Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi5g1v0181700
Transcript ID	LotjaGi5g1v0181700.5
Related isoforms 4	LotjaGi5g1v0181700.1 LotjaGi5g1v0181700.2 LotjaGi5g1v0181700.3 LotjaGi5g1v0181700.4
Lotus japonicus genome version	Gifu v1.2
Description	Structural maintenance of chromosomes protein; TAIR: AT3G54670.1 Structural maintenance of chromosomes (SMC) family protein; Swiss-Prot: sp\|Q6Q1P4\|SMC1_ARATH Structural maintenance of chromosomes protein 1; TrEMBL-Plants: tr\|A0A0S3SR98\|A0A0S3SR98_PHAAN Uncharacterized protein; Found in the gene: LotjaGi5g1v0181700
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr5:46287576..46299650) extracted from Lotus japonicus Gifu genome v1.2.

ATGCCGTCGCTACTCTCGCCGGGGAAAATCCACCGGCTAGAAATGGAGAATTTCAAATCCTACAAAGGCTTCCAAGTTAT CGGTCCCTTCTACGACTTCACCGCCATCATCGGCCCCAACGGCGCCGGAAAATCCAACCTCATGGACGCCATAAGCTTCG TTCTCGGCGTCAGAACCGGCCAGCTCCGCGGCGCGCAACTCAAGGACCTCATCTACGCCTTCGACGACAGGGAGAAGGAG CAGAGAGGACGCAGAGCCTTCGTCCGCTTGGTCTACCAGCTCGCTAACAACTCCGAGATCCAGTTCACCCGAACCATCAC CTCCGCCGGCGCTAGCGAGTACCGCATCGACGGTAACCTTGTCAACTGGGATATCTACAACGCCAAGCTCAAATCACTCG GTATTCTTGTCAAGGCTCGCAATTTCCTCGTCTTTCAGGTTCTCTTGCGTTCTTATTGTTTGATTGATTTGATGCTAATG TCGTAAATCGTAAACTAGCTTGCTTGTTTTGTTCAATGTGTGACGGTTTTGTGATGTTAATGTAGGGTGATGTTGAATCT ATTGCGTCGAAGAATCCGAAAGAGCTAACCGGCCTTATCGAGCAGATATCTGGCTCTGACGAGCTCAAGAGGGACTATGA GCAGTTTGAAGAAGAAAAAGGCGCTGCTGAGGAGAAATCGGCGCTTATTTACCAGAAGAAGAAGACGGTGGTTATGGAGA GGAAGCAGAAGAAGGAACAGAAGGAGGAGGCAGAGAAACATCTCCGCCTGCAGGAGCAGCTGGTTGGTAACTGTATACGT TTCTTTTTATGTTTGTTTGTGCATTCTATATGTCCTCAGTACATGTGTAATTTCGAGTCGTAACTTGTATGTGCCACCTC ATGTGTGTTATTGGCCGCTTTTAATTTGGTTAGTTCTGTCCATAGTTTCCAAATTCGCTTATGCCCCCCATGTATCGCGT TCCGTTTCGTGCGTACCGCTACCGGTTAGTGGTACGTTTGCGTTTTGGTACTCTCCAATTCGCTGATATTAGCGTTGCGA AAGCTATGAAATCATGGAAGCAGAGGATGAAGGCGCATGTAGGCGCCATGGAAGCCATACAAATTGTCTACATTAGCTGC ATGTAGCAAGCCAATCAAAAAGGAAAAAAAAAGTTGAAGACAGAGTGTTCAGGTTGCTGTGCGGAGGTAGACTGATGGCA TTTAGGTCTTAGGGTTTTAACTAAAGTAGGGCCATTTTTTACAATGGGCCAACCGTCCAATAACTTTTATTTGTACATCC TTTTTTTCTGCACAAGCCAGTGTTGTTAATCGCAGATTGCGGACTATAGAGGTAAGACAAAAATCCGCTATTTCCAGCCT CTTAAAGCGGAAAATAGCGGTAAAAGTGGCAAATAACGGGTAATAGCGGAGTAGCGGTATGCCAAAAAGCGCTCCGCTAT AGCGCTATAGTTCTGCGATAATCACTATTTGACAACACTGGCACAAGCCAAATTTATAACTAAAACAATTGGGCCTACTA TTTCAATTTTACATAACCTATATAAATAAAGACAAAAAAATCGATATAAATAAAAATGATATAAGAATTTAACAGAATTG AAAATATTTAAGAAAAATTAATAATTAAAATAAATATTATAAGTATTTTGTTATATCTCTATAGAAATAATTTTAATGTA AATTTAATTAGATCAAACTGCATGTGAACTGACTATGTATATCCCCCTCGTACCGCATACTCTATAGGTCAGGTACCGTG TACCCGTTCCCATACCACTTACCGGAGCGTATGGCGAACTCTGTAACTATGGTTCTGTCTGCTTCTTCAATGTCTTAGGA TTATGTTTCATTCTCCTTTCTTTGCCATGTGCTTGATTGGATGATGACAGGTGGGATCCCTACAAGGAAATTAAGCAGGT TCATGCCCTTTTAATTCTGGAGATTGTATCTTAGATTCTTAATAAAGGGACTGCCTCTGTTGCACATGGCAGTCCCTCAT