATAAAATCATTGTCCAATTGTCCTTTATGGTTTCTTAGA TTTCCCTGTGAATTCGATTACAATCTTTTTTATAGCTATAATGATTTAATCCTAATCAGGTTCTTGAATATCGCGGTGAA CAAGTGAGGCGCAGCATGGCGGACCTGAGAGAAGCACGCTACAGATTACAAAAGAAAGACTGCTATGTGAGTTAATCTCC ATTGTTTGCCTATGAAAGTGTTATTGTCATCTTTATTATTCATATGATATCACACTAAAATGCCTTGCTCTCTCATCTTT GCAGCTATTTAAAATAAGCGAAGAAGTGGTGGTAGATGCCACTGACAAAGGAAATATAGCACGGCTAATTAATCATTCTG TAAGTCAACCTAACTCTAACTCCAATTGATTCTCTTGGGCCCTCATTGCTGGATCAGTTTTGACACATTCACTCTTCCAT TCCATTTCCATACACTTTTCCTTCACATCTCTTTTTTCTTTTCCTATGACATCACCTATTATATATCTCTCACTCATATT CCTATCTTTGTCTGGGTGTGGGGTGGAATTGGGGCGTGAAGGTATTATTTTCCATACTGAATAGTTGTCTTATCAGTTCT TTGGTTTGTGGTGTCAATGCAGTGCATGCCAAATTGCTATGCAAGGATCATGAGTGTGGGTGATGATGAGAGCCGAATTG TGCTCATTGCAAAGACTAACGTATCTACTGGTGATGAACTAACGTATGTACATCTCTCTGTCTCTTTGCATGTGGTTTTG TGTGTACATGCATTTTTTTTTCTTTTGGTTGATGTTGGTTTGTTTTGTACAGGTATGACTACTTGTTTGATCCTGATGAG CCAGAAGAATTCAAAGTCCCTTGTCTCTGTAAAGCTCCAAACTGCAGGAAATTCATGAATTAGGAAGGAAGGATTATTAT ACAAATGAAATGAAGATCACATCACATAACATGGATTGTTTCTTCTCCGTAAGGAGCACTAACCCATCCCCTCCTCTACA GGGAAAATCTCAGTTAAACCAAAGCTGTAATTTTTATCAAACCAAAAAAGAGAGAAAAAAAAAACAAAAAAAAATAGGAG AACAGGCATAGGTTTGTGTTTTTTGTTTTTTTCATTTCCACTTTGGTTTCCTTTGGACATTCATAGAAGTCTAATAAGAA CTATAGATTACAATTTAGAGGCTTTTGGCCCTTGGGTATCTCTGTAAATTTATCACCCAATATTACATTTCATTTTCCTG ATTTTAATGTTAACCAATTTCTTCCCTCCCCTTTTCCCGATGTTTTTACTACCAGTTTAATTGTATGGGAATGTAATTCT AATGACAGCATATCGCCCAGACGACAATTGAGTTAATTTTGAAATCTGAGGGGCCTCTCCAAAACCCCTTCTCAGCTGCT AAGCAAGTCTCGCTCCAGCTGTTGAAAAGAAGGCTATACTTTTGATTGAAATCAAATTCAACTGTGAAGAAAATTAAGCA TTTATTGAGTTCACATTAAAGGCCTATATTAGCTGATCATCTAGTTTCATTGAGTTCAGAGCCACGAAAACTTATGCAAC TTTCACTTTCAGAACCACTATTTATTTGAGGTAGGTGGTGTTTCAATGAAA
CDS sequence (LotjaGi1g1v0284200.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGATTATCAAGCGGAACCTGAAATCGCAAATGCCGGCTCTCAAACGGTGTAAAACCGGTGATGTTGCCGGCGAGGATGA CGAGTCTGCTCAGGCGAGTAAGAAGAGGAAAACTAACGGGTACTACCATCTGAATCTTCTCGGTGATGTTGCTGCCGGGG TGATTCCGGGGAGTTTTCATGGTCTTTTGAGTGGCGGCGTGGAGAAGGGGTTCTCTGCGTACGGTGGAGTGGAAACGAAG