Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi2g1v0318400
Transcript ID	LotjaGi2g1v0318400.2
Related isoforms 1	LotjaGi2g1v0318400.1
Lotus japonicus genome version	Gifu v1.2
Description	AP-1 complex subunit gamma-2; TAIR: AT1G60070.1 Adaptor protein complex AP-1, gamma subunit; Swiss-Prot: sp\|Q9ZUI6\|AP1G2_ARATH AP-1 complex subunit gamma-2; TrEMBL-Plants: tr\|V7CJD1\|V7CJD1_PHAVU Uncharacterized protein; Found in the gene: LotjaGi2g1v0318400
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr2:79328753..79340622) extracted from Lotus japonicus Gifu genome v1.2.

ATCTTTTATTTTTCTGATTGATATCCTCACTTGTAGGGATATGATTCGAGCCATACGTGCTTGCAAGACTGCAGCAGAAG AACGTGCTGTTGTAAGAAAAGAATGTGCTGCCATTCGTGATTCAATAAATGCAAACGATCATGACTATAGGCATCGAAAT CTGGCTAAGCTAATGTTCATCCATATGCTTGGTTATCCCACACATTTTGGTCAAATGGAGTGCCTCAAGTTGATAGCATC TCCAGGATTTCCAGAGAAGAGAATAGGTTATCTTGGCCTCATGTTGCTTCTTGATGAAAGGCAAGAAGTTCTGATGTTGG TCACCAATTCTGTAAAACAGTATCCATTTTCTATTTGAATTTAGTTGTCTATTCTCTGATTTCTTACATTCTACTTTAGA TGTGTTATTGATATTGATCTTCTACTGAAACAAATTGAGGGTAAAATATTAATAATGGTTTCTGGCAAAGCCTTAACTGA GTTGTAGAGATCTTAATCACACAAATCAGTATATTGTGGGACTTGCACTTTGTGCTTTAGGAAACATTTGTTCAGCAGAA ATGGCTCGGGATCTTGCACCAGAGGTTGAGAGATTGCTGCAATTTCGTGATCCAAATATTCGGAAGAAGGTGATTTTTCA ATGTACCTCATTTCTTCAGAGTTTTTATCTTTACCATCACATTTAAATTTCATACATATATTGGCCTTTTGTTATAAATT GAGGGAAAAGAGGCCATGGATGTTTTTTATGGTTTCATAGTGACACAATATCTTCTACATACTTACATAGTGACATTAAC ATATTGCTTTTCAGTTATAATGATTTGTTTTGTAACTTCTGTGCTTTTATTCTGGTAGGTAATGACTTGTTACTACATGT TCTTGTTGCTTAACTTGCTGTAATGATTTATAATTATGGATTGTGAAGAACTTCTTTACATACATTTTTGCCTGATTGGA CTATGATTTTACTGAAAATTAGATGTCCCATAGGACACGATTCTTGATATAACCTGATTCTGGTCCTTGTACTATAGTTA AGTTACTTGCCTCCATCTTTGCGTGATTGCTAATTTTTAAATTGCAAAGAGAGAATCAAGATTCAAGAGACAGCATGCAT CTACTCAACCATTTCCAGTTGGAATGGAATTGGAAAGACATTTTGCCATGGACTTAAAGCTCCTAGATAAACAAAGATGC TGGTTCTGTTTTTGTGTTTTCTGGAAAATATGTGAATTTTTAATTTCAACCATTCCATGAATTACACAATCCCAGTAATA TTTGGCCTAAGGGAGTAATTCTGAAGCTCACAGACTATTATACTTTATGTTGCAATGCTCATTTGAAGAGTCTGCTCTTT CGTTCTGTGATGTTAATAACAATTCTTACCTTATAATAGTCTGTGCTACAACTATTTGACTTTACAATTATATTTTGGAA TGTATAATCTTGCATGATAATCTAATTTGATACAAGTTATGAGCTTTAATACAAAACAAGTTGGTTGTAACATATCACTT TTTTTCATCGATTACCAGTCAATTTGTTTAATGTCTATTCATGATCCTTTTCCTTCAATTTTTGTTATTGAGTGGAAGTC TACTTATTAATGTCTTTTTAATCACTTAACATGCAACAAGTTAGTTCCATAGCCTAATCTCAGTTGTCACTTATCTAGGA TTGTGACCCTCCTACTCCCCTTTTCTAAACAATTGTAACCAGACAATGTAATTTAACATATATGTTGTTGACAAAACCTG TCCCATATAACTGCTTGAGTTGCCATTTTTCATTCTCTTAAATTTTTCATTCTCATAAATTAACTATGCTCCCTGTTATA CAGGCAGCATTATGCTCTATAAGAATCATAAAGAAAGTTCCAGACTTGGCAGAAAATTTTATCAATCCTGCTACTTCCTT