Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi1g1v0679900
Transcript ID	LotjaGi1g1v0679900.3
Related isoforms 2	LotjaGi1g1v0679900.1 LotjaGi1g1v0679900.2
Lotus japonicus genome version	Gifu v1.2
Description	DNA glycosylase; TAIR: AT2G36490.1 demeter-like 1; Swiss-Prot: sp\|Q9SJQ6\|ROS1_ARATH Protein ROS1; TrEMBL-Plants: tr\|A0A0B2QF73\|A0A0B2QF73_GLYSO Protein ROS1; Found in the gene: LotjaGi1g1v0679900
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr1:124712923..124723629) extracted from Lotus japonicus Gifu genome v1.2.

GTGACACGTGACTGTCTTCGTGTAAAGACATGTTCGTTTTTCTTTTGATAAACGAAAGACCTGTTCGTGTATTCTGATGT ATGTGACTAAAATATTCGTTTAACGGAAATCCAAACATGCATGAATTTCACGACGTAAGGAAATATACATGCATGCGTGA CTAATCATGCATGTAGACCGCTTTACGTCGTCGAGTTAGTCTTTTGATGATGATAAGAATATTAATCCCAATCCAACTAC CAGAAAAGGAAAATTTCTAATCAATCTATATATATATAAGAACCGAAGCTGAGTGTGTGTTGTTGTTCATGATGCATATC TAAACTGCATAGAATTTTGTGTAGGTTCTCTTTTCCCTAGTTTTCTCTCACTTTCTGTGTGAAATGATTTTGTCTTTTCC ATGCAATTTGGTCTCAGATTGATGATGATGTGATATCGGATCTCTCTCCTCAGCCGCATCATCGAGTCTGTGACTGTAAC AATCTCCGCTTGAATTTCTCTGATTTTCTGTTTCAGGTTTGGTGTTTTTGGTGGAATAATGGAATCAGTTCCTATTCACC GTGAGCATTAAGCGGAGGTTTCAAGCTGATTTTCTGCTCTTCCAGACACACATGTAAGACATGTTTCATTTCAGATTTTA ATTAACCTTAATGAGCCAAAATTAATCAATTAATTACTCTGTTGTTGTTGTTGTTGTTGTTGTCTACTAACACCAGCTTT TTCAGTCACCGGTTACATAAATTCAGAAACCCACACTTCTTTCAATGTTTCATGAACTGCATCTATCTATCTATCAATGT TTTCTCTGTCCTGAATGAATTCACGTTTTTTCTGTTTTATCAATTCTTTGATTTTTCATGTGTCTGCAGGTTCATTCACC TTCTTCCAATTTAGCAAACAGATTTGTCATTCGTTGCGAAATTGAGCTGTTTTTGAGTGTGGGAATCAGCTCAATTTGTT TGATTCATTCTTTGTTTCTCTGCACCCATTTCAATTTTAATGGAGGCTGGAGAAACGCAGGGGAAGAGGACTGAATTTCA GGTTCCTTGGATCCCAGCCACACCTTCAAAGCCCATTCATCCAAAATCAGCTCCGATCTGCACTTCTGGTGAGGGGGAGG GGAATGGGAACGGCGGCGGCTCGTACCCTCATTTCAATGGGTTTTTTGCAGGTTCTGACCCTGCTGGAGACAATGCTCTT CACCGCCGGTCAGCTCCACCTGCAGCTCCGGCCGCCAACATTCCCGATCACAATGCCCAGAGTCAAGTGCCCATACCGTT TGACAACAATTCCAGCTCAGGATTTGGGATATTTGCTGGTTTTAACCCCGCCGGAGTGGATGGCCCTCACCGCCGGTCAG CGCCACCTGAAGCTCCGGCCACCAACATTGCCACTCACAATGCCCAGAGTCAAAGACACATACCGTTGGACATCAATTCC AGCTCAGGATTTGGGTCATTTGCAGGTTCTGAGCCCGCCGGAGCCGATGGTCCTAACCACCGGTCAGCACCACCTGCTGC TCCGGCGACCAACATTGCCGATTACAATGCCCAGACTCGCGTACCAGTCTCGTTTGACAACAGTTCCAGCTTAGGATTTG GGTTATTTGCAGGTTTTGAGCCCGCCGGAGCCAATGGTCCTAACCGCGGGTCAGCGCCACCTGCAGCTCCGGCGACCGAC ATTGCCGATCACAATGCTCAGTGTCGCGTACCCGTATCGTTTGACACCAATTCCAGCTCAGGATTTGGGTTATTTGCAGG TTTTGAGCCCACCGGAGCCAATGGTCCTAACCGCAGGTCAGCACCACCTGCAGCTCCGGCCACCAACATTGCCGATCACA ATGCCCAGAGCCGAGCACCCGTACCGTTTGACATCAATTCCTCAGGATTTAGTTTTGCTGAGTTTCTGGCCCAGGCAAAT GCTCCGCCGCCGGCGGCATATTCCAATGCAACACAAGGTGGATTTTTTGTGAACCAATTTATGCCTACTTGGAATTGGAA CTCTCAGTTGAACCAGGGATATACACCAATTGGCCAGCGTCATTTCCCTCAGGAGCTACCATTGATCAACACCATCCATG GCAATTACCAGGATCCTCAAGGTAAAGGCAATTAATTTTGGTTTTGGTTTCACCTTGGTGTGTGGCATTATATATGTATA TGATCCTTTTCTTTTACAACACCTTGGCACACAATGACCACTAGCATTTCCATTTCACCCTTGTCATTTATCAGTTATGT GAGCAAACTGAAGAAAATAAAACCTCTATAGCATGTTGGATATACTCTGTAAAACCACATGGTTTGTCTTAGTTTTTATG GCAGTCCACCGTGATTTTGGTTTCACCATTGTTTTCCACTAGCCGCTGTTTTCGACTGTGTATCGTTACTTTCCACTGTG TATTTAAACCTGCATATGATGTGAATTAAAAAAACAGAAATTAGAAGCACTTGTTTACCTAGAATAGGACCTGTGAGGAA