Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi5g1v0000800
Transcript ID	LotjaGi5g1v0000800.2
Related isoforms 1	LotjaGi5g1v0000800.1
Lotus japonicus genome version	Gifu v1.2
Description	Helicase-related family protein; TAIR: AT1G20720.2 RAD3-like DNA-binding helicase protein; Swiss-Prot: sp\|Q3YK19\|FANCJ_CHICK Fanconi anemia group J protein homolog; TrEMBL-Plants: tr\|K7M8G7\|K7M8G7_SOYBN Uncharacterized protein; Found in the gene: LotjaGi5g1v0000800
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr5:136590..150398) extracted from Lotus japonicus Gifu genome v1.2.

AAGAATGGGGTGAATGAATATTGTGGAACAAGCCAAGCCAGCACTCAGGCGCCAAATCAAATTAAGAAACCTGATTTCCC GCTTAAACATCCCCTCCATGGAAAATCAGAAATATAGAGACCCAACGCAAACTATGTTCATGTTCTGAAATCGGAAAAAT GGGGTCTGCGACAAACCCAAACCCAAACCCTAACCCTAAAAATGTGTACCATATCGGAGGTCTGCAAGTGGAATTTCCCT ACCAACCATACGGGACTCAGTTTGCGTTCATGGGCAGAGTAATCTCCACCCTTAACCGAGCTCAGAAAGAAGGCCATTGT CACGCGTTGCTCGAGTCTCCAACTGGTACTGGCAAGTCCCTTTCGCTTCTTTGTTCCACTCTCGCTTGGCAGCAACACTA TAAATCTAACCCCAAACCCGCTCCGGAGCCGGAGGATCCTCTAACCCACGGCGGCGGATTTGTTCCTGACACTGGTAAAC TTACTAGCCCCTCTCTTCTCATCCGTATTTGTTTGTTTGTTTCCTTTATTTGTCACATCACATCCCTCCCAAGTAAAGCA AATTATCCCAATTTTTGCAGCATCAGATCCACAATCAGAGGCCAACAACAAAAAGCAGAAGAAAAAGCCAGCTCCAACTA TTTACTATGCGTCGTGCGTTCTAATTTTTATTCCATTTCATTTCTAGATCTTAAAAGCTTGCCTATCCTCACTTAACTAC ATCAATTGTTGAATTAGGAGAACACACTCACAAATTTCTCAAGTGGTTCGTGAATTGCGGAAAACTGCATACAGGGTGCC CATGGCTGTGCTGGTAGGTTCAACCCATTGCTTTTATGCCCTTGTTATTTTGATCTCAACTCCTTCGGGTTTTCAGTTTT ATGATAATTTATGGGTTCTTTCAAGTAATTTTATTTTTCTCATCTTTCAACATAGTGAAGCTAATAGAAGATCATATCAT TCCATACCCTTAGGCAGAATGTGAGCCTTGAACTTTTAAATTTCTAATGTCTGTTATTTTTCAAACTCTTATCTAATAAT AAGTTGAATTGTGATGTATATCATGTGTTATTTTCAAAGCATTTTTTATGGCATACCAACCAGTATCCAATGTATTTGAT AAGGATTATAATTTAGCAATGGCTTATGTGAAAATGTTTTCTTCAAGATTCTATGTCATTTTACCAGTCATCCTAGCAAA TATGCAGAGATGTTACTTTTAGTATCTTAGTCTATTGAGTATTTTACCCCTCTCTTGTTTTTCCAGGCAGCACGGAAACA TTACTGCACCAACAAAAATATACTTGGCAAAGAGAACCTTGATGAAGAATGGTTGGTTTTACCTCAACAATTTTTAGCTT ATAAGAATTTCTTTCTGATCTTCATAAATCATACTTATATATTTCATAAAATGTTTTCAGTAAACTACTATTGAAAGATC AGGCAATGGGGTGTCCAGAATTCAAGTAAGTGTATGCTTATCCACACATGCTTCTTATATATTTTCATATCACTCTGCTT GAAGTAACAAAAACCTGAAACTTCCAATGTAAGCAGAAATGCTCATAAAGTCAAAGGTCATCCATCCCTTCAGAAGGGAG GAAGCAATGAGGTGCATGACATAGAAGATCTTGTAAAAGTTGGACAAGTGGTCAAAGGTTTGGCCTTTTGTTTCTATTGT TTGTCTTTTTTCTTGTTAAGTTTGCTAAGCTTTGTTAAGTGCAAGCCTTGTACTATTTCCACTTTCAGGTTGCTCTTATT