ACTTAGGGAGAAACATCATGGAGTTTTGATTGCTGGTGTTCAGCTTTGTGCAGATCTGTGTAAAACTAGCACTGAAGCTC TTGAACATATTAGAAAGGTATTTTTCATCTTTCTTATTATGTTGTCAATCATATAGTGTATTTTCCTAGTACCCACTTTA GATATTAATTGAAGTAAACTTATCTAATACAGACTTAGCATGGCCAAAAATATTCTATGTAATGAAGCTATTTTCTGGAA TCTAGTATTTGTTGATCATAATTTGATTGCCTCACAAAATTGAAATGCTTGTGATTGTTAATGTAGTGTTTGAGCTTTTC TAACTGCTATTATTATTTTGGTATTTGTAACCTCTTTCTTTTCAAAGACTGCCTTTCAGTTTCAAGGGCACCCACTGTTT AGTTTTTGCAAGCAAGTCTTTGGGGTATAAATGTGTATAATCTGAACTGTAAAGGCAAATACGCAAGGTTCAATTATGAA ACTTTATAATGACAAGGCATACCTCTTAGGGCATTTTTATATGAACATTAAGCTTTGATTTTAACAAAATATTCTTTGAA CAATTATTACAGAAATGCACAGATGGTTTGGTCAGAACTCTTAAAGATCTAGCGAACAGTCCTTATTCACCAGAGTATGA TATTGCTGGCATCACAGACCCGTTTCTCCACATCAGATTGCTTAAACTTTTGCGAGTGTTGGGGGAAGGTGATGCTGATG CTAGTGACTCCATGAATGACATACTTGCCCAGGTCAGTTGTTTGTACATGCTGACACTTGAGACTTAAAATAATCTTAAT ATTTGATGCTTATTAGTTATTTCATGGTTGAGATGTACAATGTTTTTATACAATGTTTCCTAGTCAGGGATTGCACATTC AACTTAATAAGGAAACGATAATAATGATATTACATAGTAAGTCAGATCCTAATCGATCAGTTATCTATTTCCCGAAATAA GGAAATAGCATAATTGCAGAATATATCAACATATATAACATATCTCAACGCTCCCCATCAAGCTGGAGCGTATATGTCAT GTGCATCTAGCTTGGAACGTATGTATACTTTAATATTCTCGGACCCCTTAAAGGTTCAGCGAAAATATCGACAAGCTGAC CCTTGGAGAAAGCAGAAGAAGTTTTATGATGTTAGAAAGAATTTTTTTCTCTTATGAAATGATAATCAACTACTCTTAGA CTGGATTGGAGCAGAGATGCTACGCTGACTGGTTATCACTCATTAGCTCAATGGAGTCAACATCACAGAACCACAACTTT TGAATTAAATGCTTCAACGGCAGGAGCTCGCAAGTTGTGTGAGCCATTGTGTGTTCCGTAGCTTCCTGCTTGATCTAGCA ACAGCGATTTACTTCTTTTCCACGAGATAAGGTTTCCTCCTATTCAAATACAAATAACTCGAAGCAAACCGCCTTTCACT CGCATCACCAACCCAATCTGCAATGCATATGGATATCCAACAATATCAGTTTGACCCCTATCTATGTAAAGAAGTCCCTT TCTAGGTTACCTTTGATATGTCTAAGAATATGCATAAGCATAACAACCCGCCAATGACTATCACATGGATAATTGAGGAA CTAACAACACTGGTTGGGAAGGATCTATAAGGTTTGGTCATGTTGGAATAAATTAACTTCCCCACCAGTCTCTGGTATTT TCCTGGGTCAGGATAGAGCTCCCCCTGATTGGGAAGAAGCAGCTTGGCATTAGGATCCACAGGTTGTCAACTAGTTTGCA ATTTAGAAGACAGTTCTCCTCCAAAATTTCAAGAGCATACCTCCTTTTGTGAATATTTTTAATCTTGAAATCCAATGTCA GTGTTATATTCCTATCTAGTTCTTTGAAGATTTATGAGGGTTGCATGTGGGGGTTTTGGTCTCTATAATTGTATACTACT ATAATAAATTATTTTTATTTTTGGCCAGGGACAAGACAACTATTTGTACTGTAATTATATAGGTATGGTTTGGTCAATGT TAGAAGCTCCAATTAACTTACTGAGTTAAGTTTCTTTTATAAATAGTGTTAACCGCTTCTTGTAGTCATCAAGATGTAGA TCATTCATTTTAGTATTTTTAGGATATGTTTGTTGTTTTTCCAATATGTTATGCCAGTAAATGAGTTGATGATATCAATC TACTATTGTTTATTAGCAGCCGTCTTTTTTGAAATTTACTGTTGATAATTTTTAATTGCTATCTATTTAGGTGGCTACAA AAACCGAGTCCAATAAAGTTGCAGGGAATGCCATTTTATATGAGTGTGTTCAAACAATTATGAGCATTGAAGATAATGGG GGCTTACGCGTACTTGCCATCAATATCCTGGGAAGGTTCTTATCAAACCGTGACAACAATATCAGGTTCACTTCTGGTCA TTGCTTTTCTTGTAAAGCATGTGAAAAAACATGATTAAGACTAAGACCACTGCATTGAGTGTTCTCATTGTAAGGTTACA