CAAGAACAACACAGTTGCAGTGGGGAAACAAATTTCGAGTAGTAATTGAATAGCAATAATTAGGCTGTTTCTACTCGTTC AGAGCCAAGTGAATAATATCTTAGGCATACCATGATTACCTATTAACTGTCAGTTTTATTCTCTGTCTAATCATCTCATT TAGAACTAGTTTTCCACTATAGTCAGTTCATTTAATTTTCGTTTTTTTTACTCTCCAGATGCTTTGATCAATGTTGGGAT CATGCTGTTTTGTAGACACAACATCTGTTCTCTTATTCAACATTTTTTTTTCCAATTCTGTACAACAGGTACACCATACT TTTTGTATAACACCAGTTCTCAGGTTGCCCCACCTGCTCCAAATATGGCCATCACTGCAGAAAGCAGCCAAGTTGCGGCC ACACAGTTGAGTATGGCGACAGGATTGAGTTTGGAAGTAAGGGACCAGGGGGGAGAGACAAACGTCCCAGCAACAGACTG CAACAATCAACACAACAAACTCTATGACCCTGATCAGAATAAGGAAATAGGCCAAGGTATTGATCTGAATAGAACACCTC AACCAAAGCCAAAAAGAAAAAAGCATCGCCCGAAGGTCGTCAGAGAAGCCAAACCCAAAAGTACTAAGACGCCAGCCACC CCAAAGCCTGAAAAGAGGAAGAATGCAGGCAAAGGATTGAAATTGGATTCCCCTCAAACTGAAGTGGCAGGGGAAGGGGA TAAACTAATTCCAGAACCTGTCAAAAAGACATGTAGGAGGCCCTTAAACTTTGACTTGGTTGAGCAACCAATGGATGGAA ATTCTGCAAGAAGAGAAAATGCAACTACACATTGGAACAGAGAAATTGGTGTTCAGGTCAAGGAAACACAGGTTTTAAAT AGCTACATGTCATTACAAGAAGATTCACAAACCCCAAGTGCCGATCTTTCAAACGGCAATTCACTTGGGTCCAAGCCAAA TGCCAACTATGTAGAGAATGGCAACAAAAGGGGTTGGCTGATTGGTCAGGATGGACATGACAAATTACTATCAGCAGCAG CAGCACAATCAAAACAACATGACTCCAACAACAGTTACAGTCAACTTTTGGCCACAAGATTGCAAGTAGTTGGTTCCAAG AGAAAACAATCTGGTGCCATTGAACATACAGATAACAGCAGCATCAATCTGATTGGGACACAATACAATTCTTTGCAGGG ATACCTCCCAAAGTATTTGGTTGAATTTCCAAATGTTCAGAAGAAAAGGAGAAGTGAAAAGGGGAAAATTCCCAACACAT TTTCCATGACTGCCACAGCAAATGTACAACCAGCACCTTGCCCACAAGAAGATGCTAGATCATTTACTCATGTATCAAGT TCTAGCTGCTGGACTTATGGTTCTGAATATAACCCAGTTATAGTCCCAGACATGTCTACAGCAACAGAGAGAGCTATTCA TGATAAACCTCAGTCATTTGAGTGCAACTTGTCTTTAGAGAAGAGGCCAACCAAAAGAAGATCAAGAGTTCCTGCTAGAA TTAATGATTTCTCTTCACTGACCTTCGTCAGAAACTGGGATTCCAAACTCACTCGTACTGTGAAAGAAGGCAGTTCTGAT AGACAGACATTTGAGGATGCAGAAAGACCACAAACATGCATGGATGCTTTAGTTGCACAGATGAGTGCGTTGCTCACCAA AAAGAAACGGAGTAAAAAGAGAAGTTCAGCAGATCCTGGCACAAGTGAGATGCAGCAGCACCATACATTTGCAGCAAAAA ATCACAGCTGGGCCTTTCAGAACTCATTAGGTATTTCAGCTGAACCTTACACAGTTTGATCTATAATATTATAGTTCTTA TAGAAAAAAAATTCTATCACGCAGTCCTTATACTTTAAGTCATTGATGCAGATGTTGCATGTGAAGGGAGAAGGAAAAAC ATTCATAACGGGGGCACATTAACAGGGCGGTCTGGAGACCAAAACTTATACAGAGAAGATAGAGCGATGGTGGTGTATGG GCAGAAAGCAGTTGTCCCTTATAAACAGCAAAATAGAAACTACAAAACCCAAGGCACCATGGTTCCCTATAGTCCCTTAA AAAAACAGCGACCTAAAGTTGACCTTGATGAGGAGACTAACAAAGTGTGGAAGCTCCTAATGTTGGATATAAACAGTCAT GGTGTTGATGGAACTGATGAGGAAAAGGAAAAATGGTGGGAAGAAGAACGAAATGTGTTCCGTGGACGTGCAGACTCATT CATTGCACGCATGCATCTAGTACAAGGTATACACTTTAAAGAATATAAACACTATTCACATAAATTCGACAATATTGTGT TTCAATTATATTTTATATTAGATACCAAGGGAGGGTCCCCAATATATCAGTAGGAAAATCCTAAATAAGGCTAAAATACA TTAGCTTAAACAAATAGAGAAACTGAATAAAATAACTTTTCTAAGATAAAGTAATACAAAATAAGCACATATTATCCTAA ATGTGCTTATCCATTCTGCATTATCTGCTCACACAATAATGCAAATTTAACAGGAGATAGACGCTTCTCACAATGGAAGG GATCAGTAGTGGATTCAGTGGTTGGAGTTTTCCTCACTCAAAATGTCTCAGACCATCTTTCCAGGTATAAATTATTCAAG CTTAATTACTAGTAAACTTACAATTAAAATAGATGATGCAGCATTTCCTGTTTTTTCTTTTCTGTCGACAGTTCTGCATT CATGTCACTTGCTGCTCGGTTTCCCCTAAAGCCAAGCAGCAACTGCGAAACACACGACAAGGAAAATACAAGCTTGATTG TCAACGAACCACAAGTGGACATGGTAGAAGCAGAAGAAAATGGAAAATTGAAGGAAAAAATATTGAATCTATCTGCTTGT GAGTTGAGTTCTATGACAGTCGACGTCTTTGAGCATTCTGACGAAAGAGAAGTAGCTGATAGCAATGATTCGTGCAGAAA