Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0172200
Transcript ID	LotjaGi3g1v0172200.3
Related isoforms 2	LotjaGi3g1v0172200.1 LotjaGi3g1v0172200.2
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_chr3:23696749..23710822) extracted from Lotus japonicus Gifu genome v1.2.

TTGTAGGTTGGAAATATTGGCGGTAGAGAATTTGCGGAGTCCTTAGCACCTGATGTACAGAAGTTGCTGGTAAGAAATTT TGCATTAATATTAAATAGGCGTGATTGGAAAATATTGATCTCAACTTCTTTTTGTGATCTAGTTATCTAGCAGCTGCAGA CCACTTGTAAGAAAAAAAGCCGCGTTGTGTTTGCTCCGCTTGTACAGGAAAAATCCTGATGTTGTCAATGTAGATGGATG GTAAATGTGAATGTAACTTTTCTGGTTATATACTCTTTCTTTATTGCTTTTCTTCAAATGTATCTTATTACTCCTCTTTT GCCTTAATTTTAAGGGCGGATCGGATGGCACAACTTTTGGATGAACGAGATCTTGGTGTTTTGACATCTTCTATGAGTCT CCTTGTTGCTTTAGTATCAAACCAACACGAGGGTTATTGGAGTTGTCTTCCTAAGTGTGTTAAAACTTTAGAACGTCTTG CTAGGAACCAGGATATTCCCCAAGAATACACTTACTATGGTATCCCATCTCCCTGGCTTCAGGTTTGTAAATTTTTACTT ATCATAAAGAACATTTGTGTTGGCTTTGGTTTTATGAAGATTTTCAAATGCTATTCTTACGTCTTGCTTAAATTAAGAAC CAAGAGTTGCGAACTAAATGTGATCTTATCCAGCAAGTTAACCTTAATTAATGCTCAATGTAGGTCAAAACGATGAGGGC TCTTCAATATTTTCCTACCATTGAAGATCCGAATACCAGAAGATCGTTGTTTGAGGTTTGTAATATCTTAATAATGGCAC GTCCATAAGTTAACAAATTGTAGTGAGTCTTGATTGATTATTTCAGGTCTTACAAAGGATCCTGATGGGAACTGATGTTG TGAAAAATGTGAACAAAAATAATGCATCCCATGCCGTTCTTTTTGAAGCCCTTGCTCTGGTATGTTCATTGTAAACAAAT ACAGTTGTTCATTCTTTACAATCTCGTTATAGATAAAACTGTACGTGTAAAAGCATTTTTATTGTGATGTTGGTTAAACT ACCTAAAACCCTAGCAGGGGAGTCTCCAACTTTTTATTTTGGTATTCTAGCATTTTTTTGTCTTCTTGGTTCTATTTCTA TATGATATATTAAATTATGTTTAATGATTCATATTAATGATTTATTTCAAAAGATTTACATTTTCATACTTCTGGGCTTT AATAGATGCAGTTATGAACATATTCGTGTATTTGGTAGATTCTTCATGATGTGCACTGTTAATTTGGTGGGCTTTATGTT TTTCCCTTTCCCTAAAATGTTCATGGTATGTTTTAGTTATATGTTATTCTAATTGCTCTATTCAGGTGATGCATCTTGAT GCTGAAAAAGAGATGATGTCTCAATGTGTGGCTCTTCTTGGGAAATTTATTGCTGTCCGCGAACCAAATATTCGTTATCT TGGCCTGGTAAGTTTTGGGGGGTGGGGGGCACACTTGATTTATCCATAGTTTTGTTTTCCAGTTCTCTTCCTTCTTTTTC ATTTTTCTGTTTCGATAGAGGGTCGTGTAACCAATATTCCATGGTAGATTTCATTGCATCGTGTAGTTTAGAAGGCTTGG TGTTTGTTGTTGTCATAATGCAATCCCCAGTAACTCACATGCTTTTGTGGTGCAGGAGAATATGACTCGAATGTTGATGG TTACAGATGTGCAAGATATTATTAAAAGACATCAAGCTCAGATTATTACTTCATTGAAGGATCCTGACATCAGGTTACAT TTATTAGCCTATATTTTGATTTCATTGATCATGTATATATTTTCATGGAACTACGTGCTGAACCCAGCCTGCACAAATTC TGTCGGTAACATAATTATACATGTATGTATAATCTCGTTATAATTATGAATGATAAGATGTCCATTTATGGAAGTTGTTA ACTCATGCTTTTAATTTTTACTTAACAGTTAACAACCAAATATCATCTGTCTGATTATATGAAAGGCTCTATGTTAATCA GTTGCCATCCAAACAAGAATTGCTATCTAAACAGGTGTATGAAATGTCATGTTTAGGTTGATCACACATTGCATTTGATT ATTTTCTATCTTTTGCAAATTAATGAATGACTTTTAATGTTTTGTTGATTGGTTGGTAATTAACACGTTTGTACACCTGT