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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0246300 |
Transcript ID | LotjaGi1g1v0246300.5 |
Related isoforms 6 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Acetyl-CoA carboxylase; TAIR: AT1G36160.1 acetyl-CoA carboxylase 1; Swiss-Prot: sp|Q38970|ACC1_ARATH Acetyl-CoA carboxylase 1; TrEMBL-Plants: tr|A0A0R0K6S7|A0A0R0K6S7_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0246300 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:59094710..59108673) extracted from Lotus japonicus Gifu genome v1.2.
ATGGCGACCATGGGGGGTGGGAATGGATATATAAATGGTGTACTCCCCAACAAGCACCTTGCTACAATATCTGAAGTAAC TGAATTCTGCAACGCCCTTGGGGGGAACAGGCCAATTCATAGCATATTGATTGCAAACAATGGAATGGCAGCGGTCAAGT TCATGCGCAGTGTTAGGAGCTGGGCCTATGAGGCATTTGGCACGGAGAAGGCTATCTTGTTGGTTGCCATGGCTACACCA GAGGATATGAGAATCAATGCAGAACATATCAGAATAGCTGATCAATTTGTGGAAGTACCTGGTGGGACCAATAACAATAA CTATGCCAATGTGCAGCTTATTGTCGAGGTTTGTGATGTTAACTTGTTAAGGTTATGTACTTCTAAGTGATTGTCAAAGC AGATTTTGTTAAGGAGAGTAGTACGCAATGAAACTCAAAAGGCATTTTATTCTTGGAGGTGTTTCTTCATACTATACTTC TTTAAACAAGTTTTGTCAAATCAAATTTCAATAAGAAGAAAACATTCTTTTCAACGAGAAACTTAACAAATGTGCACATC CCAAGACAAAATACACACTTGATAGAAATACATACTGCATTGTTTGTTCCTTGTTGCTAACTATCTTTCTTGTTGCCTAG TTCCCTGTCGTGTATTCTTGTCATTCTAGTGATTTCATTGCTTTTATAGCGCTATGATTTTTTTGAACTATATAACTTCT AAACTTCTCTAAATACCATCCAATGTATCTTACCAGATGGCTGAGATAACTCATGTTGATGCGGTGTGGCCTGGTTGGGG TCATGCATCCGAGAATCCTGAGCTTCCTGATGCACTAAAAGAAAAAGGAATTGTATTTCTTGGACCTCCTGCTGTATCTA TGGCAGCATTGGGAGATAAAATTGGTTCGTCTTTGATAGCTCAAGCAGCTTCTGTGCCAACCCTTCCATGGAGTGGTTCT CATGTAAGTTTCAATCACCCATTGTTGCGTGTTTCTTTTATAAGGGATGCACAGCTTATGGCTTTCAAATTTCTTGGTAC AGGTGAAAATTCCTCCTGACAGTTCATTGATTACTATTCCTGATGAAATTTATCGGGAAGCGTGTGTTTATACCACGGAA GAAGCAATTGCCAGTTGTCAAGTTGTAGGATACCCTGCAATGATCAAAGCATCTTGGGGTGGTGGTGGTAAAGGAATAAG AAAGGTTTGCTTCTTGTGTGGTCAATACTGTAGCAACGACAAAATCTTATTGTAGCGTCCATGCTGTTAATCTTACAAAC TAATAGTCTTCCAGGTGTATGTAAATTATTTGCAAGAAAACTGCTTAAAGACCTATAATGCTGAGAACTTTGTGCTATCT TATTTTTGTGTGATTTGTTTGATAAAGATTAGAAACTAACAAACATGTTGATCTTTTAGGTTCATAATGATGATGAGGTA AGGGCATTGTTCAAGCAAGTTCAAGGTGAAGTTCCAGGGTCACCTATATTTATAATGAAGGTCGCATCCCAGGTTAGATA ATCCACTGAGCTTTGAGCTTAATGAACATGATTCTTGGAGTCTTGATCATATTCTGATGTTATCTTTTGTTTCAAATTAG AGCCGACATCTAGAAGTCCAGTTAGTTTGTGACCAGTATGGAAATGTTGCAGCTTTACATAGTCGTGATTGCAGTGTTCA AAGGAGGCATCAAAAGGTATGGAAGTTTTCTGTTACCACATGAAATTACTATGGTGAAATTGATCTCACAAATGACATAA TCGATCATCTGTAACAGATTATCGAGGAGGGTCCTATTACTGTAGCACCTCAGGCAACGGTGAAACAACTAGAGCAGGCA GCTAGAAGATTGGCTAAATCTGTAAATTATGTTGGGGCAGCTACTGTTGAGTATCTATATAGTATGGAAACTGGCGAGTA CTACTTTTTAGAGTTGAACCCCCGACTACAGGTATTGTACTACATAACCTTGGTTGTGGCTCACACCACAATTATCTGTT TATCTCTTGTGACATGATTGATTCTTCTTTTTGACTTTGGTTCTCCAATTGGTTATAATTAATACGACCTTCGGTGTTTT TTTAAGAATCAAATGGAAGGTATAGCTTGGTCGTTTTTATAAGAACCACCTTAAACACTGTATGAAATGGATTTCTTTTT TGACAAAAATACCCTTAATTATTCAAGTAGTGGATGTAGCACATTAATTGAACTCTTTCTCCAGTTACCGGGGATGATTA AAAAATTGGGTTAAGGATAAATTTGAAAAACTTTATAAATTGTGGACAAATCCAATACTTTTTACTAAAATAACTATTTC TTGATGGACGTGAAGTAGTTAAACAGTTCTGACTAAAAGGACCTATTTTCTTTTAAATGGACATAGAAGCTGAATATGTT TTACTATAATGCTTAAAATTATGTGGTGACATATAGCCACTTATGCTTTGTACTTACTCTTGGAAAATGCTTCTGTTTAT