TTTTATTGTCTCGACTCTCAAAGTTATTCCTGCTCTTTTTTTAACTCTAGCTATTGCGTGCTGCTTTTTGGAATTTTTTT CTTAAAAATAAGAATAATATTATAATGTTTTTTTTTTTCCCATATATTGATAAAAGTAACCTCATTAACTCTCTATTTCA TTTGCAATCGTCATATTTTCCCATCAGTCAAAGCTGACTATTCACCTCGACTTTCATATTGCCGTCCTTAGTCCTTACCT CAATTCTTTCAGTGTCACTGCTCTTTTGATTTCTGCCTTTCCACCATTTGTGCTTCTGCCCTGAGGAAGGTCAGTTGGTT CTTCTCACTTCCATTGCTTCACATGTAACTGGTTTGGTTCTTGAAGATAGAGATAGTAGATTGACATCCACTCTTGAAGG TCCATAGGCTATGAACAAATTTAAGATGTCCCTTTGTGATCACTGTTTCTGTTGTGTTCCCCTTTCTTTGGAATAGCTTA AGCTGATAGTGAGTCTGACTGTCTGAGTCATGCTTTTGCTTGGCTTCTAAGTTATTTTATAATAAGGTTTCAACCAGATG GTTTTCACAACCCCTTGAAGCGGCTTGATTTGTTAGCATAATCATACCATTATACCACTACACCATGTTCCGTCAAGTAT CTGCTGATATATTATTTAACTCCAATATAAGGAAAGATAGGATTACTTTGCTGGACAGCGTTTTCTGCTTCATCTTTCAA CTAGAAGTTACTTGTGTAACTATCATTGTTCGATACATTTTCTCTCTTGATTTTGATCAGAATGCTACTGGTGAAGTTCT CAATCATCCTTTTTTTGTTTGCAGAAATCTGTGAAGAAGGAACATTTCTTGTGGCAGTTGTTCAATATAGAAAATGATAT TACGAAAACAACTGAGGATCTTGAAGATGAGACCAAAAGTCGTCTAGCTGTTATTGAAGAGCTGGGAAATTTTGAAAATG AAGCAAGTAAAAAGAAAAAAGAGCAGGCCAAATATCTTAAAGAAATTGCGCTACGTGAAAAGAAAATTACTGAGAAAAGC AACAAACTTGACAAGAGTGTGAGTATTTTTTCTACATTTTGGATTGTGTGTCGGAAATTAATTGCTTTATTATCAACTCC AGCTATTGGACTTTTTGCATAGGTTGATTCTATGCTTTACTCTTTGCACTTGTTGCTTTTGGTAATATTTGATGTGAAGA AACCGGGTTGAAAATTTTAGTGTCCAGGTTCCGGAAATGGCTTTGTTAATCTGGTAATAATGTGAATACCTTAGTAGTCC TCCCTCTCCTAGCTAGCGGTGCCCAACTCTTTCAGACACGACAAAGAAATAAGGAGCTAAGAGTACATGGGATGAAATCT TCGTTAGCTCTTTAAGATTTGTTACTTTTGTTTATTATTTGTGATGCTCGTTATGTTTATGGAATTGTTTTTCTGGTTTA ACATCCTCCTTGCAGCAACCTGAGCTTCTGAAGTTAAAGGAGGAAATGACTCGTATCAATTCAAAAATAAAAAAAGGGAA GAAGGAACTTGATAAAAAAAGGGAAGAACGGAGGAGGCATGCTGCTGATATAGCGGAGCTACAAAGGGGGATCCAGGATC TTGCAGCGAAAATGGCAGACTTACAGGAAAAGAGTCGAGGTGTTGGCAATGAGCTTGAGTTAGATGGCGATGACTTGGAA GAATATTTTAGAATGTGAGTGGTTATTTGCTGTAGCTGTTTTCTGTCAGTATATCTTTTGTTCCATCTATTTTTTTTGAA AAAAGAAACAGATTTCTTGCGTTGTGCTCAGAGTAAGCTTCAATAACCCTTAACAATCTAACAAGATCTTGCCAGCGTAA TCAAATAGCATAATTGGGTGCATAAAACATAAGAATCACCCTCTTCATTTTTTGGTTCCCAAACTTCTCTTTTTCTAATT TTTTCTTTCTACATTTTTTATTCTGCTTTCCCCCCTCCAATTCTCTTCATAGATTGCGCCATGTCATTTTCTTACACTTT TTTTTTGGTTGATTTGTGTAGTGGTTCCTGTCTTGTCCGTTCAGCAATGTCATTCTCTTCTTAGATTTATAGTTTTCTAT AATTCACACTATTGTTCTTGACATGAATTATTAGTTCTTATTTTATTATATTATGTAGTTTTTCTAGATATTATATTTTT ATTATTGGCTTCCATGCTTCCGCCAAATGTGGTGGGTTAACCGCCATCTACCATCGATAGCATTGCTCCTGATGGGCAAT GCAAATATTCTTTTACATAAATTTGCACTGCATTCCGTTATTACTGCTATATTCTGGCAGCCCAATTCATTACACCGAAG TAAAAATATGCCAGCACTTCGTAGGTATAATGCATATTGACTTTCATTTGTTTAAATTCTCCTTTTTTTTGTTTTTTCTG TTTTGGAACTTGTGATGATAATGTTGCTATTACAGCAAAGAGGAAGCTGGGATGAAAACTGCAAAGCTTAGGGAGGAAAA AGAGCTTCTAGATAGGCAGCAACATGCTGATAGTGAAGCTCAAAAAAATTCGGAAGAAAATCTTCAACAGTTACGAAACA GGGAGTCTGAATTGAATTCACAGGAAGAACAGATGCAGGCAAGGCTTAAAAAAATTGTTGATAGTTCTGCAAAAAATAAG GATGGACTTGCAAACTTGAAGAAAGAGCTGCGTGTGATGCAGGACAAACATCGTGATTCCAAGTAAATTAACTTGTTATT CAACATTCTTTTTAATTGTTAAATCATCTCTCTGTATTGGTTCTTTGCTGAGGACATTTGTGAAATGGTGTTTGCAACTT