Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0196200
Transcript ID	LotjaGi1g1v0196200.5
Related isoforms 6	LotjaGi1g1v0196200.1 LotjaGi1g1v0196200.2 LotjaGi1g1v0196200.3 LotjaGi1g1v0196200.4 LotjaGi1g1v0196200.6 LotjaGi1g1v0196200.7
Lotus japonicus genome version	Gifu v1.2
Description	Amine oxidase; TAIR: AT2G42490.1 Copper amine oxidase family protein; Swiss-Prot: sp\|Q07121\|AMO1_ARTS1 Primary amine oxidase; TrEMBL-Plants: tr\|G7J4S8\|G7J4S8_MEDTR Amine oxidase; Found in the gene: LotjaGi1g1v0196200
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:39105974..39118545) extracted from Lotus japonicus Gifu genome v1.2.

TTGACATACAACACACTCTCTCAGTCAGTGATTGCTTTATTTTCTGAAAAGTCATCAAATCGACCACTTTTTTAAAAGGG CGTTGATCCTTTCAATCATTGATCAAAAGTGTGTTAAAGAAAAGATTGGCAAAAATGATTTTTTCCCATTTTTCATGACA CCCAATTGCTGAAAACGTAAATTAGTAATCATAAAATGATTAACTTGGTGCTGTTTTGTGTGAAATATTGTGGCCAGCTT GCATGCACCTTCTTACGTATGCTTAATGGCAACTCTTGTTATATTACAGGAATCATTCCAATGATAAGGGCCCAGTCAAG CCACCCTTTGGACCCTTTATCCGCAGCTGAAATCTCTGTAGCAGTGGCAACTGTTAGGGCTGCTGGAGCAACTCCTGAGG TATTTAGCTATACTATGAGTTGTTTGTTTAATAGAATGAATAAATATAGTTTGCATAGTTTGACATTATTAGAAAATTTA AGTTGAGTTAAAGCAGTTGTTACTTATGATGTCTCTTCTCCCCCCAATTGTTTTTATGTCTTACAGCTTAGAGATAGCAT GCGCTTCATCGAAGCAGTTTTGCTGGAACCAGATAAACATGTCGTTGCACTGGCAGATGCTTATTTCTTTCCACCTTTCC AACCATCGTTACTTCCTAGGTTGAAAGGAGGGCCTGTAATTCCCACCAAGCTCCCTCCAAGATGTGCTAGACTTGTGGTT TACAATAAGAAATCAAATGAGACTGCTGTGTGGATTGTTGAATTATCACAAGTGCATGCAGTAACACGAGGTGGTCATCA CCGAGGGAAAGTAATTTCATCATATGTTGTTCCTGATGTTCAACCTCCAATGGTATGTTCGTCTTTTACTCGTGACTTCT GATTCCTTTTTAATGATTTGTGTACAATTACAGTGTTCTTGAAATAATTTAACATCACTGTGTCCTTTCAATTTGTTTTG CATTGAACCTTGTGCACAGACAGTTTGAGAAACAATTGTAGAATATGTAGCATAAATGGAAACTGTGTCTGTAGTAGGAT GACTTGCTCTTATTTATATGTATAGAAAATGACTGAGCGTTTCATTACGAGTCTTTAATAACATATCAGATTAAATTAAA ATTTTGGAATTCAAATGGAACTAAATATCCCCCCTTTACCTTAAGGAAAAACAAAGTAATGGCTGGTTTGTCAGATTGGT AAAATCTGAAATTGGATGTCCAAGATTTGTTATGAAAGATAATCATAAGTGTGGAGCTTTTGAAGATAGTTATTTATAAA TGCACATTTGGATGCACATTTGTTTTGTTCAATATATAGACATCTCCAGACACATTTGTTGAGCTGCGACAGTTCTAATA TGCTGCATTTCTCAATTACATATTATTCTGTCTTCAGGATGCTGTTGAATATGCAGAATGTGAGGCTGTTGTTAAAAGTT ATCCTCCTTTTATAGAGGCTATGAAGAAAAGGGGTATAGATGACATGGACCTTGTAATGGTTGATCCCTGGTAAATTTAA TTGGACATCTATTTATTGAAAGCCTCTTGTCTGGAGATGTTTCTGATTGTTCCTATTCTTTTTCTTTGAATTTTCTTTAT