TTTTGGCGATTTCACAAGGATGACTGTAATGCTTGGAGTCAGTTTTTCCTAATTTTCCATACCCTCTGCTTTATTTTCTT TTAATTTTTTTTTTCCTAATAATATTTTCACCACTGTGGATGATTGTTTGAATTGATTCCTATATAGGTTGAGCATCCTG TTACTGAATGGATAGCAGAGATAAATCTGCCAGCAGCACAAGTTGCCATTGGGATGGGAATCCCTCTCTGGCAAATTCCT GGTACTAGCCCACAAATATTTTTTACAGTTCTTACATTCTTGTTTTTGCTACTGCTTTGATTTCTGAAATTAATTTTATG TGTAACAGAGATAAGGCGTTTCTATGGGGTGGAACACGGTGGAGGGAATGATGCATGGAGGAAAACATCAGTTTCAGCTA CTCCTTTTGATTTTGACAAAGCAGAATCTACTAGGCCAAAAGGTCATTGTGTGGCTGTTCGAGTCACTAGTGAGGACCCT GATGATGGTTTTAAGCCTACTGGTGGGAAAGTGCAGGTTAACTACTCAGTCTAACAGCAATCTCATCTTTTACTTCATTC ATCCCATAGCTTTGTACTTAGTTGAAATATTTGTGCAGGAGCTCAGCTTTAAAAGTAAGCCAAATGTGTGGGCATACTTC TCTGTTAAGGTAAGCCTTCTATTTCTTCATATGAACATGAAACTTAACTGTTGAGGTGCTAAATTTTTTAAATCAAATGT TTGCAGTCTGGAGGAGGGATCCATGAATTCTCAGATTCTCAGTTTGGTAAGTAGTAACTACTAACTATCACTTAATTAAA CAAACAAATGTTTGTAAACAAATTAGCTATTATTGATCTACGAATGCCCAGGCTATCATTGTGCACTTAAATTGGAAAAT TGTAGATTCCAGGCCATCATCTTGATATACATCTCTAAGACCTTTATTAGAATTGTAGAGTGAGAGAGAAAAGAGCTAAT CTAAACTGAATGTGAATAATATTACTGCATACTGAAATGTTACACCAAGCTTCTATATTTATAACACAGGAGAGCCTAAG GGAAAGTTTCCAGCAGATGCTAACTAGTCATAACTAGTTCTAACGAGCTATAACAAACTAAGCAATAAGTGTAGCCGTAA GGTAACAGAAAGTAATAATCATATCAGATATAATACTACTAATGCTACCCATAAGTAGAGAAGTGATAGTATCACATATC TCTTAACATATATTTTTTGCTCACTTTTTGTGCTTAATGCCAAATCTACTTGCCTTGTTATGGGAAGTATGATGATGCCA TGACTTTTGTCACTAGTAAAGCAAGAACTAGGATGTAAATTTGGGTTTGGTGGGAGGTTTAGAACATTAAAATTTAACAG GAAACAGGTACTTTATGTTCCCATGACAGGAGACTGGTACTTAGTTTCTTATCATGAGCAGGTAGTTTGGAACTATTGAT TCATCTGTTTAGAAGCTTGTAAAAAATTACGAAAATTTTAGAGTTTGTTCATCTATTTAGAAATTTACAAGGAATTCTGT TGCACAATTTTATAGGTTGGGGAACTTGGGAAGTTTTGATTCGTCTATTTAGAAATATATATAGCAACATGATCTGTAAT TTTGAACTGTAGGGTGTCAATTCCCCATTACATGCTTTCTTTCTTGTTCTTACATCCATGATCCATGTATCTACACAATT CCTATACTGTAAATTATAATATCCTATCTTTTTTACCTCAGGGCATGTTTTTGCTTTTGGAGAATCAAGGGCTTTAGCAA TTGCAAATATGGTTTTGGGGCTGAAGGAGATTCAAATTCGGGGAGAAATTCGTACAAATGTTGATTACACCATTGATCTT CTGAATGTAAATCCCTTAAATGATTACAAATTATTTTTTTATTTTTTGAAGGAAAAGATTACATTTTATAAGTGAATAAT ACGAAAGTGACTCTAGTCCAATACATGATCTCAGGTTGCAGACTACAGAGATAACAAAATCCACACAGGATGGCTGGACA GTAGAATTGCTATGCGGGTTAGAGCAGAGAGGCCTCCCTGGTATCTTTCTGTTGTTGGAGGGGCACTCTATGTAAGGAAA CTTGTTTTTTACATAATTTTTCTCCTTTTTTTCTTATTAGTTTCATATTGTGGAATTCATGGTTTGTGTTTCTTCCAATT AATACAGAAAGCTTCTGCTAGCAGTGCAGCTTTGGTTTCTGACTATATTGGCTATCTTGAAAAGGGGCAAATCCCTCCCA AGGTATGGTGTCTAAATGAGAGGAGCATCGAGTTCATATTGCATTTAGCTCCTTTCTTATTTTCTACTGATACTAATTTT ACTTTATAATTATGCCAGCATATATCTCTTGTCCATTCTCAAGTGTCTTTGAACATTGAAGGAAGCAAATATACGGTGTG TATTCTTATAAGTGTCAACTTGATTGACATTTTCTGTGGTTCTCTTACCTTGTTTGAGACTTATGCTATCATAGGAAATG ATTAATTTGTGTAATTCATATCTCATAAAACAATTTCTAGATTGACGTGATGCGAGGAGGACCTGGAAGTTATAAATTGA GATTGAATGAATCAGAAATAGAAGCTGAGATACATACTTTACGTGATGGAGGTTTGCTGATGCAGGCAAGTATTGTTCTC TGAATTGCCTTTGTATGTTGGTTTTCATAGTTTTCCATTACAGTTGACTATTCAGTACAGTCAACATTATATTATTCCAT GGTTTGTGAACATATGTGTGTGTTACTATTTCATCCATAATCAGAAATTTTCATTATATTTTCTTTGATATGGAAATGAA CTATGGCAGGTCTGGCTTCTAAATTTAAGTAATAGTATCCTAATTATATCATTAATCATATGGCTTAAAAAGGGAATATT AAGTACGCATATATGATTCCGGCTTCTGTCTAGTAGGTTCCTAAAAATATTCAGTATGAAAAAGAACTTCTGTTTGTAGA GATTTTCTAACTTGTTGATATCAGAAAAAATAAAAAAGGATGAGGTATTTCTATATAACTGATTTATGGTTTTTTTTTTT TATGATTTCGTCATTATCTCAGAGTTCAATGCATACCATATTTGGAACAAGATTTATTAAAGCATTAGATTGGTTTTTAG