Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi4g1v0094200
Transcript ID	LotjaGi4g1v0094200.1
Lotus japonicus genome version	Gifu v1.2
Description	MYB transcription factor; TAIR: AT1G49950.1 telomere repeat binding factor 1; Swiss-Prot: sp\|Q8VWK4\|TRB1_ARATH Telomere repeat-binding factor 1; TrEMBL-Plants: tr\|K7KPH5\|K7KPH5_SOYBN Uncharacterized protein; Found in the gene: LotjaGi4g1v0094200
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr4:12653479..12667288) extracted from Lotus japonicus Gifu genome v1.2.

GCTATGGAAAAAAATCATGTGGCAGAATAACAACAAGATCAAGAGACACATAATATTTATTCACACATCGGTCGAATAAG AATAACAACAAATTGCATTTACAAACATGTCTCTCTCCTTCTTCTCTTCGCCGGTGTAGTTCTGCAAAATCACCATTCGG ATATTCGATTTCTGTGCCTGAAAATGCTTCATCTTCTCCCAATCCTCACCATCTCTCACTGATTCGGTACTCCTTTTTCT CATCAATTCTCATCTGGGTTTCAAACAATCTGTTCTTTTTCTTGTCCAAGTTCAATGAATGCATGTGATTCTAGTTTTTT CTGGGTGGTTGTTTTTTCTGATTCTTTACTCAAAGTTTTGTTCTTTTCTTTCTGGGTGAGCTGAAAGGCTGTTACTTTTC ATTTGATCGAGTTAATGAGATGTTATAAGTTGAGGAATCATAATCTTTATTGTTTGTAATTTGATGTAGTAATGCCTATG ATCTTAGATCATTCTGGGTTGTGTTCAAGTTTCCATCTTGCTTACACTAGGCCTAATTGCTTAGCCAATCAATTCAACAG TGAATTGTAGAAAAAGTTCTGCATGTTTCTGACAATGTTGTTGATTGTGATTGTGAATTGTGATGCTCTTTGCAAGCCAA ATGATATGAAATATATATTGCTAGAGTTTGTGGGGTTGTTCTCTTGTGTGACATTTGGTTACTTAGTGCCTGTTTGGTTT TCAGTTTGAAAGTGTTTTCACCCAATAGAGGTCCAAAGCTTCTTTCACGTTTGGAGCATTGGAATGTGTGATCTCGAATT CCAATGCCCCAAACGAACTTCCAAACTGAAAACCAAACACAACCTTACTAGTGGATGCGATTGAAGTGAATTTGGGAACT AAGATCAATGTTTGGGATTTTTGGGATGAATTATGTTTATTTAATCAACTAATTTATGATTTATTTTAGTGTTAACTTTG TTTGTTGGTCAACAATTTTCAGATTTTTCTTGTTCAAAGGTTCTAAGGTTTCCGCAAGAGTAGGTGCAACCAAAACGGTG TCGGCTTTCGTTCAATGGGTGCTCCTAAGCAGAAGTGGACTGCGGAAGAAGAAGCGGCGCTGAAAGCCGGAGTAGTCAAA CATGGGGCAGGAAAATGGCGCACTATACTTACAGATCCTGAGTTCAGTTCCATCTTGCGCATGCGTTCAAATGTAGATCT CAAGGTATGTCTTTTCACTGGTTGTGGAAGGTTGGGAATTTACTATTGCACTAGCCAAATGATCACCTATGCATTGCATC ATAAGAGATGCATATATAGTGTTTTGCTTTGATCGAATTCCCAAAATTATGGTATATCTTTGATGTACTAGCATGTGTGC TTTGAACTGTGAACAGGATAAGTGGAGGAATATAAATGTGACAGCAATATGGGGATCCCGGCAGAAGGCAAAGCTTGCTC TTAAGAAGAACCTTCCACCCCCCAAAATTGACAATAGCCATTTGGCCTTGAGTACAGTAGTTCAACGTGAAGAAGTTCTT GACACTAAGCCCCTTGCAATTTCTGATGGAACATTGCAATCTCCTAATTCAAAAGACCATATGTCAAGGTTCAAGAACTT CCAGCTAAAGATTCTTTATCTCGAGAAAAGAAATTATCTCCGTAAATGTGGTGCTTAGTTGGTTTAATTTTGTTCTTGAA TAGCATTTGGACATAGTAAACTTTTAGATGTTACATTACATCCCATATAGTTTGTTCTAAAATCACATGAAGTTGTGTGC TGGTATACAAATTTTTATAAATGAATCAATAACTAGACTGATTGGCATACTGTGCATGGAATCTGGTGCTAGTACCTCAT GTTGTTTCTGTGCTAAGCATGTCAAAAATATATAAAAAGGATGATTGATCACCTTTCTGGATTAAAGGAAAAAAAATGAA TAAAAAACCATGGTCTATGCTAATATGAAATGGTTCATTGTATCTGGATGAAGTAATATGACTTATACTTCTACTTATTT