TGATCTGCAGGAAAAAATATGAAAATTTGAAGTTGAAAATCGGTGAATTAGAAAATCAACTACGTGAACTAAAGGCTGAT AGACATGAAAATGAGCGAGATGCTAAACTATCTCAGGCTGTGGAGACTCTGAAACGCCTGTTTCAAGGAGTCCATGGTCG CATAACTGAACTTTGTAGGCCAACACAGAAGAAGTATAACCTAGCCGTTACTGTTGCTATGGGTAAATTTATGGATGCAG TTGTAGTTGAGGATGAAAAGACTGGGAAGGAATGCATCAAGGTCCTGATGAGATTTTCCAATACCCTGTTTTGTGCCATT CTTTTAATTTTATGATTGTCTAAGTTTAATTTTTGAGCTCACAGTTCTTTCTACCAAACTCAATAGTTTCTTTTTGCTGT TGATGGCCTTCTGTATTTTCTGTCTGATTTGAATACCCGTATTGGTGATTACACAGGTGAATACTAGATAAACAAAGAGA AAAACAAAGAAGCCTAAGCACCATTATTTTGTATGTTGATGTGTTCATATAGGAACACTAGTTCAGCACAGAAATATAAG AAAGATATTAAATTATGGACTTCAGAAATAGGAAAGATAGCTTGTGCTGCACAAATCTTGTGAACTGAAGCCCTTAACCT AGCTTGTTTCCTTTTCATCCTTAAACTTGTTGCTTCTAGCATTCCTGTTGAATTTATGTATGACACATATGTTACTTCCT ATTTTCTTTGTTTCCTTTACGAGATTTATGGGCCTATTTGGTTTGTATTTTTTTGTTTGTTTGTTTTTTGTTTTAATTAC TAAATAGCCATCTCATTTTCATTTTGTTTCCTTTTCAAAACTTTCAAAACAGGAAACTGAAAATAGAAATGGAAAATGAA AGAATAGAAACCAATCAGCCCCTATAGTTGCTGAAAGCTAAAACTTAGGTGTTAACGTGTGTAGTTTTACCTGTTTGAAC TTAAAGTTCTTTGATCTTGATTGAGTTGATTTTATTTTATGTATTGATTGGAGAAATGTTTTCTTTGCTTCTCTGCAGTA TTTAAAAGACCAGAGGCTTCCTCCGCAGACATTTATTCCTCTGCAATCTATTCGTGTGAAGCCAATAATGGAAAGATTGC GGGCATTAGGGGGTACAGCAAAACTGGTTTTTGATGTGATTCAATATCCTTTTTTCAATAGTGGCTTCTTTGAAAAATCT GGTTGTTGAAGTGTTTGCAAGAGCTTCAAATGTTGCTGTTTGAATTTGCTCTAATGAAATTGAGAACTTCTTTAGCTCTG CCTTGAAGTAACCTTCTACAGCTTGCTTGTCTCTCATGATTCTATTGTTTTGAAAAATTAACCGTCCCACTTTGTAAAGA CTTTGGTTATTTTTTCCAGTGATTTTGTTCTGATAAAGTGATAATTGTTTTTGGTTGCTTCCCGCTGCATTTAAATCGTA TTTTCAAATGCTGATAAACAAATAGTGTTTTCAAATATTAAAGGATTATGCATTCTCTTAAAAAAGAAACTTTATAACTG TTTCTGTGGGTGGAGTTACGCTGTCTGTCATTGTGACGTGTAAAGCTTCAGTCATCATTACATTTATCTAAGTTTGTTGA TCTCAGTAATCTTGTGATGCAGTGAATTATGCTTTAGCTGCTGTATCCGTGCTGTTTCTCCATAGATCACTAAAATTGAA TCTTCTCTCAGTGAAAAGATAGTTTTTTCCTGATGCAGCATATTGTGTTCAGTGATTTCCTTTCATCAAAATGCTATTGT ATGTTCTTTAATTTTTATGAATTCCTATGAAGACAAATACTCATTAACACAGTATTTGAATTAAACTAGGTGGTCTACAT CTTTTAAAATTGAGCATAACTCATTCTCGTTTTTTCTCTACTTTCCCTCTACATAAATACCCCATCATGAATTTTTTATT TATGTTCATGCTTTTTGTTAATTACGTTTTGAACTTAACTTGCGCAAGTTTGATCCCTCCTTGGAGAAGGCAATTCTCTT TGCTGTTGGGAATACTCTTGTTTGTGATGGTCTTGATGAGGCCAAAGATTTAAGCTGGAAAGGCGAGAGATTTAAAGGTA ACAATGCCTTCCTTCTTTCTGTATCATTATACTGACATATGTCATTTGAATTTAAATGGGGTTACTTGGATGTCCCTTTT TGATCCCCTGTTTGTTTTTTCCTGTGGCTTGTTATGATTTCTTTCTGGGCGCTTAAATTTATCTTTTACATGACCAAATG ATCTTTCCACCTTGAGTTTATATGTTGTTTTGTTGCTTATGTAACAAACTTTTTGACTTCTCTTAATTTAGTGTTTACTT TTAATGCATGTGATGCATTCCTAGTACCTTGTCAGAATGCATAATTTGTAAAATTTCCATATGTAATTTGGTCAGTTGTA ACTGTGGATGGAATTCTGCTTACAAAATCCGGCACAATGACTGGTGGCACTAGTGGTGGAATGGAAGCAAGGTCAAATAA GTGGGATGACAAGAAAATTGAAGGTTTTTATCAATTTTTTTATTAATGTTTTTCTAATTTTGTTGAAAGTATTTTCTCTT GCAATAAACATAATATTTTTTCAGGACTTAATAAAAAGAAAGAGCAGTATGAATCAGAGTTAGATGAGCTAGGATCAATC AGAGATATGCACCTTAAAGAGTCTGAAGCATCTGGAAAAATTAGTGGACTGGAGAAGAAAATTCAATATGCTGAGATTGA