Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0090500
Transcript ID	LotjaGi1g1v0090500.1
Lotus japonicus genome version	Gifu v1.2
Description	Beta-adaptin-like protein; TAIR: AT3G55480.2 protein affected trafficking 2; Swiss-Prot: sp\|Q9M2T1\|AP3BA_ARATH AP3-complex subunit beta-A; TrEMBL-Plants: tr\|K7KAL6\|K7KAL6_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0090500
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:13184884..13197250) extracted from Lotus japonicus Gifu genome v1.2.

ATCAATAAAATCAAATATAAAATTTCCGCTAAAAGGTTTCTATCTGCGGAAGAAGAAAGAAGAAGCAGATCACAATCCAT TGATCAGAGAAAATGTTCCACCAATTCGGAGCGACGGCGGAATCTCTGAGCAAGGCGTCGACGGCGGTGTTCCGGATCGG CACCGACGCGCACCTCTACGACGACCCCGAAGATGTCAACATCGCTCCTCTCCTCGACAGCAAGTTCGATTCCGACAAAT GCGAAGCTCTCAAACGCTTGCTCGCTCTCATCGCTCAGGGCTTCGACGTCTCCAACTTCTTCCCTCAGGTACACCTTACC TTCTCTTCGATCCGCGATCTGCTTCAATTTCAGATACTTCGTATCAGATTGTGTGGTGCCGTTGATTTTTGTTCACTCTA GTTGAATTTTGGTTCGTTTCGATTGTGAATGCAAATTGCAGGTTGTTAAGAATGTTGCGTCTCAGTCCCTGGAAGTGAAG AAGCTGGTTTACTTGTACCTCCTTCATTATGCAGAAAAGTATGTACATGCAGTTGTTGTTTTGCTCTGTGTGTTGATTAA GTGTTTAGGATTTGGCTTCTTGAAAGAGTAAAGCAAGTAGGCATCAGCGTTGTCAAATAGCGGCGCTATAGCGTAGCGCT TTTTTGGCTTTCCGCTATTACCGGCTATTTGCCTCTTTTTCTGCTATTTACCGCTTTAAGAGGCTGGAAATAGCGGATTT TTGGCTTACCGCTATAGTCCGCGATCCGCGATTAACAACAGTGGTAGACATAACTATTGATAAGAAAATCAGTTGTTGGA AACTTGAAATGTAAACAACTTCATATTTTGTCATACATGTTGTGAATCAATATGTTCCTACTACTGATTTTATCATGTAG CATGAGGAGCTAAGTTCAATTATTCAGTATTTATTTTTTCCGTAAACATGGTTTAGGTAAGGGTTTTTGTTTTTGGACTC CAGTTTGCTTATGGTCTAGGATTATGCCTTTAAAAGTCAATATATGGCCTTGTTTCCTGGACCGTAGCATTCTTCTCTGC CTTGAATTTTGTCATGTAATGAGTAATTGCTGTCATTTTCTTATTGTTTTATTTCTCTTTCACTCAGGCGTCCAAATGAA GCTTTGCTGTCTATTAATTATTTCCAGAAGGACCTGGGGGACACAAACCCTTTGGTGAGGGCATGGGCACTTCGTGCCAT GGCAGGGATCCGCCTTCATGCAATTGCACCTCTTGTTCTTGTCGCTGTGGGAAAATGTGCTCGGGATCCTTCTGTCTATG TTAGGAAATGTGCTGCTAATGCTCTTCCTAAGCTTCATGATTTGCGGATGGAGGAGCATGCATCTGCAATTGAAGAGGTC TGGTTGATGTTCATGTTGTTTATCATAATTATTAAGATTTTCCTTCAATAGGAGATATATTCATAAAAATGAATATATTG GAAAGAAAAATATGCTATTTTTTTTCCCAGGGTTTCCATAGAGTTTATACATTTCAATTTTCAACTATGAGTTAGTAAAA TTTTTAAGCCGGATATTTGATTTCATCGTTGTGTGGTTGGCCTTGGAAGGCCACATGGGTTCTGTTCAATTTTACTCTAT AAACTTTGATCCTTCACATGGTGCAGATTGTTGGACTATTGTTAAATGATCATTCCCCAGGAGTTGTTGGAGCTGCTGCT TCTGCATTTAATTCTGTTTGCCCAAACAATTTTTTGTTGATTGGGAGAAATTACAGAAGGTTGTGTGAGATTCTTCCTGA TGTGGAAGAATGGGGTCAAATAATGCTAATTGGGATCCTTCTGCGGTTTGTGATAGCGAGGCATGGGCTTGTCAAAGAAT CCATCATGTTCTCATTGTACAATAAAGATGGTGACACGTTAGAGGAAGATGAAAGCCAAGTTAGTTTAAGAGAAGATGAT GGTTATGCCTCTGAGCAGTCTGTATCGGAATTTGCTAATATGATCTTCCAGTGTTACATTGAAGGGCCAGATGAGTACTT