CTTACGAAAGCTAAGAGAAGCACAAAATATTTAAGCACTGTTGTGAAGTCATATATTGACTAGAGATATGGCCAATTAAG TCCTTATAAAGGGTAGAGCAATCCTCACCCCTGAACTGGCTTTTGGAATAGAGTTAGGCCTAACCCGAATTCTAAGGTGG TTTCAAAGTAGTTCCTAGGTCCTTTCATTGGAGATCACCCAATTATGGGCCACCCACATATGTTCGTTTCTGCAAATTCC ATGCTCCGGATGTCCAGCCATGGGCGTTAGGGGGTGTGTTGAAAAGTGCCACATTGGCTATAGAGATATGGCCAATTAAC TCCTTATAAATGGTAGAACAAGCCTTTCCCCTGAGCTAGCTTTTGGGCTAGAGTTAAGCCTAATCGAAGTCTAAGGCACT GTAAGAGGTTTGGAAAATCTCCTCTAGCTTGGGAGTATTCTTTATTGCTGTTCCATGAACTGATACTAGAATGTAGGAAG TGTTCTCTTGATCAGTAGGATCAAGCTAACAAATTAATGTCGCATCTGGTGTTCTTCAAGCCTTATATTCATTCCAATCC TTTTATTAATTTGATTTTGTAATTTCTTGCTTTGCGGTTTCCATAATTCATTTCATTATTGAATTGACTCTTACTCTTGC TACCTTCTTCCTTCAGATATGTGGCGTTAAACATGCTAATGAGGGCTGTAACTGCTGATGCTCAGGCAGTGCAGAGGCAC CGTGCAACGATCCTAGAATGTGTGAAGGTATTAGATTCATTGTCTTTGTCCTTACTTATTCATTGACAAAAATCGGTTTC TGTGACTTGAGAAGTTGATCACTTGACTCTCTGCTTCAGGATTCAGATGCTTCAATTCGGAAAAGGGCCCTTGAACTTGT TTACGTTCTGGTGAATGAAACTAATGTGAAGCCATTAGCGAAAGAGCTTATAGATTATCTGGAAGTTAGTGATCCTGATT TCAGAGGAGACCTTACCGAAAAAATTTGCTCCATAGTTGCAAAGTGAGTCATAAGGTTTTGAATGACATTCTATTTCTGT ATAGATAAATTGTTTTTTCCTTTGTTTCTTTGTCTTTCTTTCCCCTTTGTTCTATTATATACCCAATCATTTATGGGGCC ACTTATGATATTCCATCAATATAAGATGGCTTGCTTTGTATCTGGAACAGGATTTTACTACCTTTCTTTTAGAAACTAGA TAACTCTTTGCCATGTTAGTAACTGTGAACATATTGGGCCTGTTTGCATACTCGTCAATCCACCATTGTCTCTCCTCGTT TATGAAATAGTAAGGTTATACTGCTTTTCATTTTTGCATCGGGATGCCAAATTTTTCCGTTTTCTATTTTATTGATGAGT ATACAAACAGCCTCATTATCTTTGTTGGTCTTTCAATTTTTGCATTTCAGATATTGCTTATCTTTCTTCTCGCTCTTACT TTGGTAAAATAAAAGAGTCCATTTGGCTCATTTTATACAATCCTCACCTTTTTTACCCAATCAGTTAAATATGAGTTTCT TTGGATTGCATACATTAGTATATTACTATTTGCTTGACAAACATTTATTTTTTGTTGCTTCAGGTTTTCGCCAGAGAAGA TCTGGTACATTGATCAGATGCTCAAAGTTCTGTCTGAGGTATAAATATAAGAGACAAGCTTTTGTAGTGAATTAAAATTC CAACCCATGCTAGCTTTTTAGGGTATTGACCACCTCAGTGATGTGTATTTACATAGGGTAGTTCTGTTGCTTCCCGTCTC TACATTTAGCATGTAATATCCCATAAAAAAAATTAATTTTTGTGGCAGCTTATTATAAGTTTTCTATAAACAATTAGTCA TTTATAATTATTTTAGTAGTTAATGGTTCTATGATTCAGGTATCAATGTTCTAACTGCTGCTTATATGTATGATTCAAAT TCTGTCTCTTAATCAACTTGTTTGAACCAGAATTGTAATGCTTTTTATGAGTCATAAAATGTCCACCTAATAAATTTGAT GGTGTATTGTCATTGTTGTTTGGAGTGTGTGGCTTGGCGCAACAGTGAAGTTGCTGCCTTGTGAGCTTGTCACAATTTCT AGTCACAGAAACAATCTTTCTGCTCATGAGGGTGTGGCTTCATGCATCTTACCCTCTCAAGACCCCTCAATGATGGGAGA TTTTTGCACGGGCTTACTTTTTTTTTGTGATTACTGTTTGGTGTGTGGTCTCCATATTAGGCCATTCTGTTATGTATTGA GTGCACGTGCTGATCTTTATCTTATGTTAGTAGGCTGGAAATTTTGTAAAAGATGAAGTGTGGTATGCCTTAATTGTGGT GATAAGCAATGCTTCTGAGCTTCATGGATATACAGTAAGAGCATTATACCGGGCATTTCAAACATCTGCTGAACAGGTGC TTACTTTTACTGTGGCCAAACCTAGGCAGACTATTGATTTTCTCTTGATGGTCAAATAATAACATTACATATTACTTTTG