TATTGATAGGCATGTTTGAATAGAAGTGATGTGTGTGCCTATAGTGTATCTTTTCAACTCATTCTAATCATAAACTAGTA TTTATTGTGCTGCATCTATAATTTCTGTTTTACTTTAGCAAATTTTGCTAATTTTATGGTGTTTTATACTTAGCATCACT ATTTTATAACTGACCCTTTGTTCTATTCCTTATTCTTGTGTTCTTAACTAGTAGTTTTCACTTGTTACAGTTGGATGGTA ACAGTCATGTAATATACGTAGAGGAAGAAGCAGCTGGAACTCGCCTTCTAATTGATGGAAGGACTTGCTTGCTTCAGGTG AAATGAGTTTATTTTTACCTTCAAATTTCTATCTCTTTTTATTATGGCTGTGGTAAATTTCTAAACCCCTTTTGTTTGCA GAATGATCATGATCCGTCAAAGTTAATTGCAGAGACACCATGCAAGCTTCTGAGGTATTTGGTTGTGGATGACAGTCATG TTGATGCTGACACACCATATGCTGAAGTTGAGGTTATGAAGATGTGCATGCCTCTTCTTTCACCTGCTTCTGGGAAAATT CATTTCAAAATGTCTGAAGGTCAAGCAATGCAGGTATATCTACATAGGGAGTACAAGTGCTTGTCATGAACCAAACTATC GAAAAAATAAGCTATTGGGTAAAGAAACATGAATGATTTATATTATATTTCTAACCATCATCTCACGTAAGAGCCCATTA GGCTTGAAGCGCGAACAATGCACAGTGCCCTGTGCTGAAATTCAACTTCTAATTCAAATAATGGAGCACCAGGATCAAAC TCTAGACCACCACTTGGTCACAGAGGCTTTGATACTATTACCATGTCACTAACCAACTATCCAAAAATATTAAGCTATTG GGTGAAAACACATAAATGGTTTTAAATTATATTTCTAACAGTGCTTAAAATGAAAGAGGATAAGAAAAAATTGTCTTTTG CAGGCTGGTGAACTTATAGCAAGGCTTGATCTAGATGATCCTTCAGCTGTAAGAAAGGCGGAACCCTTCACTGGGAACTT CCCAGTCTTGGGTTTTCCTACTGCAATTTCAGGTAAAGTTCATCAGAAATGTGCCGCAAGCTTAAATGCTGCACGGATGA TTCTTGCTGGCTATGAGCACAATATTGATGAGGTGTGTACATTCTTCACCTTGATTCATTAAAAATGCAACTTGATAGTA GTTTTAGGTGGTTATGGTTCAGCCGTCATGGATAGGAGATTTTTGGATCCTAGTATTATTTCGAGACTTGTATCTTCTTG TCTTATTAAAAGCTAGATATCTGTCTCAGGTTGTGCAAAGTTTGCTCAATTGCCTTGACAGTCCTGAATTACCTTTCCTT CAATGGCAAGAGTGCTTCGCAGTTCTGGCAACTCGTCTTCCTAAAGAACTAAAAAATGAGGTAAACAGACACACTGCTAT TTTTTCCCTTGTGTTTAACATTCACACAGTGATCTAAGCTACCCTTAACTGTGTGCTTTGTCAGTTGGAATCAAAATATA AGGAGTTCGAGAGGATTTCAAGCTCCCAAATTGTTGATTTCCCTGCCAAATTATTGAAGGGAATTCTTGAAGTGAGTTGC TGTTCCTGAATTGCTCATTCAGATATTTTTCCTTTTAATTTGAATAATTCATTGGATGCATTTTATAATGTAGGCTCACC TTTCCTCCTGTCCCGAAAACGAAAAAGGAGCCCAAGAAAGACTAGTTGAACCTCTGTTGAGTCTTGTGAAGTCTTATGAG GGTGGAAGAGAGAGTCATGCCCATATAATTGTTCAATCCCTTTTTGAAGAGTATCTTTTTGTTGAAGAACTATTTAGTGA TAACATACAGGTTAGTATGAGCATTTGACTGCTTGTACTGATATGATGTGGGTAATTTTATCTGTTGAACAGGTTAACTT GGTGATATTAAAATATGATTTGTTAATTGTTGTTTTTCAGCCTTATTTAGTTTTTATTACATGCCAACTAATCATTTTCA ATTTTTGCGTTGTCTAAATCAAACTGTTTGATGTATTGTCCTGGGGTGTTGATATAAAAAATGGTCTTCATTTTTTTCCT GTTCATTCCAATGTGCTAATGATTGGTTTATCATGCAACAAATTCTAGAAAGCTAGGAACTACCTTAGCAGCTCTTTTAA TATAAAAAGTGTTTTCTATATCATTTAGTTTTGCGGAATATTTATTACCTTTCCCTTTCCCCTGATGGCTAGGCTGATGT AATTGAACGTCTCCGTCTTCAGTACAAGAAAGATTTGTTAAAGATTGTAGATATAGTGCTCTCTCACCAGGTATAAACTT TTATAACACGCTTAGCTTGAGTGATCTGCTTCCTTGATGTCTTGTTGACATTATACCACAATTATATCAACTGCATTTCA TGGATTTCAGGGTATCAAGAGTAAAAATAAGCTCATACTGCGACTGATGGATAAACTGGTTTACCCTAACCCTGCTGCCT ATAGGGATCAATTGATCCGTTTCTCTGCTCTCAACCATACAAACTATTCTCAGGTTGGACATTCTCCTAAGATATCCATG TCTAGCTGAATAATTGAGGGTTCTATCTTTTATGTCTTTCATGTTATATTTTATAGTGTCTCATCTACTGGGAGAGCATG TGAACTTTCTGTTTCATCTTGTGGATGATACCTTTAGGGCCTGTTTGATTTGCATAGACTTTTGTTTTCATTTCATATTT TTATATTCAATTACAAAATGTGACCTTGTTTTCATTCTATTTTGTTTTCAGATTAATGTAGTGGTAAAAGTGAAAATGAG TCTATTATTTACATTGTTTCCTGTACAAATCTTTAAAAGAAGTAAATGGAATCAAAACAACGTGGCATTTTTTGTAATTA ATAGTGAAAGTTAACCGTTTTTGCAAACCAAACAGGCCTAATTTTGTTGGAACATTTCGAGTAGAATCCTGATTTATAAT TATCTTGATGCAGTTGGCTCTTAAGGCAAGTCAACTGCTGGAACAAACTAAGTTGAGTGAACTACGATCCAGTATTGCTA