ATCACGATCAAGTTCTACAAGTAGGGTTGCTCCTAAATTAGATGTATCACAATATACATCTTGCTCTGATGAGGTTGTGA AGATCCTGCTGCAGTGTACATCACCATTATTTTGGTCTAATAACAGTGCAGTTGTACTATCAGCTGCTGGAGTACACTGG ATAATGGCTTCTAAAGAGAATGTTAAAAGAATTGTTAAACCACTCTTGTTTGTCCAGCGATCATCATACGCCTCAAGATA CGTGGTATGCAACTTTCCTTGAATCCTTTGTTTACTCTTACTTCTATGGATCAACAGTCTCTATTATATTCTTTTGTTTA TTTAAAATACTTGCAAACATTATATATGGATTCTTCCTTTGAGGTTGTGTAAATTTTTCTTTTTTATTATGGGTTGTTTT ATTCCCTATTCTAGTATCTCCGATAAATTGTTGAAGTTTTATCGAAAAAATGTGTTAGTTGTTGTTTCCATTGTTTCCCC TAGTGGGTTATATTATATTACTAGCTTTTGGCGTCTCATGATACTGTTATATGATTGCAAGGAGAAGAAGAGTGATCTTT TGGGAATATTTCTGTATTTTGATATCATTAAATTAGTTTTAGAAGAGACAATGGAAACTTCTGGGTGGTTATGACCTATG ATGAACCTATGAAATAGAAGGATGAAAAATTATTTTTTATATTGTCTATGGCCTAAATATGATTTGAATGGATGTATTAT CATAACTGAATCAGATAATGCTAGCAGGCTAGGTTTCAAAGCTCATAAAAATTGGGTCAGGACATCTACAGCATTCCCTG CTGCTTAGTAATGATCTTATCCTTGCCATTCATATATTGCATTTTTAGGAGTTCATGACACTTCCAGGAGTCTATCTCTA ACTTTGATCATTTACCCATTGTCTAAGTAACACCACAATATTTACATGAATGGTGTGGGTTTGAAGTTGGATTTTTTTAT GAAACCGAGGAACTGTACAATTTAGAGGGTGATAATAGTGTTTCCTTCAAAATATGGCAAGGATGATTTTGTGCTTAATC TTTTGAGAGGTAGTGGTGTTAAATTGTTACGGGGAGTTCTCTTACATTTTCTATTTCAAAGAATGGATTTTATGTTTGTT GGATGAATAATAAATATTTTTTTGATGATATAAAAAAAATATTGAGGAGAAATGGAGTCACAGAAAATATACTTAGATAA GGCAATAAAATGATGAAATCTAGTTAATAAACATATATTTATTCAAATTCTTTGATACTTGACATAGATATAAATGATAT TTTGACTTATGCAGGTATTGTGCAATATCCAAGTGTTTGCTAAAGCTATGCCATCTCTCTTTGCTCCACACTATCAAGAC TTTTTCATATGTTCTTCAGATTCCTATCAGATAAAAGCGCTGAAGCTGGAGATACTTTCTTCTATTGCTACGGATTCATC CGTTCCATTAATTCTTAAAGAGTTTCAGGTATTTCACATCAAATATATTTTTCTTTCCCATATAAGTTATGGTGTGAGGA GAGGAGATTTTCTTCCAGTAAGAAGTTTGTGTCCATTTCAGTTATATTCATTGTGCAAAAAGCAAAATATATAAAATAAT AACCAGTTTTTAATTTTCTTCTCGTATACTGCAAGTTTCTGTTGATTCTAACCTGTTTCCTTGTCATATCACTATTATTT AAAATGTGAAGGAAATGATTCTTTTCTTCTTTTGAACACTGTTGGATTGAGTTTATTACTTTATTTTGATTCTGTCAATT TTACACTATCTGAACTGTTTGCAGATGTGGTTGTTTGTCTATCAACTCTCTTATTTTTTGTGTATATTAAGTGGATTTGA GTCTTGACTCTTGATACCTCTTCTAACATTTTTTGGAAACTTGCGTCTTGCAATGTTTCACTATATGGCACAGTAGTGTC ATTTTTATGCTGTTTCAGTATTGTTTCTACTTTCTATGATAGTGTTCTAATATCTGAACACGTGATCTGACACGGATTAT TCCTGGTTCTGCTTTACCTTACACATATATTCTTGTTATCTGGCTTAGTCAGTACTAGGATGATATAAGAGCTAGAATAG TTTTCTCTCTTGCTGGGGGCTCAGGCCCTCCAATATACTCACAAAGAAACATGGAGGTATTCTCACCATCTGACTGGATG CGATGATACATGAAGTAAGTAGTAACAGTTCAAACATCAAATAACTCTAACAAGGCTTATCACATGATTTTAAATACTTA AATTCTTGTTATCCATTGTATGCCACTGAAGTGTTATATATCCCATAACACATGTCCTGCTGATGTGGGACTAGTGATCT TGTCTTTCTTCACCCTTAAATGACTGATGCCTGTCGGAGACTGAAAATTTAAAGTCTGGTAGCGATCCTAATATCCTATT ATTTATTGGATGAGAAAGATCCATGGCATTTTCACCCTCACTCATCTTACGCTGAGCAACTCCCTCTTTACCTCTCCTAG AATACACTTGCCAAATGTTAGGTCTGTCATTGGCCTGCACCTGTTTATGCGCCCTGCTGAATCAGTTGAATCCCCCACCT