TGAAACTTTGTTCTTAATAATTCTGCTGCAGGTGTGTTGGGTATTACAGTGAAGCTGATGCTCCTGGTCGAAGACTTGCT AAACCACTCTTATTTTGTCGATCTGAGAGTGACTGCCCTATGGAAAATGGTTATGCCCGCCCAGTTGAGGGAATCTATGT TCTTGTTGATATGCAAAACATGGTAGTGATTGAGTTTGAAGACCGCAAACTTGTTCCTCTGCCTCCGGTTGATCCCTTGA GGAATTATACTCCCGGAGAAACCAGAGGTGGAGCTGATAGAAGTGATGTAAAACCCTTGCAAATTATTCAGCCTGAAGGT CCAAGCTTTCGTGTCAATGGGTATTATGTTGAATGGCAGAAGGTAAATGCTAAATTGATTGGTTTGTCTTTGAAAATGTC AAAGAGTTGATGCGTTGTAACTATTAACCACTAAATTTGCAACTTGATATATAACTGGTCTCTGTTCTTTATCTGATAAC AGTGGAATTTTCGTATTGGATTCACCCCCAAAGAAGGTTTGGTCATATATTCTGTTGCATATGTTGATGGAAGTCGAGGA CGAAGGCCTGTTGCTCATAGGCTGGCTTTTGTGGAGATGGTTGTACCCTATGGCGATCCAAATGACCCGCATTACAGAAA AAATGCTTTTGATGCTGGGGAAGATGGCTTGGGGAAAAATGCACATTCTCTCAAGAAGGTATTAGAGTTCCTTGCATATA TGTCCTTTTGTATTGGTATTATTTGACATCTTATTTTTTCTGATGGATTCCATTTATCTAAAGTCAAAGTTTATCATTAT AGGGGTGTGATTGTTTGGGCTACATCAAATATTTTGATGCTCACTTCACTAATTTCACTGGTGGAGTGGAAACAATTGAA AATTGTGTATGTTTGCATGAAGAGGATCATGGGATTCTCTGGAAACATCAAGACTGGAGAACTGGCTTAGCAGAAGTCCG AAGGTCTAGAAGACTTTCAGTTTCTTTTTTATGTACTGTGGCTAATTATGAGTATGCATTCTTTTGGCACTTTTATCAGG CAAGTAGGTTATCATCCTTTGAAGAGATAAATATGCTTACATTGATGACATTTTTAATCGAACTGTTTATAATTATTGCA TAAAATTCACAAATATTCAGTCTCCTAGCATCCTTTGGATTGTAAGACTTTGCATCTTTCTGCCATTCTAATTAGATGTA ATGTTTTCTCAAAGACTTACATCATGTAGATATATTTTCTTGATTTTACTTTTGACGAGCCACTGGTGTATTGTCTTTTT TCTATGTTTTCTGTAATCGTGTTGTTACGTGGTATTTAACTCTATTGAAAACAATGGCACATGTGATTTCAGGATGGAAA GATTGAAGCTGAAGTCAAGCTAACTGGAGTTCTCAGCCTAGGAGCCTTGATGCCTGGAGAATTTCGAAAATATGGTACTA TGATTGCACCGGGTCTCTATGCTCCTGTTCATCAACACTTCTTTGTTGCTCGTATGGACATGTCTGTTGATTCTAAACCC GGTGAAGCATTGAATCAGGTAACTTGAATTGGATTGCAAAATTTTGCGATTCTAAGTTATGCAATTGCAGTTTATGTTGC TGCTATTTCTGTCTGTAGTGTAAATATATTTGTTACGCAAGAGAATTCCAGTGGTGTGCCTTAGTACTAGTTTAGTAGTC AATGAATCACATAAAGTGGTGATCTGAACAGTCCTGATGGCAGAGTGAGTTTTTGATGAACTCACAGAAATGCTACTGGT TTATTGAAGAAAACAGAGACTCAATCCTCAAGTACTGAGGTTGAATTCTCAGGAATTACACAGAAGAATCAAGAACACTA ACAAGAACCCTAGCCTCTGGAATTCGAGATCCAGAATCTCCCAAATCCTAACCAACTGAATAACTACCTGTAACTTCCCC CTTTCCCTTATTTATACTACTCAGTAGTTCTAACAGAATCACAACTATTAACAGAATTAGCCAGCTGTACTCTAACAGAA ACAACTAACCATGCCAGCTGTTTATTAACAGATCAACTAACAATAACAGTCACACTAAGTTGTGACTTTCCTCTTGTTTC TTCTCTCATACACCTTCTTAATTGAAGGTCTATGCTCATCAATACCCCCCCCTAAAAGTTTCACCTTGTCCTCAAGGGGA AAATCAGGAAAAGCTTCATGGAGCTGGGCAGCAGATTCCCAACTGTTCTCACAAGCAGGTAAAGAGTGCCACTGAATTAG