Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0570700
Transcript ID	LotjaGi1g1v0570700.1
Related isoforms 2	LotjaGi1g1v0570700.2 LotjaGi1g1v0570700.3
Lotus japonicus genome version	Gifu v1.2
Description	Coatomer subunit gamma; TAIR: AT4G34450.1 coatomer gamma-2 subunit, putative / gamma-2 coat protein, putative / gamma-2 COP; Swiss-Prot: sp\|Q0WW26\|COPG_ARATH Coatomer subunit gamma; TrEMBL-Plants: tr\|A0A151TG92\|A0A151TG92_CAJCA Coatomer subunit gamma; Found in the gene: LotjaGi1g1v0570700
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:110429473..110441676) extracted from Lotus japonicus Gifu genome v1.2.

GGGAGGCCCCAAACCCAACTCCTCCCGATCTGTGTCCTTGAATACAAAACAAACACTCTTTGCCTTGTGCGTGCGTTTTA AGAGAGCATTCATTCATTCAATCAACTTTTTCTTTTTCTTCTTCATTCGCACCACAACAACAAGATTCATTCGTTCATTC ATCATCAACTCGAGTGGTGCATTCGCTGAGATCTCACAGATTCAGCAAACTCATGGCTCAACCGTTCATGAAGAAAGACG ATGACCGCGACGACGAAGGTTCGTAATTCGATCCGTTTCCTATCCTATTCGCGCTTTGCATTTTCGTTTCTCTCTCGCTT TCCACTGCTGAATCAATTCGTTTCAGCTCCAGATCCATGTTGTTCCAATTTCCGAATGCTTCGCATAGTTAGATCATCAT CCTTGCATTGAATTTACTGTATCTGATTTCGATTCCGTATCGATCTTGCCATATAATTCGCAATGCAGATCGTTGAATGA GTTCTTATGATTAGTACTTGATAGTGTAGATCCTTTAGCTCTATTGTCGCATTTTCCTTGTTCACGAATCATGGTGTACT GTGACGAGTTCTGCTTGTTATATCGAATTGATTAACGAAACGAATTGTGAATGTGATGCTAATTGTGATTTTGGTTGTTG AACAGTCGAGTATTCCCCCTTCCTGGGAATTGAAAAGGGGGCTGTTCTTCAGGAGGCAAGGGTTTTCAATGACCCGCAAC TAGATGCTAGGAGATGTTCGCAGGTTTTTCATCTTCAACTAAACCATTCGCATGTTTAAATCTTGTTTCCGTAGATTTTT CGCAGTTGAATTTTGATGCTGTGTATGTTTTTTCATCTTATTTCTAGGTTATTACAAAGCTGCTATACCTCCTGAATCAG GGAGAGACATTTACAAAGGTATTGAGATTTGAGAGATATCCATTACCATGCTTATTTCTGGATTGACCTTGTGGAATCAT GTTGGTGCGATATGAATCCTTTTGATTTTATTATTTTTGCTAGGTCGAGGCTACAGAAGTTTTCTTTGCTGTGACTAAGC TTTTCCAGTCTAAAGATATGGGATTGAGGAGAATGGTCTACCTGATGATAAAGGAGATCTCCCCCTCTGCAGATGAGGTT ATATGTTAGATTCATATGTACGGTCTGTGCTGTGTGTATTACGAACTTAGATTATGACTGTTCTATTTCTTTAATCTTCT AACAGGTTATTATCGTCACAAGCTCTCTCATGAAGGACATGAATAGCAAGATTGATATGTACAGGGCAAATGCCATTCGA GTACTTTGTCGTATTACGGATGGAACACTCCTTGCCCAAATTGAGCGGTATTTGAAGCAAGCAATTGTAGATAAGAATCC GGTTGTTGCAAGTGCGGCTTTAATCAGTGGCATTCATCTACTCCATGTAATAATAATTTCTATTTTGTAATTCTATATTT GCACATTCCATGTATGTTTCTTGATTATTTTGCGCCTCCCTTTACAGACAAATCCTGAAATTGTGAAAAGGTGGAGCAAT GAGGTTCAGGAAGCTGTCCAATCAAGAGCAGCTCTTGTCCAGTTTCATGCACTGGCTTTGCTACATCAGGTATGCTGCAA ATGTGGTTTGGTTACTTTGTCATCCTTTAAGATCATTTAGTGATTCAGGGTTCACTTTATGTTGCAAGTGCAGTTTCTTA AATGATTGTTATACTTCTTGGCTTAACAATGCTAATTATCATGAATGATGAATGTTCCTCATGAGCTAGTCTTCATTCTT TCGTACTTCATCTTCCCTTAATGAAATGCATTTCTTTCAGTGATGCTTGACTCTTATATGCGTTTATTCATGCTGAATTT GACTGAACCAAAAGAAAGCAAAAGTTGCTCAAATTCACCTGTAGAAGTGGTCTTTGTTTGTTTGGTTTCTATTTCATCTA CATGCTGTCTTTTACAGCTACATTTTTTAGCATGCCCATAATTTTACTCTTACCTCAATTTCAACTGCAATTTACAAGTG