CCGACCCTAACAATGTTCTAGTTATGCTCCTTTTGATTCCATTATTATGATATTATCTCTCATTAAGGACCATCAAGCTG ATATCTCTGTCCTCAAATACCGTGTTATGAACCTTCGCGGAGGATCTGTTCATGGGTCTAGATGCAAGAGTATTCTTCTT GCAACCCAGACTGAATAAAGAAGACGCGGCTCGTCCTTGACAGAGCATCTTCAAACTTTAGGTTTCTTAAGAAAATACTT GCTTGATTTTATTCAATACTGAAATCCCCCTTTTATAATAAGGGTTGAGTACAAGAGAATTAACCTATTTCTAATAAATT AAGAAACAACCAAATCTTATCTAATAAAGGAAAACAATATAATCCTAACTAATTAAGATATAATAATTCCTAACTAATGA AGATATAAAATAAAATAGAAATATCCTAAATTAACCTAACGTATCAAATCTGCCCTAAAATCAGCAACCGTATCATCACA CCCCTCCCCGGCAATGACCTTGTCCTCAAGGTCAAATCCTGGATAGGCAGCAGTGAACCTTGACCCTTTCTGTTTCCTTT TTCTGACCTTCTTTGAACAGTGTTTTTCACCAAATTTATACATATTAACTTCAGAGGCATCTCCTTTGGTTAATGTACCA ATAACTTTGGATTGATTCACCCGTCTCAAAGGAAATATATTTATCCTGAAACGATAAATGACAAGCAACCCAGAATGATG TTTCTTCAGAAAAACAACTTTCTCTCCTTTAATTCTGCCGGCAAGCAGAATCAGCATTGAGCAAAGAGGAATGCTAGCCC TGATCTTGGTGGTTCTGGGCTTGAGCTTGTTGACAAGAGGCTTCTTGATATCTTCGGTGGGTTAGAACTTGGGGGGCTTT TGGGGAGAAGCTTCAGACTTAGGCTCATCTGTGCTGTTGTCTTCTCGTCCTCTTGCGCTGTTGTTCTCATCGAGTTCATG TGTGGCGGTTCCCATGGGTTTCTTCACCATGCCCCGAATAACGATGGTGATGTCCGCCATATGTTTTTCCAGCACTTGTT GCTGAGCCATCATCTGCTCCATGAAAGCATCAAGCTTTTTTGCCAAATTCTCCGTGACGCCCATGACAACCGGCTCTGAT ACCAAGTTGTTATGAACCTTCGCGGAGGATCTGTTCATGGGTCTAGATGCAAGAGTATTCTTCTTGCAACCCAGACTGAA TAAAGAAGAAGCGGCTCGTCCTTGACAGAGCATCTTCAAACTTTAGGTTTCTTAAGAAAATACTTGCTTGATTTTATTCA ATACTGAAATCCCCCTTTTATAATAAGGGTTGAGTACAAGAGAATTAACCTATTTCTAATAAAATAAGAAACAACCAAAT CTTATCTAATAAAGGAAAACAATATAATCCTAACTAATTAAGATAAAATAATTCCTAACTAATGAAGATATAAAATAAAA TAGAAATATCCTAAATTAACCTAACGTATCAAATCTGCCCTAAATTCAGCAACCGCATCATACTGCTAGCATTTTCTCAA TCTACTCGGATAAAGGTTGCAATCTGTCCCAACTAAGTCCTTGTTTGATTGAGTTCCTTTTTGGGAAAATGAACTTTTAA ATTTGTTTTCAAATGATCAGTTGAGAAGCTAAAAAAAAGAATCTTTTTTAGACTCCAGATAAACTAATCCAAACACGCTC TAAGCCTGCACTGCATGTAGTATATACCAGTTGTAAAGAACCTAATAGCTACTGTCCAAGAAACATGAGAGGGCTAATGC CCTAAACATTCTAGCCTAAAAGTTACTAGATTAAGTTACTTGTATGCTATTCAAGCCTACCTTCAAACACTTTCTTCTTT CAGTGATATGAGGCTTGTAATGTTACAAACCTACTATTGGAACTGTGATATTATTTATTTGTAGGGTTTAGATATATATA TATATATATATATATATAGAGAGAGAGAGAGAGAGAGAGAGAGAGACTCACTCTCCTATAGTTGTCTCCTGCTCCTGCCC GACAAAAAAAATCTGGAGCTAGATAGGCTTATGCAGGAATCCTCTGTCACATGCGCACATGTTTCATTTATTATTATGGT TGTTCACGTTTATCTTCTTGCTATGACTTCTACAATTGTGGGGTTTGGTGCACAAATTGATGCTTTTCTTAGTGTGTTGC TAGGATTATATAAGAGATCCCGACAGGAGATTTGCTGCTGACACAATTGCAGCCATTGGTCTATGTGCTCAGCGACTTCC AAAAATGGCAACTACATGCCTGGATGGATTACTGACTCTGATCAGACAAGGTGTGTGACCTAGTTGTTAAGTCTATTTAG TAAAGAAATATATCATCTTTCTTGTTTAATAAATTAATATCCATATTTGCAGATTTTTTGTGTGGTGAAATCAGATCCTT GGATGGAGAAGAGGGTGTGTTAATCCAGGCAATTATGTCCATCATATCAATTATAAAATTGGAACCACCCAGTTATGAGA AGGTATTATTCTGATTTTTTTTCTCACATATAATCTACTGTGGTGCTTTTTTTAGTATGGAATTAAAAACGAAAAATTGT