CACCTCAATCTGGCCCATTGTGGTTTCCCTAACAGCCAGCACTGATTCAGGTTCCACCAAGAGCTCATGATCTTCATTCA AGGCTGCTGGGAGAGGTTGAGGCTGAAAATTAGTCCCCACAGCCTTCTTGAGGAGAGAGACATGAAAGACAGGATGCACT CTACTGTGAGCTGGTAGCTCAAGTCGATAAGCCACAGCCCCAATCTTTGCTACAATAGGATAGGGTCCATAATACCTAGG ACTCAATTTTTCATTCATTTTCTTGGCCAAAGACCTCCTTCTATAAGGTTGTAACTTGAGAAAAACCTCATCACCAATTT GATAATCCACATCCCTCCTCTTCTTATTTGCATATGTCCTCATCATGTCCTGAGATTTTAAAAGATTAGCTCTCAGATCT GATAGCAATTCATCCCTCCCCACCTGCAAATCATTTACTGCAGCTATCTTGGAAGGAATTGTAGTCCCTTGAAGAAGCAC AGGTGGTTCCCTACCAGTGTTGTTAAATAACGGCGATAGCGGCCGCTACCCGCTATAGCGTAGCGGGAATTTGCTTCACC GCAATCGTTATGCCGCTACATAGCGGCCACCGCGATAATCGCGATCGCGGCCGCGAACGCCATAGCGGCGTTATGCCAGA AACGGAAATAACGGATTTCATGGAATTCAAACGTTTTTCTGGCTAGTTTTTAGGGTTTTAAAAACAGCATATAATGGGCC ACCTCCTATTAACGCTAATTCCCATTAATTACCCTAATTCCCATTTTCAAAAAAAAAAAAACCCTAATTCCCTAATAACT ATTCTCTATATTAACGCTTCAACTCTCCTCTCCTCTCTTTCAAATTCTCTCTGGTTCTCACTTCTCAGAGACTACACTCT ACAGCACGGTTGCAACTTGCAAGCAAACCTTCTTAGAGTTTCTGCTTTCTGCTGAGTAGATCATACTCTTTTCCGCATCC TCTCATTCCTCTGTTTTTTGTTGAAAACCTATACTCTGTTCTTCAATGTTTCTTCTTCCTTTACCTGTTTCACAGTTTTC TTCTCTGTTTTTCAATGTTTCTTCTTCCTTTAACAGTCATCTTCTCTTCTCTTTTTCTTTTATTTTTGTTCAAAACTCAT GATCTGTTTTCCATTGTTTCTTCTTCCTTTACTAAACTTATAATATATTGTTTCACAGTTTTCTTCTCTGTTCAAAACTC ATGCTCTGTTTTCCATTGTTTCTTCTTCCTTTTCTCTTAACTTATCTCTTACGTATTCTTATCTCTTTAAATTGTGCTCT TTTGAGACTTGCATTAACATTATGTTGTTTTAAGTACTTTTGTTATCTGTTTTGAGCTGTTGGACAGCCTTGAATTATGT TGTTTTGAGACTGAGTTAAAATTATGTTGTTTTTAACTGTTTTTTGTATAATATTGTACTTATTTTAACCGCTATGCGGT AACTGCTATTTGCCCGCGACGCGATCCGCTAAACGAAATAGCGGATTTTTGCCTCGCCGCGATTTTCCGCGATCGCGATT TGACAACACTGTTCCCTACCATAAAGAGCTTGAAAAGGAGACATTTTGGCAGATCGGTTGTAATTGCTGTTGAACCAAAA CTCTGCCCAAGGAAGACAAGTAACCCATTTCCTTGGCCTGGATCCAGTAAGGCATCTCAGATAAACTTCAAGGCATCTAT TGACCACCTCAGTCTGACCATCAGTTTGAGGATGGTAGGCTGAGCTAAACTTAAGTTGTGTGCCTGACACTCGGAACAGT TCCTTCCAAAAACTACTGAGAAATAAAGAGTCTCGATCTGAGACTATGGTTGTTGGGAACCCATGAAGTCTCACTACCTC ATGAAGAAATAAAGCTGCCACTTCAGGAGCTGTAAAAGGGTGCCTTAAGGGAATAAAATGAGCATATTTTGTCAGCCTAT CCACCACCACTAAGATTGTATCCTTGCCATTAGATTTAGGCAAACCACCAATAAAGTCCATGGACACATCTGTCCAAACC TGAGTAGGCACAGGTAATGGCTGAAGCAGCCCTGCAGGGGAGAGATTGTCAAATTTGTTTCTTTGACATGTGTCACATTC TGCCACAAAATCTCTTATGTCACTCTTCATCCCTTCCCAATACACCACTGCAGCCAACCTTCTATAGGTTCTAAAGAACC