AAAGGTAAACTGTTAGGACCCAATTGCAAGGTATGGGACTTGAGTCCCACATTGGAAGTATGGGATTCTAATGTGGGGTT CATAAGGCCTTGGGCTCTCCAACTACAACAGCTAGCTTTTGTGGTGTGGTTCTCCCAAGGTTCTTATCATAAACTCTTAT GAGTTTAGCCATTTTTCTTGGCAATAATCAAAATTATCAGTTGATTGGGCGTGCAAGTTGCCAGCCTTAGAAGTTTTTAT TTTTGATACTATCAAGCTTGCGATGCTTATTTCATTTTTTGATATGGTTTCATAATTCTCTTTTACACCATAGTTATCAA TCCCTGTCCTCCCGGATAGCAGCTGACCCCAAAAACACTAAAGTGAGATAACTCCTATTCTATTTTTTTTACGGTAGAAA TGATTTTTACTATATACCTATAAATATTCAAATTAAAAGTGACTTAGAATCCATGACTTATTCATAATTACCAATAAAAA TTAAGGTTGATTCTAGTAAATAAGTTATAAGTTGAGGAAATAAACATACAACAGACTCACTATGAGATGATGAAAATATA AACCAGTCTCAGATTAGAGAGACTAAATAATACACTTAGAACAGAAACTCAGAGATCTTCAACATGGACAAAATAAAATG GGAGGAAAGGGTTGTTAGTGCTGTAGCGGTCATACAGCCCCTGGCCTCCTAGTTGTAGCGTATCCGTAGCAGTGTAGTTA AGTATGAGATGTCAGACATAGTTATAGAAATTTGTTGTTGTTAGGATCCAATTGCAAGGTATTAGACTAAGGTCCACAGC AGAAGTATGAGATTCTAATTTGGGGTTTAAAGGCCTTAGGAATAGGATGTCCAAGAACAATGACTACTTTTATGGTATCG TTCCTCCAAGGTTCTTATCAATTGAATCTTGATAATGCTTGAAAATGTACCTTTTGTGCATCTGTAGGTAGATAAGTACT AGTTTTGGCTGAGCATGGATGGGAGATTGGTGAATTTCTGTCTTCTGTTCCATATGGAATATTTTAATTTATTATTTTAT GATTTACACTTTTGACTTTTTCCAGCGAAGCATTGAAGACAAACTTTCAAATTTGAACCAAGAAAAAGAGACCATGAAAA AACAAATTGAACGTATCACTCCAGACCTCCAGAAGGTGACATTGCCAATTCCCTTGTTCAGGCATAGTGGCATTATTGTA TACCTAACTGGTTACTCGGTGTTTATGCTTTACAGTTAAATGGCACTGTTGACAAAAGGAATGCAGAATTGCGTAAGCTT GAGAAGAGAATTAATGAAATCACTGATCGGATATACAAAGACTTTAGCAAGTCAGTTGGGGTTTCAAACATCCGTGAGTA TGAAGAAAATCGACTCAAGGATGCTCAAAATGTAGCAGAGGAGAGGCTGAACCTGAGTAGCCAACTTTCAAAATTAAAAT ATCAGTCTGTTCCTTCTTCCTTTTAATCTAAATCGTAGCTCCTTTTATATGTTTGGAAGTTTTCAATTATGTTGGATTAT TGATAAATGTAAAAATCAAAGTAAAAGAAAGAAGGTATTTAGAGTTTTATTTGCACTCTAGTTGGTTATCCTTGAATTAG TTTCTGCATTCATCTATTAATAACCTTAATTGAAATTGTTTTATAGGTTGGAGTATGAGCAAAATCGTGACATGAGTTCA CGAATTCAAGAACTGGAATATTCTCTTAGTGCTTTAGAGAATGACTTAAAACGGGTACAAAACAAAGAGGCTGAAGCAAA GTTAGCAGCTGAGAATGCTACTGAAGAGATTGATCAGTTTAAGGATGAAGTTAAAGGTATATTTGGTACAACTTGTATGT GCTTTGTAATAATATAGAGAACCACATCATATAATTGTTTTTTCTTTGAATTTTCTCTTTTTTATCCTTCCTCTTTGGTG CTACCGGGGTGAAGGTTTGGTTATCTGGGTACTGCTTTGCTGTTTAACATCTGAAATTGATGGGAACACAATTGGGTTGA TCTTGAAAGAAGCAGATTGCATACCCACCGTCACTTGATTTTGTTTATTTTTCTGCCTTGAGACTTGGGAGTCTTATGCT TTTCTATGTTCTCTTTCTACTCTTGTAGAGTGGAGATCAAAGTCAGAGGATTGTGAAAAGGAAATCCAAGAATGGAAGAA GAAGGCTTCTTTATCCACAACAAACTTATCCAAACTTAATCGTCTGATAAACTCCAAGGTTAGATGTTCAAAATTTCTTT TCTCGTGTTATTTCATTCATAATGTATAGATTGCCAACACCTTTTTATATGTTTTTACAGGAGACACAGATTGATCAGTT GGTGGTGCAAAAGCAGGAAATATTAGAGAAGTGTGAACTGGAGCAGATTAGCCTTCCGACCATATCAGATTCTATGGATA CTGGTAGCTCCACACCAGGTCCAGTTTTTGACTTTGATCAGCTCAGTAGGCCACTGAAAGATAGGAGACCCTCTGACAGG GATAAAATTGAGGTAGAATTTAAGCAAAAAATGGGTACGCTAATATCTGAGATTGAAAGAACAGCACCAAATTTGAAGGC ATTGGACCAGTATGAGGCTCTGCTAGAAAAAGAAAGAGGTGTATTGGAAGAGTTTGAAGCTGTCAGGAAAGAGGAGAAGG AAAAAGCGGATAGATTCAATGCTGTTAAACAGAGGAGGTAAAAGTTATTTTTCTTCAATTCATCATTGCTTGTCTTATTT