TTCAAAAGACAATATGGAGATGTGGAAAAAACTAGGCATGGGATGAACATAGTGTTAGTATTGCAATTGTTGAGTTAGTA GCACTTTCATTGATTTAAAACATTGCTTATGCTGTTATGACTGATCTCTAGCCTTTTCAATCATTAAAAGGTTATAATTC AGTTGGTTCGTAGCTTGGATACAATCAAGGTCCCCGCTGGCCGTGCAATGATTATTTGGATGTTGGGGGAGTATTGCTCT TTGGGCGAGATAATTCCAAGGATGTTGAGCACGGTACTCAAGTATCTTGCTTGGTGTTTTGCTTCTGAAGCATTAGAAAC TAAGCTTCAGATTCTTAATACAACTGCAAAGGTATATCATGAAGTTGATGGGTTAATTCATTGCTTATTATGTTGTTGTT TATATTAGTCATGACTGATTATTTTTAAACACTGTTGTTTATTGATTGAATATGATGATGGGACATAGGTATTCTACTAC TAGTCTTTTCATTCTTATTCTTTAACTTAGCTTTGAAGACTAGATTCATTCGGTTCTGCATGTGATGTCGTTTGTTTGTT CAAAGATCATATAAACAAAATACTGCTTGAGAGCAACTGTCAAGGTCCTGGATTGGACAATTTAGCTGTTTAAAGAAATG CTCGTAAATCCTTTTTAATGTGTAAATTGCTTATGTTTTGATCTCTATGTGTCATAAGTTCTCTATGTGTTCATATATAT CTTTCTCCCATTTCGCTCAATTTGTTCTTCAGAACTTCCTACTTATCATTTCAGTCATATCTTATTAGGTGTATAGGTCT ACCTGTGGCATTTGCACTTCCCATTATATTAGCATTTTCTACTTGAATTTTCTTGGTTTCTTAAGACCCCTTTGGCCTGT CTCCCTTTAAAAGTGGAAAGAAGAAAGGACAGAAATTGAGTTTTCATCTAGCATAATGGTATTTTTTGGCTCATGATTAA AAGTCTGAGACTTGTGATGTTCATGTTTCTGGAAGTGAGTTGAATAGACTGTTAATAGGAAGGTGGTATCTATGCATTTT TAATCTATAACACTTAAAAGCTCTCCAGCTTTCCTTTGCTTGCAGTGCTTTCTCTTACTGTGTTAAATAATGTATGGGTG ATGCATATCACTACGCATTCTATATTATTTGTTGCCTTTTTGGTTTTGAAGTTAGAAGATGCAATGGTATTGAAATTTAT GCCCTGTTAAATGTATGTAGGTCCATATAATTACTGATGTTACTATGTTAGGACTTAGAACCTTCCTTCTTGTCTCCTGA GTTTTATGTACTTGATTTTTCTTGGCATGTTTCCTCAATCCTTATATAGGATAAAAGGGAAGAAAGTGTTATATGGAAAA CAGCAGCTTTACGATTTAAATGACTTTTGGTTACAGGTCCTACTGTACATTAAGGGAGAAGATAGTTGGACCTTGAGAAA AATATGGAGTTATGTAATTGAACTGGCTGAGTGTGACCAAAACTATGATATTCGTGATCGTTCACGTGTCTTAAAGAAAC TTTTCTCAAGCAGTTTGGAGTTTCAAAATGCTGAAGAAAATAGTAAATCACAAAAAAGAGACCAGTCTTGTGTACTTTCA GAATGCATATTTGGCGGACAGACAAAATCTGTTACAGTTCCATCTGAACCCATCAACTACCGGTTTTATCTCCCAGGGTC TCTATCACAATTAGTATTCCATGCAGCTCCAGGCTATGAACCTCTCCCAAAACCTTGTAGCCTTCCATACATTGATCTTG ATCAGTATGATGGAGCTGCTGAGAGTGATTCAGATGAGGAAGATGATCCTAGCACATCTGAGTCTTTGGATGATGAAAAT GCTTCTGATTATAGTTCTGAACAGTCAATCTCTGGTTCAAGTGAAGTCAGTGGCAGCGATGAGACAATGCCTGGCAATGG AGGTAACAACAATGCTGATTTACTGATTCAGATTTCAGACCCTGGCAATGTCTTAGAAAACCAGAATGGTGGGGCTCACT CTGGAACTTCTGGTCTTAGGGATCTGATGTCAACAAAGTCTCTTGAGTCTTGGTTAGATGAAGCACCCGGGTCATCTAAA AGTAGGGAAGTAGAACATAGCCGAGTTCAAAGATCTTCAGCAAGAATAACCATTAGTAATATTGGAAGCCGAGTTAAACC TAAATGCTACATTCTATTAGATCCTGCAAATGGAAATGGGTTAAAGGTGAATTACTCTTTTTTATCTGAAACTCCAAGCA TATCCTCTCATCTTGTTTGTTTAGAATTATTATTTGAGAATTGTTCCTTGGAGCCCATGTTGGATATAGTATTAATAGAT GAGGATTCTAGCAAAACCTCAGATTCTACGGATCAAACATCACCAGCAACTGAAAAGTAAGTATTATGTATTATTCTTTC TTTTCACATTCTGCTTTGTGGTTGTCCATTTTTTGCCCTTCTTTCCTTGGAATGTGTTATACTAACAAGTGTTAATTTTT ACTGAGTTGCATAAAGATAGTTTTTATTTTCTAAATTTGAACTTAGTCGGCTGTTGCTTTGTAGTGCTTATGCCTACTAC