CAGTAGCTCAATTACCTTAACAGATGAATCAAACTGCAAACTGTTGGAATCAGCACAAAGACATACCAGGGAACATAGTC CAATGGAGAGTGTTTGTCCCATGACTGGGGAAGTGCAAGAAAATTCATGTAATGGGGGTGTTAGGAGAGAGTTTAATGAT TTATTTTCATCCCAAGGCTCTTTCATTACATCTCAAATATCTGGAGATTTTTCAATTGATCAAAATCCTGAGAAGATATC TTCAGATTGCAACTCAGAAGTAGAAGACTTGTCAAGTACAGCCAAATACAACATTTATCATAACAGGACTTCTTTCGGTA AGCTTCTTGAAATGGCAGGTTCAACCATGTTACATGAAGTCAACAGTCAAAGAAGCAAATCAACTGAGAGCTCAAGGGAT GCATATGGACAATCTGTAGCTATGAATCATGACAACCTGGCAGAAAACTTGGAAAAGACCAATTTTACTCAAGACTTCTT AGAAGCATCAACCATCTCAAGCAATGAATACACTTTAAAAGTGACCCCAGATTCCGGGGTACTTGATATTAACTGCCCCA ATCCTCTTCAAATTGAAGCCTCATCAAGTGGCTCCTCAAAGAATACTGATGAAATCAACACGAGATTTAGTTTTCCCATT ACAGAATCAGAAAGCCAAGCTGCAGTTGCCCACTCTCAAAGTATCCTATCTCAACTCCATCTTCAGCCACAAAGTGACAA CAATAAGGTAGATTCTGTCCCGGTAACAACATTAAGGGGCAAGCAGCGCAAAAAAGAGAAAAAGGATAATTTTGATTGGG ATAGCTTGAGAATAACAGCACAAGCTACGGCAGGTAAACGAGAAAAAACGGAAAACACAATGGACTCCTTAGACTGGGAC GCTGTGAGATGTGCTGATGTCAAAGAAATTGCTGATGCAATAAAAGAAAGAGGCATGAACAACATGCTAGCTGAACGTAT TAAGGTAAAAGATAACATCCTTGAAATGTTTTATTTACTATATTTGCTGGAAAGATGAAACCTTTCATCACACCTTATGT CAACTGACATACTATGCAGAATTTCTTGAATCTATTGGTTGATGTACATGGAGCCATTGATCTCGAGTGGCTGAGAGATG TCCCACCTGACCAAGCAAAGTAAGTCCAGATATCAGTTGAACCACTTCATTAAAATTATATTTCCCATTCATATCATGTT AGCATGTATTTGACTGTATAGTTGGTAAAACCAACTTCCAGAGCTCTAAATTCAATTGTAAGACAAATAGATATGCACAC TCAAGCAGTTTTAGACCTGATACATGCAAGCAGAAAAATGCATAATGTAAATTCAATTCATACATGCAGAGAATTCTTAC TCAGCATAAAGGGATTGGGGTTGAAAAGTGTGGAGTGTGTGCGACTCTTAACACTACACCAACTTGCTTTCCCGGTAAGT AGAAAACAGAAGTATGCAATTACAGGAATTTGGAAATATATTTTAACAATTATTGCTGTACATTAGGTGGACACAAATGT TGGGCGTATAGCGGTTCGATTGGGATGGGTGCCTCTCCAGCCACTGCCTGAGTCACTTCAGTTGCATCTTCTAGAATTGT GAGGACTTCATAAATCAATAACACAAGGAATTAATTCAATTAGATAAGAAGAGCTAACATCATTGTCCTCTGCAGGTACC CAGTGTTGGAGTCCATACAGAAATATCTCTGGCCCCGGCTGTGCAAGCTAGACCAAAAAACATTGTAAATATCCCTTTAT TTTCAATCTATAGTCATGCACTAAAATATACTAAATATTTTCTTTTCTTTACCCCTATGTAGATTTAACAAGAATAGTTT ATTTTTAATTTTGATTGGCCAATGTAAAACTTTTAATCAATACCACACAGTGATGCATGGCCACATTATTTGAAGAGTAT GATAATGATATTGATAACAACTAGCAAACTCTTTCAGTTATGTGGTAATACATGATTACATGATAGTGTAGAAAAGTTTT CCACAGACCATTGGATCAAAAATTAAAATCTTCATGTATTGATTATTTTTTTAACGTTTTACTACAACATGTTATAGGTA CGAACTGCATTACCAGCTGATTACGTTTGGAAAGGTAAAATACATTTTCCCTTACGTTATAGACGGGGCCCTACTTAGTA AAACCCTATTGAAACTAAATCAATGCTTACAGGTCTTCTGCACAAAAAGCAACCCAAATTGCAATTCATGCCCAATGAGA GGGGAATGTAGACACTTCGCAAGTGCTTTTGCAAGGTACACCCTTGATAAATTAAGGTGGCTTGCACCTATTATGCTTAC TAGTCCAAAAATTTATTTGTTATGCAATACACCAAATCCAATACTCTTTTTTACATACATAAGAAGTACTGCCAATATTT TTGTCAGAAAGATAGATAGGGAACATCAGAGACAGTTATATGAAGCTCATATATCAAGTACTGTTGTTATATCTAATACC TCATTATATTGACAGCATTTTATTCTAGTTACACCTTGCAGCAGTGAACTTCGGAAATGATGTTATAACAGCTGAACGTT ATGCCTACACCACTTTGAAAATTCAATATTTAACATGCATTGCAAGTTATGATAGATTAATTTACAAAATATCACTGTTG AATGCAGCGCAAGGCTTGCCCTGACAGGACCAGAGCAGAAGAGTATAGTTGTCACAACTGGAAACAATGCAGCTTATCAG AACCCATCACCAACCATTCAGCAATTGCCCTTGGCTCTCCCTGAAAACACAAACCAACCAGAAGATCTTCAACAAACAGA AGTCACGGGACAACTTGCAGCAAAGTCTGAAAACTATACTTGCCAACCTATTATTGAAGAGCCAGCAACTCCAGAGCCAG AAGATTCCCATGTATCTGACATAGAGGATGCCTTTTATGAGGAGTCGGATGAAATTCCCACCATCAAACTGAACATGGAA GAATTTGCATCGAATTTAGAAAATCTTATGCAAAATAAAATGGAACTTCAAGAAGGTGAAATTTCCAAGGCCTTGGTTGC