GAAGTCTTTCTGAACTTGAGATGTTCACTGAGGATGGTGAAACTATTGATACTCCAAGGAGGAAGAGTGCCATTAATGAC CGAATGGAGGACCTTGTCAGTGCTCCTTTGGCAGTTGAAGATGCCCTTGTGGGTTTATTTGATCACAGTGATCACACCCT TCAAAGGAGGGTTGTGGAAACTTATATACGAAGGCTCTACCAGGTACATCACTTTACTACTATCATTTGATAACTTTTTC ATTATTGCGGGAAGGGGATTATTGTAGGCATTTCTAACTTCTAGTGTTTACTATAGCCATATCTCGTCAAAGGGAGTGTA AGGATGCAGTGGCACAGATCTGGTCTTATTGCTACATGGGAGTTCTTTGAAGGGTATATTGAACGGAAGAATGGGGTTGA AGACCAGACGGATAAAGCACTGGTGGAGGGACATAGTGAGAAAAAATGGGGAGTGATGGTTATTATTAAATCTCTACAGT TTTTGCCTGCAATTATCAGTGCTGCATTAAGGGAAGCAACTGGTAACCTTCCCAAAGAACTTACAAGTGGTTCTGGTGAC ACCAATATCTATGGTAATATGATGCATATTGGATTAGCGGGCATCAATAACCAAATGAGTTTACTGCAAGACAGGTACAG TTTTGAATTGTCAAAGCATCAATGGTTATAGACTGTAGCTTATAGTTTTAGATTTATAGACTAGTTCTAGTCTTTTAGAA TACATCTTCGGTCCTATTGGGTTGATGATATGGATCAGTATGGAACAATATCAAGTTTTTAGACTAGTATTATTTTTGTT AAAATATTGATCAGGACCTCCTTTGTCTTCCTCACAACCCACTTTTGGTCTTTTGCAGTGGTGACGAGGATCAGGCTCAA GAAAGAATCAATAAGTTAGCCAAAATACTCAAAGATCAGGAAGTAGGCTCCACAATACGCGCTGCAGGTGTTGGAGTAAT CAGCTGTATCATACAGAGGGATGAAGGGCGTGCCCCAATGAGACACTCCTTTCACTGGTCATCTGAAAAGCTCTACTATG CTGAGGAACCTCTGTTGCGTCACCTTGAACCTCCCCTATCCATTTATCTTGAATTGGTTAGTTCTTTCAATGTTCAAGTC CCCCAGTTTATTTTACAAGGTGGTAAAGAAGTACATTTCACTTGTATGCTTGATCTTAAACTCATTAACATTTTGTCTAA TTATAGGACAAACTTAAACACTATGAGAATATACGGTACACCCCATCTCGAGATCGTCAATGGCATCTATACACGGTTGT AGATCAGAAGCCACAACCAATTCAAAGAATGTTTCTCCGAACACTTCTAAGACAGCCAACCACAAATGAAGGATTCTCTT CTTATCAAAGGCTGAATGCAGAAACATCTCGTACCCAATTAAGTATGTCCTATACTTCAAGGAGCATCTTTAGGTCCTTG ATGACTGCAATGGAGGAGCTGGAACTTAATGCACATAATGCCGCCATCAAACCTGAACATGCTCATATGTATCTCTATAT CATACGCGAGCAACACATAGAAGACCTTGTGCCTTATCCCAAGTAAATGTGGCTGAAAGCTTCTCCATATACATTCTTTT AGCATATGATAAAAAGCTTTCATCCGTGTCTAACATTTTGTGTGTTATTTCCAGGAGAATTAACATCGATGCTGGTCGAG AAGAAGCAATAGTTGAGGCAATCTTGGAAGAACTGGCTCACGAAATCCATTCATCTGTTGGAGTAAGAATGCATAGATTA GGGGTGGTTGTGTGGGAAGTCAAGCTCTGGATGGCTGCTTGTGGACAGGCAAATGGTAATTGGAGGGTCATTGTAAACAA TGTGACTGGTCATACATGCACTGTACATGTAAGTCTTTGTGCACTTAGATTTTCAAGGAAATCTTTCCTTCATGTCAAAA AATTTCATTCAGTTTCTTAAAGGTTGCTTTTGGCAAGCAAAGTATTTACTAGCCTACAAATCAACAGCAACAATTACCAC TTGGTTAAACCTTGTACATATAAACCGGAAGAGTGGTTGTGTTATTAATGAAAAGGAGCGCTTTTCTATAAATTTGATGC TGAAATGCTAATTAGCATCTAGTGCTAATTTCATAGTCCATAATTAAGCTTTTAGTATTTATAATCATGAAGCATTTGAT AAATACAACTTGTTTGTCAGAAATTCATCTGTTTGAGTTTCTTAGTGCAGCAGAAAGTCAGAAGAATAAATTTACCTTTT TTGTTTGTTGGGTAGAATGTTATTCTCTTTTGAAAGAAAATTTTCTATTGAGTGAATTTCACTCGAGTTTCACTAAAAAA AGAGTGGGACCCTGGTTTTTAGTGGAACTCGTGTAGAATTCACCAGTAATAGAGTGTATTAGTGAGATTATGTTACTAGC ATTGCTCCTCTTTTTATGTCTTTAGAAAGTTCACTTTTCACTATGTAAGGATAGTCATAATCTTCTGCTTGTATTAAACA TTATGTTTTCAATTTAGATATATCTTGCCTTCTGTGTTGGCAGGATTATTAATGGAGTTATACATATATAATGATTTGAT TGTTACTTTACACAATTTCAGATATATAGAGAAGTAGAGGATGCCACCACTCATAAAGTGGTATACAGTTCAATCAACGT AAAGGGTCCTCTGCATGGTGTGCCAGTGAATGAGAACTATCAATCTTTGGGAGTTCTTGACCGGAAACGTCTTTCAGCAA GAAAGAATAGCACCACATACTGCTACGATTTTCCCCTGGTAATTGATATTTAATGAGTTTGGTTGAAACATAGTTTTCTT TTCTCAATGTATGTTTGTATGGGCCTGCATGTGTGTGTGCGCACCATTTCCTTCTAACAATATTTCTTTCTATCAGGCAT TTAAAAGAGCCTTGGAGCATTCATGGGAAATCCAACAGCCAGGAATTGAAAGAGCCAAAGATCTTCTAAAAGTAACAGAG CTTACGTTTGCTGACAAAGAAGGTAGCTGGGGTACTCCGCTTGTTCCTGTGGAGCGTCCTCCTGGTCTCAATGATGTCGG