TCAGGAGACTCTAGTTCGAGTTACGGTGTGGTGCATTGGGGAGTATGGTGACATGTTAGTCAATAATGTTGGAATGCTTG ACATAGAAGATCCAATAACAGTGAGTGAATACTTTTTATTATAAGTTACGCACATGTGCATACTGTTGCTTCAAGTTGCA TGAGTATGAGAAATTGCTTGACCGAGAACACGAGCAATACTTTAGCAAGTTGATATATTGGTCTCAGAAGCTTCTATTAA AAATTATTCTAATTGTGCCCTTTTGATGAGGCTTCTTTTTATATGGTTATATTTGGATGATGTATAATGAGCCTGAAAGA AGCAAAATCCATCAGTCTTAGTACTTCTCGCTCACTGTTGAAATGAGATATCCGGTTCTTTTCCTGTTTCTTTTGTTCTC CACTATTGTAAGGAATGAAATGAGGTAAGTGCTAGGATTTTACTTCACATGTTTGATTGGTGTATTTCACTACTCTGTGG CAGAAAATGCTCCTAGTCATTTGCTGATTTAATTAATTTGGGTATTTATGTGCTTGTGCTTAAACCGTAAACATTAGGAT CAAAGCTAACCTTCTTTTTTGGTCCTGGCTATCCCACATTCATGCTGACCCCGCCTACCTCAGATGCAATTTGTCCCGTC AATCCCATATAGGATTTGTGATTCATACTGGTCTGTCATTGTAAATCATACCAATGGTGATCTCTCATATCTCCCTGATG AGTTGTCCCATGATGCACCATCCATGGACCATGGTGATGATACTCAGTTTTAATTCAATGTTTAATTTTTAAGTTTTGTG CATCCAAAATTTTCTGCCAAATGCTGTTCTAGATAGATCTGTGGAAGTTCTAGCTCTGGCTATTTATAATTGCTTGCCAG AAAAAAATCCCATGATCATTCCGCAGAATCTTTTCTTCCAACATTTCAACCCAATCTTCAGATTGATGATCATTCCAACC ATCTTGCTGAGTTGTCTTTCTAATTCTAGCAGTGTTATCTCTTCCACATCTTCAACATCCTTGAGCTGTCTTTTTTACCA TGCTTTGGGGAGCCCATTTTATATTTTTCTGTAGAAGGGTTTATCTGTCGCAAACTTAAAGCTTAGTTACTTTTAGCTTG ATGGAAAGTGTTAAAACCTGGATCTCAATGTATGGTTTGCATCAATGAGTAATGTAGTAATGTAGTATATCGTATATTAT CTCTTAGGATTGGTTTCCATATTTTTTATATTTCATGATTTGTTTCCCTATTTAATTGGGAATAGGAGTCTAATAACTTT CATGATTAATTTCATTACTTAATTAAGATTGGGAGTCTAATATAAATAAGGGTTACTGCAGTCTTCTGAACTGATGGAAA CTATAATCACAATATTAAGTCTTTATTCTTTATATCCCTATAAGGTTATAACTCCAACACCTTTTTAAATTTTTTAAATG ATGTTTTTCACTGTTAGCTCATTATGCTGTCAGGTGACCGAGTCAGATGCGGTGGATGTTATAGAGATTGCTATAAAACG TCATGCATCAGATCTTACCACAAAAGCAATGGCTCTGGTTGCCCTATTAAAGCTCTCTTCACGTTTCCCTTCATGTTCAG AGTATGATCTCTTTTTCAAATTTTTTATCATCTATTACATCATACCTTAAATTGGCGTTTGTCTATAATTCTCCCAGAAT CATATGTATTACATGGTAGATTGAATAGGAGTTGTCAAAAACCAACTCTCTCAAAACCATAAGTTGCTAGGTAAAGACTA AAGGCACATGAATGACACTACACATTCCCTCACACAGTAGTTCATTGGGCTTGAAACGTAGGCAATGGAAGGGTCCATCT TACTTTTTGCTGAAATTCAACATTTATTTAGAATCATAGAAGTCGGAACGATCAAACAAATGACCACTTAGTAATATAGG CTTTGATACCATGTCAAGAACTAACTCTGTCAAAAACCCAAAAGTTTATGTTGTTCATGAATGGTTTTCAATCTTAACAG TGTTTTTTCTTCTTATTCGTCTTTTTACTTCAAAGGAATTACAGGTGTAATATTCTAGTAGAAATTCACTCCCCAAGGTT CAAGATAATTTTAAAATGTTCAATCCCTATGCATGCGATCTGGTCTCTGTTGAATCATGGACTTTTCCCATCCATGGCCC TGCTTCTTAAGAGACATGCCATAAACATATTTACCTAATACAAGTCTTTTTTTCTCTTGTGCTTAATATATTTTGCGTGA AAATTTATTCCCTTTCGAACATGTATAACAGGAGGATCAGGGAAATTGTTGTTCAGTTCAAAGGGAATCTTGTGCTAGAA TTGCAGCAGAGAGCTATTGAATTTAATTCAGTCATTGCAAAGCATCAAAATATTAGGTGAGGTTCACTAGTATGCTTATC TTGTATATAAAGAGCTTGGATTTCTACTACTTGCATAAGAGGGATTCTATTATGAGAAGCTTTCATTGGGCAGGTCTACA CTTGTAGAAAGGATGCCGGTTTTGGATGAGGCCACTTTCGTTGGTAGGAGGGCTGGGTCTTTGCCAGGCACAGCTTCTAC