ATGCTGCGCGTTCTATGTCTGATGATGCACAGTTGGTATTTTGTCCATATAGTTATATAATTAATCCAATCATTAGGGGA GCTATGGATGTGGATATTAGAGGAGCTATCGTGATTCTTGATGAAGCTCAGTAAGCTGTTCACCCCTTTCTCTCTGTTTG CAAAATCATCAATCAGTTCCATGAGTCCAATTAGATTGAACTGGCAATTCTTTTTTCCCGATTATATATCGATTCCCAAT GTGTTTCACATACTTTCAGTTGTACGCATTCCAATCTAGAGCTGAATGACAAATTTTTAAACATTGGTTGTGGTTTGTAA CTTTGTATCTGTTTTTCTCTATGTAACTGGCCTTACATGTTTACACTTTGTAGCAATATAGAGGACATCACTCGTGATGC TGGCAGTGTGGATATTGAAGAGGATGTCTTGGATAGTATGTTATGAACCATATTGCTTTTGTTTCCATCCTTTTTAATAC TGATGCTAACTAGTTGATCATACATTTGAAAGAATTACAAGTGGAGCTCCAACAACTTTGTTCTTCAAACACTGCAATTT ACCAACCGTTATATGAAATGACACAGGTAATTAGGTTAGATATCTCTATCAGGTTTGAAATGGTTGACTTATAAGTTATA AGTATATCCTTAGTGACTGGATATCATTGATTGGTGCTGCATTTGTGTAGGGCCTTACTAGTTGGATTGAACAAAAGAAA AATAAACTAGAAAAACGCGATTTTCAGCACTACGTGTCGTGGTAAGTTAAGGGATTTATTATTCTATATGCCTTTGTTAT TATTTTGTGAATGCACTTATTGATTGTGTAATTTGTGTCTTGAGACTATCAATCCCAAGTATTATGGAAGTTGGTGTGTT AGATTTGGTATAAACATGCTTTGTAGAGTGAAATTTTGGAGAAGAGGTAATACTTTTTTCCTCTTATTCAAATAGTCATA TAATGCTGGATATAAATGCAGGGTTTGTTAAGTGATAACTACCAATATGATACAACTAAGGAAAATACAGAGAAGAATGA GGAACAGTAAATTAGATCCTGACCTTGTCAGATTTGAATTGGATGATTCAGATCTTATCATAATTCAAACAATTGGATTA ATTGCTTTAAGCTCGTGTGTACTTTTCTTTTCCAGGATTGATATTTTGAAAAATTATTTAATCTATATATCCTCTAGAGT CCCATAAAATAAAAGCCATAACTTGCAAGTTATATCCCTGATTCAGTAACGTAAGCCCTTTGTATGTATAGTTGGACTGG TGATAAGGCTTTACGTGAGCTGGAAGAAGCAAATATTTCAAAGCAGTGCTTCCCTATCTTGCTAGAATGTGCTACCAAGG TATCTCATTTGTTTGACATTATGGATTATGCATTACTCAATGCTTGTGTGTCATTTATCAACTTGATAATTTTTCCAAGG CAATCAAAGTTGCTACAGACTTGGAGACTGATCAGCCACGTTTAAGTGGCATGTCGGTGATAACACTGGAAGGTCTGGGA TTAAGGTTCTTCGTTCTTATATACTTTGCTACTACATTCAGTTATTTACCTACCTCTGAGTACTTATTACCAATGATCTT TATCAATCTCATTTCAGGCTTATTCTCATCACTAACTTATTTCTTCTCAAGAAATGGATCACACATGTTAGATTACCAGC TTTCCCTTCAGCGATGTGTTAGAAAAGATGATAGTAAGTAGTTGCAGACATTCAATGTTATCTTGAATAGCCTCCAATGA CAATGTTATCCATACGTAACTGCAAGAAAATGGATTTCAAACCTTTTGCGTATGTAGTGAAAATTTTGGGTATCAAATTT AAAATATGATAGAATTTAAGTCATCAAATTGAAAGCTTTTATGTGGAGACATTTTAAATATTTTTTCCATCTTAAATATA AATTATTTTTAATCATTGACCCTTGTGAACTTGTAGTGATACTAAGCAGATTGTCTTAAAAGTACTACACAGAACTTTAC TCTGTCATAAGAACTTAATTTATTAATAAAAGTAAAAGTACACCTGAAATGGGATATAATGGTGTAATTAGTTTGTTAAG ACGAACAATGGTGCTTTTATTTTTTTAATTGGGCAGCCAATTGCTGGTTAAATTTATTGATGACTTTGTAGAAGGCTCAA GTAGTTTGTATATATCTTCTGCTTCTGCCTGAGATGATATTGCTGCATCATTATAATTACAGTTCATTGGTTGTATCAGG AAGAGGTTTTGGAAACTGGATGCATACTTTCAGTTTGTGGTGCTTGAATCCAGCTGTTGTTTTTAGAGATGTTGCTGATC