GTTGCTTCTTATTTACAGTGAAAAGTTTTCAAGTTACAGAGAGTTGATATCTGTATTGTTGTTGAAGTTGGCATAGTTTG TATTTTATTGACTGCATTAAATGTTATTGCTGTAAATTTTGGAAAAGTCAGACTCTTCACATATCTAATGTAATTATCTT GTAAAATTACAGATTGAGCTGAACCAATATGAACAATTTCTATTGAATAATTTGCATTTCCTTAAAGCCCTGCTATAAAT TTCTCTTCTCATCGTTTGATTTTGCCTTCTCAGAAGCCTTTTTCCCTTATCTCACAGTAGACAAATATAAATTCTAAAGA CGAATTTGTTGTACTTGGTGATTTAAAACATTGCAGATACGGCAGAATGATCGTCTAGCTGTTAGCAAGCTGGTTACTAG CTTGACAAGGGGGACTGTTCGCTCACCTATAGCACAGTGCCTTTTGATCCGTTACACAAGTCAGGTGTGTTTTTCTTTCC TGCGATCTTTGTTATGGAACGATATTTAGTTGCTGAAGCTTTATCTTTCATTATATTTGTAGGTTATTCGTGAGTCAGGT AATAATACACAGACAGGAGACCGCCCCTTCTATGATTTTCTTGAGAGTTGCCTTCGTCACAAGTCAGAGATGGTGATTTT TGAATCTGCGAGGGCAATTACGGAGCTCAATGGTGTAACAAGCCGAGAATTAGCTCCCGCAATTACTGTTCTTCAGCTAT TCTTAAGTTCTTCTAAGCCAGTCTTGAGATTTGCTGCTGTCCGCACCTTGAACAAGGTAAACCTTTAATTACTCAAATTT TAGCAGAAGTAATTTCTTATGCATTCATAAAATTTGAAAAGGATATCTATGACATGTCTCCCAACTCTCAAGCCTCCCTC CCCAAGGGATGGCCATTTTGTTTTTTCCATTCTATATTTGAGAGATTTGATAAAAATCAAGATTTTCAATGTTCCTAAAT ATTCTCATAGGGCTTGTGTTGTTCAAACTTGAGCTTTTTTTTTTAATTGTTTTGCATGGCTTTGAAATTTTGCAGGTGGC AATGACACATCCAATGTCAGTCACTAACTGCAACATTGATATGGAAAGCTTAATATCTGACCAGAACAGAAGCATTGCCA CACTTGCTATTACTACACTTTTGAAGACCGGAAATGAATCAAGTGTGGATCGTCTTATGAAGCAGATTACAAATTTTATG TCTGATATTGCTGATGAGTTCAAAATTGTTGTTGTTGAAGCAATAAGATCACTGTGCCTGAAATTCCCATTAAAATATCG ATCTCTGTATGTCTGCCATACTATAGTTTTCCTCTCCCCAAATAGTTTCCTATATTTTTCCCTAGATGATTGGCCTAAAT TATTGGTTTGTATCCTGCTATTATTCTCAGGATGAACTTCCTGAGTAACATCCTTAGGGAAGAAGGTGGTTTTGATTACA AAAAGGCAATTGTAGATTCAATTGTGATTCTCATTAGGGATATCCCTGATGCAAAAGAAACTGGACTGCTTCATCTCTGT GAGTTCATTGAGGATTGTGAATTCACTTATTTGTCCACACAGGTATTTTGGTTTGTCTTTTATTATTCACAGTTTGCGCA TTCTTTTCCTGGAATTGTGTTTGTTGTTGTTAACAATTTTGGCCTCCTTGTACCGAAGATACTTCACTTCCTGGGAATTG AAGGGCCAAAAACATCGGATCCCAGCAAATACATTCGTTTCATTTATAATAGAGTACATCTCGAGAATGCAACTGTGAGG GCCAGTGCTGTGAGCACACTGGCAAGGTTCGGTGCTGCAGTTGATGAAATAAAGGTGTTACTTGTCTTTTGTTTATTATT TTATTTGTATGGTTTGCTAAAATTTTATATTATATTTGGTGTTAACTTAATTTAAAATCTCCTACCTTACTCTTTCTCTT TCAGCCTCGCATATTTGTTCTGCTTAGGCGATGTCTCTTTGACAGTGATGATGAGGTGAATTTCTGTCTTGTTTTGTGAG GCATTTCTAGAAGTATATGGTTTGTGATATTTATATCTGGTATTTTTATTTCTTTGCAGGTTCGCGATAGGGCAACCCTT TATCTGAACACACTTGGAGATGATGGTTCTGTTGTTGAGACTGATAAAGATGTAAATGACTTCCTGTTTGGGCCATTTGA TATCCCACTTGTCAACCTGGAGTCTAGTTTGAAAAATTATGTAAGTCCATGGTATATTCTTGCACTCCATTAGTACATCA CCTCATGTGTTTTATATGAATGCAGGAGCCTTCAGAAGAGGCTTTTAACATTAACTCTGTGCCGAAGGAGGTCAAGTCTC AACCACTTGCAGAGAAGAAAGCCCCTGGTAAAAAGCCAACTGGTTTGGGTGCTCCTCCAAGTGCCCCCCCGTCAACTACA GATGCATATGAGAGGATGCTTTCGTCCATTCCGGAGTTTGCAAACTTTGGGAAGCTTTTTAAGGTTCTCACGCTTCACTT TGATTATTCTTTCACAATTCTACATTTTGTTTTTCTTTCTTGGTCTAATACAATGTATGTATTTTAATATTTCTTTCCAG TCCTCGCCACCCGTGGAGCTCACTGAAGCTGAGACAGAATATGCAGTTAATGTTGTCAAACATATTTTTGATAGGCATGT