ACCAACTGTACCTTCAGTTAGTATTCCAAATGGAGTAGTCAAACCTGTGGCTCCTCTTGTAGATCTACTCGATCTAAGTT CAGATGATGTTCCTGCACCTAGCTCATCTGGTGGTGATCTTCTTCAGGACCTTCTTGGTGTTGATATGTCAGGGGCATCA CAACAATCTGGTTGGTGTCCATAGTTTATCTTATAAATTATTATAATGCCTGAAAAGCTAGACATTTTGTCTTTATTGAT TACCATATTTGTTTATGGATCTTTGTTTAATATTTATAATTATTACTGTTTTCAGACATACAAGAGTTGATAGCATTGTT TTATGACGCCCTCTCTATTTTTTAAACCATGTGATCTGTAGGAAAATGTATTAAGAAGGACCTTGCTCTAAATGGATTTA TTGAAAACTAAGTTTTTGGTTTAACGACGTTATTTGATTGAAGTAGCCAATCCTTCCTAATGAGATAGCACTCTGGTGGT GGTGATTGTTAGGTTTTGTAAAGGATGAAACATGCAAACTTATTCACTTTCTTTATTGTAAATAGTTCCACTCAACATAC TCATAGCATCTGACTTTTATTTCGTTTTTTAGGCACTGGTCAAGCTTCAAAAAGTGGCAAAGATGTTCTTCTGGATCTTT TATCTATCGGATCACCTTCTGCTCCAAGCAGCTCATCTACAGTAGACATCTTATCCTCCAATACAAGTAACAAAGCACCA GCTTCACCTTTGGATGATCTTTCATCACTTTCACTGTCTTCAAGAGAAACTTCAAATGCTGCTCCTATGATGGATTTATT GGATAGTTTTTCTCCCAGCCCACCAACAGGTTGTAAACTTTGTTTAACATCTGGGCATTATCATTATTTGAAATTTAGTC TAAGTACTGATTTCTCTCCCTTCTCTTATAGAAAACAACGGACCAGTTTATCCATCTGTGACTGCATTTGAGAGCAGCTC CTTGAAGTTGACATTCAATTTTTCAAAGCAACCAGGAAACCCACAAACAACATCTATCCAAGCTACCTTTACGAACTTGT CCCCTAATACGTATACAGATTTTGTTTTCCAGGCAGCCGTTCCTAAGGTATGCTAATCAGTATGCTATTGAGCTTTGTAC ATGCTAAGTTCATCGTCATCATCATGATCATCATCATTGTTGTAATTTTAAACATATAATCTGAATTTACGGCTTTTAAC AAAATTGCGATCTTCATTATTATAGAGCTAACTTGTGATTCCATGCTTCCCGTTGAGTGTTGACTATTATCTTTTTTCGT TCCCTTTTGCATGTCATTTAAAAAAAAAAATTAGCGATGAGGAAAGAACTTGTGGCTGTTGCTTCTACAGTTCTTCTAAG ATATGGATTCTTGTGATAAAAATGTTTGCAGTTGTAATGACTGAATAATTCCCTTTGTATTAGTCTAATTAGTTATCTGA GCTTTTTAATTGCTAAATAGTTACTTCTAGCATGTAATGTTTGATAATCATGAGCAGTTTCACTGTTTATTCTGTGGGGT ATTAAAATCGAGTTGCTTTGTTACCTTCCATTCTCTAGCTCTTACGTATGTTGTTATTTTGGATTTTCAGTTTCTTCAAT TGCACTTAGATCCAGCTAGCAACAATACTCTCCCTGGAAATGGGTCCATAACTCAAACTTTGAGAGTTACAAATAACCAA CATGGAAAGGTAGATATACTATGTTACTATTGCTTTACTCTAAATGTTAGTGTTCTACCATGTGTCTTATCTGATTTATT TGGCATGTTGTTACAAAATTGTTCGTTTATGCTGTTTTGCTGTCATGAACCAACTATCGTAAAAGGTTAAGCTGTTAAAT GAAAAGTATATGAATGGTTTTATATCTAACAAATTTAATATTTTATAGTACATACAGCAAAAATGGTTTGATTTATGTTT TAGAGTAAACTGAGTGATCACTGCTTACTTAGTCGTTTGTCACCGAGGATGTAAAGAATTAAACACCAACTTTTAGTTTC ATTGGACACTCAGTGAAACTCCCATTAGGCATCACAAATGTCACATTTTTCTTTGATTAATGTCTGGACTATGACTTCAA TTATTGATTATGAATATTTATTTCAATTTGGGTATTATTTTATTTCTTAGCATTTACGTAGTATAAATTATTTATATCAC ATCCATATGCTTGCTATGTACGATATTGAAGCAGTTTTGGTCAACCACTAAAGATTAACCCCGCCGGGGTGTCATTTTTC TTTCTGTGCTTTGTGTGGAAAATGTGTGTGTGAACACATTTCCGAGATTGTTTTCCTGAGAAAACCTGACAGCTAGCTAC AACTCATTTTTCAGAAATCTCTTGTCATGCGCATAAGGATAGCATACAAGATAAATGGCAAAGATGCACTGGAGGAAGGA CAAATCAGTAATTTTCCTCGTGATTTATGA

Download Genomic Sequence