CATGGTAGCCTGGCTTCTGGAAATGTGTACCCCTGAATTCCCATCTGGAAGGACTATATTGGTTGTTTCAAATGATGTGA CCTTCAAGGCTGGTTCTTTTGGCCCAAAAGAGGATGCATTCTTTCGTGCAGTAACTGATCTTGCATGCGCAAGAAAACTG CCTTTAATTTATTTAGCAGCAAACTCTGGTGCCCGATTAGGTGTAGCTGAGGAAGTCAAAGCCTGTTTCAGAGTTGGTTG GTCTGAAGAATCTAAACCTGAGCAAGGTTTTCAGTATGTATATTTAACACCTGAGGATTATGCTCAGATTGGATCATCAG TGATAGCACATGAATTAAAGCTTGAGAGTGGAGAAACCAGATGGGTTATAGATACCATTGTTGGCAAGGAGGATGGCCTC GGGGTTGAAAACTTGAGTGGAAGCGGGGCCATTGCTGGTGCCTATTCTAAGGCATACAAGGAAACTTTTACATTGACCTA CGTGACTGGTAGGACTGTTGGAATCGGTGCTTATCTTGCAAGGCTCGGGATGAGGTGCATACAGAGGCTTGATCAGCCCA TAATTCTCACTGGTTTCTCAGCATTAAACAAACTTCTTGGTCGGGAGGTATACAGCTCTCACATGCAGCTTGGTGGACCT AAAATCATGGCAACTAATGGAGTTGTTCATCTTACAGTTTCAGATGACCTTGAAGGTGTCTCTTCTATTTTAAAGTGGCT TAGCTACATTCCTTCCCATGTAGGTGGTGTGCTTCCCATTGTAAAGCCCCTTGATCCTCCAGAGAGACTGGTGGAGTATT TCCCAGAGAATTCGTGCGATCCTCGTGCCGCCATTTCGGGAACTCTGGATAGTAACGGAAAGTGGCTGGGAGGCATTTTT GACAAGGATAGCTTTGTGGAGACGCTAGATGGGTGGGCGAGGACGGTTGTTACAGGAAGAGCAAAGCTTGGAGGAATCCC TGTGGGAATTGTTGCTGTAGAAACACAGACAGTTATGCAAATAATACCTGCTGATCCGGGCCAGCTTGATTCTCATGAGC GGGTTGTTCCTCAAGCCGGGCAAGTGTGGTTTCCTGATTCCGCAACTAAGACGGCTCAAGCAATACTGGATTTCAACAAA GAAGAGCTCCCGCTTTTCATTATGGCAAACTGGAGAGGCTTTTCAGGTGGGCAAAGGGACCTTTTTGAAGGAATCCTTCA GGCCGGTTCGACTATTGTGGAGAACCTGAGAACATACAAGCAGCCAATCTTCGTATACATCCCTATGATGGGTGAACTTC GTGGAGGGGCGTGGGTTGTTGTTGACAGTCGAATCAATTCAGACCACATTGAAATGTATGCCGAACGAACAGCTAAAGGT AATGTCCTTGAGCCAGAAGGAATGATTGAGATCAAATTCAGAACAAGAGAATTGTTGGAGTGTATGGGTAGACTTGATCA ACAGTTGATAACCCTGAAGGCGAAACTTCAGGAAGCCAAGACTAACAGAGACCCTGGTACCATTGAGTCCCTGCAGCAGC AGATTAAATCCCGTGAGAAACAGCTTTTGCCTATGTATACCCAGATAGCTACCAAGTTTGCTGAACTTCATGATACTTCC CTGAGAATGGCTGCAAAGGGTGTAATCAGAGAAGTTCTGGACTGGGCTAACTCTCGTGCTGTCTTCTACCGGCGACTGCA CCGAAGAGTTGGCGAGCATTCACTGATCAACAGTGTGAGAGATGCTGCTGGGGACCAATTGTCTCACACGTCTGCGATGA ACATGATCAAAAGCTGGTATTTGAGTTCTGATATTGCCAAAGGAAGAGAAGAGGCTTGGTTGGATGATGAAGCCTTCTTC AGATGGAAGGCTGATCCTGCAAATTATGAGGATAAACTGAAGGAATTGCGCGTCCAGAAACTGTTGCTTCAATTGACAAA TATTGGGGACTCAGCTCTAGATTTGCAAGCTCTACCTCAAGGTCTTGCTGCCCTTTTAAGCAAGGTAATGAACTTTTTCA TTTCACTAACTGTGTCACTGTTATTTGGTTACTATTAGAATTCGGGTTAAGAGCTAGGACTAACTCTACCTTCGAGCTCC GGGGTGAGGGTTACTCTACTCTGACTTATTTAGTCATTAACTCTAGTCACTGTAGGACCTTAGCAGTTACATTAATTGTT TGATGTTTCATCATTTTGCTTCTTAATACCTTGAAACCTGAAGATGATTATTTGTAATCTTATGCAGTTGGAGGCATCAA GTCGTGACAAATTGACTGATGAACTTCGCAAGGTACTTGGATAG
CDS sequence (LotjaGi1g1v0246300.5) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCGACCATGGGGGGTGGGAATGGATATATAAATGGTGTACTCCCCAACAAGCACCTTGCTACAATATCTGAAGTAAC TGAATTCTGCAACGCCCTTGGGGGGAACAGGCCAATTCATAGCATATTGATTGCAAACAATGGAATGGCAGCGGTCAAGT TCATGCGCAGTGTTAGGAGCTGGGCCTATGAGGCATTTGGCACGGAGAAGGCTATCTTGTTGGTTGCCATGGCTACACCA GAGGATATGAGAATCAATGCAGAACATATCAGAATAGCTGATCAATTTGTGGAAGTACCTGGTGGGACCAATAACAATAA CTATGCCAATGTGCAGCTTATTGTCGAGATGGCTGAGATAACTCATGTTGATGCGGTGTGGCCTGGTTGGGGTCATGCAT CCGAGAATCCTGAGCTTCCTGATGCACTAAAAGAAAAAGGAATTGTATTTCTTGGACCTCCTGCTGTATCTATGGCAGCA TTGGGAGATAAAATTGGTTCGTCTTTGATAGCTCAAGCAGCTTCTGTGCCAACCCTTCCATGGAGTGGTTCTCATGTGAA AATTCCTCCTGACAGTTCATTGATTACTATTCCTGATGAAATTTATCGGGAAGCGTGTGTTTATACCACGGAAGAAGCAA TTGCCAGTTGTCAAGTTGTAGGATACCCTGCAATGATCAAAGCATCTTGGGGTGGTGGTGGTAAAGGAATAAGAAAGGTT