TTTCTTGTGAATTGCCATCAGGACCTGCTAAACATGTTCAAACTAAATTGTAAAAATAAGGAATGGTTTTTGCATTTAAT TTCTTAACTGCAGGATTCTTTTAGTTAGGTCTTACGTACACTAATAACTGATACCTTGTTGTGTCCATCATTACTGGTGA ATATTTATTCAGAAATATTAATCTAGTAGCACATATGCTAATTATCTGACTTGGGGTCTACATAATGTTGATTTGCTCTC AGCACAAACTCACTTGCTCCTTGGTAAACAATTCAAGCTGACTTATGAGCAAAGATGAAAAGCGATGTGGATTTTCTTTG GAGCATCTTTGTTTTTATTACATTCTCTTGTGTTGTTAATAAGTAGATTTTAAATCCTGTGATTTATTTTTCTTCAAATA TTTAATTTAGAAGAGAAAATTGATTCTATTTACCAAACTAGCTTTTAGAAGTGCTTGAAGATGCAAATATGATACACAGA TAATTTCTTTGTTCTCAATTTTTATTAAATCTAGTATTTCTGACTGCATTGATAAATATATGCAGTATTCGGAGGCGTGC TCTAGATTTGCTTTATGGCATGTGTGACGTTTCAAATGCAAAGGATATAGTTGAAGAACTACTGCAGGTATAGAGCTAGA TCCAGACTAATTCATGCTTTTCAGATATCTCACTGTAAACCCTTTTGCTTCGCCAACCTCAGAACGAAAACCAAAAGAAA ATAAAATGAACCACTGTTACATGTCAACCACAAAATAATTAGTTTGTGTCTTGCAATTCCAACTGTTTTGTAGTATCTCA GCACAGCAGAGTTTGCAATGCGCGAGGAATTGTCACTTAAAGCAGCTATTCTAGCCGAGAAGTTTGCACCTGATCTTTCA TGGTAATGCCATAAAGCCTACCTGAAAAATACACAAATGAATTGCTACTTCAGGATTAGTTGTAGCCTTTTCTGTGTCAT GTTGTAACAAAATGCCAGAGCTTTTAAGGACAATTTCTTGCTTTCCCCTTTCTATTTGACAGGGCATTCTTTTCTAATTC CTTATGGTGCCTAGCGAATGGTTGCTTTTGAGGGTGGTTTCATTACCATATATGCGATGGGTTTTTTTTATTTCCAAAAT GAAAATTCAGCATGATTGAAGAGATTTGTTTATTTAGTTAATTTTGGTTTTGACGTGTTTTGGGTTTTCTTTTGCCGGGG GGGGGGGTAATTCAAATTTTGCACCTTCCTCCCCTGTCAGAAAAATTCTTGGAAAAAAAGAGGCATGATAAGTTGATAAC CGTAAAATTCAAAATGACAGCTGACCCATGTAATGTCAAAATCAGGATTTTCTATGATAGAAATGTATGATCAATTTAGA ATTTCGTGGGGATTAGTTTGCATCCTTTTTTGAAGTTGTAAAATGAAAAATCATCAATTTCTGGACATTTTTGTGTAACT TTAAGTGATTGCTGAATTTATTTATGTGAATCTCAGTATTCGTAGAATAGACCTATATTTAAGCACAAAAAGATTGCCAA GCCTTCATGAGCAGAACTTTTGTTAATGTTACTATGCCATTCCTTTTTTTACAGGTATGTTGACGTTATTCTTCAATTAA TTGACAAGGCCGGAGATTTCGTTAGCGATGACATCTGGTTTCGGGTGGTGCAGTTTGTTACAAACAATGAAGACCTACAG GTGAGTTTAAAACTTGAAGTGACTTTGTTACTGCTTCCTAGTTGACACATCATTGACATGGTTTGTTATGTCTTTGATTA GCCTTATGCTGCAGTAAAAGCTCGAGAGTATCTTGACAAACCTGCCATACATGAGACAATGGTTAAGGTTAGTGTGTTTT CACTGCCATTCTGTAATAGTATGAATATTGTTAGTGTATGTATAATATTTATATGTTGTGTGTGCCACCCGCTGATGGTT TCTAAACTGTAGAATATGTATGAAATATTTATCCATAACGGTGAGATCTTTGTTAGAAGGGTTCACTTAAGTTGAACTTT GGTATTCTCTTATGACGTATGAAGAATGTCAATAAGCATTTCTCTCTGTTCATGCATGGATTTTTCTGTATTGATTTATT CAGTTACTAAATAATTTATTACACTGAAATAATAAGCGGTCTGATTTTAGTCGTGTATTTGTATAATATAATATCTATTT CACGTCTCTAAATACTCTTCAACAGGTCAGCGCATATATTCTTGGGGAGTTTGGACACCTTCTAGTGAGACGACCTGGAT GCAGTCCAAAGGAAATATTTAACATTATACATGAGAAGCTTCCTACTGTATCGTAAGCAGAATCTCTCTCTCTCTCTCAG TTTGGATCTGTGTAGCTTGGATACCTTATAAGACATGCTTCACTTTCAGAACTTCTTCTATTCCTATTCTTCTGTCAACA