AACTTTTTATGTTTTGTTGCAGCACCTTGAAATTTAACATTGATAAACCAGCAGTGGTTTCCATGGAAGACATCCTTTCT CTGGAGCCTGGTCAAATAGCTAAACGGACTCTACTTGCGCGCTTCCATCACCATCTCTTGCCTCTCAAACTGTCTTTATT TTGCAATGACAATAGATTCCCTGTTAAGCTAAGGCCTGATATTGGATACTTTGTAAAACCGCTTCCAATTAGTAATGAAG CTTTCAGAGATAAGGAATCTCGCCTTCCAGGGATGTTTGAATATGTGAGGAGGTATGAAAGTATCATTTAATGTTTGTTG GACACAAATAATCATGATATCATTTCCAATTCTTAGGAATACAAACCTTGTATCTGATGAAGTACTTTTTAGTAGTTCTT CAGTCTGTAGCCCTATCTTTACGCACACTTAATGATGTTGAAAACATAAAATACTGATGATAGATGACTAGATTCAAATT CATATAAATGCGCCAGCCATATGCAAGATGGGAGTAGTGTCGGGGAGAAAGAACGTGACTTGAATTTAAATTCAATACTT AGAACTTCCTAGAATAAAAAAGTCATAAGTAATTGGGTTGTGAATTGAAATCTAAATTACATGGTATTTTGACCTTCTGT TTATTTAGTTTTATGATTGTTTCCGCATGTCAAAAATAAAGGAAGCTTCAATTCTGAATGTATGGATATTGCTTATTTAA ACTTCATTTTGTTTTCATATATCCTTCAGGCAATATGTATCCTTGGGAAAGCATCTCTGAGATGTAGTTTTATGTTTCCT TAAATTCATAAATAATGCAGTATCAAAGAAACTCAAAAGATTAAGTAGTAGAATTGTCATGTTGATTTAAAGGATCCAAC AAATAGAATTTATTTTTGTACATTAATACGACATTAACTATCAGTTTATTATGAGCTTACTGTTTATACATCACTTGCAC TTTTGTTTTTCCACTTGTTTTTTCTTGTTTCACTTGCCGGTGAATTCTAAATTTGGTTTTCATGTATTATTGGCATCCAG TTGCACTTTTACTGATCACATCCTAGAGCTGAACAAGGACAACAACTCTTTAACCGAGGACAAATTTCTTGTGATCTGCG AAACCTTAGCGATAAAGATGCTGAGCAATGCAAATCTCTCTATTGTATCTGTGGATATGCCAGTTGCTTCCAATCTTGAT GATGCATCTGGTTTGTGCTTGCGTTTCTGCAGTGAGATCCTGAGCAATTCCATGCCATGCTTAATTACAGTTACTGTTGA AGGTAAATGCTCCGACCCATTGACTGCTTCTGTAAAGGTCAACTGTGAAGACACTGTATTTGGCTTAAATTTCTTAAATA GGGTTGTCAATTTCTTGGTTGAGCCATATGTTGCCCTCTCTTAAGGTTTGATGTTGAATAGAAAATTGACAAATGCTAGT TGATTTGTGGAAAAGTATATTTAATAACTTGAAGAGCATGACTAAGAGATTTGTATTTTTTTTCTTTTGGTGAGGTATTG CTTTTTTTTTTTTTCTTTTTTTCTATTGTTAAAAGGAAAGAAAGGGGGAGAGGGAGATGAATGATTGTTGCATTTTTTTT TTTGGTTAATTTAATTATCCAGACTTTTTTTTCTTTCTATCGTTCTTTTTCTTTTTTGGACTTCTATTTTTTATTTAGTG TTTGCTATAGTTTCTCGCGGAAAGGAACTCAACTGGCGTGCTTTATTGAATTGTATCATTCAGATTGTTCCAGGTGTAAT TTTTGTTTTTCTAATTTATGATTCAGTTGTGAGCAAAAATCAACCTGTGATTCTTGTAGAATTGTGTACGAAGTCCTAGA GTTATATTATGTATTGTGCTGCAAATTTTCGATAGAAGATAAATGATATTACTTGCACATCCATCATTAAAGGATTCTTT AGTTACATTCTAAATTCTAATGGATTCTTTCATGATAAATTTTCATGGAAGACTTTTAGTATGTTTAGATATCTACTCAG AAATCTCCAAACTAATGCTTAAGTAGAAGCAAAAAAAAACATTTCTGCGACATTTAACTCGCAACTTGCGCAATGGATTT GCATACCTTGAAACAAACGCACTGTATTATTTTGTCACTAATATGTTTTAAATTCAGCTTATATTATAAATTACATTTGT CTCTATTGTTTATGTTATTATATAGCACAATTAAACGGTAGCATAGTGTTATAGCTCCCCTCATCAGTAATCAAACTTGT GGATTTATTGTAAATATTCCTTTCATTTGTAAGCGCTTGATTTTGATTCGAACGCGACCCTATGAGGTCCCTGTAATATA AGAATCAAACTTATAGTGGATATACTGTAAATATTTTTATCTTTCATTTGTAAGTGATTGATTTTGCAACTAGAATCTGT AACCTCTGAGTAAATGGTCATTTTGGTCCCTGATTGTGTTCACTTATGATGGACTAGTCCTCATACTTTGGAAATGGTCT TTTTTCATCCCTGAATATGTAGCCGTCGGTCAAGTTCGTCCTTGGTAGTGTTTTCCGTTAGTCCCTCGGACGGAAAAGTC CAAATGTCACCATTTTTGCCACATTGACTTGACACGTTATCAATGTCTCACATTTTATTAGGTCAATTTAGTCCCTCAGA AAATTAAAAATAAAATCCTCTGAATTTATTAATTCAAATTTCCAGCT