GGTGGTGGTGTTCCGGCGAAGAAGGACCAGGTTCAGCGGCCGCCGTTGGTTAGGACTTCGAGGGGGCGAGTTCAGGTTCT TCCTTCGCGGTTTAAGGACTCTGTTATTGATAATTGGAGGAAGGATGGGAAGAATAGTTTGCCGGATTGTGAGGTTGAAG ATGAGGTTGAATGCAAGGTGGAGAAGTTCAGCTTCAGGGCAGCGAAAACTTGCAACCAGAATGCGAGGAAAGGGCGGAAC GATGAGAGAATCGGGTATAAGGCTCGCAAGTACTCGGCATTGTGTGGGGATGAGGTTGGTCCGAGGTTTAGGAGTTTTGG TGCAAGGAAGGATTCGAATTTGCGGGGTGCATTGGCCTCGAGGCGGGAGGTGCTGGTTGAGGATGAGAAAGGAAGGTTTT TGGAGGTGGATGGGGTTGATTTGATGGAGGATGATGGAGTTTTGAAGGAGAATGGGGAGAAGAAAGATGGGTTGTATGGA CCAGAAGATTTTTATGCAGGAGATATAGTGTGGGCCAAAGCCGGGAGGAAGGAACCTTTTTGGCCTGCCATTGTCATTGA TCCTATGAAGCAGGCACCTGAGCTGGTCATGAGGTCTTGTATACCTGATGCAGCATGTGTCATGTTTCTTGGCTACGCAG GCAATGAAAATCAAAGGGACTATGCATGGGTCAAGCATGGCATGATATTTCCATTTACAGATTATGCAGACAGGTTTCAA GGGCAGTCTGAATTGAGTTTCTATAATCCCCCTGACTTCCAAATGGCAGTAGAGGAGGCATTTTTGGCAGAACAGGGCTT CACCGAGAAGTTGATGGCTGATATAAAGGCAGCAGTTGGTAGCATTGGTTGTGATGATGATACTACTCTGAAATCCTTTC AGGAGGGCACTGGTTCAAACCGGTTTGCAAGACACCACTTTCTAAACCAGGATTTATTTGATAAGAAAGGCACACGACCC TGTGAAGCCTGTGGATCGCGCCTTCCGTACAAGATGTCGAAGAAAACAAAGGATTCAACTCCTGGCGGTCAATTTCTATG TAAAACATGTGCCAGGTTAACAAAATCGAAACATTATTGTGGCATATGCAAGAAAGTTTGGAATCATTCTGATAGTGGAA GTTGGGTGCGCTGTGATGGATGTAAGGTGTGGGTGCACGCAGAATGCGACAAAATTTCTAGCCGCCTTCTCAAGAATCTT GAAGACACTGATTATTACTGCCCAACTTGCAAAGCCAAGTTTGATTTTGAGTTATCTGATTCAGAAAAGTCACAGCCAAA AGTCAAGTGGAATAAAAACAACGGGCAGTTACTGCTTTCAAATAAGGTTACTGTTCTATGCAATGGTGTGGAAGGCATAT ATTTTCCAAGCCTTCACTTAGTTGTGTGCAAATGTGGTTTTTGTGGGACTGAAAAGCAAGCACTTAGTGAATGGGAAAGA CACACTGGTTCCAAATTACGAAATTGGAAAACAAGTATTACGGTGAAAGACTCCATGCTACCGCTGGAACAATGGATGCT GCAGTTGGCAGAATTTCATGCTAGCGCTCTAGTGTCTGTCAAACCTAAAAAACCTTCTCTAAAAGAAAGGAAGCAGAAGT TGCTTACCTTTTTACGAGAGAAGTATGAACCGGTGCATGCTAAGTGGACTACAGAGCGCTGTGCTGTTTGTAGATGGGTT GAAGACTGGGACTACAATAAAATTATCATTTGCAACAGATGTCAAATAGCTGTTCATCAAGAATGCTATGGAGCAAAACA TGTTAAAGACTTCACATCTTGGGTTTGCAAGGCTTGTGAAACACCTGACATCAAACGGGAGTGTTGTCTTTGTCCTGTAA AAGGTGGTGCTCTAAAGCCAACTGATGTTGATACATTATGGGTACATGTCACTTGTGCTTGGTTTCGACCTGAAGTCTCG