TGTGTTCCAGTACAACTGCACAAACACAATACCGGAACAGTTATTGGAAGATGTAATAACAAATATAAGTTGAAATTTCA TAAAGCAATCAAATTTCAGGTCTTGTTTGTAATTATTTCCCCCTATTACAGGTTATTGTAATTGTGGATTCCTCAGATGC TGAGGAATTCTCAGAGGTGTTCTCCAAGCCTCTCAGGTCTCTTCCTTACGATTCACCTGGACAGACTTTTGTGGCATTTG AGAAGCCTGAGGGAGTGCCAACAGTTGGAAAATTTTCTAACACACTGAAATTTTTTGTTAAAGAGGTGCTTGTTTCCCTT TACTTTTATGAAGCTTTATTGTTTTATATTATTTGATCCAGACACAATATGTATCATGATTATGTGTACATTTCAAGCAT ATAATACTTGTTTTCATTTCCTTCTATTAGGGAATTTGTGGAAAACGGCCTATAATATTTTTAGAAAATCTAAAAGCACA AATTGGATCTTTTTCAGGTTGACCCAACCACTGGTGAGACTGAAGATGATGGTGTTGAAGATGAATACCAGCTGGAGGAT CTGGAAGTTGTTTCAGCAGATTACGTGTTGAAATTGGGGGTATCCAACTTCAGGAATGCATGGGAGAGCATGGGCCCTGA TTGTGAGCGTGTGGATGAGTATGGTCTTGGTCCTAGGGAGAGCTTGGCTGAGGCTGTAAATACTGTGACCAACCTTCTTG GTTTGCAGCCCTGTGAGGTAAGCCAATGATCAATGATGTTACTTGCTGCTTTGTTAACTATTTAACCATTGTAGTAGCAC ACAATGCCCTCACTACTGACCTACTTTTATTTTATTAAATTGATTGTGAGCAAGGCAAGGTGATGATACGATTTTTACTA GTTTTACTATAGTTTGATTGTTCTGACCTTCTGCTTGTTGGATGCTCATGGGTGGTCTGAGGACCTGGGGCAGAAAAGGA AACTAATTAGAAAATGGTGTTTGGGACGCCCTAACTGACTACTAAATACATTTAAATGGGCTTAGTTCTAGGACCTAACT GTCATTGCCAAACTCTAGTACAAAGAAGCCCATGCATGCTCATATCTATTTTGGCAGCATGTTTGTCTGTGCATGTGCAC AAAGAACCTAAATTGAAAGAGGGATTTAGCTCCTCAAGGGACTCACTTAAATAAGTCATCACAACCATTGATACAAAAAT CAATAGCAAATTAATGAGCACCATAAATTTTTATACATGTGCATGTATAGATCATAATTTCAATGATTGATTTCTCAACC AACAGTCATAATGACTCACTTTAGAGGTGCCAAATCCTTGAAAGACATTCTTAGGCGCTTTTGTAACCAAAGACTTTTTA CTCGATGGCTTACAAAGATCAAGCTCAGTGTATGAGTTTGATATTTCAAATGTAGAAGCAAAATATTGGCCAACATGTAA GAGTAATAATGTTGCTGCCAAACTCTAACCACAAGCTGTCTATCCATGCATGTAAAACATTTTATTCAAAACATTTTATA AGAGATTCCACATGGTCTGAACACGTGGTTTGTACACTCGCCATGGAGTAAGATATTTCTCTCCATGATCACATAAGAAA TTCTCAGATGAAAAGAGTACGGTGTCTCTTATTGGTTTGAAGGTGATATCTTTCTCACAAATTTTTATTTGTTTGATCTG CAGGGTACAGAGGTTGTTCCACCCAATTCAAGATCACACACATGTCTATTGTCAGGTGTATTCATAGGGAATGTAAAGGT GCTTGTGCGGTTGTCTTTTGGACTTGATGGTCCAAAAGATGTTGCAATGAAACTGACTGTCAGATCCGAGGATGAAACTG TCAGCGATGCCATTCATGAGATAGTGGCAAGCGGGTGATCCATGAAGTCAAAAAATGTTGACTGAATTCGACCCTAATTT TGTTTATGAGATTGGAGTTAAGCAGGCACAAAGATAGACATGTGTGAAGAATTACAAGATCTGTACGCTTGGGCTTAGTA CGCATTTGTTTGTCCCTCACTCGCTGCATTCTTGTTAGGCTGGCAAAGATAGTGGAAGTGTTATCTCGGGCCTGTTGGAG TACACTTCCTCATGATTATACTTCATTTTTCCTAGTAGTGAATGCATTATGAATTTTGAGGATTTACCTTGATCAATGTT TGTGTCCTCGAGATAGGATATTTGTTGAACAGCCATTGTTTAGTATATGAAAAACAAATCACTTAGGCTTTTTGAAATTT ATGCTTTTCTGTATCATGATGAGGACTCTCTTTAGCTTGTAAGTCTGCATAAAGTGTGATAAGCTTGAAGATTCAAAGAC CAAACAGGATTTAAAATGCCAAACATCTAAAAGTACAAGGCTAGACTTGTTACTATATGTTGCACTAATCTCTAGTGTTA AATTCACTTTTTCAAGTTTTGTCGCTCATTATGATTTAGACCTTAATCAAATTTATGTGATGGTCGTCTTTTTAGACCAA CTAGAAAGGATCTTGATCACAACAAAAGACTTCGTTATAGAACTCGAGATATAGGCAAAAACAAGATTCTTGTACTGGTA