CTGAATGTCCTCCCAACAAAGAAGCATGAAACTCTTTGCAAAGAATTGGAATCCTAGAAGATTGCTTGGACAGAACCAAC TTTCCTTTATAAAACAACCTGTGATCCTTCAAAGTATACCCTTTATGAGCCTCAGGATCCACAATCAGATCTTGTACAAT GGCCTGTAGCTTGGGATCTTGCAACATCTCAGTTTGCCACTCCTCAAAGTCATTCACCTTAAGAACTGACAATGCACAAT ATGAGCTTCTCCTGGACATGGCATCAGCAGCTGAATTGTCCTTCCCAGGCTTATATTGTATCTCAAAGTCATAACCTGAG AGTTTGGAAATCCATTTGAACTGCCCCTCTCCCACAACCTGTTGCTCAGTAAGGAACTTCAAACTCTTTTGATATGTTCT AATTATGAAATGCCTTCCTAAGAGATAATGCCGCCACCTTTGGACAGCTCTGACCACTGCCATTAACTCTCTTTCATAAA CTGATTTAGCTTGACTTCTATCTGAGAGTGTAGCACTCCAGAAAGCCAGAGGCTTCCCTTCCTGAGTCAAAACTGCTCCT AGACCAGTACCTGAAGCATCTGTTTCCAGAACAAAGACCTTGGAAAAATCTGGAACAGCCAAAGTAGGTATCTCTGTCAA AGTGTGCTTAAGAGCTTCAAAAGCCTGTTGGGGACTAGGTCCCCACTGAAAACTATCTTTTTTCAGTAGCTGTGTCAAAG GCCTAGCTATCTTGCCATAATCCTTGACAAACCTTCTATAGTATCCCGTAAGACCTAGAAATCCCCTTAAGCTCTTCAAG TCTTTAGGGACTGGCCACAACCACATAGCTTCCAATTTCTTTGGATCAGCTGCCACAGTTCCAGCAGATAACACATGTCC TAGATATTCAATCTGGCCCCTTCCAAACACACTCTTCGTACCATTGATTTTAAGATCATGTTGGTCCATCAATTGCAGAA CTTGTGTCAAGTGAACAACATGTTCCTCCATGGTCAAACTAATGGCTTTAACCAATGCATTCATGGAAGCTCTCTTCTTC AGCAATTCAGGCTCCCCTTTGAGGACTACCTTTTTATTTCCCAGTTTGAACTTCAAGGTCAGCTCTTCAAAATTGGCTTT GATGTCCCCCAATCCTGCTAGCCATTCTAGACCAAGCACAACATCCACTCCTCTTAATCCAAACAAAAAGAAATCTTGAG TTACCACAAATCCTTGAATCTGCACACTGAGATTCTTACACACCCCCTTGCTTTTCACTACATGTCCATCCCCTACTTCT ACTGTGTAAGCTGGAGTTTCTGTAATCTGTAACTCCATTTCTCTTGCCAAGGACTGAGAAATGAAATTATGTGTTGCTCC ACAATCTACCAGCACCACTATGGCAGTTCCTTTCAATTTTCCCCAAACCTTGAGAGATTTCCTTGAAGAAATTCCCTGTA TACTGTTTAGTGACAAGTGCTTTAACTCCATAGCTTCCTCAATTTCTTCAGTGAGAGGCTCTAGTGTCTCAATCTCTTCT TCCTCACCATCATCCCTCAGCAACATTACCCTGAATTGCTTATTCTTACAGATATGGTTTGGTCCAAACTTTTCATCACA TCTGAAACACTCCCCCTTTCTCAACTTTTCCTTCATCTCTTCCCCAGTGAGTTTTCTGTAAACTCCTCCCCTGGCTGGCT TACCTCCTACTCTCTCATTAACACTACCACTAGATGATTGCACTGTGCCCTGAGTTACACTACCACTACCACTTTTCTGT CCAGTATCAATTTGCACAGATTTCTGAAAAGTTGTGGATCTAAAAGGTGGTTTGAAAGAGGAATTATACCTGCTAGTACT GCCAATTCCAGCCTTGCTCACAGCCAGGTTCTTCTGTTCCACCATCAAGGCTTTCTTGACCATGATTGTTAGGGATTTGG GCTCATAGAGCTTGATTTCTGCTGCAATTTCCTCCTTGAGTCCATTAACAAAAATATCCATGTAATGCTCTTCATCAATT CCCTTGAGCATTCCTGCAAATCTCTCAATTTGTCCTACAAACTCTTCAACACTACCTTCTTGCTTCAAGGCCAGCAAAGC CGCAAATGGACTAGAATTCGAGGTGAGTTGAAATCGTTCCAGCATGGCTTCCTTGAACTTGGTCCAAGTAGTCACCTGGT TGCAGGTTTCCCACCATTGGTACCAGCTCAATGCCTTTCCATCCAAGGCCACCATAATCGCTTGTACCTTCTCTTCCTCA