TTTGCTAGTGATGAGAAGATGGAGCCTGCTTTGGGTATTCTGAGCATTCCATCAAATTCTTTTGTGAAGATTTGTGTTAT TTGCAAGCAGATTCATGGTTCATGTACACAATGTTGCAAGTGTTCCACTTATTTCCATGCCATGTGTGCATCAAGAGCCG GATATCGAATGGAGTTGCATTGTTTGGAGAAAAATGGTAAGCAGACAACAAAAATGGTTTCTTACTGTGCTTACCACAGG GCTCCAAATCCAGACACTGTTTTGATTATGCAAACCCCTCTTGGGGTCATTTCAACAAAAAACCTTCATCAAAACAAGAA AAAATCTGGAACAAGGTTATTCTCATCTATCAGCGCAAAGCAAGAAGATACCCCTGTTGATAACACTGAGCATGATCCAT TCTCTGCTGCTAGGTGTAGAATCTTTCAAAGAACAAATCGCACCAAAAAGAGAGCAGCAGATGAAGCCATTTTTCATCAA GCGAGGGGTCACTACCATCATCCTGTAGATAAAATACAGAGTTTAAATACATACAGAGTGGTGGAGGAACCTCAGGCATT TACTTCTTTCAGAGAACGCCTTCGCCACTTGCAGAGAACCGAAAATGAACGGGTTTGCTTTGGTAGATCGGGCATACATG GATGGGGCCTCTTTGCACGTAGAAATATTCAAGAAGGAGAAATGGTTCTTGAATATCGCGGTGAACAAGTGAGGCGCAGC ATGGCGGACCTGAGAGAAGCACGCTACAGATTACAAAAGAAAGACTGCTATCTATTTAAAATAAGCGAAGAAGTGGTGGT AGATGCCACTGACAAAGGAAATATAGCACGGCTAATTAATCATTCTTGCATGCCAAATTGCTATGCAAGGATCATGAGTG TGGGTGATGATGAGAGCCGAATTGTGCTCATTGCAAAGACTAACGTATCTACTGGTGATGAACTAACGTATGACTACTTG TTTGATCCTGATGAGCCAGAAGAATTCAAAGTCCCTTGTCTCTGTAAAGCTCCAAACTGCAGGAAATTCATGAATTAG
Protein sequence (LotjaGi1g1v0284200.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MIIKRNLKSQMPALKRCKTGDVAGEDDESAQASKKRKTNGYYHLNLLGDVAAGVIPGSFHGLLSGGVEKGFSAYGGVETK GGGVPAKKDQVQRPPLVRTSRGRVQVLPSRFKDSVIDNWRKDGKNSLPDCEVEDEVECKVEKFSFRAAKTCNQNARKGRN DERIGYKARKYSALCGDEVGPRFRSFGARKDSNLRGALASRREVLVEDEKGRFLEVDGVDLMEDDGVLKENGEKKDGLYG PEDFYAGDIVWAKAGRKEPFWPAIVIDPMKQAPELVMRSCIPDAACVMFLGYAGNENQRDYAWVKHGMIFPFTDYADRFQ GQSELSFYNPPDFQMAVEEAFLAEQGFTEKLMADIKAAVGSIGCDDDTTLKSFQEGTGSNRFARHHFLNQDLFDKKGTRP CEACGSRLPYKMSKKTKDSTPGGQFLCKTCARLTKSKHYCGICKKVWNHSDSGSWVRCDGCKVWVHAECDKISSRLLKNL EDTDYYCPTCKAKFDFELSDSEKSQPKVKWNKNNGQLLLSNKVTVLCNGVEGIYFPSLHLVVCKCGFCGTEKQALSEWER HTGSKLRNWKTSITVKDSMLPLEQWMLQLAEFHASALVSVKPKKPSLKERKQKLLTFLREKYEPVHAKWTTERCAVCRWV EDWDYNKIIICNRCQIAVHQECYGAKHVKDFTSWVCKACETPDIKRECCLCPVKGGALKPTDVDTLWVHVTCAWFRPEVS FASDEKMEPALGILSIPSNSFVKICVICKQIHGSCTQCCKCSTYFHAMCASRAGYRMELHCLEKNGKQTTKMVSYCAYHR APNPDTVLIMQTPLGVISTKNLHQNKKKSGTRLFSSISAKQEDTPVDNTEHDPFSAARCRIFQRTNRTKKRAADEAIFHQ ARGHYHHPVDKIQSLNTYRVVEEPQAFTSFRERLRHLQRTENERVCFGRSGIHGWGLFARRNIQEGEMVLEYRGEQVRRS MADLREARYRLQKKDCYLFKISEEVVVDATDKGNIARLINHSCMPNCYARIMSVGDDESRIVLIAKTNVSTGDELTYDYL FDPDEPEEFKVPCLCKAPNCRKFMN