TTTCAATTAAAATGTATTGGGATATACTTGATCTACACGCCCTCCCTGTATGCTTGTGATAAAAAAATACCACAAATAAT TAACCAAGTCTTTGTACTTTGACCCCATTGCTAAATGAATTCATGCTTAGGTACATTTATCTAAATCTTGTTATATTCTA CTGCACATTAATTCTTAGTTCGAAAGTATATAGGTTCTACTTGCAGTTATAAATGGTCGTCTTGTGCTGAAATGTTGAAA TTATGCAGCAATATACTCTTGAGTTACTTTTTGAAGCAATATGTTTTTCGATGGTGACAGGTTGGGGGATAATCACATAT TGGAGGCTATTGTCAATATGAAGGAACAAAAGGGTTGTGACAAGGTGGCCATTGCTTCTTACTTAGAGGTATTTGTACTT TACTTCACTTATGATTGTAAAATCTAAACACTCTGAGAAGCTAATGATCCTCTTCAGAAATTGAATGCTATGAAAGACTA CTAAATGCCAGCTTCTGTTGGCCGTTTTTATGGGTCCCTCATGGATTGGTATATATGTAGACTGAGGCAGTAAATAAAAC TTATTTGCCCCTTTTATATTTAACGATGGATTATCTATCTGTTCTTCTAAAATAGAGTAACTAGTGTCATCCTTTGTTGT GACTGATCTCACAGCACTAGAAATCTTTGAAACTAATTGGAAATATTTCTCTCCTAGGTCCATAAAGTGGTATGTTTTTT ATTTATTACCGAAAATTTCAACTAGCTATGAGTCTATGACACGTGGCTCCCATGGTAAAACTAGCTACAAAAGTGGATCT GTTATTTTTATTTTATTTATTTTTTTGGGTTAAGCCTCTAGGTCTGCTCTCATCTGGCAAGTACAACCTGTTTTTTTTTT CCTCTACTATGCACACAAAAAATAGCATTATTAAATCAATCATATTATGCTATATGCTGCATATCTCATTTTAAAAATTG TTGTGAGTTAGCCTTAGCACATCAGTGCATCACTGTATCAAAAGTAATTCTGAAACTTTTCATCTCTTCAGGAGAAATAT CAGTGTCCCCCAAACCTCAGAAAGCTACTATCAACAAAAATGAAGCATATGGTGGCAAGTGGCAAAATAATCAAGGTAAT TGAATTATCAGTTACTGCAGTAGCGGTGTGCAAACCTGTGTAATAGACTGTCAATCTGGATAATGTGCATAGGCCAGACC TGGCGTTTTTCATGTATGACACAGATACTAAAATAACTTCTTTGACCTTGCTAGAAGTTATTAACAGAAACTGATTGACA ATGAAAAATTAATTGGTTATATCGTTATCTATCTGTAAATAGATACAGATTTTCTTGTGGCAGTTGCAATTGCATATCTG GGCATTTACTTTATAAAGAGGGAGAGAGAGGGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAGAG AGAATTATATTTGAGTTGATATATTGTCCCAAATAGAAAATAGATATTTCTTCTGTTACTTACCCATTTGGCATGCAATC AAATTTGATATATGATAAGCATATCCTGACTTTGTCATATATTTTGACAGGAAAAGCTTAAATACAGAATTCCGCCAAGT TCAGCAGTCTCTGAGAAAAGAAGATGCTCTTCCGTGATACTTCTGGAAGATAGGCCCAGAGATTCTCGAGAAACAGAGAA GAGCGATGAAGTCCACATCCTTTCAAAATCCCAAATTGATGCAGAACTATCTAAAGGGAAGAGGATGACAGCTCAAGAGG CAGCGGCTGCAGCTGCAAAAGCAGTTGTTGAGGCAGAACTTGCCGTTGCACAGGCTGAGGCAGCAGCCAGGGAGGCAGAG GCTGCAGAAGCTGAAGCTGAGGCTGCTCAAGTGTTTGCAAAAGCAGCAATGAAGGCATTAAAATGCAAAATGCTTCATTT CTGGTAGCTTCCTTACCAAGAAATCTACGTTGATTCTTGAGTCATAACTTAATCTAAATTCTATTTTCTTGTTTAGAATG CTTCTTCACATTCTAATTGTTCAAATAATATGCTGGTTATCTGCACCACCACCACCCCTGCATCAGCCACTCCTTGAGAA TCTTCACATCATTATATGTTTTACCTTTTGCTCTTGGTTAATTAGAGTTTGACCTTATTTGGCCAAAGATAAGAATTTGC TCAAGACTTCTTACTCCAACTTTTTATCAAGTTATTCTCTGTATTTCTGGCAGTGTCTACTCTGCAGCTCTATTCCATAC TTTTGCCATTCCTAGCATCCAGTTATTTCAGATTCTAGTATACTGTCTATAGTTTCTTTTGCCACTCAATATTAATACTT CTCACTTGAAACTGTACATTATTTTTGTTGAGATATGTAGATAAAATAAATAGGGAATAAATATATTTGGTATATTTTAT CTTTTATTAAGATAGATCTTTTCCTTATTTAGGTGATTGCTATCCCTAAACTCTTGTATATATATATATATATATATATA CATACATATGTATGTATATATATATATATATGTACTCAGCTTCATGGAATAATCAATCAGAATATTTCATTCAAGTTGGT