TTTCTTTATCAGTCATATTGACTTCTGGGTAAGCACAGTGAATGGCATACAGGGGCCAAGTGTATACCTGTTCAGGACAT AGTTCTATATTTTCTTTTATTCCACCTATATTCCTGAGTGCCTAAAAAATGAATTCCTGAGAGGCACATGCCTGTTAAAC GGGGGAGTTTCTGGACATTCGCACCGGAAAGGCAGTAGGCTGATGGAGTTTATAAGAAGGCCTGATTAACTAAGCTGATA ACGGGCCAGTTAGGTTCAGGCGACCTAATACTGGTTTCATGCATGTAATTATCCTTACATAGCCTTTCCCAGGTGTTCTT GAACCAGCAATGTAGGGCCCGTTTGGTGGTCAGGATAGGATATGATAGGATATGATATGTGAACAGGATATCAACAGGAT ATGATAAGAGCAGGATAGACTCTTATCATATCCTGTGTTTGAGGTGCACATGATAATGATAGGATATGATAAGGAAAAAT GTATCAGATTTATATTTGAATAAAAAATACATTTAAAATTGATCATTCTATTAAATTTAATTTCTTTACATTTTCATGAA TGAGACTATATTTTAAAATAAATAAAATTAATTTAAATTTTATTAATCAGCCTATTATATTGTTTTGAAGATGCCCTATA TTTTAAATAAAATTATGCAGTTAACCGATTGGTTTTCACTTAGTTGTGACACGTGATAATTAACAATAAAAGTTAACTAA ATTAAGAATATTATTATTTCAAAAGTACTTTATATTTGAATTATAAATTATTATATAAGTAGATAAGTAGTTTTAAATAA TAGGAGATGAAAATAAAAAATAATCTATTACTATTACAAAATCAATATTTGTAATCAATGTTTTTCACTTAGTTGTGACA CGTGATAAACAATAAAAAATAACTAAATTAAAAATATTATTATTTCAAAAATACTTTATATTTAAATTATTATATAAGTA GATAAATAGTTTTTAAATAATAGGATATGAAAATATTATAAATTATAAATTATATAATATTAAAATAAATTAATTTGGAG TTAGGATACTGAAAGAAAATATATAACAGGTATCCTATCCTGCTCTATCCTAGGTCCCCCTCAGGATAACTTTTACACAT GATTGACAGGATAGGATAGGAGACAAGATAGTGTTATCATATCCTGCTGGCGCAACATACAACAGATAACAACAGAATAT GATTATTATCATATCCTATCATATCCTATCCTGACCACCAAACGGGCCCGTATTGATGAGAGAGAGATAGAGGTGTAAGG TGGATGAAAAAATTGGAGTATAGAAAAATCAGATTTGTATTTGAAAAGCTCTTTCCCTCTTAATTTTGTTTCCTGTTCTG AGATGCATGATAAAGTTAGTAGTTATGCCCAAAATACATGTATGAGTGGTGGGAATTCTCTTTTCTATGGGCATGTTCTG TAAAAAACATTTGTTGGAATACATTACCCTGTGAGGCTAAGGGAAATGAAGGGTATTGAAGGGTGAAGGGCCAGGGTTCA AACCCTGGTGAAGGAACTAATTTACTAACAATTAACAACTAACATTTGCCTATGAAAAAAAAACCCTGTGAGGCATTGCT GCATGAAACATTCATGGTCCAGTTTCACCAAGTATATGATGACCATGATATATTAATGTCATAAATTGTTGATTGCTAAA ATGAGGGGTAGTCAGCTATCTTATTCTTATTTCTTAATTCCTACAACACTCCGCATACGAGGTCCAAAATTTGCAGAAAA ATTGATTCAGTTCTCAGCATCCCTGCTTCCTATACTCTTGTAGTATCACTCATATATTGATTTGGGTATTTTAGGACACT GTCACCAATGCCATCCTTTTCTTCTGAGCTTGGAGTTCAGTTTGAAACTAGTCTCGAAGCTCCCCATGTAATTGACGTTG ACTCACAGGTCTTGACTGCTTCTCTCTTATCCTTAGAGTTCATAATCCTTTAGTCCTGTAAGTGCCTGTTCAACAATCAA TAACTTCTTGAATACAGGTATGGCCTGCTATAATCTCCACTGGTCCTGGTAATTATCCTTTGAATGCAAGTTACAAAACT GCAGACGCATATGAATTCCAGGTATGCTTGCTTAGTATATACTTTTCATTCTTTATGTACTATCCTTGCCTCTATGAATA CATCTGCTTATTATAAGTAATGGTTTAGGATGCAGTTGGAAGATCTTTGGAGGAAATCTTCAAGATTGTTCCAGGTGGAT GTCTTGTGTTCTTTCCAAGTTATAAATTGATGGAAAAATTATGTAACCGTTGGTCAGAAACAGGTCAATGGTCTCGATTA CATACAGAAAAGTCCCTTTTTGTTGGTGCGTTGCCCTTATCTTCTTCCTCAGAATAACTTAAGATCTGGGCTTTTACTGA