TCTACATCCAGAAGCGACGTTCATTCCTACACCCAAGCTGAAGAATGTGAGCCGGTTGCGAACAGAGCATTCTGTGTAAG TGAAGAAACTAACTTATTTCCAACTAGTTTACTGGAATGCACAATTCTAGCATTAAAAAAGAAAAGAATGTTGCATTTAA TAGATGCTCCTGTGCTGAGCATAGATAGAGTAGGCATCATTCTTATGTTGGTGGAAAGTTCTAATAATTTACGCTGACCT TTTATTCATCTTCATGCAGTTATGAACTCCCAGACTCACATCCACTTTTGGAAGGGGTTAGTTATTTCTACATCTGTGAA TTAAAGTTGTGTTTTATGCTTTATACCAACTTTTATTAACTAGTCATGCACTTCAGTGGGAGAAGCGAGAACCTGACGAT CCAGGCAAATACCTTCTGGCTATATGGACTCCAGGTGGGCAATAATTACTTCAATACCATGACCACCTTTATAGATGAAT GTAGATTTGTTATGAAGTTTTGTCATCATAATAAGTTGGAAATTTTATATGATTGGTTTCAGTTCTCTGGAGTTTTCTAA TTCATTTTGCAAATACATTATTAATATGTCAGGTGAGACAGCAAATTCTATAGAGCAACCAGAAAGAAAATGCATCGCTC AGGACTTTGCCCAGCTCTGTGATGATAGGCAATGTTTTTCATGCAATAGCTTCCGTGAAGCAGATTCACAGATAGTTCGA GGGACAATCTTGGTCAGAATGCTTAACCTTACATTGTTTACTTTTTTAATTCTTATACATTATAGTGGGAAAACAAAGGA TTGGGTGGGGTAGCAATTTGCATACAAAAACTAGTATTATAATGTGCTGACTGTAAATAAATCATGAACAGATACCATGC CGGACAGCTATGAGAGGGAGCTTTCCGCTAAATGGCACCTATTTTCAAGTCAATGAGGTAAAATAACGTGACATATCATA TCCTCGAATCTCTTTCCCATTATATGATTATGTTTGTAATTCAAGAAGTACTAAAAACATGTAATTTCAAGCAGGTTTTC GCAGACCATGACTCGAGTCATGAACCTCTTAGCGTTCCGAGAGAATGGATCTGGAACCTCCCTAGGCGAACTGTATATTT TGGAACCTCCGTACCATCCATATTTAAAGGTAAAAAAGCGCTTTCAATTAAATTATTGTACAATATATCAAACAATTAAG TTGAATATTTGCCTTTTGTCAATCAGGTCTAACAACACCAGAAATTCAACAATGCTTTTGGAGAGGTAAGATCTAGTCCC CTGACTGCAATCTTGTTTTTTTGTAATTGATTGTCCTTATCTCCACCTATTTTTACCAGTGTAATCATCATAACTAGTTT GCAGTTTATAGACACACTAAGAGGCCAAAGGACTAAAACTAACACACAATCACACATAACAACTTTTTGTGTTTTGCCAC ATGAGGGATGCCCCAAACTCTTCTGTTCTTAGGTTAAACCATCTGATCATATTACCCATCCTATCTAAACAGATAATGAA AATGCTATGCTATGCTTTGCAGGGTTTGTCTGTGTGCGGGCATTTGAGAGGGGAACGCGAGCACCCCGTCCTTTGAAGGG AAGACTACATTTCCCGGTTAGCAAGATGCCCAAGAACAAGGACAAGACCAAGAATGAGTCCGCGTCGGCAAACGCACAAG GACTGGAGTCAAATCCAGAACAGCCAGCAAACTTGCAAGGAGTGAATCCAAATCCAGAACAGCCGGAATTGCTTTCCAAC ATTCCCCATCTTCAGGGGAATGGTGGAGTTTGAAGACAAATCATTTGTTATTCATATTGTACTATGTATGTAATAGCATA GCATAGTCATTGTTAAACAACTTTAATCTTGCCTTGTCATCCTGACAGACTCGGCAGATTTTTTTGCGATTAGGACCAAG ACTATAGCATGGTAGCTTAGAGAAGCGCGGTTAATTTATTGGCTCTTTTTGCAGCCATAGCGCCATTTTCAATTACATAT ACCTTTCCCTTTTGCTCCACTGCATGATTTTGTTTGTTAATTACTTGGTTTTTTTGTTCAAATAACTTGTGTTTGTTTTG TCATGTTGGGCAATGGACGCTACTTTGCTGTTGGATTGGTTCCATTTGCATTATGCAGCCCAAACCAGCATGAGTTGTTT ACATTGGGGAAACCCTAGTTTGTGGCAATCAGAACCCATATATGAGACTCAAGTAATTTGATTGAGC

Download Genomic Sequence

CDS sequence (LotjaGi1g1v0679900.3) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGAGGCTGGAGAAACGCAGGGGAAGAGGACTGAATTTCAGGTTCCTTGGATCCCAGCCACACCTTCAAAGCCCATTCA TCCAAAATCAGCTCCGATCTGCACTTCTGGTGAGGGGGAGGGGAATGGGAACGGCGGCGGCTCGTACCCTCATTTCAATG GGTTTTTTGCAGGTTCTGACCCTGCTGGAGACAATGCTCTTCACCGCCGGTCAGCTCCACCTGCAGCTCCGGCCGCCAAC ATTCCCGATCACAATGCCCAGAGTCAAGTGCCCATACCGTTTGACAACAATTCCAGCTCAGGATTTGGGATATTTGCTGG TTTTAACCCCGCCGGAGTGGATGGCCCTCACCGCCGGTCAGCGCCACCTGAAGCTCCGGCCACCAACATTGCCACTCACA ATGCCCAGAGTCAAAGACACATACCGTTGGACATCAATTCCAGCTCAGGATTTGGGTCATTTGCAGGTTCTGAGCCCGCC GGAGCCGATGGTCCTAACCACCGGTCAGCACCACCTGCTGCTCCGGCGACCAACATTGCCGATTACAATGCCCAGACTCG CGTACCAGTCTCGTTTGACAACAGTTCCAGCTTAGGATTTGGGTTATTTGCAGGTTTTGAGCCCACCGGAGCCAATGGTC