CDS sequence (LotjaGi2g1v0318400.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGATTCGAGCCATACGTGCTTGCAAGACTGCAGCAGAAGAACGTGCTGTTGTAAGAAAAGAATGTGCTGCCATTCGTGA TTCAATAAATGCAAACGATCATGACTATAGGCATCGAAATCTGGCTAAGCTAATGTTCATCCATATGCTTGGTTATCCCA CACATTTTGGTCAAATGGAGTGCCTCAAGTTGATAGCATCTCCAGGATTTCCAGAGAAGAGAATAGGTTATCTTGGCCTC ATGTTGCTTCTTGATGAAAGGCAAGAAGTTCTGATGTTGGTCACCAATTCTGTAAAACAAGATCTTAATCACACAAATCA GTATATTGTGGGACTTGCACTTTGTGCTTTAGGAAACATTTGTTCAGCAGAAATGGCTCGGGATCTTGCACCAGAGGTTG AGAGATTGCTGCAATTTCGTGATCCAAATATTCGGAAGAAGGCAGCATTATGCTCTATAAGAATCATAAAGAAAGTTCCA GACTTGGCAGAAAATTTTATCAATCCTGCTACTTCCTTACTTAGGGAGAAACATCATGGAGTTTTGATTGCTGGTGTTCA GCTTTGTGCAGATCTGTGTAAAACTAGCACTGAAGCTCTTGAACATATTAGAAAGAAATGCACAGATGGTTTGGTCAGAA CTCTTAAAGATCTAGCGAACAGTCCTTATTCACCAGAGTATGATATTGCTGGCATCACAGACCCGTTTCTCCACATCAGA TTGCTTAAACTTTTGCGAGTGTTGGGGGAAGGTGATGCTGATGCTAGTGACTCCATGAATGACATACTTGCCCAGGTGGC TACAAAAACCGAGTCCAATAAAGTTGCAGGGAATGCCATTTTATATGAGTGTGTTCAAACAATTATGAGCATTGAAGATA ATGGGGGCTTACGCGTACTTGCCATCAATATCCTGGGAAGGTTCTTATCAAACCGTGACAACAATATCAGATATGTGGCG TTAAACATGCTAATGAGGGCTGTAACTGCTGATGCTCAGGCAGTGCAGAGGCACCGTGCAACGATCCTAGAATGTGTGAA GGATTCAGATGCTTCAATTCGGAAAAGGGCCCTTGAACTTGTTTACGTTCTGGTGAATGAAACTAATGTGAAGCCATTAG CGAAAGAGCTTATAGATTATCTGGAAGTTAGTGATCCTGATTTCAGAGGAGACCTTACCGAAAAAATTTGCTCCATAGTT GCAAAGTTTTCGCCAGAGAAGATCTGGTACATTGATCAGATGCTCAAAGTTCTGTCTGAGGCTGGAAATTTTGTAAAAGA TGAAGTGTGGTATGCCTTAATTGTGGTGATAAGCAATGCTTCTGAGCTTCATGGATATACAGTAAGAGCATTATACCGGG CATTTCAAACATCTGCTGAACAGGAGACTCTAGTTCGAGTTACGGTGTGGTGCATTGGGGAGTATGGTGACATGTTAGTC AATAATGTTGGAATGCTTGACATAGAAGATCCAATAACAGTGACCGAGTCAGATGCGGTGGATGTTATAGAGATTGCTAT AAAACGTCATGCATCAGATCTTACCACAAAAGCAATGGCTCTGGTTGCCCTATTAAAGCTCTCTTCACGTTTCCCTTCAT GTTCAGAGAGGATCAGGGAAATTGTTGTTCAGTTCAAAGGGAATCTTGTGCTAGAATTGCAGCAGAGAGCTATTGAATTT AATTCAGTCATTGCAAAGCATCAAAATATTAGGTCTACACTTGTAGAAAGGATGCCGGTTTTGGATGAGGCCACTTTCGT TGGTAGGAGGGCTGGGTCTTTGCCAGGCACAGCTTCTACACCAACTGTACCTTCAGTTAGTATTCCAAATGGAGTAGTCA AACCTGTGGCTCCTCTTGTAGATCTACTCGATCTAAGTTCAGATGATGTTCCTGCACCTAGCTCATCTGGTGGTGATCTT CTTCAGGACCTTCTTGGTGTTGATATGTCAGGGGCATCACAACAATCTGGCACTGGTCAAGCTTCAAAAAGTGGCAAAGA TGTTCTTCTGGATCTTTTATCTATCGGATCACCTTCTGCTCCAAGCAGCTCATCTACAGTAGACATCTTATCCTCCAATA CAAGTAACAAAGCACCAGCTTCACCTTTGGATGATCTTTCATCACTTTCACTGTCTTCAAGAGAAACTTCAAATGCTGCT CCTATGATGGATTTATTGGATAGTTTTTCTCCCAGCCCACCAACAGAAAACAACGGACCAGTTTATCCATCTGTGACTGC ATTTGAGAGCAGCTCCTTGAAGTTGACATTCAATTTTTCAAAGCAACCAGGAAACCCACAAACAACATCTATCCAAGCTA CCTTTACGAACTTGTCCCCTAATACGTATACAGATTTTGTTTTCCAGGCAGCCGTTCCTAAGTTTCTTCAATTGCACTTA GATCCAGCTAGCAACAATACTCTCCCTGGAAATGGGTCCATAACTCAAACTTTGAGAGTTACAAATAACCAACATGGAAA GAAATCTCTTGTCATGCGCATAAGGATAGCATACAAGATAAATGGCAAAGATGCACTGGAGGAAGGACAAATCAGTAATT TTCCTCGTGATTTATGA