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0090500.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTTCCACCAATTCGGAGCGACGGCGGAATCTCTGAGCAAGGCGTCGACGGCGGTGTTCCGGATCGGCACCGACGCGCA CCTCTACGACGACCCCGAAGATGTCAACATCGCTCCTCTCCTCGACAGCAAGTTCGATTCCGACAAATGCGAAGCTCTCA AACGCTTGCTCGCTCTCATCGCTCAGGGCTTCGACGTCTCCAACTTCTTCCCTCAGGTTGTTAAGAATGTTGCGTCTCAG TCCCTGGAAGTGAAGAAGCTGGTTTACTTGTACCTCCTTCATTATGCAGAAAAGCGTCCAAATGAAGCTTTGCTGTCTAT TAATTATTTCCAGAAGGACCTGGGGGACACAAACCCTTTGGTGAGGGCATGGGCACTTCGTGCCATGGCAGGGATCCGCC TTCATGCAATTGCACCTCTTGTTCTTGTCGCTGTGGGAAAATGTGCTCGGGATCCTTCTGTCTATGTTAGGAAATGTGCT GCTAATGCTCTTCCTAAGCTTCATGATTTGCGGATGGAGGAGCATGCATCTGCAATTGAAGAGATTGTTGGACTATTGTT AAATGATCATTCCCCAGGAGTTGTTGGAGCTGCTGCTTCTGCATTTAATTCTGTTTGCCCAAACAATTTTTTGTTGATTG GGAGAAATTACAGAAGGTTGTGTGAGATTCTTCCTGATGTGGAAGAATGGGGTCAAATAATGCTAATTGGGATCCTTCTG CGGTTTGTGATAGCGAGGCATGGGCTTGTCAAAGAATCCATCATGTTCTCATTGTACAATAAAGATGGTGACACGTTAGA GGAAGATGAAAGCCAAGTTAGTTTAAGAGAAGATGATGGTTATGCCTCTGAGCAGTCTGTATCGGAATTTGCTAATATGA TCTTCCAGTGTTACATTGAAGGGCCAGATGAGTACTTATCACGATCAAGTTCTACAAGTAGGGTTGCTCCTAAATTAGAT GTATCACAATATACATCTTGCTCTGATGAGGTTGTGAAGATCCTGCTGCAGTGTACATCACCATTATTTTGGTCTAATAA CAGTGCAGTTGTACTATCAGCTGCTGGAGTACACTGGATAATGGCTTCTAAAGAGAATGTTAAAAGAATTGTTAAACCAC TCTTGTTTGTCCAGCGATCATCATACGCCTCAAGATACGTGGTATTGTGCAATATCCAAGTGTTTGCTAAAGCTATGCCA TCTCTCTTTGCTCCACACTATCAAGACTTTTTCATATGTTCTTCAGATTCCTATCAGATAAAAGCGCTGAAGCTGGAGAT ACTTTCTTCTATTGCTACGGATTCATCCGTTCCATTAATTCTTAAAGAGTTTCAGGATTATATAAGAGATCCCGACAGGA GATTTGCTGCTGACACAATTGCAGCCATTGGTCTATGTGCTCAGCGACTTCCAAAAATGGCAACTACATGCCTGGATGGA TTACTGACTCTGATCAGACAAGATTTTTTGTGTGGTGAAATCAGATCCTTGGATGGAGAAGAGGGTGTGTTAATCCAGGC AATTATGTCCATCATATCAATTATAAAATTGGAACCACCCAGTTATGAGAAGGTTATAATTCAGTTGGTTCGTAGCTTGG ATACAATCAAGGTCCCCGCTGGCCGTGCAATGATTATTTGGATGTTGGGGGAGTATTGCTCTTTGGGCGAGATAATTCCA AGGATGTTGAGCACGGTACTCAAGTATCTTGCTTGGTGTTTTGCTTCTGAAGCATTAGAAACTAAGCTTCAGATTCTTAA TACAACTGCAAAGGTCCTACTGTACATTAAGGGAGAAGATAGTTGGACCTTGAGAAAAATATGGAGTTATGTAATTGAAC TGGCTGAGTGTGACCAAAACTATGATATTCGTGATCGTTCACGTGTCTTAAAGAAACTTTTCTCAAGCAGTTTGGAGTTT CAAAATGCTGAAGAAAATAGTAAATCACAAAAAAGAGACCAGTCTTGTGTACTTTCAGAATGCATATTTGGCGGACAGAC AAAATCTGTTACAGTTCCATCTGAACCCATCAACTACCGGTTTTATCTCCCAGGGTCTCTATCACAATTAGTATTCCATG CAGCTCCAGGCTATGAACCTCTCCCAAAACCTTGTAGCCTTCCATACATTGATCTTGATCAGTATGATGGAGCTGCTGAG AGTGATTCAGATGAGGAAGATGATCCTAGCACATCTGAGTCTTTGGATGATGAAAATGCTTCTGATTATAGTTCTGAACA