TATGCAAAGATTCTGATGCACAGTCAACCACCAGACCCTGAATTACAGAATCAGATTTGGACAATATTTAAAAAGTGAGA TTTACGTTCGCAATGTACGATTTTTTCATTATGTATTGTTCTGTGCTTTTTCATGATGCATTTTTTAACTCATTTTCTCA TCTTTCTAGATATGAAAGTTCCATTGAAGTTGAAATACAGCAACGAGCTGTTGAATATTTTGCTTTGAGTAGAAAAGGTG CAGCCCTAGTGGATATATTGGCTGAGATGCCTAAATTCCCTGAACGACAGGTACAATATTTGATTTGAGGCAATTTGTTT GCAGTTTCTATAAATTATGATCACTTTGAGTAACCAATGGTATAACATGGATTAATTTAATACTCTTCTTCAAATTCAGT CTTCATTGATTAAAAAGGCCGAAGATACTGAAGTTGATACTGCAGAACAAAGTGCCATAAAGTTGCGAGCTCAACAGCAA TCTCAAACATCAAATGCTTTGGTTGTAACTGACCAAAGTCATGCTAATGGAGCTCCGCCAGTCAGCCAACTTGGTCTAGT AAAAATGCCCAGTACGAGTAGTAATGTGGTTAGTATCTCCCTCCACTTTTAGTTTTTACTATATTTTAGTCAACGCTCCA GCGTAAAACTGTCAAATCTACTTAACATGGAATGATTTGACATTTTGGTTAACATTTTACTGTATTATTGATCACAGTGT CATCCTTTTTTACCACAAGGTCGTTCCTCCTGTTGCTTCTTAATTTGATACTGACTTTGTTTCGAAACAGGATGATATTT CAGCAGATCAAAGATTATCCCAGGAAAATGGGACATTGAATAATGTAGATTCTCAGTCTCCCTCACCAGATCTCCTTGGT GATCTCTTGGCTATCGAAGGCCCTCCCAGTGGCAGTCTCCACCCTCAGCCGAGCTCAAGTTCAGGATTGGAAGGAACTGC AGTTGAAGCCACAGCCATAGTGCCTGCGGGAGAGCAGGCCAATTCTGTGCAGGTACTGGTGTTGATTTATAGTGCCTAAA TAAATAGTAAATGCTGCATCATAGTTAAATTTGAAGATTATTAGTATTATATTTTTTTAGATCCGATATTCTCTTTTACA CATAATTAGGGTTCATGACGAGTCACATTATTACACTAAAACTGTCATTAGTCTTAACTGGAATGAACACTAATTTATGA TAGACACTGTTAAAATTAGAGAAGCAATGAGAGAGAGAAGAGAGAAATAGAAATATAGCAGAAAATGTATTATTGATAAT CTGAGTGATTACAGAAGATGTGATATCCTTATATAGAAGAACAGGAGAATGCCAACAGCTGTAACATACAGCTGACATAA ATAGGAGAATACCAACAGCTGACATAAATAGGAGAATACAAACAGCTGCATATGTCAGCTGTCATAACTACTCAAAAGAT GATGCAGCAGCATAGTAAATACAAACTCAATGTACTCTAACATACCCCCTCAAACTCAAGGTGGTTTGACAAATGAAAAT TTGTCAACCACATTGAGTTTGTCCTTAAGCTCATGAAACCTTTCTGAAGAGAGGGCTTTAGTAAAGATATCCGCTTTCTG CAGAAGAGAAGGAACATGCTGAACAATAAGAGTCTTATTGAGAACCTTCTCTCTCACAAAGAAAAGATCCATTTCCATAT GCTTAGTTCTAGTGTGAAGGACCGGATTAAGAGTCAAGGCTACGGTGCTCAGGTTATCACAGAAAATTGTTGGTGTTTGG AAGGGAATATGCAGCTCAGTCAACAAGGATTGAATCCAAAGAATCTCAGCTGCTATGTTGGCCAGACTCCTATATTCCGC TTCTGTGCTTGAGCGAGCAACCAAAGTTTGCTTCTTAGCTGACCAAGACACTAAATTGGGGCCAAAGAACACACATGAGC CAGAAGTTGACCGTCTATCATCCGGGTCAGAACCCCAATCTGCATCACAGTAGGCATGAAGTGCTACTGGACGATCAAGA GAGAAAGGCTTAAAAAGCAACCCATGATGAATGGTACCCTTAAGAAACCGCAGAATTCTCTTAACTGCCTTCCAATGTTC ATCATGAGGCTGAGACAGAAATTGACAGACTTTATTGACTGCAAAGCTGATATCCGGCCGGGTAATTGTAGCATATTGCA ATGCTCCAACTATGGATCTATAGAGAAAGGGATCATTCATGCAAGTACCTCCAAACTTTGACAGTTTGCTGCTACTAATC ATAGGAGTGGGCAGAGCATTGGCTTCAGACATATTTGCTCTCTCAAGAAGATCTTCAATATATTTGGTCTGATTAAGTAG CAAAGAGCCATCAGACAAGTGTGTAACCTGAACTCCAAGAAAATAATCAAGTTTTCCTAACTGTTTTAAAGCAAAAGAAG AATTCAGTTTGTCAACAAGATGTTGAATTAGGACTGAAGAACCTCCTGTGATAATAATATCGTCCACATATACTAGAACA