AAAATATCAGTTGTACTTGTACATAGCCATTAGTTAGTGTGCATGGTTTAAGTGGACTCACAAAAGAGTCTTTATATAAA ATTCACATTAGAAAACATGAAAAGAAACCCAAGACACCATATGGGTACAATATGACACTGATATGATGCGGATGCAGGGA TATGGAAAATTCTTAAAAACTCCAGACTAGACCAGATCACATGTCTGATTAAAAATAATTCTGTCACATCGAATATGTTA TGGAGGCTAGATACTTAATATGATGCGAGTATGATTTGATGCGTATATATTCGCTGTAGTTACAATCGTGACTTGCCTCG TCATGATCTTATGATTTTTTGATGTGCCCATCAGTCCAGATCCGAGCTTGGAACACAATTTGGTGAAATCAAGTTGGATT GATGAGATAAACCATGAATTCTGTTAGAAATATAATAGAAAATCATTCATGTGTCTTCACCCAATAGCTTAAGCTTTTTG GCTAGCTGGTTCATTACATGATATCTGAGCCTCAATGACTAAAAGGTCTGAAGTTTGATACTTGTTTTACCGGTGCCTCC AAAAGTCTTTTCTGTACATGTCCATACCATGTTAACTGATTTCCCGTCAGCTTGTCATCGTTAAGTGTCACCCCAATATC TCCTCTTGTACAATCATTGCGTATCCTACCCTTTCTAGTGTGGTCTGGTCATTCATCCATCTTAATTCTTAACTTTATCA TTTCTGCTGCTTCATTTTTTTTTTCTCATGTTGTCTGTTAAAGCCCAACATTCGCTACCATAGAGGATAGCCGGTCTTAT AGTGATTCGGTCAATCTTTCTTTGAGCTCGGTCATAGATAAGTTCTTTAAGATTTTACTTCCCATCCCAAATATGACGTG TTCTTCTTAATTAACTTTATATCTTCTAATGAATAGATAATATATTTGTTTAATGTATTTGGTGAGGTAGTAGTTTATAT TGAGATACATGGCAGTTTACTTTTGTTGCATATCATGTCTTTTTGTGAAGCAAAAGTTTGTGTTGAATGCAGGTATGAGT TGTTCATGGATGCTTTCAACCATATATCTGGTAATATAGATAAAATTTACAAACAGCTTACAAAGAGCCACACACATCCT CTGGGTGGAACAGCATACCTAAATTTGGAAAATGAAGATGATCCATTTCTACATGGCATCAAGTACACTGCTATGCCCCC AACAAAGCGCTTCCGTGATATGGATCAGCTATCTGGTGGGGAAAAGACTGTTGCTGCACTTGCGTTGCTATTCTCCATCC ACAGGTAGATTTGTTTGTACTTGTAAAATTAATTCATCTCCTATATTCAAAAGGTGCATGTTTAGATATGTCTTAAGTTT TTTTTTTTTTGAAACTAATATGGATCTTAAGTTTCTGAACCATTTTCTGAAACTTAGATTTGAGCATATATGTTCCATTA ACATGGTCTCTGTTGCTTGTGGTTTCAGCTATAAGCCGTCGCCGTTTTTTATATTGGATGAAGTTGATGCTGCATTGGAC AACTTGAATGTCGCTAAGGTTGCTGGCTTTATTCGTTCAAAATCTTGTGAAGGAAGGGCTAGCCAGGATACTGATGGTGG AAGTGGTTTTCAAAGTATTGTGATTTCACTGAAAGACAGCTTTTATGACAAAGCTGAGGCGCTAGTTGGGGTCTACAGGG ATTCTGATGGAGGGTAAATTTCTTCACATCATTAATTAATTTAACCTATTATCTTTTCCTTTTATTTTCCGTATATTGAT GGCATATATCCTCCACTCTTATGCAGTTGTTCGAAAACTCTCACGTTTGATCTAACTAACTATCGGGAGTCCTGA

Download Genomic Sequence

CDS sequence (LotjaGi5g1v0181700.5) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGCCGTCGCTACTCTCGCCGGGGAAAATCCACCGGCTAGAAATGGAGAATTTCAAATCCTACAAAGGCTTCCAAGTTAT CGGTCCCTTCTACGACTTCACCGCCATCATCGGCCCCAACGGCGCCGGAAAATCCAACCTCATGGACGCCATAAGCTTCG TTCTCGGCGTCAGAACCGGCCAGCTCCGCGGCGCGCAACTCAAGGACCTCATCTACGCCTTCGACGACAGGGAGAAGGAG CAGAGAGGACGCAGAGCCTTCGTCCGCTTGGTCTACCAGCTCGCTAACAACTCCGAGATCCAGTTCACCCGAACCATCAC CTCCGCCGGCGCTAGCGAGTACCGCATCGACGGTAACCTTGTCAACTGGGATATCTACAACGCCAAGCTCAAATCACTCG GTATTCTTGTCAAGGCTCGCAATTTCCTCGTCTTTCAGGGTGATGTTGAATCTATTGCGTCGAAGAATCCGAAAGAGCTA ACCGGCCTTATCGAGCAGATATCTGGCTCTGACGAGCTCAAGAGGGACTATGAGCAGTTTGAAGAAGAAAAAGGCGCTGC TGAGGAGAAATCGGCGCTTATTTACCAGAAGAAGAAGACGGTGGTTATGGAGAGGAAGCAGAAGAAGGAACAGAAGGAGG AGGCAGAGAAACATCTCCGCCTGCAGGAGCAGCTGAAATCTGTGAAGAAGGAACATTTCTTGTGGCAGTTGTTCAATATA GAAAATGATATTACGAAAACAACTGAGGATCTTGAAGATGAGACCAAAAGTCGTCTAGCTGTTATTGAAGAGCTGGGAAA