GTCGCTCCCTTCAGTCGGAAGTAGCGTTCCAATTTCTGAATCCAACTGTACGCATCTTCTTCACCCTGGAAAACTGGAAT GTCAAGCTTCCTCCAACGCTCTGTTTGTGCATTTGCAGTGCGCTGAAGATTCTCTCGCGCATCAGCTTCGTCTCTTACGC TTCCCGGTTGTCCTCCGTTCACGGTGCGCTCCTCCTCCATTCGTCGGCGTTCTTGCTCGCCGTCGCTGTCGCCGTGCTCG CCGGCTCGCCGGCGCGTCATCGTCTCGACAATCGCTTCCAGATTGCGAAACCTCTGCTCCACGCGTTCATGCTCGATCGC ACGCTCTCTCCGTTCTTCGTCGCGAATCCTCCTGTCTTCTTCGCGATTCCTGCGTTCTTCCTCGCGATCGCGATTCAGAA CCTCAATGAATCTCTCAATCGCTTCCACTCTGGCTTCCATTCTGCTCGCTACCATAGACAAATCGATACCACAGCTCCTG GATGGAGCTCTGATACCAATTGATGAACTCACAGAAATGCTACTGGTTTATTGAAGAAAACAGAGACTCAATCCTCAAGT ACTGAGGTTAAATTCTCAGGAATTACACAGAAGAATCAAGAACACTAACAAGAACCCTAGCCTCTGGAATTCGAGATCCA GAATCTCCCAAATCCTAACCAACTGAATAACTACCTGTAACTTCCCCCTTTCCCTTATTTATACTACTCAGTAGTTCTAA CAGAATCACAACTATTAACAGAATTAGCCAGCTGTACTCCAACAGAAACAACTAACCATGCCAGCTGTTTATTAACAGAT CAACTAACAATAACAGTCACACTAAGTTGTGACTTTCCTCTTGTTTCTTCTCTCATACACCTTCTTAATTGAAGGTCTAT GCTCATCAGTTTTCCTCCAGCAGAAGTATTTTTTGACATCTTCGAAGCATGTTTTTTTATGTTTAAAAGTACTTTTGTCC CTCACGAATTCGAATTGTGCAAAATGAGTCCCTAAACTATTTTATTAGCATTATTAGTCCCACACGTTATCCTCTGTCAA CACCATCCGTCCTTCACCTCTTTTCCGTTACAAATGAAACGATTTTGTCCTAAGTGGCACATATTTAATGACATGGAGAC TGATTAGGAGAGAGATGAGGCCAGATGGGAAACCTGTGACCTGCACATGACCATCTTCATCTCCTTCTTCCATCATCTTC TCCATCATAAACCCAGAAAAATTAGGAAAAAAACTAGACAATCATATTGATCTCCTTCTTCACCATTTCCTTCTCCATCT TCTTTCATCTCACAAACCAAAGCACGGAAGGTTGGGGTTTTGACATAAATTGGGGAGAAAATCATTGAGAAACCTCAACC TATTGCAGACCTTAGAACGAAGCTTCAAGCTTCCATCACGAACCCACAACCTGCTCCTTCAAGTTCTCATCAAACCTGCC GCGACCTCAAACGACGTCGTCGTGTACGAAGACACCACAGCTACCCTCCATATCACACACCTTTGTTTCAGAATCTCCAG ATCTCACACCTTCATTTCAGAATCTCCAGATCCCGCACCATTACCATTGTTTCATAGGTCGATCTGGTGGTTAGTGGTGT TGGGGGTTTCGATCTGATTTCTCTTTATTGCTTCACGAAGTCCATAACTGCAGGATTATGAGTGGTTCGAAGGTGGAAGA TGAAGCCCCGAAGAATTGAGCAAAGGATTCCATGGTGAGTAAAAAAGTTTCAATCTTTGTGTCTCTTTGACTTTTTCTGG ATGGGGAATTTGATGAAACTGATGAGATCGGGGGGAGAGAAAGAGAAATTGAAGGATTTGAAAGAGAAGTTGAATGAACG AAAGTGTGAAAAATAATGGGATTAGGTCAGAAAAGAACAGTATTCTAAAATGGAAGCTTGAATTAGTTTTGCTGGTATGA AGTGTGAACTCAGATGACAGAATGAGAACGAGAATGGAGGAAAAGGAAGAGTAAGAGGAAGATGAAGTGGTGGTACTTCC TCAGTTTGATTTCCTTCATTGATCTAATTAATCAATTCTCAGTGTACTTTATTATTTTGCTCACTCCTTGATGCTATTCC TTTCATATACACTGGAATTTTATCTTAAAAAAAGGAAGATGAATTGGTATCGTGTTCTGGGTTTGGTGGTGGGAGAGTTT TTTTTCTTCATAATTTATGGTTTTTTGAAGTTATAAGTGATGAAGATGAAGGTAGTGAATATTTCGAGGATAAAGATGTT