CATAATGATGATGAGGTAAGGGCATTGTTCAAGCAAGTTCAAGGTGAAGTTCCAGGGTCACCTATATTTATAATGAAGGT CGCATCCCAGAGCCGACATCTAGAAGTCCAGTTAGTTTGTGACCAGTATGGAAATGTTGCAGCTTTACATAGTCGTGATT GCAGTGTTCAAAGGAGGCATCAAAAGATTATCGAGGAGGGTCCTATTACTGTAGCACCTCAGGCAACGGTGAAACAACTA GAGCAGGCAGCTAGAAGATTGGCTAAATCTGTAAATTATGTTGGGGCAGCTACTGTTGAGTATCTATATAGTATGGAAAC TGGCGAGTACTACTTTTTAGAGTTGAACCCCCGACTACAGGTTGAGCATCCTGTTACTGAATGGATAGCAGAGATAAATC TGCCAGCAGCACAAGTTGCCATTGGGATGGGAATCCCTCTCTGGCAAATTCCTGAGATAAGGCGTTTCTATGGGGTGGAA CACGGTGGAGGGAATGATGCATGGAGGAAAACATCAGTTTCAGCTACTCCTTTTGATTTTGACAAAGCAGAATCTACTAG GCCAAAAGGTCATTGTGTGGCTGTTCGAGTCACTAGTGAGGACCCTGATGATGGTTTTAAGCCTACTGGTGGGAAAGTGC AGGAGCTCAGCTTTAAAAGTAAGCCAAATGTGTGGGCATACTTCTCTGTTAAGTCTGGAGGAGGGATCCATGAATTCTCA GATTCTCAGTTTGGGCATGTTTTTGCTTTTGGAGAATCAAGGGCTTTAGCAATTGCAAATATGGTTTTGGGGCTGAAGGA GATTCAAATTCGGGGAGAAATTCGTACAAATGTTGATTACACCATTGATCTTCTGAATGTTGCAGACTACAGAGATAACA AAATCCACACAGGATGGCTGGACAGTAGAATTGCTATGCGGGTTAGAGCAGAGAGGCCTCCCTGGTATCTTTCTGTTGTT GGAGGGGCACTCTATAAAGCTTCTGCTAGCAGTGCAGCTTTGGTTTCTGACTATATTGGCTATCTTGAAAAGGGGCAAAT CCCTCCCAAGCATATATCTCTTGTCCATTCTCAAGTGTCTTTGAACATTGAAGGAAGCAAATATACGATTGACGTGATGC GAGGAGGACCTGGAAGTTATAAATTGAGATTGAATGAATCAGAAATAGAAGCTGAGATACATACTTTACGTGATGGAGGT TTGCTGATGCAGTTGGATGGTAACAGTCATGTAATATACGTAGAGGAAGAAGCAGCTGGAACTCGCCTTCTAATTGATGG AAGGACTTGCTTGCTTCAGAATGATCATGATCCGTCAAAGTTAATTGCAGAGACACCATGCAAGCTTCTGAGGTATTTGG TTGTGGATGACAGTCATGTTGATGCTGACACACCATATGCTGAAGTTGAGGTTATGAAGATGTGCATGCCTCTTCTTTCA CCTGCTTCTGGGAAAATTCATTTCAAAATGTCTGAAGGTCAAGCAATGCAGGCTGGTGAACTTATAGCAAGGCTTGATCT AGATGATCCTTCAGCTGTAAGAAAGGCGGAACCCTTCACTGGGAACTTCCCAGTCTTGGGTTTTCCTACTGCAATTTCAG GTAAAGTTCATCAGAAATGTGCCGCAAGCTTAAATGCTGCACGGATGATTCTTGCTGGCTATGAGCACAATATTGATGAG GTTGTGCAAAGTTTGCTCAATTGCCTTGACAGTCCTGAATTACCTTTCCTTCAATGGCAAGAGTGCTTCGCAGTTCTGGC AACTCGTCTTCCTAAAGAACTAAAAAATGAGTTGGAATCAAAATATAAGGAGTTCGAGAGGATTTCAAGCTCCCAAATTG TTGATTTCCCTGCCAAATTATTGAAGGGAATTCTTGAAGCTCACCTTTCCTCCTGTCCCGAAAACGAAAAAGGAGCCCAA GAAAGACTAGTTGAACCTCTGTTGAGTCTTGTGAAGTCTTATGAGGGTGGAAGAGAGAGTCATGCCCATATAATTGTTCA ATCCCTTTTTGAAGAGTATCTTTTTGTTGAAGAACTATTTAGTGATAACATACAGGCTGATGTAATTGAACGTCTCCGTC TTCAGTACAAGAAAGATTTGTTAAAGATTGTAGATATAGTGCTCTCTCACCAGGGTATCAAGAGTAAAAATAAGCTCATA CTGCGACTGATGGATAAACTGGTTTACCCTAACCCTGCTGCCTATAGGGATCAATTGATCCGTTTCTCTGCTCTCAACCA TACAAACTATTCTCAGTTGGCTCTTAAGGCAAGTCAACTGCTGGAACAAACTAAGTTGAGTGAACTACGATCCAGTATTG CTAGAAGTCTTTCTGAACTTGAGATGTTCACTGAGGATGGTGAAACTATTGATACTCCAAGGAGGAAGAGTGCCATTAAT GACCGAATGGAGGACCTTGTCAGTGCTCCTTTGGCAGTTGAAGATGCCCTTGTGGGTTTATTTGATCACAGTGATCACAC CCTTCAAAGGAGGGTTGTGGAAACTTATATACGAAGGCTCTACCAGCCATATCTCGTCAAAGGGAGTGTAAGGATGCAGT GGCACAGATCTGGTCTTATTGCTACATGGGAGTTCTTTGAAGGGTATATTGAACGGAAGAATGGGGTTGAAGACCAGACG GATAAAGCACTGGTGGAGGGACATAGTGAGAAAAAATGGGGAGTGATGGTTATTATTAAATCTCTACAGTTTTTGCCTGC AATTATCAGTGCTGCATTAAGGGAAGCAACTGGTAACCTTCCCAAAGAACTTACAAGTGGTTCTGGTGACACCAATATCT ATGGTAATATGATGCATATTGGATTAGCGGGCATCAATAACCAAATGAGTTTACTGCAAGACAGTGGTGACGAGGATCAG GCTCAAGAAAGAATCAATAAGTTAGCCAAAATACTCAAAGATCAGGAAGTAGGCTCCACAATACGCGCTGCAGGTGTTGG AGTAATCAGCTGTATCATACAGAGGGATGAAGGGCGTGCCCCAATGAGACACTCCTTTCACTGGTCATCTGAAAAGCTCT