TATGTGCAGCAAGTTGGTGAAGACAAAGTGAACAAGGAGGGATCACACTTACTAGCCTTGAACCCTAATTGAACAAGAGT GGCAGTCAACCTGTGAAACCAGGCTCGAGGAGCTTGTTTTAGGCCATACAAAGCTTTGTCAAGCTTACACACAAGGGACT TATCACCCTGTTCAAATCCAGGTGGCTGAACCATGTAAACCTCTTCTTCTAAGTTCCCATTGAGAAAGGCATTATTCACA TCTAACTGTTGAAGAGGCCACCCTTTGGAAATAGCAAGAGATAGAATCAACCTCACAGTTATAGGTTTGACCACTGGAGA AAATGTTTCAGAATAGTCAAAGCCATGCACTTGATTGAACCCTCTAGCTACAAGTCGAGCCTTGTACTTATTCACTGTTC CATCTGGATTTTCTTTAATCCTGAAAATCCACTTACAACCAATAGGCTTTCTTCCAGCTGGAAGTGACATAAGAGTCCAG GTCTTATTAGTCATCAATGCCTCATACTCTTGCTGCATTGCACTAAACCACTTACTGCTCTTGAGAGCTTGTTTGACTGT AGTAGGCTCTACTTCTGTCAACAAGACAGAAGGAAACAAGCGAGGCTTGACAATGCCATTCTTTGCTCTGGTGAGCATTG GATGAGCATTAACAGGGATGACAGCTTGAACATTATCAGGTGTAGCAGCTGATGCTGGAGGCTGCTCAGAAGAAGAAGGA GAGACATCCACTGAACCAGAGGAGGAAGAATTAGAACCCTCAGAATGCACTGTCACAGCAGGAGAAACAGGTGCAGAGAT AACTGGAGATTGCTCAGACGAAGGAGAGACATCCACTGAGCCAGAGGGTGAAGAATCAGAACCCGCAGAATGCATTGTCA TAGCAGGAGAAGCAGGCTCAGCAGCTGGAGAAGCATTAGAAATAATATTTGGAGCAGCAGCAAGAGGAATCAGCAAAGAA AATGATTCTGGAGAAGTTGTTTCTGTAGCAGAATCAGGAAACATTTCAACATAAGGGAACCTATGCTCATTAAACAACAC ATCTTTAGAGACATAGACTCTGCCTTGAGCATCCAAGCACTTGTATCCTTTGTGTTGAGAAGAGTAGCCCAAAAATACAC ACTCTTGGGACCTATATGCCAACTTGTTATTGGTATACGGGCGCAGAAAAGGATAACAAGCTGACCCAAATACCTTGAGG AACTTGTAATCAGGTTGAGAACCATACAACTGAAAATAAGGACTTTGTCCTCCTAAAACAGAAGTAGGCATCCGATTGAT AAGATAGGTAGCTGTAAGAAAAGCGTGATCCCAAAAGTGCAATGACATTTTGGCATAAGCAAGCAAAGCAAGTCCCGTTT CAACAATATGGCGATGTTTCCTCTCCACACTCCCATTTTGATGGTGTGTGTGAGGACAGGTCACACGATGAACTACCCCT AACTGAGTAAAATAGGGAATCAAGGATCGAAACTCTCCTCCTCCATCAGTTTGCACACTCTTAAGCTTACATTGAAACTG CAGTTCAACCAATGCTTTGAAGTTTTTAAAAGTCTGAAAGGTGTCAGACTTGTGTTTTAAGGGATAGATCCAAGTGTATC GTGTGCAAGCATCAACACAAGTAAGAAAATATGAAAAACCAGCAAAGGATTCTATGGAAGCTGGTCCCCATAAATCAGCA TAAACCAACTCAAAAGGCAGAGTATAAACAGTAGAAGAAGAAGAAGAGGGCAACCTATGTGCCTTTCCCATACAACAACC AACACACATGGCAAAAGAAGTTTTATTAGGCAAAGGAACATTACATAGTTGTAAAGTAGTTTTCAAGACCTCATGATGAG GATGACCTAGTCTACAATGCCACAAGTCATAGCTGGAATTACCTAAACTGGAAACAGAAGACATATTCTGTGATTTTCCA GTACCTGGATACACTGTAGATAAAACAGAAGGAGTACTAGTAGACAAATCAGATTTAGAACAACTAGAAGAGACACTAGC AGCGTTGACATCATCAAAGGTGTATAAGCCATCAGAACCAACACTTCCACGAAGCAACACTTTAGATGTATCCTGTGATT TAACAAGACAGAAAGAAGCGTGAAACTCAAAATAAACATTGTTATCCTTGGCAAACCTACTAACACTGACAAGGTTTTTG GTGATAGAAGGAACTAGAAGCAGTTGACTAAGAGTGAGAACAGTGTGTGAATCATATGGTGAGGGAATGGTGCAAGAACC AATAGAGTGAATTGGCAAACCTTGGCCATTGCCCATCAAAATCTGCTCAGTTCCAGTGAATGAAGAAGTGTCTGAAAAAT TTCCAGCAGCATTGGTAACATGGTGAGTGGCACCAGAATCGGGATACCACAAAGTAGGCTTGTCAGGACGCTGAGATGCG