ATCAGAGCCTCTATGATCGAGAGGTCTAGAGTTCGATCCTTGCTCCCCTCACTTTCTAATTAAAAAGTGGAATTTAAGAA GCACATGGTAGGCGGGCCTTTGCATTTATCCACGCTTCAAGCCCAAAGGGCTCTTGCGTGAGGGGACGTGTTAGAATATA ATATAAATCCATTAAAGTGACCCTTACCCAACAGCTTAAGATTTTGGGATAAGTGCCACTTTAATGGATTTATATTATAT TCTAACACAATTTTTTTCATAAAAAGACTCATCGGAAAGATAGGGAAGGTGATTACAAAGAGGTAGGACGATCTAACAAA GAGATCCTCCTGACTACATAAAAATAAAAATGAGGACAAAGTGAAAAAAAAAAAACAGAAAAACATGGATGAAGCCAAGT TGTCCAATCTTTCAACATTTCTTTTAGAGAAATCCATTTAGAAGACGGTGGCTTTACACCAAGTTGAAGCTTAATAATGC CTAACCTTTTCCCATAGGAGATGCTCATCCAAATACATCTCCTTCATTTGTGAGAATTACACGTCAACCATATATACCAA AGTGTGGCATAGCTGTCAAATTGCCGCGAGCATTTGGTTTCTTCACTTCTCCCAAAACCAGTAAAGGTAGCTGGCATATA GGATTTCTAAGCTAGCTTTAGGGTGGAGTTAGGCCTAACCTGAACTCTAAGATGGTATCAGGGTCTATGCTAGATTCATT TATTGGGCCACCCATAAGTCGACTACCCGCAAATGTCTAGTCTTGTAAACTCACTCTCTAGATGTCCAGCCCTGGGTGTG AGAGAGGGTTGTTTGGAAGTCCTACATTGACTAATATGACTAAATAAGTCCTTATAAAGCGTAGAAAAAATTCTTACCCT TGAGCATGGGCAGAACCAGCATCTTAAGATAAGGGGTACCATGATCAAAGAGAGAATTGTTTGTAAACATTTCCTATTTA TGCTATTTTTTATACATATCTATATGTTTAAGTATACATTTACATTTATGGTAAAATATTACAAATTACGATTCGATTTT TTTTTCTACAATTATTCAATTAATGATCTTGCATCGCTTTTAGTTTTGATTCATTCACACCTAATTTTCTCATGCATGAT GCATCTCATTCCACTCACTTAATCTTCATATCTCTTGTTTTCCTATCAAGTCATCCGTCATATCTCTCATTTCTATTTCT TTTCTTCCTATTTCTCACTTGGTGTGAGTGAGATTGAAGTGTGAATAAATACTTGTTCTCTATTAGGAAAGTTGGTCTAT ATTAAAGTAATATAAAGCTCTTAAAATGCATCTGCGGCTGCGCCTACTTCTAACATGTCATGGGCTTGTGGCTTGATCAG AACAATAATTATTTGGACCGAACATATATCCCCATGATATATATTATATATGGTATGTATATATATATTACTATGACTAA TTAAGTCCTTATAAAGGGCAGGATTGTTAATAGCGCGCCATAGCAGCCTAGTGTGGCAGGACGACGGTTGGCCGCGACAG CGTGGGTTTTGTATAGCAGTGGTAGCGCCCGTGATTGCGGCCATTTGCATGGGAGGAGCGGCGCCATAGCGGCGCGAGAG GAAAGAGAGATAGAAAACCCAGAATTGCCCTCAGATTTAACATTTGGTCAAACATTTTAAGGGTATTTTGGAGTTTTCTG TATTAATTAATGAAATGCTGCATTTTATAAAAAACCCTGTGTTTCATTTTCCTCCTTCAACCTCGAGTTCCAGCCGCTGC CAAGCCACCGACGCCAAACCATCGTGAGACCTCTGATGAGCACTAGCAAGTTTCCGACGACTGCTCCGGCGTACTTCAGC CTCCTTCTCCCTCCTTCTTTCTCCTCCTTCTTTAGCGTAGAGGCCATAGTGCCACATGCTATAGCGTTAATTGGGCTTTG CCGCTATGCTACGCTACCCGCCATTAACAACCCTGATAAAGGGTAGACCAATTCTTACCCTTGAGCAGGGGCGGAGCCAG CATCTTAAGATAAGGGGTGCCATGATCAAAGAGAGAATTATTCGTAAAAATTTCCTTTTTGTGTTTTTTTGTATACATAT GTATATGTTTACATTTATGGTAAAATATTACAAGTTAAGATTCAATTTTTTATTCTACAATTAATGATCTTGCATCGCTT TGAGTTTTGATTCATTCACACATAGTTTTCTCATTCATCTCATTTCCACTCACTTTATCTTCATTTCTCTTTTCCTATCA CATCATCCATCATATCTCTCATTTCTATCTCTTTTCTTCCTATTGCTGACTTCGTGTGAGTGAGATTGAAGTGTGAATGA ATATTTATTCTCTGTTAGGAAAGTTGGTCTATATTAAAGTAAAATAAAGTTCTTAAAATGCATCTGCGCTACTTCTAACG TGTCATGTGTTTGTGCTTGCTCAGAACAATAATTGTTTGGACTGTATCCCTATGATGTATATTATATATGGTATGTATAG