Download CDS Sequence

Protein sequence (LotjaGi2g1v0318400.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MIRAIRACKTAAEERAVVRKECAAIRDSINANDHDYRHRNLAKLMFIHMLGYPTHFGQMECLKLIASPGFPEKRIGYLGL MLLLDERQEVLMLVTNSVKQDLNHTNQYIVGLALCALGNICSAEMARDLAPEVERLLQFRDPNIRKKAALCSIRIIKKVP DLAENFINPATSLLREKHHGVLIAGVQLCADLCKTSTEALEHIRKKCTDGLVRTLKDLANSPYSPEYDIAGITDPFLHIR LLKLLRVLGEGDADASDSMNDILAQVATKTESNKVAGNAILYECVQTIMSIEDNGGLRVLAINILGRFLSNRDNNIRYVA LNMLMRAVTADAQAVQRHRATILECVKDSDASIRKRALELVYVLVNETNVKPLAKELIDYLEVSDPDFRGDLTEKICSIV AKFSPEKIWYIDQMLKVLSEAGNFVKDEVWYALIVVISNASELHGYTVRALYRAFQTSAEQETLVRVTVWCIGEYGDMLV NNVGMLDIEDPITVTESDAVDVIEIAIKRHASDLTTKAMALVALLKLSSRFPSCSERIREIVVQFKGNLVLELQQRAIEF NSVIAKHQNIRSTLVERMPVLDEATFVGRRAGSLPGTASTPTVPSVSIPNGVVKPVAPLVDLLDLSSDDVPAPSSSGGDL LQDLLGVDMSGASQQSGTGQASKSGKDVLLDLLSIGSPSAPSSSSTVDILSSNTSNKAPASPLDDLSSLSLSSRETSNAA PMMDLLDSFSPSPPTENNGPVYPSVTAFESSSLKLTFNFSKQPGNPQTTSIQATFTNLSPNTYTDFVFQAAVPKFLQLHL DPASNNTLPGNGSITQTLRVTNNQHGKKSLVMRIRIAYKINGKDALEEGQISNFPRDL

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	PIRSF037094 View details on PIRSF037094 Search for proteins/transripts with this domain View external data on PIRSF037094	1	858	858	0.0	IPR017107 Show description in modal box View details on IPR017107 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	857	857	0.0	–
PANTHER	PTHR22780:SF32 View details on PTHR22780:SF32 Search for proteins/transripts with this domain View external data on PTHR22780:SF32	1	857	857	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	582	582	4.4E-228	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	13	581	569	1.27E-102	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	15	566	552	4.6E-143	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	678	715	38	-	–
SUPERFAMILY	SSF49348 View details on SSF49348 Search for proteins/transripts with this domain View external data on SSF49348	716	857	142	3.92E-40	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	737	855	119	4.4E-44	IPR008152 Show description in modal box View details on IPR008152 Search for proteins/transripts with this domain View on EBI InterPro Service
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	739	858	120	1.4E-36	–