TGGAGATGTTGAAAAACTCTATAAAAATGACATTCTTTTTCCCTTTTGTATTCGTTTCTCTCCTAGTAAGACTCCACATC ATTAAAAAAGTGCCACTTAGACGAAAAACGTTAGAAACTTAACAGAAGGACTAATGGTGTTAATAGAGGATTACGTGTGG GACTAATAATGCTAATAAATTTTTTGAGGGACTCATTTTGCACAATTCGAATTTGTAGGGGACCAAAAGTGCTTTTAAGC CTATTTTTTATACTGAACCCAACATTTATACACATAAGCTAAGCATTGAATTTCCCCCACTTTTCCTTGGTGATTTCATC AAAACTAACTAATATTATTGAAACCAACTTTACCACATTGTTAACACTGAAATAACTGAGTTGTCTACTTTTGTGTTTGG TTTATTATTTTACTTCTCAACAGTATCTTCTTTGTCCAGTAAACTGCCAAGCTTGGCTATTGCATCATAATTATTTTCGA AGTTCACATTCTTACTCTCTTACATTTTGGTAGGTTGTGGAGGTAAATATGAAAGTAGAGGAGCCTGGTGAGAATAATGT TCACAATAATGCGTTCTATGCTGAAGAGACTTTGCTTAGATCTGAATTGGAAGCCATGCGAGACTGCAATCCTATGACTG CTCGACATTGGATTGTAAGTCTTCCCTGGGTTTTACAGCCAACTTTTGACTATTGATGTAGATAATTTTAACCTTTGCCA AACTGTTGAATTCTTTTTTTGCGGGGGGTGAGAAATTTGTAGTACACCAAGCCTAAATGATAATTTCAAACAGATGTCCT GAAATCTTTGAAAATTTTTATGCCTGCTTTCTGAAGGAAGTAAGCACATAGTGCTAGCAATTCATATGTCTGTCTTACTC ATTGCTGAAACTTTTTTGCACTAGCTTAATCCCCTGGAAAATACTTACCATGGTTCTAACAGTTTTTGAAAGTTAGAATC TATTCTTTGATTAATACCTGTTACTTTATTAAATAATCCTTCAGGTAAGGAACACAAGATCTGGCAACAGAACCGGACAA TTGACAGGCTACAAGCTAGTACCTGGCTCAAACTGCTTGCCTTTGGCACGTTCTGAGGCCAAATTTTTACGAAGAGCTGC TTTCTTGAAGCATAATCTGTGGGTAACAAAGTATTCACACGATGAAATGTTTCCTGGAGGAGAATTTCCTAATCAAAATC CACGTGTTAGCGAAGGACTAGCTACATGGGTTAAGCAAAACCGATCTTTGGAAGAGACTGATATAGTTCTTTGGTCCTCA CTCTCTCACTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCTCACACACACACACACACACACA CACACACCCCTGGATTCTATGAATGAAAGGATGCTCAAGATTTTTATTTAGTGATTTAGCTAATTTGTCAAGTTGAATTA GTACCTCCACTTGTATCATTAAAAATAGTATATCAAACTATGAGCCCTCTGTTTGGTTGCAGACCAAAGAGATTTTATTT TAGCTTATTTAGCCTTTTATCTAGTAGATAAGCTCCAATAAGTGCTCTTTAGTCTGAATCCAAACAGACTCTGTCACTGC ACCAAGCACTAGCCTATTTAGTGTTCCATATTTTGTTTTACTAGAATAGTTTCTGAAATCTTCAGTTTCTTGTTCAAATT CACTTTACTATTCCACCCTCAAAATGTTTTCACATGTCTTCTCCAGACTAACCGTGTTATCAACAGGTATGTATTTGGAA TCACCCATGTTCCTCGCCTAGAAGACTGGCCTGTTATGCCAGTGGAGCGCATTGGTTTTATGCTCATGGTAATTAGTTAA TTTTTTTATAAGACTTTTTCAGATAACACTTGTGATTAGGCTGTTGTTTACCTATCATTTCCAGTGCATCTGGAGGTTTT CCATATTTCTGACCAAGAAGTCCTCTCTTATGTGCAGCCTCATGGATTCTTCAACTGTTCTCCTGCTGTAGATGTCCCAC CTAATACATGTGTAGTGGATTCTAAAGACAATGACATTAAGGATAATGGTGCTTCGAAGACTATTCCGGGTGCATTAGCG GCAAAGCTTTAG