GAAGAAGAAGCATGGTGCAGAGGACCAGCAAGCATAGCATGAGCAGGAGAGCGAGGCTGAGAGCCAAGAAGGCCCGGATA AGATGGAGGTGAGGGCCGAGGTGAATTCCAAGAAGATGATACTGGACCAAAAACAGCTCCAGGTGCAGAATATTGAGAAC CACCAGTAAAAGCAGGAAACTGAGAACCTGAAGGGTAAGCACCATTGTAAGGTCCTGCGGAAGAGCCAAAGTAATTCCAC GGAGCAGGTCCAGAAGCATAAAAAGACGGTGAGGAAGAGCCAAAAGTGGCAGAACCAAGAGGCATAGGAGGAAAGGCTCC AAAAGGTGCAGGACTAGGCATATTAGTAAAGGTGCCATTCTGTACAGAACCACCTCCAACGGCGCGATGGTAGCAGACAC TCGCATCATGTCCCCACTTCTGACAAATCTGACACTGCAAATTACGGCCGCGCCCACGGCCGCGTCCACCACCGCGTCCA CCAGCAGGATAGCCACCACGGCCATCGCCTGGTCCACGTGAATCATTCTGGTCATGATAGGTATCACGATTGTCACCAGA ATCACGATAATTTGGACGTTGTTGATCATTCCGATAGTCACGTCCACCACGAAATTCAGCAGCATAATTGGCCTGAGACG GCGTCAAATCCACAGAAGGTGGCGGCGTTCGGGAGATCTGAGGTGAAATCGGAGCAGGAACCGATGCGAACGCATGTGTA TGCGCAAGCAACGCAGAAGCAGTAGAATCGCTAAGGCTACGTTTCCGTGATCGTTCCAGGCGAGCATCATGAGTAATGAT CATCGCTTCGACCTCAGAAATCGTGCTCGAAGAAGCATGAGTGAAGATAATCGTGCTTAAAGCACTATAATCTTCAGGTA AACCATCAAAAATCGCTTCAAGGTGATCGCGAAAACTTACGGGTTCACCAATGGAAACCAGAGTGTTGACGATCGTCTTG ATGCGTCGAAGATATTCAGTGATCGACTTCGAACCTTTGGTTATGTTCTTCAGCTCAGATCTGAGCTGAGCAGACTGTGC GCGACACTGATTCTCAAAAAAGTCAAGGATCTCACGCCAAACCTGCGATGATCTCTCGCAGTTGATCACCGTTGGAAGAA CAAACGGAGATAGAGTCGTCAAGAGCCATGTAAACACCATGGAATCTTGCTTAATCCAAGTCGTATAAGCTGGATTCTCA GTCGCAGCTACACGATCCTCTTCAGTCAGAAAACGTTGTGGAATTTCTGGATCAACCAGAAAATCATGAAGCTGATGCGA TCGAATCGCACCTTCAACTTGTTGACGCCAAGAATAGAAATTCGAATCATCAAGCTTGATTGTTGCAGTACGAGACAGAG ACTCAAGAACATTGACAACGGAAGCAGGTGCAGCAGCCATGTATCAAGGACCGATTGAAGCTCTGATTACCATGTTAAAA TTAGAGAAGCAATGAGAGAGAGAAGAGAGAAATAGAAATATAGCAGAAAATGTATTATTGATAATCTGAGTGATTACAGA AGATGTGATATCCTTATATAGAAGAACAGGAGAATGCCAACAGCTGTAACATACAGCTGACATAAATAGGAGAATACCAA CAGCTGACATAAATAGGAGAATACAAACAGCTGCATATGTCAGCTGTCATAACTACTCAAAAGATGATGCAGCAGCATAG TAAATACAAACTCAATGTACTCTAACAGACACGTAGCACATCACTTTTTTACTAGACTCCATTTCCATTCATCATTAGAA GAGTATTTCTATGAAACAATTTGTGGGCATTGGGATACAACTTATTTCCTTTGTATGTGCAGCCAATTGGAAATATTGCT GAAAGATTTCATGCTTTGAGCTTGAAGGATAGTGGTGTTCTATATGAAGATCCTTATATTCAGGTTTTTTTTTGTTCATA TTTTTTCTAATGCTCTCTAGTATTTGTGTGTTTTTGTTTTTGGTCATACATATTTGCAGGTTACTTACAAAGTCCTTTAT GTTTGGTAATTTAAGTTAAGCTCAAAGTTGTTTTCTTATATTTTATTTTTATGTATATATTTTCAGATTGGCATTAAAGC TGAATGGAGAGCTCATCAAGGGCATCTTGTTCTTTTCTTGGGGAACAAGAATACTTCTCCTCTTGTCTCAGTTCAAGCTT TAATATTGCCTCCTGCCCATTTGAAGATGGAGCTCTCTCTAGTACCAGAAACTATACCTCCCCGGGCACAGGTGAGAATC TGTTGTTACTGTTATGTTGTGCTTTCATATATTGTTAGTTTTATTTACATTTCCCCTCTTGATGGCATAGGTGCAATGTC CACTTGAAGTCATTAATCTCCACCCAAGCAGGGATGTCTCGGTTCTTGACTTCTCCTACAAGTTTGGTAACGAAATGGTA CTTTCTTTAAACTCGTTTTACATTCCTAATATGAATAAGGTTTAGTCTTCTAGGTTGAGAGAGAGGAAAGGGACTACAGA