ProSiteProfiles	PS50180 View details on PS50180 Search for proteins/transripts with this domain View external data on PS50180	740	855	116	49.686	IPR008153 Show description in modal box View details on IPR008153 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	743	855	113	5.3E-31	IPR008152 Show description in modal box View details on IPR008152 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:0005794 View details of GO:0005794 AmiGO InterPro QuickGO	Cellular component	Golgi apparatus	A compound membranous cytoplasmic organelle of eukaryotic cells, consisting of flattened, ribosome-free vesicles arranged in a more or less regular stack. The Golgi apparatus differs from the endoplasmic reticulum in often having slightly thicker membranes, appearing in sections as a characteristic shallow semicircle so that the convex side (cis or entry face) abuts the endoplasmic reticulum, secretory vesicles emerging from the concave side (trans or exit face). In vertebrate cells there is usually one such organelle, while in invertebrates and plants, where they are known usually as dictyosomes, there may be several scattered in the cytoplasm. The Golgi apparatus processes proteins produced on the ribosomes of the rough endoplasmic reticulum; such processing includes modification of the core oligosaccharides of glycoproteins, and the sorting and packaging of proteins for transport to a variety of cellular locations. Three different regions of the Golgi are now recognized both in terms of structure and function: cis, in the vicinity of the cis face, trans, in the vicinity of the trans face, and medial, lying between the cis and trans regions.	Subterm of View details of GO:0043231 View details of GO:0044444 Part of View details of GO:0012505
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:0030121 View details of GO:0030121 AmiGO InterPro QuickGO	Cellular component	AP-1 adaptor complex	A heterotetrameric AP-type membrane coat adaptor complex that consists of beta1, gamma, mu1 and sigma1 subunits and links clathrin to the membrane surface of a vesicle; vesicles with AP-1-containing coats are normally found primarily in the trans-Golgi network. In at least humans, the AP-1 complex can be heterogeneric due to the existence of multiple subunit isoforms encoded by different genes (gamma1 and gamma2, mu1A and mu1B, and sigma1A, sigma1B and sigma1C).	Subterm of View details of GO:0030131 View details of GO:0044431 View details of GO:0044433 Part of View details of GO:0030130

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Expression data

Expression pattern

Expression pattern of LotjaGi2g1v0318400.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi2g1v0318400.2