ACTATGCTGAGGAACCTCTGTTGCGTCACCTTGAACCTCCCCTATCCATTTATCTTGAATTGGACAAACTTAAACACTAT GAGAATATACGGTACACCCCATCTCGAGATCGTCAATGGCATCTATACACGGTTGTAGATCAGAAGCCACAACCAATTCA AAGAATGTTTCTCCGAACACTTCTAAGACAGCCAACCACAAATGAAGGATTCTCTTCTTATCAAAGGCTGAATGCAGAAA CATCTCGTACCCAATTAAGTATGTCCTATACTTCAAGGAGCATCTTTAGGTCCTTGATGACTGCAATGGAGGAGCTGGAA CTTAATGCACATAATGCCGCCATCAAACCTGAACATGCTCATATGTATCTCTATATCATACGCGAGCAACACATAGAAGA CCTTGTGCCTTATCCCAAGAGAATTAACATCGATGCTGGTCGAGAAGAAGCAATAGTTGAGGCAATCTTGGAAGAACTGG CTCACGAAATCCATTCATCTGTTGGAGTAAGAATGCATAGATTAGGGGTGGTTGTGTGGGAAGTCAAGCTCTGGATGGCT GCTTGTGGACAGGCAAATGGTAATTGGAGGGTCATTGTAAACAATGTGACTGGTCATACATGCACTGTACATATATATAG AGAAGTAGAGGATGCCACCACTCATAAAGTGGTATACAGTTCAATCAACGTAAAGGGTCCTCTGCATGGTGTGCCAGTGA ATGAGAACTATCAATCTTTGGGAGTTCTTGACCGGAAACGTCTTTCAGCAAGAAAGAATAGCACCACATACTGCTACGAT TTTCCCCTGGCATTTAAAAGAGCCTTGGAGCATTCATGGGAAATCCAACAGCCAGGAATTGAAAGAGCCAAAGATCTTCT AAAAGTAACAGAGCTTACGTTTGCTGACAAAGAAGGTAGCTGGGGTACTCCGCTTGTTCCTGTGGAGCGTCCTCCTGGTC TCAATGATGTCGGCATGGTAGCCTGGCTTCTGGAAATGTGTACCCCTGAATTCCCATCTGGAAGGACTATATTGGTTGTT TCAAATGATGTGACCTTCAAGGCTGGTTCTTTTGGCCCAAAAGAGGATGCATTCTTTCGTGCAGTAACTGATCTTGCATG CGCAAGAAAACTGCCTTTAATTTATTTAGCAGCAAACTCTGGTGCCCGATTAGGTGTAGCTGAGGAAGTCAAAGCCTGTT TCAGAGTTGGTTGGTCTGAAGAATCTAAACCTGAGCAAGGTTTTCAGTATGTATATTTAACACCTGAGGATTATGCTCAG ATTGGATCATCAGTGATAGCACATGAATTAAAGCTTGAGAGTGGAGAAACCAGATGGGTTATAGATACCATTGTTGGCAA GGAGGATGGCCTCGGGGTTGAAAACTTGAGTGGAAGCGGGGCCATTGCTGGTGCCTATTCTAAGGCATACAAGGAAACTT TTACATTGACCTACGTGACTGGTAGGACTGTTGGAATCGGTGCTTATCTTGCAAGGCTCGGGATGAGGTGCATACAGAGG CTTGATCAGCCCATAATTCTCACTGGTTTCTCAGCATTAAACAAACTTCTTGGTCGGGAGGTATACAGCTCTCACATGCA GCTTGGTGGACCTAAAATCATGGCAACTAATGGAGTTGTTCATCTTACAGTTTCAGATGACCTTGAAGGTGTCTCTTCTA TTTTAAAGTGGCTTAGCTACATTCCTTCCCATGTAGGTGGTGTGCTTCCCATTGTAAAGCCCCTTGATCCTCCAGAGAGA CTGGTGGAGTATTTCCCAGAGAATTCGTGCGATCCTCGTGCCGCCATTTCGGGAACTCTGGATAGTAACGGAAAGTGGCT GGGAGGCATTTTTGACAAGGATAGCTTTGTGGAGACGCTAGATGGGTGGGCGAGGACGGTTGTTACAGGAAGAGCAAAGC TTGGAGGAATCCCTGTGGGAATTGTTGCTGTAGAAACACAGACAGTTATGCAAATAATACCTGCTGATCCGGGCCAGCTT GATTCTCATGAGCGGGTTGTTCCTCAAGCCGGGCAAGTGTGGTTTCCTGATTCCGCAACTAAGACGGCTCAAGCAATACT GGATTTCAACAAAGAAGAGCTCCCGCTTTTCATTATGGCAAACTGGAGAGGCTTTTCAGGTGGGCAAAGGGACCTTTTTG AAGGAATCCTTCAGGCCGGTTCGACTATTGTGGAGAACCTGAGAACATACAAGCAGCCAATCTTCGTATACATCCCTATG ATGGGTGAACTTCGTGGAGGGGCGTGGGTTGTTGTTGACAGTCGAATCAATTCAGACCACATTGAAATGTATGCCGAACG AACAGCTAAAGGTAATGTCCTTGAGCCAGAAGGAATGATTGAGATCAAATTCAGAACAAGAGAATTGTTGGAGTGTATGG GTAGACTTGATCAACAGTTGATAACCCTGAAGGCGAAACTTCAGGAAGCCAAGACTAACAGAGACCCTGGTACCATTGAG TCCCTGCAGCAGCAGATTAAATCCCGTGAGAAACAGCTTTTGCCTATGTATACCCAGATAGCTACCAAGTTTGCTGAACT TCATGATACTTCCCTGAGAATGGCTGCAAAGGGTGTAATCAGAGAAGTTCTGGACTGGGCTAACTCTCGTGCTGTCTTCT ACCGGCGACTGCACCGAAGAGTTGGCGAGCATTCACTGATCAACAGTGTGAGAGATGCTGCTGGGGACCAATTGTCTCAC ACGTCTGCGATGAACATGATCAAAAGCTGGTATTTGAGTTCTGATATTGCCAAAGGAAGAGAAGAGGCTTGGTTGGATGA TGAAGCCTTCTTCAGATGGAAGGCTGATCCTGCAAATTATGAGGATAAACTGAAGGAATTGCGCGTCCAGAAACTGTTGC TTCAATTGACAAATATTGGGGACTCAGCTCTAGATTTGCAAGCTCTACCTCAAGGTCTTGCTGCCCTTTTAAGCAAGTTG GAGGCATCAAGTCGTGACAAATTGACTGATGAACTTCGCAAGGTACTTGGATAG
Protein sequence (LotjaGi1g1v0246300.5) extracted from Lotus japonicus Gifu v1.2 Proteins.