CTACTCATAACTCAAGAGGGTAAAATGAGAACTAAAATTATAATATTTCAAAAAGCGAGGAGCAAAATGAAGTTTTTAAA AATTAAGGACTAAAGCCAAATATTGACAATTTTATAGTGGCTGAAAGTATAACTTTACCTTCATAGTAAAATTATATTGA TACAATGTGAATGATATGTCGGATGTTTATATAGAAGACAAAGCACACATAATCCTTATTTATACTGATACTGAACTTTT GGGTCCGGCTCCTCTGAAGTCATCCCACCATTGAGAGAGTAAAGTAAGTCACCACAACCATTGATTGAGTTTTTTTATTG ACTTTCAAAGTTGGTAATCATTATTAATGGCTTTACCCTCTAAAGTGAGTGAGCCAAATCAAAATTTTAATCTTAATTAA ATAAAGAAACGAAATATGGTATATAAGGAAACATGGAAACCAATCTTAAGATATAATTTAAGTAACTTTAACATTTTATA ATGTAGGATAATGATGTCAGAATTTTTTAGGTATACTCCTTAGTTTGTTCATTTACTTCCAGAGCCAGTCAGAAAAAAAT GCATTCTAACCACCTTGTATATACATTTAGTTCATAAACACAAATGATTTTGAGATGTTCCTTTGAAGAAGTCAAGCATG GGATCCAAAGCCTTCAAGATGTTGATTTTTCTTAAAAATTGAATTGGGTAGTGGAACATGATTCACCAAAGGTGGGATAT ACCTCAATTTCTAATTATCAGAAAGTTTGTTCTTAAATAATAGAACAGATAATAATTGAAGAAAAAATAATTTATCATTA TTGAAGAAATTTAAATATTAGAAACAGATCATAAAGGAAGAGCATAAGTTTAGATTGTAAGTTTGGAAAAAATGGATCTT ATATGTTAAGTTAAAAGGAATATTTGTTGCTATTTTTGACATTCGACAATGGTTAACGTTGAATTAATTTATTTTCATGT GTTGGTTTTCATAGGTCAATGTCAAGCTTCGCATGCCAGCTGTCCTAAATAAATTTCTTCAGCCTATAACAATATCTGCT GAGGAGTTTTTCCCTCAATGGAGATCCCTGCCTGGACCACCTTTGAAGCTTCAAGAAGTGGTATGTAATCTGCTTTGTGT ACATTGCGAAGTGCCGAAGTATGTATATTTACTAAGTTGGTTATGGTTTACCTTGAGAGTATGGTATTCACAGTGGCATA TATATTTGTATTGCTGGCTTGTTCTTCTGGTCATATGCACTGATAGTTTCATCTTTTCTGCTGGTTTTGCAGGTTAGAGG TGTCAGACCACTTCCACTGCCCGAAATGGCAAACTTATTTAATAGTTATCATCTGACAGTGTGCCCAGGGCTTGTACGAT ATTTAAGTCCCTCTTTTTTACTTCCTTATTTTAGTCTATTTTGCCTGAAATTCTTCAATAACTACTAATTTTTATATAAC TTGTTTCTTCCTGTCTGTGTTTTAGGACCCCAATCCAAACAATCTTGTTATTAGTACAACATTTTATTCAGAAAGTACAA GGGCAATGCTCTGTTTGGTAAGTATATATGTCGATCTTGCACTGCAGTCATGAATTCTAAATAACCTGATTATTCTGATA TAGAGGAGGGGAAATTGAGGCAGCCTTTGTGGCCTGCTTTAAGATCATGATGATCAAACTATGTTACAGTGTCACTCTGT TTTGGGTTTTTTCATAAAGAACCTCCATATGTGCAGACAAGAGAGGATAGGTTGTAAATGTTTTTCCCCTCTTGGAGAAG CATATGGTTGCTTGTTGATCCTCCTTTTCAAACACCTGACGTAATTGTTTGATCATTTTATGTAAATGAATGTGCAGATA AGAATTGAAACAGATCCAGCGGACAGAACCCAGCTGCGAATGACGGTTGCTTCAGGGGACCCAGCATTAACGTTTGAGTA TGTGATTTAATTTCCTGCTTACCCAGATGTCATCAATGCATTCTAGAGCTTTAACAAATCATTCTAATATTGGTTTGCAG GATGAAGGAGTTCGTCAAGGAACAACTAGTCATCATCCCCCCAACATCCCGTGTACCTGCAACACCAGCAGCTCCAACAC CTCCAGTGGCTCAACTAGCTATTGCTCCCGCAACAACGAACGATCCTGGGGCCTTGCTTGCTGCTCTTCTATGA