ATATAATACTATGGTGTACTACTATAGAGCAAAAAAAAGCTCCAACCTTATATCATATATCCCTATGATGTATTATATAT GGTGTTAATAAAGAATTGCAAAATCTCAGGGGTGACCATGCCATCCGCCCCTGCCCCTGAGCTAGTTTTTTGGGATAGAG TTAGGCTTTTAGCCCGAATTCGAAGAGTTATATCAAGCATTGCTTTTCAGATAAAGAGCTTATCCTTAGAGGCTCAGAGA GAGCTTTGGAGTTTGGACCTCCAAATAGTTTTATCAAGTTTGAATGAAACTATTCAATGTATGAATGATTAAGACTCAAC TTTCTCTATTACATTCTCTTCCAACCATAAGTAAATCCCTAAAGGACCCTGGGTTTGTTAATTACAGTGGCTTAAAGGTT CTTTCCAATCTTTAATTAATGTTGTGTATTATTCTGATGCCTATGGATAAGTATTTGGCTATTTGCTGTTACTATTTCTT TTCGATTAGTTCTTTTTGAGCTTTAATTATTCTGTTGCCTATATGGAAGAAATTGGTCTTAGTTCTTTCTAAGCTTTAGT TAGTGCTTCTTTATCTGATGTCACATCGTAGTTTCAGTAAGTTCTTTTAGTTAAGGCGCCTTTTTAATGTTTGTGATTTT GTGCAGATGGTTCGTCACCAGCAGGGTTGGCTTGAGATAATAGTTCTGCTGCTGTGCTTCATGCCTGTTTTTTACGCTGT ACATAATTTTCGGCTTGTAAATCTTGAATAGGTGGCATGATTCATGAAACATTTTGTCACGAGTCAGAATTAGTTTTTTT TAAATTCCCCCTTATTATTTTGAAAGGCAGTGAGGACTGAGAAGAAGGCTACATAGTACTAACAGAAGAGTGCTGCAATG GAATGGTTGACATTTCCACTTAGAGTAAATGAAAGGAAACAATTTTTAGTAGTTTTCCGGTAGCAATATGGATTTTCATT GACATTCAGATCATTTTTACACGGATCCTTGTTTTTGGTTATGCAGTATATTGATTTTCCCTTGAGGTTTGTCAAAAGTT ATATTTATACACATAACATACCACTTCTGTCTTTTAATTTTTCTCCAATAAATAATACAGCATGACGGTACAGCACGACA GTGTATGTGTTATAGCCAATTTAGAGGCATTTGCTTTCTACTAACATAGAAAAAGGTTCAGAACCTCATAAATAAGGAAG GCAAGAGGCTCTTTTTTTTTTGTTGGTTAAAATTGTCTATCAGTATATACAATAGAGAAATCATTGTTCATCTCTGGTTG TCTGAAGATAATTTATGACTTATTTGGTTTTGCGTACTAGTGGTGTTGTATGTGTTAAAAATTCTCTTGTGATGGCTTTA AACAGTTAACGTTCCTCCGTGAGAATTACATTATCTGGAAACCTGCTAAACAGTATGAAATGCAAATGACATGACTGGAA AAGTAAGATATTTGATTGAAACCAGTATCAAATGAGTCGATTTGAATGCACACATCACATACAATTTGAAAAAGTTCTAT GGACAAAACGAATTATGCTTGAACAATAGTACAATGTTCTTCTGCAGACAAAATTTAAGATGCAGATATCACTTAAATAA CATAAGCTAATTTGCAGTGAACATTGTTTGCAATTTTCTTTTTCCCTGTTCAGCTAGTACATGTACAGACTACAGTAATT TGCTGTCACTGGCCACAAGCTCACAACCAAGTTGAGAGTTCAACAAACCATTATCCTCCTTTCTCATTTCCTTCCATGCT TCTAGTATTTCATATGCTAAGGGCTTGTCAATTTCCCCCTCATCATCATCATCTTCAGAACTTCCATCATCCCATAGCTC CTCATCGGAACCATTAGAAGGCTCGTCAAGTGCCAGATCATCAGCAAATTCCAGCCTATCAGCCCGTAAACTTGTTCTTT CTTCAATACCAAAACTTTGTTGCCTGCCAACCATGGCATCATTATCATCTTCAGCGACAACTTGATCAAGATTTAAGGTA AAAGTATCTGGTTCGGCGTGGTAACTACCACCAAGAATGTCAAACCTAGAATCAGCACCTTCAATCGTCATTCTCCCTGA AATATTCTGTGCATTTCCATCTCCACCATCATCAATTCCCTCATTCAGACCATCCACAGTAGTTTTACTTTCCAAAGGAA TGATACTAGAGATGTTTCTCGATGTACCTAATCCACAAAGACGGTGCAATGATCTTGATAAATTGGAGACCGTTGCTTCT GATACAACATCACAATTACCGAGAGCATCCAACAACCGCTCTAGATTTTCATGACTAATTCTGTCATTGTTTTCCTTAAA CAAATCTGTCCATTGCTTTTCTGTCACCCGGAACGGCGCATAAGCCATGGTGTTGACTAAGATGACAGCTCGGTCATAGT TATGTTGAGCTATTGCTTGAATCACCAATTCAAAAAAGAAAAGATGATGAGGAACTTCTCCGGCTTCCAGAAGCATGTCA AATGCATGCTCCAGTAGATGCAACTGCAGGGAAACAGAACTATGGCATCAAATTCAATGTTTAGAAAACATTAATATTAA