CTAACCGCAGGTCAGCACCACCTGCAGCTCCGGCCACCAACATTGCCGATCACAATGCCCAGAGCCGAGCACCCGTACCG TTTGACATCAATTCCTCAGGATTTAGTTTTGCTGAGTTTCTGGCCCAGGCAAATGCTCCGCCGCCGGCGGCATATTCCAA TGCAACACAAGGTGGATTTTTTGTGAACCAATTTATGCCTACTTGGAATTGGAACTCTCAGTTGAACCAGGGATATACAC CAATTGGCCAGCGTCATTTCCCTCAGGAGCTACCATTGATCAACACCATCCATGGCAATTACCAGGATCCTCAAGGTACA CCATACTTTTTGTATAACACCAGTTCTCAGGTTGCCCCACCTGCTCCAAATATGGCCATCACTGCAGAAAGCAGCCAAGT TGCGGCCACACAGTTGAGTATGGCGACAGGATTGAGTTTGGAAGTAAGGGACCAGGGGGGAGAGACAAACGTCCCAGCAA CAGACTGCAACAATCAACACAACAAACTCTATGACCCTGATCAGAATAAGGAAATAGGCCAAGGTATTGATCTGAATAGA ACACCTCAACCAAAGCCAAAAAGAAAAAAGCATCGCCCGAAGGTCGTCAGAGAAGCCAAACCCAAAAGTACTAAGACGCC AGCCACCCCAAAGCCTGAAAAGAGGAAGAATGCAGGCAAAGGATTGAAATTGGATTCCCCTCAAACTGAAGTGGCAGGGG AAGGGGATAAACTAATTCCAGAACCTGTCAAAAAGACATGTAGGAGGCCCTTAAACTTTGACTTGGTTGAGCAACCAATG GATGGAAATTCTGCAAGAAGAGAAAATGCAACTACACATTGGAACAGAGAAATTGGTGTTCAGGTCAAGGAAACACAGGT TTTAAATAGCTACATGTCATTACAAGAAGATTCACAAACCCCAAGTGCCGATCTTTCAAACGGCAATTCACTTGGGTCCA AGCCAAATGCCAACTATGTAGAGAATGGCAACAAAAGGGGTTGGCTGATTGGTCAGGATGGACATGACAAATTACTATCA GCAGCAGCAGCACAATCAAAACAACATGACTCCAACAACAGTTACAGTCAACTTTTGGCCACAAGATTGCAAGTAGTTGG TTCCAAGAGAAAACAATCTGGTGCCATTGAACATACAGATAACAGCAGCATCAATCTGATTGGGACACAATACAATTCTT TGCAGGGATACCTCCCAAAGTATTTGGTTGAATTTCCAAATGTTCAGAAGAAAAGGAGAAGTGAAAAGGGGAAAATTCCC AACACATTTTCCATGACTGCCACAGCAAATGTACAACCAGCACCTTGCCCACAAGAAGATGCTAGATCATTTACTCATGT ATCAAGTTCTAGCTGCTGGACTTATGGTTCTGAATATAACCCAGTTATAGTCCCAGACATGTCTACAGCAACAGAGAGAG CTATTCATGATAAACCTCAGTCATTTGAGTGCAACTTGTCTTTAGAGAAGAGGCCAACCAAAAGAAGATCAAGAGTTCCT GCTAGAATTAATGATTTCTCTTCACTGACCTTCGTCAGAAACTGGGATTCCAAACTCACTCGTACTGTGAAAGAAGGCAG TTCTGATAGACAGACATTTGAGGATGCAGAAAGACCACAAACATGCATGGATGCTTTAGTTGCACAGATGAGTGCGTTGC TCACCAAAAAGAAACGGAGTAAAAAGAGAAGTTCAGCAGATCCTGGCACAAGTGAGATGCAGCAGCACCATACATTTGCA GCAAAAAATCACAGCTGGGCCTTTCAGAACTCATTAGATGTTGCATGTGAAGGGAGAAGGAAAAACATTCATAACGGGGG CACATTAACAGGGCGGTCTGGAGACCAAAACTTATACAGAGAAGATAGAGCGATGGTGGTGTATGGGCAGAAAGCAGTTG TCCCTTATAAACAGCAAAATAGAAACTACAAAACCCAAGGCACCATGGTTCCCTATAGTCCCTTAAAAAAACAGCGACCT AAAGTTGACCTTGATGAGGAGACTAACAAAGTGTGGAAGCTCCTAATGTTGGATATAAACAGTCATGGTGTTGATGGAAC TGATGAGGAAAAGGAAAAATGGTGGGAAGAAGAACGAAATGTGTTCCGTGGACGTGCAGACTCATTCATTGCACGCATGC ATCTAGTACAAGGAGATAGACGCTTCTCACAATGGAAGGGATCAGTAGTGGATTCAGTGGTTGGAGTTTTCCTCACTCAA AATGTCTCAGACCATCTTTCCAGTTCTGCATTCATGTCACTTGCTGCTCGGTTTCCCCTAAAGCCAAGCAGCAACTGCGA AACACACGACAAGGAAAATACAAGCTTGATTGTCAACGAACCACAAGTGGACATGGTAGAAGCAGAAGAAAATGGAAAAT TGAAGGAAAAAATATTGAATCTATCTGCTTGTGAGTTGAGTTCTATGACAGTCGACGTCTTTGAGCATTCTGACGAAAGA GAAGTAGCTGATAGCAATGATTCGTGCAGAAACAGTAGCTCAATTACCTTAACAGATGAATCAAACTGCAAACTGTTGGA ATCAGCACAAAGACATACCAGGGAACATAGTCCAATGGAGAGTGTTTGTCCCATGACTGGGGAAGTGCAAGAAAATTCAT GTAATGGGGGTGTTAGGAGAGAGTTTAATGATTTATTTTCATCCCAAGGCTCTTTCATTACATCTCAAATATCTGGAGAT TTTTCAATTGATCAAAATCCTGAGAAGATATCTTCAGATTGCAACTCAGAAGTAGAAGACTTGTCAAGTACAGCCAAATA CAACATTTATCATAACAGGACTTCTTTCGGTAAGCTTCTTGAAATGGCAGGTTCAACCATGTTACATGAAGTCAACAGTC AAAGAAGCAAATCAACTGAGAGCTCAAGGGATGCATATGGACAATCTGTAGCTATGAATCATGACAACCTGGCAGAAAAC