TCTATTGGCCTTTTCTTTTGCTCATCCATTTTTCCACGAAAAGAAAACATAAAAGTTGTAAGGAGTTTACTCCGACACTA ATATCTGAACTTTATCTTATTGTCTTTTTTTTTGCTTACATTAAGAATCTGCATTATGTTGGTAATTGGTATGCAGAACC AAGGGGAGGAAGCCAGGATGATTTTGAACTTGTCTTAAAGGGGTATTATGACTCAATTCATCATGGCAAAAGACCTGCTT TAGGGAGGAAAAGAAGGATTAAAAAAATTGATCTAAATCACTTCTATACAGTTGATTCCCCACAGGATTCTAAAAAAGGA GGAGCTGCTTTACTAGGTGTTTGTCGAGGAAAGGTGCATCACAATTTACCTCATCTCATATTTTATTATTTTGATGCTTC TTTTTTCAAGAAAAAAATATGTAATCCCAATCTGACTTTTGCTACACCTCAATTGTGCTACCAGTAGTACAGTTATAATA ATCTTTGTTCTGTTTTTCCCTTAGAAAGAACAGTACAGTCATTTTTATCTCTTTCCATTCCATTACTATCTTGGTGCATG TGACGACCCACGACACATACAAAGGTTAAAAAGAAATGCACATAACTGAATGGATTAATGTTTATTTCGGCATACAGACA GTTGATCCATGAATTCCCTTCATTTTCTTTTTTGAATATGAATATGGTGGGAATGGAGATGAGTGAAGGCAAGTTTTTGA TGTAACATTCTAATTTGTAGCTTCATTTTATTGAATTAAACCATGATTGAAATAAATCTATGAAAACAAATAAGACGTAT GTAAATAGTTAGAATGATAGAAAATCAAATATCGGATTACCCTGTTTGAAGGACAAAATAATTGACGTCTTCTGATATGT TTAAGTTGATTAAAGTCCTTAAGTATTCAACTATTTTGCCACCAATTTTAGACCTTCATCTAAACAAGTAGGTATTTCTA TAAAATTGATATAGAGCATGTCTCATATTAAGATTACCATCTTCACTACAATTGGGCAGAACAACTGTTTTGGCATAGCT TCTCTTATGTACAAGTTGACACTCCCAATTGCTTATTCATATTCTCCACCGAGTACATCTTATTGCAATTTCTTAAACTG ACCACATTTAAAGAATTTGTTATTAAAATTAAGTTTCAATTTATTATATTTATATTCTGCATTTACATTTTATTATGATT ATGAGGAAGAGACGTTGAAAACTAGCAGGGCGCATATGTAAACAATCGGTAGTGGTAATACCATTACCCTTGTTTTAAAA TGGTGTATTTTGATGCGAGTTAATGATGTGACCAATTTAAGATGTATGAGTTTCTTTAGCAAAAGTTGCGCATGTGACCT CATTATATAATTATATTTATTCAGTCAACATAATGCTTGCAGGTTTCTGAAGGAATTGATTTCTCTGATGAGAACGCCAG AGTAGTTGTATCCTTATTTCTACTTATAAATTTATTGTTGTTTTTTTGTTGGGAAGAGATCCAGGTCTCTCATTTGGCCA TGGCGTGTCTTTTGACGATTGACAGTTGGTATATTCTGAGGTTATTAAAATAAAGGTTGACTATTATGATTGATAGTTCG TTCAACTCGTAGCTAGCTTATAATGGGTTGAGGACGAACGTTCCTGTTTTAAATAATTGATGTAATTGTTCTATAGATTG TACATTCTTGACAATCTCAGATTATAGTTGGCATTCCATTTCCCAATATGTAAGTGTCCTTTCTTTTCTTGATTAAGGAA TCCTACTTCAGGAATGCATTTCTCTGGTTGCCTGATTCTTTACTACCTAACAGAAATGATGTTCAAGTTGCATTAAAGAA GAAATATAATGACACATTCAAATCATCCAAAAATCTCTTGAGTGGAAGTCAGTGGTATTGCCACCAAGCATTCCGAGCTT TAAATCAAGCAGCAGGTAAAGCTTGGTTCTGTTTCCATATTCTAGCCAAAGCTGATTTTGATTTTCCATGTTTTAGTTTA TATTGATTACCTTTTGCATTCTGTAGGGCGTTGTATACGGCATAGTCTTGACTATGGAGCAATCATCCTTTTGGGTAATC ATGCTGAACTGCCAATTATTTCTTTTCTTTTCCTTTTATCTTGTTTCCTACTTTTTTAGTTCATCATCTATAGGAACTGA TTTTTATATCTGGAGGGGAAGAAGGTGGAATTCACTATGTTTTCCAGAATGTATAATACTACACATGTGGTTACAGTGCT AGGTTACATGGAAGCATCAGATAGAAATTTAAAACTGGTCCTTTAAAGATGATTCATTTGAGTATATTGAATTTTCATAG