TTTTGAAAATGAAGCAAGTAAAAAGAAAAAAGAGCAGGCCAAATATCTTAAAGAAATTGCGCTACGTGAAAAGAAAATTA CTGAGAAAAGCAACAAACTTGACAAGAGTCAACCTGAGCTTCTGAAGTTAAAGGAGGAAATGACTCGTATCAATTCAAAA ATAAAAAAAGGGAAGAAGGAACTTGATAAAAAAAGGGAAGAACGGAGGAGGCATGCTGCTGATATAGCGGAGCTACAAAG GGGGATCCAGGATCTTGCAGCGAAAATGGCAGACTTACAGGAAAAGAGTCGAGGTGTTGGCAATGAGCTTGAGTTAGATG GCGATGACTTGGAAGAATATTTTAGAATCAAAGAGGAAGCTGGGATGAAAACTGCAAAGCTTAGGGAGGAAAAAGAGCTT CTAGATAGGCAGCAACATGCTGATAGTGAAGCTCAAAAAAATTCGGAAGAAAATCTTCAACAGTTACGAAACAGGGAGTC TGAATTGAATTCACAGGAAGAACAGATGCAGGCAAGGCTTAAAAAAATTGTTGATAGTTCTGCAAAAAATAAGGATGGAC TTGCAAACTTGAAGAAAGAGCTGCGTGTGATGCAGGACAAACATCGTGATTCCAAGAAAAAATATGAAAATTTGAAGTTG AAAATCGGTGAATTAGAAAATCAACTACGTGAACTAAAGGCTGATAGACATGAAAATGAGCGAGATGCTAAACTATCTCA GGCTGTGGAGACTCTGAAACGCCTGTTTCAAGGAGTCCATGGTCGCATAACTGAACTTTGTAGGCCAACACAGAAGAAGT ATAACCTAGCCGTTACTGTTGCTATGGGTAAATTTATGGATGCAGTTGTAGTTGAGGATGAAAAGACTGGGAAGGAATGC ATCAAGTATTTAAAAGACCAGAGGCTTCCTCCGCAGACATTTATTCCTCTGCAATCTATTCGTGTGAAGCCAATAATGGA AAGATTGCGGGCATTAGGGGGTACAGCAAAACTGGTTTTTGATGTGATTCATTTGATCCCTCCTTGGAGAAGGCAATTCT CTTTGCTGTTGGGAATACTCTTGTTTGTGATGGTCTTGATGAGGCCAAAGATTTAA

Download CDS Sequence

Protein sequence (LotjaGi5g1v0181700.5) extracted from Lotus japonicus Gifu v1.2 Proteins.

MPSLLSPGKIHRLEMENFKSYKGFQVIGPFYDFTAIIGPNGAGKSNLMDAISFVLGVRTGQLRGAQLKDLIYAFDDREKE QRGRRAFVRLVYQLANNSEIQFTRTITSAGASEYRIDGNLVNWDIYNAKLKSLGILVKARNFLVFQGDVESIASKNPKEL TGLIEQISGSDELKRDYEQFEEEKGAAEEKSALIYQKKKTVVMERKQKKEQKEEAEKHLRLQEQLKSVKKEHFLWQLFNI ENDITKTTEDLEDETKSRLAVIEELGNFENEASKKKKEQAKYLKEIALREKKITEKSNKLDKSQPELLKLKEEMTRINSK IKKGKKELDKKREERRRHAADIAELQRGIQDLAAKMADLQEKSRGVGNELELDGDDLEEYFRIKEEAGMKTAKLREEKEL LDRQQHADSEAQKNSEENLQQLRNRESELNSQEEQMQARLKKIVDSSAKNKDGLANLKKELRVMQDKHRDSKKKYENLKL KIGELENQLRELKADRHENERDAKLSQAVETLKRLFQGVHGRITELCRPTQKKYNLAVTVAMGKFMDAVVVEDEKTGKEC IKYLKDQRLPPQTFIPLQSIRVKPIMERLRALGGTAKLVFDVIHLIPPWRRQFSLLLGILLFVMVLMRPKI

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
Phobius	NON_CYTOPLASMIC_DOMAIN View details on NON_CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	1	608	608	-	–
Gene3D	G3DSA:3.40.50.300 View details on G3DSA:3.40.50.300 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.300	8	200	193	2.2E-48	–
PANTHER	PTHR18937 View details on PTHR18937 Search for proteins/transripts with this domain View external data on PTHR18937	9	613	605	2.8E-252	–
PANTHER	PTHR18937:SF12 View details on PTHR18937:SF12 Search for proteins/transripts with this domain View external data on PTHR18937:SF12	9	613	605	2.8E-252	IPR028468 Show description in modal box View details on IPR028468 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF52540 View details on SSF52540 Search for proteins/transripts with this domain View external data on SSF52540	9	269	261	5.7E-40	IPR027417 Show description in modal box View details on IPR027417 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd03275 View details on cd03275 Search for proteins/transripts with this domain View external data on cd03275	10	157	148	5.88611E-77	–