TCTCAATTTTAATGGCATAATCTAATATTTTAAATAACTCCATAAGATTGGTGATATTCACCATCTATAGTAGCACATAA TGCGCTAGATTGACTCTGTTAAAAATGAGCTCAGATGATCATTAACCTTAAAAGCAAACTATAGCTGATGAGAAAGACTT GGAAGTTTCCTCACTTGATTTTAAAAGATTGGTTACTAAACGAATAAAACCATCTGATATACGTTTTAACATTAACGAGA AAACACAACATACAACTATCACCATCAATGAAGAAATACAATGGGAGGTAAAGAGGAGAGAAAAACCGAGTTCAACGCAC ATTGATTTTCTCCTCACAAATTCACAACAATGCACCCCTGTAAATCTAAAACACTCGTTATTATAGTCAAATGTGAGAAA CATGAAGTTTATGATCCTTTAAAATATTCTACTGTAAACCCTAGGAAAACTACCAAATAAAAAGACCCTCCTGTCTTGGT AGTTTCTCATGTATAAATACTTAACGCAAAATCGATCATTTTATTCACGTTTTGTTTATATAGTTGTGGACGTTAGCTTT TCCACTACGCATTTCAAGTAATAACAGCTAACTCATTTTCAATTAAACTCCATTTGTCCGTCACTGTAGTCTACCGTTCC TCATCTTCAACTAGTTGTTAATTGAGATGGGAAAGCAAACAGTCCTTTTTGGTTTTAACTTTTCAGGCTTAGGTATAGAA GCCACCAGTACAATACTACTAGATCACAACACACAAGAACCAATGAAAACGGGATTAGCAAACTGCTGCACTGGTTCCAT CGCTAACTTCATTGCCTTCCAATTTTCCTCCAAATTTACAATCACAATTCACAAACATCAGCACTGGACTGTGATGAGCC ACAATACCGTACAAGGAGTGGTCCTCATAAAGGAGGTCAAAGTACGACTCTTTGCCCTTTAACGGGCTCCATCAAATCAC CTTCCTATGCCCTCCAAATGCCCAAATCTGCAAGAAGCAAATAACCATGTCAAGCTAACACCTAAACTTTTCCAAGAGAT AGATAGCACTCAGAGAAACACCATATCCGATTGAGTTTGACCCGTGACATCCACATACATTAGAATTCCTAAATACAGTT GATATAAATATGCAATGGTTTACTAATGCTAGTGCAAGAATATCCCAGGACAACAAGTTCTTAGTGGTTAAAATAGTAAG CATGGGAGATGATGAAAACTGTGATTCCAACACCAGAACATGATCTTGCTCACCAAAGAACTTAACACTGCCTAAGAATA AATCCCAATATTATGTCCAGAATTTTCTTTTATGTAAGTAATGTCCTGAACAATCGTAAAGAAATTATGTTCTAGAGCGT AAGTGGGCACATGTTAAATCTGTATAAGCTCACATGTAATCGATCAATATAACGTACATTTTGGCTTAAATCATGATTAC TTTTAAGTTTTAACATTAGAGAAAAAGAAACTAACCAGACAAATATAAACCACCTTTTTTTGTTCAATCCTATAATATAC TGATTTGAAAAAAATATGAAATTTTCAACCAACATAGAGGCTAACTTACAAAATTTGGTATTGCTCCTATGTGTCACACA TAACCCATAAATTTCAGAATCAGACCAAAATGCACGCTCACCTTTAAATTTGTGTCCCAACTTCCTGTACATAAGGCACT TCCATCAGCTGACAAACCTAAACAGCTGATCCTTCCATCATGAGAGTTTTGAAGTGATCCTAGATTCAAGACCACCTACA ATAAAATGAAGAAATCATTCAGCCTTACAAGAAGCTGCAACGACACAAGCACACGAGCAATACAAGTAAGCAGTCGTGGG AGAAACCAATGCCTAAAAAGATTAAGATATGACCAGATGTTACAAGATGGGATTGGATTTTGTTATTTCTATCAGTTTTC TTTCTAAAAGAAAAAAAATGCCCAGTTTGCCAAGCATTAGACTTTATATATGTTAGAAATATAATATCATTTACCCAACA ACTTAAGCTTTTGGGATAGTTGGTTCATGACATGGTATTTGAGCCTCTATAACCAAGTGGTCTAGAGATCAATCCCTACT GCTCCCGATTATTGTAATAAAAAGTTGAATTTCCGCACAAGGTAGTTAGTTCACTTGTGCATTGTTCACGCTTCAAGCCC CATAAGCTCCAACTTTTGGGATAGTTGGGTCATGAAAAATATATTGTCGGTCTACACAAATCATATAGTCAAAGTTGGAA CTCCCACACTTTTTCATCATCCCTTCTCTTGCCTTTTATCCAAAATAAGAAAAATTCTCAAACAATCACTTCAAAAGATT CATCTTAACTCCTTCTACCATCACACAAAGCAAGCCCAAGTGTTAGGCAATGACTTGAGACATAACACAAACCTCTCAAA ACCAGAATATCCAATATGCTGACAAACATAATAATTAGCCCTAATTGAGTTACAAAATAAAAACAACGACCAATTCAAGA AGGCAATAGCGTGGCAAATCTACTACAATTTCACACTGAAGATAAACAACTATAAAGCAACATATATTTTGTTAAAAAGC TCAACTGGATTTAACTGTGTTGCAAGGCTATGAGCAGAAATAAAACACCCTACTTCGTTTTACATTACACTGAAGAACCT