GCACCATATGATTGGCAAATATTCTCCAATGGAACATATAAAATTTAATGAGTTATTTCCATGGTGCAACCAGCAGGCAA TTCTGTCCTGTAAACCACATTTTTAGTTTAGAATCAAGTTTTTTTTTCCCCTAGTTGTACTTGGCCTGTCTTTGTAGTGC AGTTTATTCTTGAACTAAGGTTTATTAGACATTGTTCTTTGTATTACTATTAACTCTACCCTCTCAAACAGCTCTTCTAA CATAATTCATGTAATTATTCTTGTGGAATTAGATGAACGTTTTCGTGAAGAAAGAAATCGAGCATTAATTTCAAAGTGGC TAAGAAGACCCTTGAGAGTGTATGACAGCTTTAATCTGTCATTGGAGGGCCTAAAATCATTCTTTGAGGATGCCAAGGTA CATTTTTTTTGCTAGGTTAAGTTGACCTTGATATACTCCACCCTATTACCCTTCAATGCTTAGTAGAAAGGAGTTACTAA TACTTCGTTCAACTTGCTGTAGGAACGGTTTAGCATGAATACAGTTCATATCTCGCAGAATTTGGTCTTTGACAGTGATG GTGTTCAAAACAAGGAACAAAATACGAGGTTGAAGAAAAATCAGAAACTGAACAAGTCTGTTAATGGACGTGAGAAAGAT ACATCAATGATTGAGGACAACATTTCTATTCCCACACTAAGCAGTCATGATCTTGCTGAGAGTCAGCTATTTGCTCAAAG GACTAGTAACACATACAATTTTGAAGATCATATCAATCCACAATGCTGTAATCTGACAGAAAGGTATTACATTACGTTTC CACCATTTTTGTTAATAATTGATGTTTTTGGGTAACTAAACCTGATGACAAACATCAGATTTAAGGAATCAGTGTTGAGT TGAATACATCACCAAGTTAGTGAATGCCTTTGTATCTAAGATTTTATAGACATGCAAAGGATATTAGGGCTTATTTGGTT TCTAATTTAACTTTCAGTTTTTCATTTTATATTTTTAGTTTTAATTATAAAATTGCCATCTTATTTCCTATTTTCAAAGT TTTATACAGGAAACAGGATTTCAAATGATTTCACTGTTTCCTGCACAGAACTTTGGAAATAGGAAACAAAATAAAAACAG TAGCAATTTTGTAATTAATTTAAAATTGAAACAGAAAATTAAAAAAGAAACCAAACGTGCTAAATCTTCCACACAGTACC CCTTGAAGTGCAAACCACCCAGTTGATTCTATGCAGTGTTGTCAAATAGCGGTTACTGCGGCACTATAGCGTAGAACTCT GAGGGCTCACCGTTATTCTGCTATTTTCTGCTCTAAGGGCTTGAAATAGCAGATTTTTGCCGTTCCGCTATTTTATGCGA TCCGTGATCAACACTGATTCTATGTTTGTTGACTTAACAAATAATGAAGTAACAATCACCTCTAGTCATGTTAGCTTATG TTTCATTCTATGTAGCTAATTAGTTGAGTTTGCCAAAGATTTTTTTATAACGGCGTTAGTGCTGTAGATTGTTCTCTTTT GAATGAATAAATATAGATGGTTCCAATTGATCATAGCCTGGATAAAGTGTTTCTTTTAAAGATTTATATTACAAATAGAT AATTTAAGTCGGATTTTCCGGTTTTCTTGTAAATCTTAGTACTGTGTTTGTGTAGGGGTGTTCATGGTGTTCAATATCGC AATAAAGGATTGACCTTAGTATTCATTCTCAGCTGCATTTGGACTAAAACTTCAATTTTTTATCTGGTAAAATACTTGGG ATAAAATAGTAGCTTCTTGCCTTCTTACACCATCACATACAAATCATCTTAAATTTGACGAAGTAGCAAATAATTTTGAA TCATTAAACAACCACAATGATTACTAGATGAAAAATTTATTTCTTACAGGTTGACTGAGAAATTGCCAGTGTCAATTACA CATGAAGAAACCTCAGTTGTCAAGGAAACCCCATGTATAGATGTTGGTCATGATGCTGGTAGCCCTGATTACTCGGATGC CTACTCTAATTGCACTATAATTGAGACTTCTGCTCAATTTCCACCAGATCACTTATCAAGTCATCAGATGTCATTATCTA ATGGAAGTAAAAGTTCTTCAAAGGTTCAGTCTTCAATAACAGTTACCCCTGAAAAGAATATAGCTACAACTAATATTCCA GAAATGGACTCATCTTTGAACTTGAGTGTTAATTCTCACAATCAGAAAAGGAGGAAGCCCTTCATAAACCTCATTGAGGA AGAAAATTATGGTGCACCTTGTGCCACTAGTCTTACATGGTACTCAAAAAGCTCAGTGGCTGTTACAGAGGCAACTCATG