TTGGAAAAGACCAATTTTACTCAAGACTTCTTAGAAGCATCAACCATCTCAAGCAATGAATACACTTTAAAAGTGACCCC AGATTCCGGGGTACTTGATATTAACTGCCCCAATCCTCTTCAAATTGAAGCCTCATCAAGTGGCTCCTCAAAGAATACTG ATGAAATCAACACGAGATTTAGTTTTCCCATTACAGAATCAGAAAGCCAAGCTGCAGTTGCCCACTCTCAAAGTATCCTA TCTCAACTCCATCTTCAGCCACAAAGTGACAACAATAAGGTAGATTCTGTCCCGGTAACAACATTAAGGGGCAAGCAGCG CAAAAAAGAGAAAAAGGATAATTTTGATTGGGATAGCTTGAGAATAACAGCACAAGCTACGGCAGGTAAACGAGAAAAAA CGGAAAACACAATGGACTCCTTAGACTGGGACGCTGTGAGATGTGCTGATGTCAAAGAAATTGCTGATGCAATAAAAGAA AGAGGCATGAACAACATGCTAGCTGAACGTATTAAGAATTTCTTGAATCTATTGGTTGATGTACATGGAGCCATTGATCT CGAGTGGCTGAGAGATGTCCCACCTGACCAAGCAAAAGAATTCTTACTCAGCATAAAGGGATTGGGGTTGAAAAGTGTGG AGTGTGTGCGACTCTTAACACTACACCAACTTGCTTTCCCGGTGGACACAAATGTTGGGCGTATAGCGGTTCGATTGGGA TGGGTGCCTCTCCAGCCACTGCCTGAGTCACTTCAGTTGCATCTTCTAGAATTGTACCCAGTGTTGGAGTCCATACAGAA ATATCTCTGGCCCCGGCTGTGCAAGCTAGACCAAAAAACATTGTACGAACTGCATTACCAGCTGATTACGTTTGGAAAGG TCTTCTGCACAAAAAGCAACCCAAATTGCAATTCATGCCCAATGAGAGGGGAATGTAGACACTTCGCAAGTGCTTTTGCA AGCGCAAGGCTTGCCCTGACAGGACCAGAGCAGAAGAGTATAGTTGTCACAACTGGAAACAATGCAGCTTATCAGAACCC ATCACCAACCATTCAGCAATTGCCCTTGGCTCTCCCTGAAAACACAAACCAACCAGAAGATCTTCAACAAACAGAAGTCA CGGGACAACTTGCAGCAAAGTCTGAAAACTATACTTGCCAACCTATTATTGAAGAGCCAGCAACTCCAGAGCCAGAAGAT TCCCATGTATCTGACATAGAGGATGCCTTTTATGAGGAGTCGGATGAAATTCCCACCATCAAACTGAACATGGAAGAATT TGCATCGAATTTAGAAAATCTTATGCAAAATAAAATGGAACTTCAAGAAGGTGAAATTTCCAAGGCCTTGGTTGCTCTAC ATCCAGAAGCGACGTTCATTCCTACACCCAAGCTGAAGAATGTGAGCCGGTTGCGAACAGAGCATTCTGTTTATGAACTC CCAGACTCACATCCACTTTTGGAAGGGTGGGAGAAGCGAGAACCTGACGATCCAGGCAAATACCTTCTGGCTATATGGAC TCCAGGTGAGACAGCAAATTCTATAGAGCAACCAGAAAGAAAATGCATCGCTCAGGACTTTGCCCAGCTCTGTGATGATA GGCAATGTTTTTCATGCAATAGCTTCCGTGAAGCAGATTCACAGATAGTTCGAGGGACAATCTTGATACCATGCCGGACA GCTATGAGAGGGAGCTTTCCGCTAAATGGCACCTATTTTCAAGTCAATGAGGTTTTCGCAGACCATGACTCGAGTCATGA ACCTCTTAGCGTTCCGAGAGAATGGATCTGGAACCTCCCTAGGCGAACTGTATATTTTGGAACCTCCGTACCATCCATAT TTAAAGGTCTAACAACACCAGAAATTCAACAATGCTTTTGGAGAGGGTTTGTCTGTGTGCGGGCATTTGAGAGGGGAACG CGAGCACCCCGTCCTTTGAAGGGAAGACTACATTTCCCGGTTAGCAAGATGCCCAAGAACAAGGACAAGACCAAGAATGA GTCCGCGTCGGCAAACGCACAAGGACTGGAGTCAAATCCAGAACAGCCAGCAAACTTGCAAGGAGTGAATCCAAATCCAG AACAGCCGGAATTGCTTTCCAACATTCCCCATCTTCAGGGGAATGGTGGAGTTTGA

Download CDS Sequence

Protein sequence (LotjaGi1g1v0679900.3) extracted from Lotus japonicus Gifu v1.2 Proteins.

MEAGETQGKRTEFQVPWIPATPSKPIHPKSAPICTSGEGEGNGNGGGSYPHFNGFFAGSDPAGDNALHRRSAPPAAPAAN IPDHNAQSQVPIPFDNNSSSGFGIFAGFNPAGVDGPHRRSAPPEAPATNIATHNAQSQRHIPLDINSSSGFGSFAGSEPA GADGPNHRSAPPAAPATNIADYNAQTRVPVSFDNSSSLGFGLFAGFEPTGANGPNRRSAPPAAPATNIADHNAQSRAPVP FDINSSGFSFAEFLAQANAPPPAAYSNATQGGFFVNQFMPTWNWNSQLNQGYTPIGQRHFPQELPLINTIHGNYQDPQGT PYFLYNTSSQVAPPAPNMAITAESSQVAATQLSMATGLSLEVRDQGGETNVPATDCNNQHNKLYDPDQNKEIGQGIDLNR TPQPKPKRKKHRPKVVREAKPKSTKTPATPKPEKRKNAGKGLKLDSPQTEVAGEGDKLIPEPVKKTCRRPLNFDLVEQPM DGNSARRENATTHWNREIGVQVKETQVLNSYMSLQEDSQTPSADLSNGNSLGSKPNANYVENGNKRGWLIGQDGHDKLLS AAAAQSKQHDSNNSYSQLLATRLQVVGSKRKQSGAIEHTDNSSINLIGTQYNSLQGYLPKYLVEFPNVQKKRRSEKGKIP NTFSMTATANVQPAPCPQEDARSFTHVSSSSCWTYGSEYNPVIVPDMSTATERAIHDKPQSFECNLSLEKRPTKRRSRVP