ATTACCTTTGCCAATAAAGTGTCCCAAACATAGCACGCGCCGTTTGTGTATCCAGCAAAAAGAAGTCTTCCGGATATGGA GAATGCCATGGAGGTTACATGTGGGATTTCATTGTCACTGTGTTGCTGATAATATACTTGAAGTTGGTGCCCAGTCCTAA TGTCAAACAATCTGCAAGTGCCATCATCTGAGCCAGTTCCAAATCTATTTCCATCAGGAAAGAATTTGACAGTATTGACA TCACCCTCATGTCCATGAAATGTCTGCACTGCTCGACTTGCCACACGAGTGTCCCACAATCTTGCAGTTCCATCGCAAGA ACCAGATACAAACATTCTAGAGTTGGATCCATTGATGGAAATGCTGAGAGCGAGTAAAGAAAAAAAAACTTCTTAGAAAC TGCACATCATGTTAAAGAATATGGGGGAGGGGGTTCTACATGAAAGGAACCTAATAGGAAGATGCTATGGATTTAAATTT AACCAGCATGTTTACCACCAGTGAGATTTCATATTCTTATCATTGTGTGTTCAGATTGTAGAAAATTGTTTGATTAGCAT TTATACAATTGCTCTAAATTTCAAATGAGCTGTTTAAGAAATGAAAAACAAAAAATACTGGCTCAAATTAAAAATAAAAA TAAAAATAAAAATAATCTACTTGCATACCTAAGTACATCTGCAGTATGTCCAGACTGAAATTCACCGCCAAAAACAGATG TTCTAAGGCCAGTAGTAATATCCCATAAAACACATGTTTGATCACCAGAACCAGTAATTAGGTGAGTATCTTCATCCGGA ACATACTGACAAGAGGAAACATAACCTTTATGTCCACTAAGCATCCGCGAAACATTTAGATTCCCATCCCTGTCAGTGGA GGAATTAAGATTGAATATAGAACAAACACTGTCAAGACCACCACATGCAACAGATTGACCAGTTGGCGAGAAAGCACAGG TCATGACCCATGCACACGGAAGCTTTATGGCATGAGTTTTCTGGCTTGTCAGAGCATTCCACACTATCAATCGTCCGTCC TGGGATGCACTAACAATTCGATTCTTTTCGGAAGTCCAATCTAACGCATACACCTGCAAAATTCAAATGAACACAAGTTA ATACGAGTTGTCAATATTGCTTGCTATGTAGTAAATAGAAAACATGATTGAATTGTGTATGAGCCTATTTCACAAACAAC CAAAACACAGAAGCTCTCTTAGCTATCAAATGAGTGATCAAAGAAGTAAATGACTCTTGACCAGGGGATCCAAATCCCTT CGGTATTGCAGTTACTATGTCGGACAGCTATGCTTTGTAGGTTTTTTAACTGTTGTCAAAAAGGTATCATGTGTCTTATC TGCACTAAAAACTAAAAAGGTTTTCCTACAATGCCAGAGCAGTTCACACCTCAACCGGCACCGGGTGCCGGTGCTGTATT GCTTCTGGCACCTGGCCTTCGCACTTTCCGTGTACCTTTTGTTGCCTTTAACTACACTCCTCTCCCTTGGTTCCAGTGAA ACTCATTGATAAAACACGTGGACTAAGAGTCTAAGACACAATAACCAGTTCAACAATTCACTTTTGGCAACAAAGATCTA AATCCACCTTTGCTTATAATAACAACAAAAAGAGCAGAGCTTAGTTTTCCTTATCGAATCCCTAACCCTCCTCATCTATT TCATTTTCAATTTGTAGTTTTTTGCACAATCCTTCAACACAAAGCGCCTAAATTTAAAAATTCCAGAATTCATAACACGA ATGCTTCATATTGCAATTTCCATAATCCTATGAAGTGCAAAGGAAGCAGAACTAAAATTCAGAAATCAAAGAGAGGTTCA TCCATAACTGAATTAGGTTACCTTTCCGGTATGACCTTGCAGCGTTCTACAGCAAAGGATATCAGTTGGTCCAAACGTGA CAGGAGCTCTACCTTGAGATTTCGCGTAGCCAGAAACTGCAAACACAGAGAAATGGATTCAGTTTGAGTAATTAACAAGA GCAGAGAAGAGATCTAAAGAAGAATTGAAGTCTCACTATCGGTATCGAGCAATGAAAGGCGCTTCTGCTTCAACCGTTCC CGGAGATTGTTGACAGTCTCGGCGGCCGTGAGGTGACGCTCCTTGAGCTCCGTAACGGACATGGTTTAGGTTTTTTCCCC TGCTGGTGGTGGTTCTGCAACTTCCGATGAAGAAAATTGGATGATCTGTTAATCTTCCATTGCATGCGATTGGTTCTGCA ACTTCCTTGAAATATGAATGAGAATGCTCGGTGAAGAAATGTGAATTGTGGTGCTGAGAATGGGAATGAGGAAGGCGAAG AAGAAGACGAAGAAGAAATGTTCTGACTAAGTGCGTGGTGGTGG