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0196200.5) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGATAAGGGCCCAGTCAAGCCACCCTTTGGACCCTTTATCCGCAGCTGAAATCTCTGTAGCAGTGGCAACTGTTAGGGC TGCTGGAGCAACTCCTGAGCTTAGAGATAGCATGCGCTTCATCGAAGCAGTTTTGCTGGAACCAGATAAACATGTCGTTG CACTGGCAGATGCTTATTTCTTTCCACCTTTCCAACCATCGTTACTTCCTAGGTTGAAAGGAGGGCCTGTAATTCCCACC AAGCTCCCTCCAAGATGTGCTAGACTTGTGGTTTACAATAAGAAATCAAATGAGACTGCTGTGTGGATTGTTGAATTATC ACAAGTGCATGCAGTAACACGAGGTGGTCATCACCGAGGGAAAGTAATTTCATCATATGTTGTTCCTGATGTTCAACCTC CAATGGATGCTGTTGAATATGCAGAATGTGAGGCTGTTGTTAAAAGTTATCCTCCTTTTATAGAGGCTATGAAGAAAAGG GGTATAGATGACATGGACCTTGTAATGGTTGATCCCTGGTGTGTTGGGTATTACAGTGAAGCTGATGCTCCTGGTCGAAG ACTTGCTAAACCACTCTTATTTTGTCGATCTGAGAGTGACTGCCCTATGGAAAATGGTTATGCCCGCCCAGTTGAGGGAA TCTATGTTCTTGTTGATATGCAAAACATGGTAGTGATTGAGTTTGAAGACCGCAAACTTGTTCCTCTGCCTCCGGTTGAT CCCTTGAGGAATTATACTCCCGGAGAAACCAGAGGTGGAGCTGATAGAAGTGATGTAAAACCCTTGCAAATTATTCAGCC TGAAGGTCCAAGCTTTCGTGTCAATGGGTATTATGTTGAATGGCAGAAGTGGAATTTTCGTATTGGATTCACCCCCAAAG AAGGTTTGGTCATATATTCTGTTGCATATGTTGATGGAAGTCGAGGACGAAGGCCTGTTGCTCATAGGCTGGCTTTTGTG GAGATGGTTGTACCCTATGGCGATCCAAATGACCCGCATTACAGAAAAAATGCTTTTGATGCTGGGGAAGATGGCTTGGG GAAAAATGCACATTCTCTCAAGAAGGGGTGTGATTGTTTGGGCTACATCAAATATTTTGATGCTCACTTCACTAATTTCA CTGGTGGAGTGGAAACAATTGAAAATTGTGTATGTTTGCATGAAGAGGATCATGGGATTCTCTGGAAACATCAAGACTGG AGAACTGGCTTAGCAGAAGTCCGAAGGTCTAGAAGACTTTCAGTTTCTTTTTTATGTACTGTGGCTAATTATGAGTATGC ATTCTTTTGGCACTTTTATCAGGATGGAAAGATTGAAGCTGAAGTCAAGCTAACTGGAGTTCTCAGCCTAGGAGCCTTGA TGCCTGGAGAATTTCGAAAATATGGTACTATGATTGCACCGGGTCTCTATGCTCCTGTTCATCAACACTTCTTTGTTGCT CGTATGGACATGTCTGTTGATTCTAAACCCGGTGAAGCATTGAATCAGGTTGTGGAGGTAAATATGAAAGTAGAGGAGCC TGGTGAGAATAATGTTCACAATAATGCGTTCTATGCTGAAGAGACTTTGCTTAGATCTGAATTGGAAGCCATGCGAGACT GCAATCCTATGACTGCTCGACATTGGATTGTAAGGAACACAAGATCTGGCAACAGAACCGGACAATTGACAGGCTACAAG CTAGTACCTGGCTCAAACTGCTTGCCTTTGGCACGTTCTGAGGCCAAATTTTTACGAAGAGCTGCTTTCTTGAAGCATAA TCTGTGGGTAACAAAGTATTCACACGATGAAATGTTTCCTGGAGGAGAATTTCCTAATCAAAATCCACGTGTTAGCGAAG GACTAGCTACATGGGTTAAGCAAAACCGATCTTTGGAAGAGACTGATATAGTTCTTTGGTATGTATTTGGAATCACCCAT GTTCCTCGCCTAGAAGACTGGCCTGTTATGCCAGTGGAGCGCATTGGTTTTATGCTCATGCCTCATGGATTCTTCAACTG TTCTCCTGCTGTAGATGTCCCACCTAATACATGTGTAGTGGATTCTAAAGACAATGACATTAAGGATAATGGTGCTTCGA AGACTATTCCGGGTGCATTAGCGGCAAAGCTTTAG

Download CDS Sequence

Protein sequence (LotjaGi1g1v0196200.5) extracted from Lotus japonicus Gifu v1.2 Proteins.