CTAAATCAATAGGGGGCAATATTTTGGGGTTCCATTGGCTAACTGTGGTCAGTAACAAGTTAAACAATGCAGTTGGATCT AATTGGTTAAATCAACCAACATTTGAAATGATACTATGAACAGAAATATAAAATAAACAGAGACCTTATAGTTATATAAA TAATAAGGATACATATTTTCTACCTTGCCACCTCTTGAAGCTTTAACAAGTAAGGACATGTGCTTATTTTGATCCAAATT ATAACCTGAGAGAATCATTTCTCTGTACACATGCTCAAAGTATTCCCACTGGTGTGCACTAGCAGATGCTTCCAACATTG AGTTATATGTGTATGCATCTGGGACAAGAGAGCTATTACCACCTCCCGAGCTGGCATTAAAATCTGATGTGGCTACCTTA ACTTCCTCAAATAAAAATTTAGCTTTAGAAAACTTATCATTCTGGCCATAAACTTTCAGCATGGTATTTATGGTCCCTAT GTTAGGAGAACAGTGGTCTTTCATGCATTCAAAAATACATGCACAATCATCAATATGTCCACCATCCATGGAAGACTTAA TCATGCCAGTAAAAGTAACCTCCAAAGGCCTAGCACGAGGAAGTCTTCTAATCTTCTCAACCTGCATCCGTATTTCAAAG GAAAAGTATCTTAATAAGGCTTTATTAGTAGTAAAAGGCTCATCTAACCACGTCAACGCAGATAGAACACTAAAACCCCC AAATTCATTTTCAAAGAATTTGGCAGCAGACGGTTAGTCCTTGAGAAAGAAATTAAAGCCACCCTTATGGTCCCTAAGAA ACTACGGGTTTGATTACTTTTTATTTTCTTTTTCTGTTTTCATTTCCATTTTTTATTTTTATTGCAAAAATGCCCCTTTT ACTTAGTTTCCTATTTTCAAAGTTTTGTATAGAAAACAGTGAAAACAACTTTTAATTGTCTTCACTATTTCCTGTGTAAA ACTTTGAAAACAAGAAACAAAGTGAAAACAAGGGGGGCATTTTTGCAATTAAAATTGAAAATAGCAAATAAAAATGGAAA GTAAACAGGCCCTACCATTGTGGGCAATCCTTCTTAGGGACTAATGTGTTGGTGCCAAAGCACTAATAGCCAAGATTCAT TAGGACCATGGTAGGATTTTAAGTTTTAAGGAAAACTAATGCGTCTGCCATCAAATTTCTCAAGACGAATTTTGGGGTTT AATTGACATATGTAAAAAAAGTACCTCTGGAATAGCATCTTGCCACCTCCCATAGTAGCAAAGGCAACAGGCTAACTCAT AATATACACTGGCTGTTCCTATAACTCCTCTTTTTTCCATTTCCCTGATAGCTTCCACAGCTTCATCAACTTTACCTTCC TTCCAGAAAGTTCTCACCAACACTATGGAAGTGAGAGAAAATATACATCAGGCCATCAGCTGCCAAATATCAGTAGCAAA TTATATGAAAGAAGTAAAAAACAACCTTTATATGTAAGGGCTTCTGGAACTTCCCCACTTCTCCTAATTTGTCCAAATAA TTCATGGACAAGGTCATAGTTTCCCGATTGCATCGTTACCTTATAACAAGTACCACCTGTAAGACTTGAATACAATCATG CTTCAAGGGTAATAACCTTCTCTTCATCAACCAATTTTCCCATTGAGGCATACAGACTCTCAAATAAAATATAATTTCAA AGAAGCTTGTAAATTTTTGAATACAATGAAAATCTGAACTACCATACAAGCACGGATACCTATTTCTGTATAAAATGGAA CCACAGACAGCAGATAGCATTGATCACATTATCAAAAAATTCCATTAATAAATAAGTGAAAAGATTTTTTGAGAACACTT CCAAAAAAACAGTTGATACTTTACAACTTTTGATGGTTAATTTTTTTTTTTTCTTAAATAGCAGGAAACTGAGTTAACCA TAGGGGGCTAAGTTGTTAGTGACATAATAGGCAAAAGACAATAGCATAAGAACAACAACCAACATAGATTAGCATTTTTC CATTCCGTTCTTCTTGAAAAGAAAAAGTACGAAGAGGCGAGTTATATTCTATCCTGAAATTACCTCCATTGCAAGTCCAT AAGTTGCTCCATTAGGTTTCAGACCACTCTTCTTCAATTGCTTAAAAACCCATGACACGCCTTTCCACTGTTTTGATGGA ACACAAGCATTAAGTACCTAATAGCAATTGAAGAAATCTCAGTTTAATCAATCTGCAAAATGGCATTATTAGAAAGTAAG ATGATACATATCTAGTTGCTTTCTTACAGCATTATATATAACTATATCAGGTTCAATAATTGGATCCCAGTTCTTGCTGT ACTTAAATTTAAATGTTTTGGGTTTCTGCTTCATGCATTCCACAATATTCAGCAACTCTTTCAGAAGACCGGCTTGACCA AGAGTAACAGCAATGCTGTGATATGCAGCCATATCAGGATAGACATCGATATTTCCCTGAACAAGTTGAGAGCAAATCAA