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0570700.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCTCAACCGTTCATGAAGAAAGACGATGACCGCGACGACGAAGTCGAGTATTCCCCCTTCCTGGGAATTGAAAAGGG GGCTGTTCTTCAGGAGGCAAGGGTTTTCAATGACCCGCAACTAGATGCTAGGAGATGTTCGCAGGTTATTACAAAGCTGC TATACCTCCTGAATCAGGGAGAGACATTTACAAAGGTCGAGGCTACAGAAGTTTTCTTTGCTGTGACTAAGCTTTTCCAG TCTAAAGATATGGGATTGAGGAGAATGGTCTACCTGATGATAAAGGAGATCTCCCCCTCTGCAGATGAGGTTATTATCGT CACAAGCTCTCTCATGAAGGACATGAATAGCAAGATTGATATGTACAGGGCAAATGCCATTCGAGTACTTTGTCGTATTA CGGATGGAACACTCCTTGCCCAAATTGAGCGGTATTTGAAGCAAGCAATTGTAGATAAGAATCCGGTTGTTGCAAGTGCG GCTTTAATCAGTGGCATTCATCTACTCCATACAAATCCTGAAATTGTGAAAAGGTGGAGCAATGAGGTTCAGGAAGCTGT CCAATCAAGAGCAGCTCTTGTCCAGTTTCATGCACTGGCTTTGCTACATCAGATACGGCAGAATGATCGTCTAGCTGTTA GCAAGCTGGTTACTAGCTTGACAAGGGGGACTGTTCGCTCACCTATAGCACAGTGCCTTTTGATCCGTTACACAAGTCAG GTTATTCGTGAGTCAGGTAATAATACACAGACAGGAGACCGCCCCTTCTATGATTTTCTTGAGAGTTGCCTTCGTCACAA GTCAGAGATGGTGATTTTTGAATCTGCGAGGGCAATTACGGAGCTCAATGGTGTAACAAGCCGAGAATTAGCTCCCGCAA TTACTGTTCTTCAGCTATTCTTAAGTTCTTCTAAGCCAGTCTTGAGATTTGCTGCTGTCCGCACCTTGAACAAGGTGGCA ATGACACATCCAATGTCAGTCACTAACTGCAACATTGATATGGAAAGCTTAATATCTGACCAGAACAGAAGCATTGCCAC ACTTGCTATTACTACACTTTTGAAGACCGGAAATGAATCAAGTGTGGATCGTCTTATGAAGCAGATTACAAATTTTATGT CTGATATTGCTGATGAGTTCAAAATTGTTGTTGTTGAAGCAATAAGATCACTGTGCCTGAAATTCCCATTAAAATATCGA TCTCTGATGAACTTCCTGAGTAACATCCTTAGGGAAGAAGGTGGTTTTGATTACAAAAAGGCAATTGTAGATTCAATTGT GATTCTCATTAGGGATATCCCTGATGCAAAAGAAACTGGACTGCTTCATCTCTGTGAGTTCATTGAGGATTGTGAATTCA CTTATTTGTCCACACAGATACTTCACTTCCTGGGAATTGAAGGGCCAAAAACATCGGATCCCAGCAAATACATTCGTTTC ATTTATAATAGAGTACATCTCGAGAATGCAACTGTGAGGGCCAGTGCTGTGAGCACACTGGCAAGGTTCGGTGCTGCAGT TGATGAAATAAAGCCTCGCATATTTGTTCTGCTTAGGCGATGTCTCTTTGACAGTGATGATGAGGTTCGCGATAGGGCAA CCCTTTATCTGAACACACTTGGAGATGATGGTTCTGTTGTTGAGACTGATAAAGATGTAAATGACTTCCTGTTTGGGCCA TTTGATATCCCACTTGTCAACCTGGAGTCTAGTTTGAAAAATTATGAGCCTTCAGAAGAGGCTTTTAACATTAACTCTGT GCCGAAGGAGGTCAAGTCTCAACCACTTGCAGAGAAGAAAGCCCCTGGTAAAAAGCCAACTGGTTTGGGTGCTCCTCCAA GTGCCCCCCCGTCAACTACAGATGCATATGAGAGGATGCTTTCGTCCATTCCGGAGTTTGCAAACTTTGGGAAGCTTTTT AAGTCCTCGCCACCCGTGGAGCTCACTGAAGCTGAGACAGAATATGCAGTTAATGTTGTCAAACATATTTTTGATAGGCA TGTTGTGTTCCAGTACAACTGCACAAACACAATACCGGAACAGTTATTGGAAGATGTTATTGTAATTGTGGATTCCTCAG ATGCTGAGGAATTCTCAGAGGTGTTCTCCAAGCCTCTCAGGTCTCTTCCTTACGATTCACCTGGACAGACTTTTGTGGCA TTTGAGAAGCCTGAGGGAGTGCCAACAGTTGGAAAATTTTCTAACACACTGAAATTTTTTGTTAAAGAGGTTGACCCAAC CACTGGTGAGACTGAAGATGATGGTGTTGAAGATGAATACCAGCTGGAGGATCTGGAAGTTGTTTCAGCAGATTACGTGT TGAAATTGGGGGTATCCAACTTCAGGAATGCATGGGAGAGCATGGGCCCTGATTGTGAGCGTGTGGATGAGTATGGTCTT GGTCCTAGGGAGAGCTTGGCTGAGGCTGTAAATACTGTGACCAACCTTCTTGGTTTGCAGCCCTGTGAGGGTACAGAGGT TGTTCCACCCAATTCAAGATCACACACATGTCTATTGTCAGGTGTATTCATAGGGAATGTAAAGGTGCTTGTGCGGTTGT CTTTTGGACTTGATGGTCCAAAAGATGTTGCAATGAAACTGACTGTCAGATCCGAGGATGAAACTGTCAGCGATGCCATT CATGAGATAGTGGCAAGCGGGTGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0570700.