MATMGGGNGYINGVLPNKHLATISEVTEFCNALGGNRPIHSILIANNGMAAVKFMRSVRSWAYEAFGTEKAILLVAMATP EDMRINAEHIRIADQFVEVPGGTNNNNYANVQLIVEMAEITHVDAVWPGWGHASENPELPDALKEKGIVFLGPPAVSMAA LGDKIGSSLIAQAASVPTLPWSGSHVKIPPDSSLITIPDEIYREACVYTTEEAIASCQVVGYPAMIKASWGGGGKGIRKV HNDDEVRALFKQVQGEVPGSPIFIMKVASQSRHLEVQLVCDQYGNVAALHSRDCSVQRRHQKIIEEGPITVAPQATVKQL EQAARRLAKSVNYVGAATVEYLYSMETGEYYFLELNPRLQVEHPVTEWIAEINLPAAQVAIGMGIPLWQIPEIRRFYGVE HGGGNDAWRKTSVSATPFDFDKAESTRPKGHCVAVRVTSEDPDDGFKPTGGKVQELSFKSKPNVWAYFSVKSGGGIHEFS DSQFGHVFAFGESRALAIANMVLGLKEIQIRGEIRTNVDYTIDLLNVADYRDNKIHTGWLDSRIAMRVRAERPPWYLSVV GGALYKASASSAALVSDYIGYLEKGQIPPKHISLVHSQVSLNIEGSKYTIDVMRGGPGSYKLRLNESEIEAEIHTLRDGG LLMQLDGNSHVIYVEEEAAGTRLLIDGRTCLLQNDHDPSKLIAETPCKLLRYLVVDDSHVDADTPYAEVEVMKMCMPLLS PASGKIHFKMSEGQAMQAGELIARLDLDDPSAVRKAEPFTGNFPVLGFPTAISGKVHQKCAASLNAARMILAGYEHNIDE VVQSLLNCLDSPELPFLQWQECFAVLATRLPKELKNELESKYKEFERISSSQIVDFPAKLLKGILEAHLSSCPENEKGAQ ERLVEPLLSLVKSYEGGRESHAHIIVQSLFEEYLFVEELFSDNIQADVIERLRLQYKKDLLKIVDIVLSHQGIKSKNKLI LRLMDKLVYPNPAAYRDQLIRFSALNHTNYSQLALKASQLLEQTKLSELRSSIARSLSELEMFTEDGETIDTPRRKSAIN DRMEDLVSAPLAVEDALVGLFDHSDHTLQRRVVETYIRRLYQPYLVKGSVRMQWHRSGLIATWEFFEGYIERKNGVEDQT DKALVEGHSEKKWGVMVIIKSLQFLPAIISAALREATGNLPKELTSGSGDTNIYGNMMHIGLAGINNQMSLLQDSGDEDQ AQERINKLAKILKDQEVGSTIRAAGVGVISCIIQRDEGRAPMRHSFHWSSEKLYYAEEPLLRHLEPPLSIYLELDKLKHY ENIRYTPSRDRQWHLYTVVDQKPQPIQRMFLRTLLRQPTTNEGFSSYQRLNAETSRTQLSMSYTSRSIFRSLMTAMEELE LNAHNAAIKPEHAHMYLYIIREQHIEDLVPYPKRINIDAGREEAIVEAILEELAHEIHSSVGVRMHRLGVVVWEVKLWMA ACGQANGNWRVIVNNVTGHTCTVHIYREVEDATTHKVVYSSINVKGPLHGVPVNENYQSLGVLDRKRLSARKNSTTYCYD FPLAFKRALEHSWEIQQPGIERAKDLLKVTELTFADKEGSWGTPLVPVERPPGLNDVGMVAWLLEMCTPEFPSGRTILVV SNDVTFKAGSFGPKEDAFFRAVTDLACARKLPLIYLAANSGARLGVAEEVKACFRVGWSEESKPEQGFQYVYLTPEDYAQ IGSSVIAHELKLESGETRWVIDTIVGKEDGLGVENLSGSGAIAGAYSKAYKETFTLTYVTGRTVGIGAYLARLGMRCIQR LDQPIILTGFSALNKLLGREVYSSHMQLGGPKIMATNGVVHLTVSDDLEGVSSILKWLSYIPSHVGGVLPIVKPLDPPER LVEYFPENSCDPRAAISGTLDSNGKWLGGIFDKDSFVETLDGWARTVVTGRAKLGGIPVGIVAVETQTVMQIIPADPGQL DSHERVVPQAGQVWFPDSATKTAQAILDFNKEELPLFIMANWRGFSGGQRDLFEGILQAGSTIVENLRTYKQPIFVYIPM MGELRGGAWVVVDSRINSDHIEMYAERTAKGNVLEPEGMIEIKFRTRELLECMGRLDQQLITLKAKLQEAKTNRDPGTIE SLQQQIKSREKQLLPMYTQIATKFAELHDTSLRMAAKGVIREVLDWANSRAVFYRRLHRRVGEHSLINSVRDAAGDQLSH TSAMNMIKSWYLSSDIAKGREEAWLDDEAFFRWKADPANYEDKLKELRVQKLLLQLTNIGDSALDLQALPQGLAALLSKL EASSRDKLTDELRKVLG
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 |
---|---|---|---|---|---|---|
PANTHER | 8 | 2257 | 2250 | 0.0 | – | |
PANTHER | 8 | 2257 | 2250 | 0.0 | – | |
Gene3D | 10 | 163 | 154 | 9.0E-62 | – | |
SUPERFAMILY | 21 | 161 | 141 | 6.71E-49 | ||
ProSiteProfiles | 38 | 545 | 508 | 46.456 | ||
Pfam | 39 | 158 | 120 | 3.3E-31 | ||
SUPERFAMILY | 162 | 400 | 239 | 5.13E-63 | – | |
Gene3D | 164 | 205 | 42 | 1.4E-10 | – | |
ProSiteProfiles | 191 | 383 | 193 | 32.329 | ||
Gene3D | 206 | 268 | 63 | 1.1E-27 | ||
Pfam | 206 | 388 | 183 | 5.2E-46 | ||
Gene3D | 269 | 544 | 276 | 3.4E-104 | – | |
ProSitePatterns | 352 | 359 | 8 | - | ||
SUPERFAMILY | 429 | 542 | 114 | 2.3E-28 | ||
SMART | 434 | 541 | 108 | 3.2E-19 | ||
Pfam | 435 | 541 | 107 | 3.6E-21 | ||
ProSiteProfiles | 672 | 746 | 75 | 18.235 | ||
Gene3D | 676 | 747 | 72 | 4.9E-22 | – | |
SUPERFAMILY | 678 | 748 | 71 | 1.7E-8 | ||
CDD | 681 | 745 | 65 | 9.97245E-13 | – | |
Pfam | 684 | 745 | 62 | 1.2E-8 | ||
ProSitePatterns | 703 | 720 | 18 | - | ||
Pfam | 746 | 1489 | 744 | 1.4E-183 | ||
Gene3D | 1496 | 1822 | 327 | 7.9E-138 | – | |
ProSiteProfiles | 1496 | 1833 | 338 | 59.92 | ||
SUPERFAMILY | 1497 | 1823 | 327 | 2.77E-77 | ||
Pfam | 1589 | 2140 | 552 | 8.0E-163 | ||
Gene3D | 1648 | 1709 | 62 | 7.9E-138 | – | |
Gene3D | 1827 | 2226 | 400 | 5.3E-156 | – | |
SUPERFAMILY | 1828 | 2216 | 389 | 1.21E-105 | ||
ProSiteProfiles | 1837 | 2152 | 316 | 52.405 | ||
Coils | 2053 | 2073 | 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 | Acetyl-CoA carboxylase activity | Catalysis of the reaction: ATP + acetyl-CoA + HCO3- = ADP + phosphate + malonyl-CoA. | ||
Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
Biological process | Fatty acid biosynthetic process | The chemical reactions and pathways resulting in the formation of a fatty acid, any of the aliphatic monocarboxylic acids that can be liberated by hydrolysis from naturally occurring fats and oils. Fatty acids are predominantly straight-chain acids of 4 to 24 carbon atoms, which may be saturated or unsaturated; branched fatty acids and hydroxy fatty acids also occur, and very long chain acids of over 30 carbons are found in waxes. | ||
Molecular function | Ligase activity | Catalysis of the joining of two substances, or two groups within a single molecule, with the concomitant hydrolysis of the diphosphate bond in ATP or a similar triphosphate. | ||
Molecular function | Metal ion binding | Interacting selectively and non-covalently with any metal ion. |
Expression pattern of LotjaGi1g1v0246300.5, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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