Pfam	PF02463 View details on PF02463 Search for proteins/transripts with this domain View external data on PF02463	10	224	215	4.6E-22	IPR003395 Show description in modal box View details on IPR003395 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	170	190	21	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	198	231	34	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	307	369	63	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	412	439	28	-	–
Coils	Coil View details on Coil Search for proteins/transripts with this domain	454	502	49	-	–
SUPERFAMILY	SSF75553 View details on SSF75553 Search for proteins/transripts with this domain View external data on SSF75553	481	618	138	1.7E-28	IPR036277 Show description in modal box View details on IPR036277 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.20.1060.20 View details on G3DSA:1.20.1060.20 Search for proteins/transripts with this domain View external data on G3DSA:1.20.1060.20	498	577	80	2.4E-23	–
SMART	SM00968 View details on SM00968 Search for proteins/transripts with this domain View external data on SM00968	517	628	112	3.7E-16	IPR010935 Show description in modal box View details on IPR010935 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF06470 View details on PF06470 Search for proteins/transripts with this domain View external data on PF06470	517	612	96	1.1E-15	IPR010935 Show description in modal box View details on IPR010935 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.70.1620 View details on G3DSA:3.30.70.1620 Search for proteins/transripts with this domain View external data on G3DSA:3.30.70.1620	578	623	46	2.4E-23	–
Phobius	TRANSMEMBRANE View details on TRANSMEMBRANE Search for proteins/transripts with this domain	609	627	19	-	–
Phobius	CYTOPLASMIC_DOMAIN View details on CYTOPLASMIC_DOMAIN Search for proteins/transripts with this domain	628	631	4	-	–

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:0003682 View details of GO:0003682 AmiGO InterPro QuickGO	Molecular function	Chromatin binding	Interacting selectively and non-covalently with chromatin, the network of fibers of DNA, protein, and sometimes RNA, that make up the chromosomes of the eukaryotic nucleus during interphase.	Subterm of View details of GO:0005488
GO:0005515 View details of GO:0005515 AmiGO InterPro QuickGO	Molecular function	Protein binding	Interacting selectively and non-covalently with any protein or protein complex (a complex of two or more proteins that may include other nonprotein molecules).	Subterm of View details of GO:0005488