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAQPFMKKDDDRDDEVEYSPFLGIEKGAVLQEARVFNDPQLDARRCSQVITKLLYLLNQGETFTKVEATEVFFAVTKLFQ SKDMGLRRMVYLMIKEISPSADEVIIVTSSLMKDMNSKIDMYRANAIRVLCRITDGTLLAQIERYLKQAIVDKNPVVASA ALISGIHLLHTNPEIVKRWSNEVQEAVQSRAALVQFHALALLHQIRQNDRLAVSKLVTSLTRGTVRSPIAQCLLIRYTSQ VIRESGNNTQTGDRPFYDFLESCLRHKSEMVIFESARAITELNGVTSRELAPAITVLQLFLSSSKPVLRFAAVRTLNKVA MTHPMSVTNCNIDMESLISDQNRSIATLAITTLLKTGNESSVDRLMKQITNFMSDIADEFKIVVVEAIRSLCLKFPLKYR SLMNFLSNILREEGGFDYKKAIVDSIVILIRDIPDAKETGLLHLCEFIEDCEFTYLSTQILHFLGIEGPKTSDPSKYIRF IYNRVHLENATVRASAVSTLARFGAAVDEIKPRIFVLLRRCLFDSDDEVRDRATLYLNTLGDDGSVVETDKDVNDFLFGP FDIPLVNLESSLKNYEPSEEAFNINSVPKEVKSQPLAEKKAPGKKPTGLGAPPSAPPSTTDAYERMLSSIPEFANFGKLF KSSPPVELTEAETEYAVNVVKHIFDRHVVFQYNCTNTIPEQLLEDVIVIVDSSDAEEFSEVFSKPLRSLPYDSPGQTFVA FEKPEGVPTVGKFSNTLKFFVKEVDPTTGETEDDGVEDEYQLEDLEVVSADYVLKLGVSNFRNAWESMGPDCERVDEYGL GPRESLAEAVNTVTNLLGLQPCEGTEVVPPNSRSHTCLLSGVFIGNVKVLVRLSFGLDGPKDVAMKLTVRSEDETVSDAI HEIVASG

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	PTHR10261:SF6 View details on PTHR10261:SF6 Search for proteins/transripts with this domain View external data on PTHR10261:SF6	1	887	887	0.0	–
PANTHER	PTHR10261 View details on PTHR10261 Search for proteins/transripts with this domain View external data on PTHR10261	1	887	887	0.0	IPR017106 Show description in modal box View details on IPR017106 Search for proteins/transripts with this domain View on EBI InterPro Service
PIRSF	PIRSF037093 View details on PIRSF037093 Search for proteins/transripts with this domain View external data on PIRSF037093	6	885	880	0.0	IPR017106 Show description in modal box View details on IPR017106 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.25.10.10 View details on G3DSA:1.25.10.10 Search for proteins/transripts with this domain View external data on G3DSA:1.25.10.10	23	316	294	2.0E-114	IPR011989 Show description in modal box View details on IPR011989 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01602 View details on PF01602 Search for proteins/transripts with this domain View external data on PF01602	29	540	512	2.6E-128	IPR002553 Show description in modal box View details on IPR002553 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF48371 View details on SSF48371 Search for proteins/transripts with this domain View external data on SSF48371	29	564	536	3.33E-92	IPR016024 Show description in modal box View details on IPR016024 Search for proteins/transripts with this domain View on EBI InterPro Service
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	592	619	28	-	–