TCCATCTGGCACATTACAGTTAAAGATGAGCCCTTGTACAGAAAAACAAACTAAGCACTTGATCCTTACACGCATCAAAT TGAAAATTTGAAGGGCTTCCTTTGGTCTTCTTGCCTTCCCCAGAACTGCAAGAAGTTTAGTGTATACAAACCTACAAAAT CATTATTAATTTCTTCACAGGAGAGAGCAGATAATGCAAAGCACTAAGCACAATGGAATTATCAATCCTTAAGAAATCAT TATGCATATTATTTGGTGGTTTAAGATACATAAATGCCTATTGGCATAAGAAACTTCAGTACGATGAAAGACGGAGAAGA TGTGGCATCCCTACTTCCAGCAAATTTCCCTACTGTATTGTTTTCATTTCCTGTACTTTACTACCACAGTGGCATGTCAT TTCATTTCATTTCATTCCTTCCATATTGCAATTGGCCGTGCCATATATCACAGAGCTTAAAGATATGCTCAGTTAGCACT TTGCACTATTCACATCATTTATAGCAAATTCGGATCATGACATTCATCTCTTCTCTGTTAATTTTCTGCATTCTATTCAT TAACACAATACATTAACAAAAGCTGTTACATTCTGTCACTATGTTTAAATGGTTGTCTTCTCCAAAATTTAAAACCACAC ATAAACATAACACAGATTTCTCAAGGGCCCTTTAACAATAGCAGTAGGCCAAGACAAATTTATAAAGCAATGCTATGCTA AAAGAAAAACCACCTGCTTTGGTACTTCCGGTGATCCTTATAATTGTACACCCATTGAACCACAGAAAGAGCTTGCTTCC AACAACCCCTAAGACCAAGCATTTCAAGAATCCTCAACAACTGCCCCTCGGTGAATGGCAACCCGGACAGCTTCATTAAC CTCGAAAGCTTCCAATCCTTGGTCGTTATCTCCCTATCACTCAACCTACAAAAAACAAAAAGCCTCTCTGTCAATAACCA ATCATCCCAAAAACTTAAGCTCTTCGGCAAAAGACTCCGAATGATTCGATATTATATTTCTAACACTCTCCATAACTCCA CAAAGATATCTAACCAACCCAAAAACAAACCAAACCAGAACACAAGTGAAAACTGAACACAAACCTCTCAACAAGGAACC TGATAACCTCAACCTCGCTACGCTTTTGAGTCCGTTTCAGAAGGCCATAGCTCTCATTATACCAATGCTCATTGATTTCA ATGTCATCATCAAAAACCCACTTCAACTGATCCATCTTTCTCGCTTGGAACATCTCCTTCAGCTCATTCAAACTCTCCCT CTTGAGCTTCTCTCCTCCATACTCCCCATTCCCCCTCGTACGCTCCAAGAATTCAACCCTTTGAATCCCTTCCCATGGCT TCCCCACAACAGACAACCCCACGCTCTCTCGTTCAACTGCTCTTGTGAACTCCTTATACTCGTGCTTCAGTTCCTGGAAG TGTTGCTCTTCCGACAAGGCTTTGGTTTGAGATTCTGAGAGTGGAGGGGAAACTATGGCTTGTCGTTTCAGCTTTCGGTT GTGTTTTTGGATTTCTTTCTTGCGGATTGTGTGGACGATTTTGGGTGTGGGGTGGACACCCTTTTGGAGGAGGTTGCGGC GAATCTTGTCGGTGTCTGGTTCGAATTTGGCAACAGGGCGAAGAGGGAGAGGGTGGGCGTGGAGTTGCAGAGCTTCCATG GCGTCAGGCCTCACTGTGGAACAGTCATCTTGGTTTATGGATATTTTCTC

Download Genomic Sequence

CDS sequence (LotjaGi4g1v0094200.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGGTGCTCCTAAGCAGAAGTGGACTGCGGAAGAAGAAGCGGCGCTGAAAGCCGGAGTAGTCAAACATGGGGCAGGAAA ATGGCGCACTATACTTACAGATCCTGAGTTCAGTTCCATCTTGCGCATGCGTTCAAATGTAGATCTCAAGGATAAGTGGA GGAATATAAATGTGACAGCAATATGGGGATCCCGGCAGAAGGCAAAGCTTGCTCTTAAGAAGAACCTTCCACCCCCCAAA ATTGACAATAGCCATTTGGCCTTGAGTACAGTAGTTCAACGTGAAGAAGTTCTTGACACTAAGCCCCTTGCAATTTCTGA TGGAACATTGCAATCTCCTAATTCAAAAGACCATATGTCAAGGTTGGGGGATAATCACATATTGGAGGCTATTGTCAATA TGAAGGAACAAAAGGGTTGTGACAAGGTGGCCATTGCTTCTTACTTAGAGGAGAAATATCAGTGTCCCCCAAACCTCAGA AAGCTACTATCAACAAAAATGAAGCATATGGTGGCAAGTGGCAAAATAATCAAGGAAAAGCTTAAATACAGAATTCCGCC AAGTTCAGCAGTCTCTGAGAAAAGAAGATGCTCTTCCGTGATACTTCTGGAAGATAGGCCCAGAGATTCTCGAGAAACAG AGAAGAGCGATGAAGTCCACATCCTTTCAAAATCCCAAATTGATGCAGAACTATCTAAAGGGAAGAGGATGACAGCTCAA GAGGCAGCGGCTGCAGCTGCAAAAGCAGTTGTTGAGGCAGAACTTGCCGTTGCACAGGCTGAGGCAGCAGCCAGGGAGGC AGAGGCTGCAGAAGCTGAAGCTGAGGCTGCTCAAGTGTTTGCAAAAGCAGCAATGAAGGCATTAAAATGCAAAATGCTTC ATTTCTGA