GAACTAAACCTGGTTTAGAGAGAAATTTGAAGTCACATTCTCCACAGATACCAACAAGCAATCTACCTGGTACATGTTCA TTAACTGCCCCTCTACTTGACAAAAGGTTGCAGATATTTTGTTCACTCTGCAAAAACCCATTGGGGCGACCTGAGAATGA TCTGTTTCTTACATGCTCTCTGATTTCATCATCAAAAGTTTACTTAAGATCCCTTTTGAAGCAGAAACTGAAAACATATA CCACAGATACATCAGATAGCTTACCAGTTATTCTTACTGATTCTTCTTGTGTTGATCAACGTATTTTGAATAGAATACCT AAAAGTGCCCCGGAACAGGGTATTTGGTGTTTAGAAGATGGGTGTGTCTTCAGCACTGTTTTCTGCCCCTTCTGCAGTAA TAGAAACAATTTGCTAGGAGTTCAAGTCATGGCAACCAATTCATCAAATGTTCAGTTACTTGAACAGGTAACTTACACCC ATTGGCCGACAACCTTGTTTGATTCTTAATGTCACTTTATGTACCATATTTTCTGGTTTTAATTTAACTGACCTAGCTCC AGCAGTGTCAATTTTTTCAAATGCTGTTCTTTTAATTGTATTACTTATTAACATTTCCTCTCCAGATATTGTTTTACTTT GATTCTTTGGTAGTGAAGAACCATGAGGAAACAGGAAAAGGTGCTTCAGAGGAAGAGGTAAGATTAAATCGTATGGCTAG TTAGTCTTTTCCATGAAGCTAATTTTTTCACCTGATTTTCTGAGTGATAATGACCGATCTGTTTTCTAGTGTAATGCCTA AAACAATAATTTTATGGCTGGGAAGTTTTTTTTTTAAAAAAAAACTTGAATTCTTCAGAATTGAAACTGAAGATTTTGAA CAACAAAACTTGACAAAATACCATCCTTTGCTTTCTTTCATTCTTTTTCTTTTTCTCCCTTTTCGAATCGGTATTGACCT TGAATTATTTAATTGAATCTGAGAAACTGATTATTGTGAATTGTGATACTATTTGATATATATATATATGAGAGAGAGAG AGAGAGTGGTTGTTTAGGGGGATGTTTTTGGATGAGGAGAGATTTGGAAATTTTTTACTTCTGAAATAAAAAATTATAAA ATGTTTATTATAATAAAGGATTAAGATTTAAGAGATTAAATTATGGTAAAAACATCGATTTGATAATATGTATTTTAATA AAAAAAAATTAACCTTTCATCATTTTGCCTTCCAAAAACCCTCCTCCCAAACAACCTGATAAGAAATATGTGAAGTTGTA TCTATGACATTGTTGATCATGCTTGCCAAAGTGCTGAATTGTAATATATAAATGAGTTATGAGTTAGATACTCGTCTAAG AATATATTATACTATCTTCTGAATTGCTACAGGACTTGTTGCCAGTTATTGACTCTGGCACGGATGAAGTTGCTGTCTTA AATTCCATTGACAGATATTCTTATCTTCCCCAACCGGCGAAATCAGAAGTCTGGAAGATTAGAAAATCAAAGGTCACTTT AAATAATGCTTTAAGCAATTTTGTTCGTGGGTAATTTTTTGTCTGAATTGTTTGAAAATGATACAGCCAAGACTACGAAG CTCGCCTTATGCAGAAAGCCAAAGTTGAAGTTAGTAAGATTGGAATTCTGGCGCAGTTTTGGGTACCATTTTAAGAACAT AAATTGAGGTAGGGATGCTCTTTTCTCAAAATTTAATTAAAGAATATTTTTTGTTTATCTTCAATCACATGGTATGTAAT GGAGGACAGGTTTTATTTGAGAAAATATTATTTAATCTTTTCATTGATAAATAAAAAAACATCACATTGTTTTTATTTGA TTTCCTGTTTTCACTAATAATTGTTTTCACAATTCTGTATAAATTTTTGAAAATAAAAAACAATAAAAATAAGATGACAT TTTGCAATTATCAGTGAAAACAAATACAAACAAAAAATAATTTTCCAAACCAAACAAGTTCAACTTTTCTGTTTGAATTG TATTCTTGTATTTTTCTTAACTCTTGCGTTTAATCGTGTAGATTCCAAAAGCTGACAATTGTTGATTGAAGTAAATTATC CACCTCTTTACATTATACCTTGCTTAATGCATACGTGTCTTCATGGTTTTATTACTTTGCCTCTGGATAACAAGATGTTA GCCCTCCAGTACAAAGATGCAGAGCAGAGCTTATGATGTTTTGGAATTTTGGGATCAATTCGTGACACTTTCTACCCTCA AGACCTCAATACATGAACAAAAGACATGAACCTGGGTTTTCTTTTGGTAGTCCAAGAGGGTCTCAGTTACCACTCTAACA GAATGACCTGTATTGCAAAGCAAGTTGGAAAATGGTGCTTTGTTTTGTACATACGATACCTATTATGACACATACTGCCA TACTGGTGTACAGTATTTCTAGTACTAATACTCTCCTTCCGGTAGTCATTAATGATGAAACTGTGTTTATGCAACTAGTC GCAGTGGATGTCGTAGTGAGCCTCTAAAGTGTTTAGAAGAGGGTGATACTAGTACTCTCATGCCATATTATCGCTCAATT AGGGAATGAATCTTGTATCACATAACATGAGATATTGATATTTTTCTTAAATGTTTACAAGTTTTTATAGGGCTGACTTC ACGCCCAAAAAAAAAATAACACAAAAATAGGGTTGACTTATAGAAATAT