ARINDFSSLTFVRNWDSKLTRTVKEGSSDRQTFEDAERPQTCMDALVAQMSALLTKKKRSKKRSSADPGTSEMQQHHTFA AKNHSWAFQNSLDVACEGRRKNIHNGGTLTGRSGDQNLYREDRAMVVYGQKAVVPYKQQNRNYKTQGTMVPYSPLKKQRP KVDLDEETNKVWKLLMLDINSHGVDGTDEEKEKWWEEERNVFRGRADSFIARMHLVQGDRRFSQWKGSVVDSVVGVFLTQ NVSDHLSSSAFMSLAARFPLKPSSNCETHDKENTSLIVNEPQVDMVEAEENGKLKEKILNLSACELSSMTVDVFEHSDER EVADSNDSCRNSSSITLTDESNCKLLESAQRHTREHSPMESVCPMTGEVQENSCNGGVRREFNDLFSSQGSFITSQISGD FSIDQNPEKISSDCNSEVEDLSSTAKYNIYHNRTSFGKLLEMAGSTMLHEVNSQRSKSTESSRDAYGQSVAMNHDNLAEN LEKTNFTQDFLEASTISSNEYTLKVTPDSGVLDINCPNPLQIEASSSGSSKNTDEINTRFSFPITESESQAAVAHSQSIL SQLHLQPQSDNNKVDSVPVTTLRGKQRKKEKKDNFDWDSLRITAQATAGKREKTENTMDSLDWDAVRCADVKEIADAIKE RGMNNMLAERIKNFLNLLVDVHGAIDLEWLRDVPPDQAKEFLLSIKGLGLKSVECVRLLTLHQLAFPVDTNVGRIAVRLG WVPLQPLPESLQLHLLELYPVLESIQKYLWPRLCKLDQKTLYELHYQLITFGKVFCTKSNPNCNSCPMRGECRHFASAFA SARLALTGPEQKSIVVTTGNNAAYQNPSPTIQQLPLALPENTNQPEDLQQTEVTGQLAAKSENYTCQPIIEEPATPEPED SHVSDIEDAFYEESDEIPTIKLNMEEFASNLENLMQNKMELQEGEISKALVALHPEATFIPTPKLKNVSRLRTEHSVYEL PDSHPLLEGWEKREPDDPGKYLLAIWTPGETANSIEQPERKCIAQDFAQLCDDRQCFSCNSFREADSQIVRGTILIPCRT AMRGSFPLNGTYFQVNEVFADHDSSHEPLSVPREWIWNLPRRTVYFGTSVPSIFKGLTTPEIQQCFWRGFVCVRAFERGT RAPRPLKGRLHFPVSKMPKNKDKTKNESASANAQGLESNPEQPANLQGVNPNPEQPELLSNIPHLQGNGGV

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	PTHR46213:SF5 View details on PTHR46213:SF5 Search for proteins/transripts with this domain View external data on PTHR46213:SF5	1	1864	1864	0.0	–
PANTHER	PTHR46213 View details on PTHR46213 Search for proteins/transripts with this domain View external data on PTHR46213	1	1864	1864	0.0	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1	28	28	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	60	87	28	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	148	174	27	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	211	231	21	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	365	454	90	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	404	418	15	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	427	441	15	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	515	536	22	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	776	796	21	-	–
SUPERFAMILY	SSF48150 View details on SSF48150 Search for proteins/transripts with this domain View external data on SSF48150	924	1517	594	1.85E-41	IPR011257 Show description in modal box View details on IPR011257 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.340.30 View details on G3DSA:1.10.340.30 Search for proteins/transripts with this domain View external data on G3DSA:1.10.340.30	1318	1419	102	2.8E-18	–
SMART	SM00478 View details on SM00478 Search for proteins/transripts with this domain View external data on SM00478	1322	1494	173	3.6E-5	IPR003265 Show description in modal box View details on IPR003265 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00056 View details on cd00056 Search for proteins/transripts with this domain View external data on cd00056	1342	1460	119	4.56309E-17	IPR003265 Show description in modal box View details on IPR003265 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.1670.10 View details on G3DSA:1.10.1670.