MIRAQSSHPLDPLSAAEISVAVATVRAAGATPELRDSMRFIEAVLLEPDKHVVALADAYFFPPFQPSLLPRLKGGPVIPT KLPPRCARLVVYNKKSNETAVWIVELSQVHAVTRGGHHRGKVISSYVVPDVQPPMDAVEYAECEAVVKSYPPFIEAMKKR GIDDMDLVMVDPWCVGYYSEADAPGRRLAKPLLFCRSESDCPMENGYARPVEGIYVLVDMQNMVVIEFEDRKLVPLPPVD PLRNYTPGETRGGADRSDVKPLQIIQPEGPSFRVNGYYVEWQKWNFRIGFTPKEGLVIYSVAYVDGSRGRRPVAHRLAFV EMVVPYGDPNDPHYRKNAFDAGEDGLGKNAHSLKKGCDCLGYIKYFDAHFTNFTGGVETIENCVCLHEEDHGILWKHQDW RTGLAEVRRSRRLSVSFLCTVANYEYAFFWHFYQDGKIEAEVKLTGVLSLGALMPGEFRKYGTMIAPGLYAPVHQHFFVA RMDMSVDSKPGEALNQVVEVNMKVEEPGENNVHNNAFYAEETLLRSELEAMRDCNPMTARHWIVRNTRSGNRTGQLTGYK LVPGSNCLPLARSEAKFLRRAAFLKHNLWVTKYSHDEMFPGGEFPNQNPRVSEGLATWVKQNRSLEETDIVLWYVFGITH VPRLEDWPVMPVERIGFMLMPHGFFNCSPAVDVPPNTCVVDSKDNDIKDNGASKTIPGALAAKL

Download Protein Sequence

Domain prediction

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	PTHR10638:SF65 View details on PTHR10638:SF65 Search for proteins/transripts with this domain View external data on PTHR10638:SF65	1	703	703	0.0	–
PANTHER	PTHR10638 View details on PTHR10638 Search for proteins/transripts with this domain View external data on PTHR10638	1	703	703	0.0	IPR000269 Show description in modal box View details on IPR000269 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF54416 View details on SSF54416 Search for proteins/transripts with this domain View external data on SSF54416	5	133	129	1.37E-13	IPR016182 Show description in modal box View details on IPR016182 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.10.450.40 View details on G3DSA:3.10.450.40 Search for proteins/transripts with this domain View external data on G3DSA:3.10.450.40	6	125	120	2.0E-11	–
SUPERFAMILY	SSF54416 View details on SSF54416 Search for proteins/transripts with this domain View external data on SSF54416	132	250	119	1.24E-33	IPR016182 Show description in modal box View details on IPR016182 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF02728 View details on PF02728 Search for proteins/transripts with this domain View external data on PF02728	133	236	104	5.6E-31	IPR015802 Show description in modal box View details on IPR015802 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.10.450.40 View details on G3DSA:3.10.450.40 Search for proteins/transripts with this domain View external data on G3DSA:3.10.450.40	138	240	103	4.6E-35	–
Gene3D	G3DSA:2.70.98.20 View details on G3DSA:2.70.98.20 Search for proteins/transripts with this domain View external data on G3DSA:2.70.98.20	249	675	427	3.8E-165	IPR036460 Show description in modal box View details on IPR036460 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF49998 View details on SSF49998 Search for proteins/transripts with this domain View external data on SSF49998	256	675	420	5.49E-154	IPR036460 Show description in modal box View details on IPR036460 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01179 View details on PF01179 Search for proteins/transripts with this domain View external data on PF01179	263	675	413	3.6E-154	IPR015798 Show description in modal box View details on IPR015798 Search for proteins/transripts with this domain View on EBI InterPro Service

Gene function (GO predictions)

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 April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO:0005507 View details of GO:0005507 AmiGO InterPro QuickGO	Molecular function	Copper ion binding	Interacting selectively and non-covalently with copper (Cu) ions.	Subterm of View details of GO:0046914
GO:0008131 View details of GO:0008131 AmiGO InterPro QuickGO	Molecular function	Primary amine oxidase activity	Catalysis of the reaction: a primary amine + H2O + O2 = an aldehyde + NH3 + hydrogen peroxide.	Subterm of View details of GO:0016641
GO:0009308 View details of GO:0009308 AmiGO InterPro QuickGO	Biological process	Amine metabolic process	The chemical reactions and pathways involving any organic compound that is weakly basic in character and contains an amino or a substituted amino group. Amines are called primary, secondary, or tertiary according to whether one, two, or three carbon atoms are attached to the nitrogen atom.	Subterm of View details of GO:1901564
GO:0048038 View details of GO:0048038 AmiGO InterPro QuickGO	Molecular function	Quinone binding	Interacting selectively and non-covalently with a quinone, any member of a class of diketones derivable from aromatic compounds by conversion of two CH groups into CO groups with any necessary rearrangement of double bonds.	Subterm of View details of GO:0048037
GO:0055114 View details of GO:0055114 AmiGO InterPro QuickGO	Biological process	Oxidation-reduction process	A metabolic process that results in the removal or addition of one or more electrons to or from a substance, with or without the concomitant removal or addition of a proton or protons.	Subterm of View details of GO:0008152

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0196200.5, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0196200.5