Download Genomic Sequence

CDS sequence (LotjaGi5g1v0000800.2) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGTCTGATGATGCACAGTTGGTATTTTGTCCATATAGTTATATAATTAATCCAATCATTAGGGGAGCTATGGATGTGGA TATTAGAGGAGCTATCGTGATTCTTGATGAAGCTCACAATATAGAGGACATCACTCGTGATGCTGGCAGTGTGGATATTG AAGAGGATGTCTTGGATAAATTACAAGTGGAGCTCCAACAACTTTGTTCTTCAAACACTGCAATTTACCAACCGTTATAT GAAATGACACAGGGCCTTACTAGTTGGATTGAACAAAAGAAAAATAAACTAGAAAAACGCGATTTTCAGCACTACGTGTC GTGTTGGACTGGTGATAAGGCTTTACGTGAGCTGGAAGAAGCAAATATTTCAAAGCAGTGCTTCCCTATCTTGCTAGAAT GTGCTACCAAGGCAATCAAAGTTGCTACAGACTTGGAGACTGATCAGCCACGTTTAAGTGGCATGTCGGTGATAACACTG GAAGGCTTATTCTCATCACTAACTTATTTCTTCTCAAGAAATGGATCACACATGTTAGATTACCAGCTTTCCCTTCAGCG ATGTGTTAGAAAAGATGATAGAAGAGGTTTTGGAAACTGGATGCATACTTTCAGTTTGTGGTGCTTGAATCCAGCTGTTG TTTTTAGAGATGTTGCTGATCTTTCTTTATCAGTCATATTGACTTCTGGGACACTGTCACCAATGCCATCCTTTTCTTCT GAGCTTGGAGTTCAGTTTGAAACTAGTCTCGAAGCTCCCCATGTAATTGACGTTGACTCACAGGTATGGCCTGCTATAAT CTCCACTGGTCCTGGTAATTATCCTTTGAATGCAAGTTACAAAACTGCAGACGCATATGAATTCCAGGATGCAGTTGGAA GATCTTTGGAGGAAATCTTCAAGATTGTTCCAGGTGGATGTCTTGTGTTCTTTCCAAGTTATAAATTGATGGAAAAATTA TGTAACCGTTGGTCAGAAACAGGTCAATGGTCTCGATTACATACAGAAAAGTCCCTTTTTGTTGAACCAAGGGGAGGAAG CCAGGATGATTTTGAACTTGTCTTAAAGGGGTATTATGACTCAATTCATCATGGCAAAAGACCTGCTTTAGGGAGGAAAA GAAGGATTAAAAAAATTGATCTAAATCACTTCTATACAGTTGATTCCCCACAGGATTCTAAAAAAGGAGGAGCTGCTTTA CTAGGTGTTTGTCGAGGAAAGGTTTCTGAAGGAATTGATTTCTCTGATGAGAACGCCAGAGTAGTTATTATAGTTGGCAT TCCATTTCCCAATATAAATGATGTTCAAGTTGCATTAAAGAAGAAATATAATGACACATTCAAATCATCCAAAAATCTCT TGAGTGGAAGTCAGTGGTATTGCCACCAAGCATTCCGAGCTTTAAATCAAGCAGCAGGGCGTTGTATACGGCATAGTCTT GACTATGGAGCAATCATCCTTTTGGATGAACGTTTTCGTGAAGAAAGAAATCGAGCATTAATTTCAAAGTGGCTAAGAAG ACCCTTGAGAGTGTATGACAGCTTTAATCTGTCATTGGAGGGCCTAAAATCATTCTTTGAGGATGCCAAGGAACGGTTTA GCATGAATACAGTTCATATCTCGCAGAATTTGGTCTTTGACAGTGATGGTGTTCAAAACAAGGAACAAAATACGAGGTTG AAGAAAAATCAGAAACTGAACAAGTCTGTTAATGGACGTGAGAAAGATACATCAATGATTGAGGACAACATTTCTATTCC CACACTAAGCAGTCATGATCTTGCTGAGAGTCAGCTATTTGCTCAAAGGACTAGTAACACATACAATTTTGAAGATCATA TCAATCCACAATGCTGTAATCTGACAGAAAGGTTGACTGAGAAATTGCCAGTGTCAATTACACATGAAGAAACCTCAGTT