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0172200.3) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGCACAACTTTTGGATGAACGAGATCTTGGTGTTTTGACATCTTCTATGAGTCTCCTTGTTGCTTTAGTATCAAACCA ACACGAGGGTTATTGGAGTTGTCTTCCTAAGTGTGTTAAAACTTTAGAACGTCTTGCTAGGAACCAGGATATTCCCCAAG AATACACTTACTATGGTATCCCATCTCCCTGGCTTCAGGTCAAAACGATGAGGGCTCTTCAATATTTTCCTACCATTGAA GATCCGAATACCAGAAGATCGTTGTTTGAGGTCTTACAAAGGATCCTGATGGGAACTGATGTTGTGAAAAATGTGAACAA AAATAATGCATCCCATGCCGTTCTTTTTGAAGCCCTTGCTCTGGTGATGCATCTTGATGCTGAAAAAGAGATGATGTCTC AATGTGTGGCTCTTCTTGGGAAATTTATTGCTGTCCGCGAACCAAATATTCGTTATCTTGGCCTGGAGAATATGACTCGA ATGTTGATGGTTACAGATGTGCAAGATATTATTAAAAGACATCAAGCTCAGATTATTACTTCATTGAAGGATCCTGACAT CAGTATTCGGAGGCGTGCTCTAGATTTGCTTTATGGCATGTGTGACGTTTCAAATGCAAAGGATATAGTTGAAGAACTAC TGCAGTATCTCAGCACAGCAGAGTTTGCAATGCGCGAGGAATTGTCACTTAAAGCAGCTATTCTAGCCGAGAAGTTTGCA CCTGATCTTTCATGGTATGTTGACGTTATTCTTCAATTAATTGACAAGGCCGGAGATTTCGTTAGCGATGACATCTGGTT TCGGGTGGTGCAGTTTGTTACAAACAATGAAGACCTACAGCCTTATGCTGCAGTAAAAGCTCGAGAGTATCTTGACAAAC CTGCCATACATGAGACAATGGTTAAGGTCAGCGCATATATTCTTGGGGAGTTTGGACACCTTCTAGTGAGACGACCTGGA TGCAGTCCAAAGGAAATATTTAACATTATACATGAGAAGCTTCCTACTGTATCAACTTCTTCTATTCCTATTCTTCTGTC AACATATGCAAAGATTCTGATGCACAGTCAACCACCAGACCCTGAATTACAGAATCAGATTTGGACAATATTTAAAAAAT ATGAAAGTTCCATTGAAGTTGAAATACAGCAACGAGCTGTTGAATATTTTGCTTTGAGTAGAAAAGGTGCAGCCCTAGTG GATATATTGGCTGAGATGCCTAAATTCCCTGAACGACAGTCTTCATTGATTAAAAAGGCCGAAGATACTGAAGTTGATAC TGCAGAACAAAGTGCCATAAAGTTGCGAGCTCAACAGCAATCTCAAACATCAAATGCTTTGGTTGTAACTGACCAAAGTC ATGCTAATGGAGCTCCGCCAGTCAGCCAACTTGGTCTAGTAAAAATGCCCAGTACGAGTAGTAATGTGGATGATATTTCA GCAGATCAAAGATTATCCCAGGAAAATGGGACATTGAATAATGTAGATTCTCAGTCTCCCTCACCAGATCTCCTTGGTGA TCTCTTGGCTATCGAAGGCCCTCCCAGTGGCAGTCTCCACCCTCAGCCGAGCTCAAGTTCAGGATTGGAAGGAACTGCAG TTGAAGCCACAGCCATAGTGCCTGCGGGAGAGCAGGCCAATTCTGTGCAGCCAATTGGAAATATTGCTGAAAGATTTCAT GCTTTGAGCTTGAAGGATAGTGGTGTTCTATATGAAGATCCTTATATTCAGATTGGCATTAAAGCTGAATGGAGAGCTCA TCAAGGGCATCTTGTTCTTTTCTTGGGGAACAAGAATACTTCTCCTCTTGTCTCAGTTCAAGCTTTAATATTGCCTCCTG CCCATTTGAAGATGGAGCTCTCTCTAGTACCAGAAACTATACCTCCCCGGGCACAGGTGCAATGTCCACTTGAAGTCATT AATCTCCACCCAAGCAGGGATGTCTCGGTTCTTGACTTCTCCTACAAGTTTGGTAACGAAATGGTCAATGTCAAGCTTCG CATGCCAGCTGTCCTAAATAAATTTCTTCAGCCTATAACAATATCTGCTGAGGAGTTTTTCCCTCAATGGAGATCCCTGC CTGGACCACCTTTGAAGCTTCAAGAAGTGGTTAGAGGTGTCAGACCACTTCCACTGCCCGAAATGGCAAACTTATTTAAT AGTTATCATCTGACAGTGTGCCCAGGGCTTGACCCCAATCCAAACAATCTTGTTATTAGTACAACATTTTATTCAGAAAG TACAAGGGCAATGCTCTGTTTGATAAGAATTGAAACAGATCCAGCGGACAGAACCCAGCTGCGAATGACGGTTGCTTCAG GGGACCCAGCATTAACGTTTGAGATGAAGGAGTTCGTCAAGGAACAACTAGTCATCATCCCCCCAACATCCCGTGTACCT GCAACACCAGCAGCTCCAACACCTCCAGTGGCTCAACTAGCTATTGCTCCCGCAACAACGAACGATCCTGGGGCCTTGCT TGCTGCTCTTCTATGA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0172200.3) extracted from Lotus japonicus Gifu v1.2 Proteins.