SUPERFAMILY	SSF49348 View details on SSF49348 Search for proteins/transripts with this domain View external data on SSF49348	615	771	157	5.75E-56	IPR013041 Show description in modal box View details on IPR013041 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.60.40.1480 View details on G3DSA:2.60.40.1480 Search for proteins/transripts with this domain View external data on G3DSA:2.60.40.1480	616	768	153	1.6E-57	IPR037067 Show description in modal box View details on IPR037067 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF08752 View details on PF08752 Search for proteins/transripts with this domain View external data on PF08752	622	767	146	1.9E-56	IPR013040 Show description in modal box View details on IPR013040 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.310.10 View details on G3DSA:3.30.310.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.310.10	769	885	117	3.7E-37	IPR012295 Show description in modal box View details on IPR012295 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF16381 View details on PF16381 Search for proteins/transripts with this domain View external data on PF16381	770	884	115	5.7E-36	IPR032154 Show description in modal box View details on IPR032154 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF55711 View details on SSF55711 Search for proteins/transripts with this domain View external data on SSF55711	772	884	113	6.28E-34	IPR009028 Show description in modal box View details on IPR009028 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:0005198 View details of GO:0005198 AmiGO InterPro QuickGO	Molecular function	Structural molecule activity	The action of a molecule that contributes to the structural integrity of a complex or its assembly within or outside a cell.	Subterm of View details of GO:0003674
GO:0006886 View details of GO:0006886 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0015031 View details of GO:0046907 Part of View details of GO:0034613
GO:0016192 View details of GO:0016192 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0006810
GO:0030117 View details of GO:0030117 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0044444 View details of GO:0098796 Part of View details of GO:0048475
GO:0030126 View details of GO:0030126 AmiGO InterPro QuickGO	Cellular component	COPI vesicle coat	One of two multimeric complexes that forms a membrane vesicle coat. The mammalian COPI subunits are called alpha-, beta-, beta'-, gamma-, delta-, epsilon- and zeta-COP. Vesicles with COPI coats are found associated with Golgi membranes at steady state.	Subterm of View details of GO:0030120 View details of GO:0044431 Part of View details of GO:0030663

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0570700.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0570700.1