GTCAATCTCTGGTTCAAGTGAAGTCAGTGGCAGCGATGAGACAATGCCTGGCAATGGAGGTAACAACAATGCTGATTTAC TGATTCAGATTTCAGACCCTGGCAATGTCTTAGAAAACCAGAATGGTGGGGCTCACTCTGGAACTTCTGGTCTTAGGGAT CTGATGTCAACAAAGTCTCTTGAGTCTTGGTTAGATGAAGCACCCGGGTCATCTAAAAGTAGGGAAGTAGAACATAGCCG AGTTCAAAGATCTTCAGCAAGAATAACCATTAGTAATATTGGAAGCCGAGTTAAACCTAAATGCTACATTCTATTAGATC CTGCAAATGGAAATGGGTTAAAGGTGAATTACTCTTTTTTATCTGAAACTCCAAGCATATCCTCTCATCTTGTTTGTTTA GAATTATTATTTGAGAATTGTTCCTTGGAGCCCATGTTGGATATAGTATTAATAGATGAGGATTCTAGCAAAACCTCAGA TTCTACGGATCAAACATCACCAGCAACTGAAAACACCTTGAAATTTAACATTGATAAACCAGCAGTGGTTTCCATGGAAG ACATCCTTTCTCTGGAGCCTGGTCAAATAGCTAAACGGACTCTACTTGCGCGCTTCCATCACCATCTCTTGCCTCTCAAA CTGTCTTTATTTTGCAATGACAATAGATTCCCTGTTAAGCTAAGGCCTGATATTGGATACTTTGTAAAACCGCTTCCAAT TAGTAATGAAGCTTTCAGAGATAAGGAATCTCGCCTTCCAGGGATGTTTGAATATGTGAGGAGTTGCACTTTTACTGATC ACATCCTAGAGCTGAACAAGGACAACAACTCTTTAACCGAGGACAAATTTCTTGTGATCTGCGAAACCTTAGCGATAAAG ATGCTGAGCAATGCAAATCTCTCTATTGTATCTGTGGATATGCCAGTTGCTTCCAATCTTGATGATGCATCTGGTTTGTG CTTGCGTTTCTGCAGTGAGATCCTGAGCAATTCCATGCCATGCTTAATTACAGTTACTGTTGAAGGTAAATGCTCCGACC CATTGACTGCTTCTGTAAAGGTCAACTGTGAAGACACTGTATTTGGCTTAAATTTCTTAAATAGGGTTGTCAATTTCTTG GTTGAGCCATATGTTGCCCTCTCTTAA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0090500.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MFHQFGATAESLSKASTAVFRIGTDAHLYDDPEDVNIAPLLDSKFDSDKCEALKRLLALIAQGFDVSNFFPQVVKNVASQ SLEVKKLVYLYLLHYAEKRPNEALLSINYFQKDLGDTNPLVRAWALRAMAGIRLHAIAPLVLVAVGKCARDPSVYVRKCA ANALPKLHDLRMEEHASAIEEIVGLLLNDHSPGVVGAAASAFNSVCPNNFLLIGRNYRRLCEILPDVEEWGQIMLIGILL RFVIARHGLVKESIMFSLYNKDGDTLEEDESQVSLREDDGYASEQSVSEFANMIFQCYIEGPDEYLSRSSSTSRVAPKLD VSQYTSCSDEVVKILLQCTSPLFWSNNSAVVLSAAGVHWIMASKENVKRIVKPLLFVQRSSYASRYVVLCNIQVFAKAMP SLFAPHYQDFFICSSDSYQIKALKLEILSSIATDSSVPLILKEFQDYIRDPDRRFAADTIAAIGLCAQRLPKMATTCLDG LLTLIRQDFLCGEIRSLDGEEGVLIQAIMSIISIIKLEPPSYEKVIIQLVRSLDTIKVPAGRAMIIWMLGEYCSLGEIIP RMLSTVLKYLAWCFASEALETKLQILNTTAKVLLYIKGEDSWTLRKIWSYVIELAECDQNYDIRDRSRVLKKLFSSSLEF QNAEENSKSQKRDQSCVLSECIFGGQTKSVTVPSEPINYRFYLPGSLSQLVFHAAPGYEPLPKPCSLPYIDLDQYDGAAE SDSDEEDDPSTSESLDDENASDYSSEQSISGSSEVSGSDETMPGNGGNNNADLLIQISDPGNVLENQNGGAHSGTSGLRD LMSTKSLESWLDEAPGSSKSREVEHSRVQRSSARITISNIGSRVKPKCYILLDPANGNGLKVNYSFLSETPSISSHLVCL ELLFENCSLEPMLDIVLIDEDSSKTSDSTDQTSPATENTLKFNIDKPAVVSMEDILSLEPGQIAKRTLLARFHHHLLPLK LSLFCNDNRFPVKLRPDIGYFVKPLPISNEAFRDKESRLPGMFEYVRSCTFTDHILELNKDNNSLTEDKFLVICETLAIK MLSNANLSIVSVDMPVASNLDDASGLCLRFCSEILSNSMPCLITVTVEGKCSDPLTASVKVNCEDTVFGLNFLNRVVNFL VEPYVALS