GO:0005524 View details of GO:0005524 AmiGO InterPro QuickGO	Molecular function	ATP binding	Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator.	Subterm of View details of GO:0008144 View details of GO:0032559 View details of GO:0035639
GO:0005694 View details of GO:0005694 AmiGO InterPro QuickGO	Cellular component	Chromosome	A structure composed of a very long molecule of DNA and associated proteins (e.g. histones) that carries hereditary information.	Subterm of View details of GO:0043232
GO:0007064 View details of GO:0007064 AmiGO InterPro QuickGO	Biological process	Mitotic sister chromatid cohesion	The cell cycle process in which the sister chromatids of a replicated chromosome are joined along the entire length of the chromosome, from their formation in S phase through metaphase during a mitotic cell cycle. This cohesion cycle is critical for high fidelity chromosome transmission.	Subterm of View details of GO:0007062 View details of GO:1903047 Part of View details of GO:0000070
GO:0008278 View details of GO:0008278 AmiGO InterPro QuickGO	Cellular component	Cohesin complex	A protein complex that is required for sister chromatid cohesion in eukaryotes. The cohesin complex forms a molecular ring complex, and is composed of structural maintenance of chromosomes (SMC) and kleisin proteins. For example, in yeast, the complex is composed of the SMC proteins Smc1p and Smc3p, and the kleisin protein Scc1p. In vertebrates, the complex is composed of the SMC1 (SMC1A or SMC1B) and SMC3 heterodimer attached via their hinge domains to a kleisin (RAD21, REC8 or RAD21L) which links them, and one STAG protein (STAG1, STAG2 or STAG3).	Subterm of View details of GO:0032991 View details of GO:0044427 Part of View details of GO:0000793
GO:0046982 View details of GO:0046982 AmiGO InterPro QuickGO	Molecular function	Protein heterodimerization activity	Interacting selectively and non-covalently with a nonidentical protein to form a heterodimer.	Subterm of View details of GO:0046983
GO:0051276 View details of GO:0051276 AmiGO InterPro QuickGO	Biological process	Chromosome organization	A process that is carried out at the cellular level that results in the assembly, arrangement of constituent parts, or disassembly of chromosomes, structures composed of a very long molecule of DNA and associated proteins that carries hereditary information. This term covers covalent modifications at the molecular level as well as spatial relationships among the major components of a chromosome.	Subterm of View details of GO:0006996

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Expression data

Expression pattern

Expression pattern of LotjaGi5g1v0181700.5, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi5g1v0181700.5