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.1670.10	1420	1527	108	1.8E-24	IPR023170 Show description in modal box View details on IPR023170 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00525 View details on SM00525 Search for proteins/transripts with this domain View external data on SM00525	1495	1515	21	0.0014	IPR003651 Show description in modal box View details on IPR003651 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	1624	1644	21	-	–
Pfam	PF15629 View details on PF15629 Search for proteins/transripts with this domain View external data on PF15629	1718	1749	32	3.6E-11	IPR028924 Show description in modal box View details on IPR028924 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF15628 View details on PF15628 Search for proteins/transripts with this domain View external data on PF15628	1752	1852	101	1.1E-53	IPR028925 Show description in modal box View details on IPR028925 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	1847	1911	65	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	1867	1902	36	-	–

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:0003824 View details of GO:0003824 AmiGO InterPro QuickGO	Molecular function	Catalytic activity	Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic.	Subterm of View details of GO:0003674
GO:0006281 View details of GO:0006281 AmiGO InterPro QuickGO	Biological process	DNA repair	The process of restoring DNA after damage. Genomes are subject to damage by chemical and physical agents in the environment (e.g. UV and ionizing radiations, chemical mutagens, fungal and bacterial toxins, etc.) and by free radicals or alkylating agents endogenously generated in metabolism. DNA is also damaged because of errors during its replication. A variety of different DNA repair pathways have been reported that include direct reversal, base excision repair, nucleotide excision repair, photoreactivation, bypass, double-strand break repair pathway, and mismatch repair pathway.	Subterm of View details of GO:0006259 View details of GO:0006974
GO:0006284 View details of GO:0006284 AmiGO InterPro QuickGO	Biological process	Base-excision repair	In base excision repair, an altered base is removed by a DNA glycosylase enzyme, followed by excision of the resulting sugar phosphate. The small gap left in the DNA helix is filled in by the sequential action of DNA polymerase and DNA ligase.	Subterm of View details of GO:0006281
GO:0051539 View details of GO:0051539 AmiGO InterPro QuickGO	Molecular function	4 iron, 4 sulfur cluster binding	Interacting selectively and non-covalently with a 4 iron, 4 sulfur (4Fe-4S) cluster; this cluster consists of four iron atoms, with the inorganic sulfur atoms found between the irons and acting as bridging ligands.	Subterm of View details of GO:0051536

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Expression data

Expression pattern

Expression pattern of LotjaGi1g1v0679900.3, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi1g1v0679900.3