MAQLLDERDLGVLTSSMSLLVALVSNQHEGYWSCLPKCVKTLERLARNQDIPQEYTYYGIPSPWLQVKTMRALQYFPTIE DPNTRRSLFEVLQRILMGTDVVKNVNKNNASHAVLFEALALVMHLDAEKEMMSQCVALLGKFIAVREPNIRYLGLENMTR MLMVTDVQDIIKRHQAQIITSLKDPDISIRRRALDLLYGMCDVSNAKDIVEELLQYLSTAEFAMREELSLKAAILAEKFA PDLSWYVDVILQLIDKAGDFVSDDIWFRVVQFVTNNEDLQPYAAVKAREYLDKPAIHETMVKVSAYILGEFGHLLVRRPG CSPKEIFNIIHEKLPTVSTSSIPILLSTYAKILMHSQPPDPELQNQIWTIFKKYESSIEVEIQQRAVEYFALSRKGAALV DILAEMPKFPERQSSLIKKAEDTEVDTAEQSAIKLRAQQQSQTSNALVVTDQSHANGAPPVSQLGLVKMPSTSSNVDDIS ADQRLSQENGTLNNVDSQSPSPDLLGDLLAIEGPPSGSLHPQPSSSSGLEGTAVEATAIVPAGEQANSVQPIGNIAERFH ALSLKDSGVLYEDPYIQIGIKAEWRAHQGHLVLFLGNKNTSPLVSVQALILPPAHLKMELSLVPETIPPRAQVQCPLEVI NLHPSRDVSVLDFSYKFGNEMVNVKLRMPAVLNKFLQPITISAEEFFPQWRSLPGPPLKLQEVVRGVRPLPLPEMANLFN SYHLTVCPGLDPNPNNLVISTTFYSESTRAMLCLIRIETDPADRTQLRMTVASGDPALTFEMKEFVKEQLVIIPPTSRVP ATPAAPTPPVAQLAIAPATTNDPGALLAALL

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
PIRSF	PIRSF037091 View details on PIRSF037091 Search for proteins/transripts with this domain View external data on PIRSF037091	1	792	792	1.0E-274	IPR017104 Show description in modal box View details on IPR017104 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR22780 View details on PTHR22780 Search for proteins/transripts with this domain View external data on PTHR22780	1	805	805	0.0	–
PANTHER	PTHR22780:SF34 View details on PTHR22780:SF34 Search for proteins/transripts with this domain View external data on PTHR22780:SF34	1	805	805	0.0	–
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	1	425	425	1.7E-135	IPR011989 Show description in modal box View details on IPR011989 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	3	394	392	2.0E-58	IPR016024 Show description in modal box View details on IPR016024 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	3	394	392	3.6E-65	IPR002553 Show description in modal box View details on IPR002553 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	453	477	25	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	489	531	43	-	–
Gene3D	G3DSA:2.60.40.1230 View details on G3DSA:2.60.40.1230 Search for proteins/transripts with this domain View external data on G3DSA:2.60.40.1230	547	675	129	1.5E-33	–
SUPERFAMILY	SSF49348 View details on SSF49348 Search for proteins/transripts with this domain View external data on SSF49348	547	674	128	4.87E-30	IPR013041 Show description in modal box View details on IPR013041 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00809 View details on SM00809 Search for proteins/transripts with this domain View external data on SM00809	560	669	110	6.1E-17	IPR008152 Show description in modal box View details on IPR008152 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF02883 View details on PF02883 Search for proteins/transripts with this domain View external data on PF02883	567	663	97	4.3E-12	IPR008152 Show description in modal box View details on IPR008152 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF02296 View details on PF02296 Search for proteins/transripts with this domain View external data on PF02296	675	782	108	1.5E-13	IPR003164 Show description in modal box View details on IPR003164 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	675	790	116	5.89E-30	IPR009028 Show description in modal box View details on IPR009028 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	676	790	115	5.9E-21	IPR012295 Show description in modal box View details on IPR012295 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: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:0015031 View details of GO:0015031 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0015833 View details of GO:0045184
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:0030122 View details of GO:0030122 AmiGO InterPro QuickGO	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).	Subterm of View details of GO:0030131 View details of GO:0044433 View details of GO:0098797 Part of View details of GO:0030128 View details of GO:0030132
GO:0030131 View details of GO:0030131 AmiGO InterPro QuickGO	Cellular component	Clathrin adaptor complex	A membrane coat adaptor complex that links clathrin to a membrane.	Subterm of View details of GO:0030119 Part of View details of GO:0030118
GO:0035615 View details of GO:0035615 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0030276 View details of GO:0098748
GO:0072583 View details of GO:0072583 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0006898

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0172200.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0172200.3