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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	PIRSF037096 View details on PIRSF037096 Search for proteins/transripts with this domain View external data on PIRSF037096	8	709	702	2.5E-158	IPR026740 Show description in modal box View details on IPR026740 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR11134:SF1 View details on PTHR11134:SF1 Search for proteins/transripts with this domain View external data on PTHR11134:SF1	9	1053	1045	1.7E-270	IPR026740 Show description in modal box View details on IPR026740 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR11134 View details on PTHR11134 Search for proteins/transripts with this domain View external data on PTHR11134	9	1053	1045	1.7E-270	IPR026739 Show description in modal box View details on IPR026739 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	30	316	287	4.1E-70	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	36	636	601	2.99E-85	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	39	637	599	5.3E-102	IPR002553 Show description in modal box View details on IPR002553 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	317	663	347	8.1E-81	IPR011989 Show description in modal box View details on IPR011989 Search for proteins/transripts with this domain View on EBI InterPro Service
PIRSF	PIRSF037096 View details on PIRSF037096 Search for proteins/transripts with this domain View external data on PIRSF037096	711	1122	412	1.7E-17	IPR026740 Show description in modal box View details on IPR026740 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	718	774	57	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	718	735	18	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	736	774	39	-	–
SMART	SM01355 View details on SM01355 Search for proteins/transripts with this domain View external data on SM01355	803	957	155	1.3E-25	IPR029390 Show description in modal box View details on IPR029390 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: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:0030123 View details of GO:0030123 AmiGO InterPro QuickGO	Cellular component	AP-3 adaptor complex	A heterotetrameric AP-type membrane coat adaptor complex that consists of beta3, delta, mu3 and sigma3 subunits and is found associated with endosomal membranes. AP-3 does not appear to associate with clathrin in all organisms. In at least humans, the AP-3 complex can be heterogeneric due to the existence of multiple subunit isoforms encoded by different genes (beta3A and beta3B, mu3A and mu3B, and sigma3A and sigma3B).	Subterm of View details of GO:0030119

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0090500.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0090500.1