Download CDS Sequence

Protein sequence (LotjaGi4g1v0094200.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MGAPKQKWTAEEEAALKAGVVKHGAGKWRTILTDPEFSSILRMRSNVDLKDKWRNINVTAIWGSRQKAKLALKKNLPPPK IDNSHLALSTVVQREEVLDTKPLAISDGTLQSPNSKDHMSRLGDNHILEAIVNMKEQKGCDKVAIASYLEEKYQCPPNLR KLLSTKMKHMVASGKIIKEKLKYRIPPSSAVSEKRRCSSVILLEDRPRDSRETEKSDEVHILSKSQIDAELSKGKRMTAQ EAAAAAAKAVVEAELAVAQAEAAAREAEAAEAEAEAAQVFAKAAMKALKCKMLHF

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	PTHR46267:SF5 View details on PTHR46267:SF5 Search for proteins/transripts with this domain View external data on PTHR46267:SF5	1	294	294	4.7E-161	–
PANTHER	PTHR46267 View details on PTHR46267 Search for proteins/transripts with this domain View external data on PTHR46267	1	294	294	4.7E-161	–
ProSiteProfiles	PS51294 View details on PS51294 Search for proteins/transripts with this domain View external data on PS51294	1	61	61	13.669	IPR017930 Show description in modal box View details on IPR017930 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.10.60 View details on G3DSA:1.10.10.60 Search for proteins/transripts with this domain View external data on G3DSA:1.10.10.60	2	60	59	4.2E-16	–
SUPERFAMILY	SSF46689 View details on SSF46689 Search for proteins/transripts with this domain View external data on SSF46689	2	67	66	7.41E-15	IPR009057 Show description in modal box View details on IPR009057 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00717 View details on SM00717 Search for proteins/transripts with this domain View external data on SM00717	4	59	56	2.9E-5	IPR001005 Show description in modal box View details on IPR001005 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00249 View details on PF00249 Search for proteins/transripts with this domain View external data on PF00249	5	56	52	5.7E-8	IPR001005 Show description in modal box View details on IPR001005 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd11660 View details on cd11660 Search for proteins/transripts with this domain View external data on cd11660	6	57	52	1.33822E-17	–