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 |
---|---|---|---|---|---|---|
ProSiteProfiles | 3 | 1065 | 1063 | 452.278 | ||
PANTHER | 38 | 178 | 141 | 0.0 | – | |
PANTHER | 38 | 178 | 141 | 0.0 | – | |
PANTHER | 223 | 1065 | 843 | 0.0 | – | |
PANTHER | 223 | 1065 | 843 | 0.0 | – | |
Gene3D | 238 | 355 | 118 | 4.8E-18 | – | |
SUPERFAMILY | 239 | 350 | 112 | 8.42E-17 | – | |
Pfam | 245 | 342 | 98 | 4.9E-13 | ||
ProSiteProfiles | 246 | 315 | 70 | 9.152 | ||
Gene3D | 434 | 494 | 61 | 1.7E-10 | ||
SUPERFAMILY | 437 | 494 | 58 | 7.2E-11 | ||
ProSiteProfiles | 437 | 493 | 57 | 9.499 | ||
Pfam | 439 | 492 | 54 | 9.2E-9 | ||
SMART | 439 | 491 | 53 | 2.7E-10 | ||
CDD | 440 | 490 | 51 | 5.77948E-10 | – | |
Gene3D | 619 | 683 | 65 | 3.2E-13 | ||
SUPERFAMILY | 631 | 696 | 66 | 8.26E-10 | ||
ProSiteProfiles | 631 | 682 | 52 | 8.92 | ||
CDD | 633 | 679 | 47 | 2.93633E-21 | ||
SMART | 633 | 680 | 48 | 0.0042 | ||
ProSitePatterns | 634 | 679 | 46 | - | ||
Pfam | 646 | 680 | 35 | 2.0E-11 | – | |
Gene3D | 684 | 802 | 119 | 7.9E-16 | ||
ProSiteProfiles | 685 | 800 | 116 | 32.011 | ||
Pfam | 687 | 799 | 113 | 2.7E-27 | – | |
CDD | 688 | 799 | 112 | 5.48598E-69 | ||
SMART | 744 | 800 | 57 | 0.62 | ||
Gene3D | 819 | 1065 | 247 | 1.0E-50 | – | |
SUPERFAMILY | 915 | 1062 | 148 | 3.66E-44 | – | |
SMART | 923 | 1046 | 124 | 5.2E-35 | ||
ProSiteProfiles | 923 | 1040 | 118 | 18.935 | ||
Pfam | 934 | 1039 | 106 | 1.5E-17 | ||
SMART | 1049 | 1065 | 17 | 0.0022 | ||
ProSiteProfiles | 1049 | 1065 | 17 | 8.872 |
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). |
Expression pattern of LotjaGi1g1v0284200.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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