ProSiteProfiles	PS51504 View details on PS51504 Search for proteins/transripts with this domain View external data on PS51504	115	187	73	21.862	IPR005818 Show description in modal box View details on IPR005818 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00526 View details on SM00526 Search for proteins/transripts with this domain View external data on SM00526	123	182	60	2.3E-8	IPR005818 Show description in modal box View details on IPR005818 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.10.10 View details on G3DSA:1.10.10.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.10.10	123	195	73	1.8E-7	IPR036388 Show description in modal box View details on IPR036388 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF46785 View details on SSF46785 Search for proteins/transripts with this domain View external data on SSF46785	124	196	73	7.07E-15	IPR036390 Show description in modal box View details on IPR036390 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00538 View details on PF00538 Search for proteins/transripts with this domain View external data on PF00538	127	180	54	5.2E-8	IPR005818 Show description in modal box View details on IPR005818 Search for proteins/transripts with this domain View on EBI InterPro Service
Coils	Coil View details on Coil Search for proteins/transripts with this domain	250	280	31	-	–

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:0000786 View details of GO:0000786 AmiGO InterPro QuickGO	Cellular component	Nucleosome	A complex comprised of DNA wound around a multisubunit core and associated proteins, which forms the primary packing unit of DNA into higher order structures.	Subterm of View details of GO:0032993 View details of GO:0044427 View details of GO:0044815 Part of View details of GO:0000785
GO:0003677 View details of GO:0003677 AmiGO InterPro QuickGO	Molecular function	DNA binding	Any molecular function by which a gene product interacts selectively and non-covalently with DNA (deoxyribonucleic acid).	Subterm of View details of GO:0003676
GO:0006334 View details of GO:0006334 AmiGO InterPro QuickGO	Biological process	Nucleosome assembly	The aggregation, arrangement and bonding together of a nucleosome, the beadlike structural units of eukaryotic chromatin composed of histones and DNA.	Subterm of View details of GO:0034728 View details of GO:0065004 Part of View details of GO:0031497
GO:0042025 View details of GO:0042025 AmiGO InterPro QuickGO	Cellular component	Host cell nucleus	A membrane-bounded organelle as it is found in the host cell in which chromosomes are housed and replicated. The host is defined as the larger of the organisms involved in a symbiotic interaction.	Subterm of View details of GO:0033648

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Expression data

Expression pattern

Expression pattern of LotjaGi4g1v0094200.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi4g1v0094200.1