GTCAAGGAAACCCCATGTATAGATGTTGGTCATGATGCTGGTAGCCCTGATTACTCGGATGCCTACTCTAATTGCACTAT AATTGAGACTTCTGCTCAATTTCCACCAGATCACTTATCAAGTCATCAGATGTCATTATCTAATGGAAGTAAAAGTTCTT CAAAGGTTCAGTCTTCAATAACAGTTACCCCTGAAAAGAATATAGCTACAACTAATATTCCAGAAATGGACTCATCTTTG AACTTGAGTGTTAATTCTCACAATCAGAAAAGGAGGAAGCCCTTCATAAACCTCATTGAGGAAGAAAATTATGGTGCACC TTGTGCCACTAGTCTTACATGGTACTCAAAAAGCTCAGTGGCTGTTACAGAGGCAACTCATGGAACTAAACCTGGTTTAG AGAGAAATTTGAAGTCACATTCTCCACAGATACCAACAAGCAATCTACCTGGTACATGTTCATTAACTGCCCCTCTACTT GACAAAAGGTTGCAGATATTTTGTTCACTCTGCAAAAACCCATTGGGGCGACCTGAGAATGATCTGTTTCTTACATGCTC TCTGATTTCATCATCAAAAGTTTACTTAAGATCCCTTTTGAAGCAGAAACTGAAAACATATACCACAGATACATCAGATA GCTTACCAGTTATTCTTACTGATTCTTCTTGTGTTGATCAACGTATTTTGAATAGAATACCTAAAAGTGCCCCGGAACAG GGTATTTGGTGTTTAGAAGATGGGTGTGTCTTCAGCACTGTTTTCTGCCCCTTCTGCAGTAATAGAAACAATTTGCTAGG AGTTCAAGTCATGGCAACCAATTCATCAAATGTTCAGTTACTTGAACAGATATTGTTTTACTTTGATTCTTTGGTAGTGA AGAACCATGAGGAAACAGGAAAAGGTGCTTCAGAGGAAGAGGACTTGTTGCCAGTTATTGACTCTGGCACGGATGAAGTT GCTGTCTTAAATTCCATTGACAGATATTCTTATCTTCCCCAACCGGCGAAATCAGAAGTCTGGAAGATTAGAAAATCAAA GCCAAGACTACGAAGCTCGCCTTATGCAGAAAGCCAAAGTTGA

Download CDS Sequence

Protein sequence (LotjaGi5g1v0000800.2) extracted from Lotus japonicus Gifu v1.2 Proteins.

MSDDAQLVFCPYSYIINPIIRGAMDVDIRGAIVILDEAHNIEDITRDAGSVDIEEDVLDKLQVELQQLCSSNTAIYQPLY EMTQGLTSWIEQKKNKLEKRDFQHYVSCWTGDKALRELEEANISKQCFPILLECATKAIKVATDLETDQPRLSGMSVITL EGLFSSLTYFFSRNGSHMLDYQLSLQRCVRKDDRRGFGNWMHTFSLWCLNPAVVFRDVADLSLSVILTSGTLSPMPSFSS ELGVQFETSLEAPHVIDVDSQVWPAIISTGPGNYPLNASYKTADAYEFQDAVGRSLEEIFKIVPGGCLVFFPSYKLMEKL CNRWSETGQWSRLHTEKSLFVEPRGGSQDDFELVLKGYYDSIHHGKRPALGRKRRIKKIDLNHFYTVDSPQDSKKGGAAL LGVCRGKVSEGIDFSDENARVVIIVGIPFPNINDVQVALKKKYNDTFKSSKNLLSGSQWYCHQAFRALNQAAGRCIRHSL DYGAIILLDERFREERNRALISKWLRRPLRVYDSFNLSLEGLKSFFEDAKERFSMNTVHISQNLVFDSDGVQNKEQNTRL KKNQKLNKSVNGREKDTSMIEDNISIPTLSSHDLAESQLFAQRTSNTYNFEDHINPQCCNLTERLTEKLPVSITHEETSV VKETPCIDVGHDAGSPDYSDAYSNCTIIETSAQFPPDHLSSHQMSLSNGSKSSSKVQSSITVTPEKNIATTNIPEMDSSL NLSVNSHNQKRRKPFINLIEEENYGAPCATSLTWYSKSSVAVTEATHGTKPGLERNLKSHSPQIPTSNLPGTCSLTAPLL DKRLQIFCSLCKNPLGRPENDLFLTCSLISSSKVYLRSLLKQKLKTYTTDTSDSLPVILTDSSCVDQRILNRIPKSAPEQ GIWCLEDGCVFSTVFCPFCSNRNNLLGVQVMATNSSNVQLLEQILFYFDSLVVKNHEETGKGASEEEDLLPVIDSGTDEV AVLNSIDRYSYLPQPAKSEVWKIRKSKPRLRSSPYAESQS

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Domain prediction

Data for domain prediction are obtained with InterProScan, and merged with InterPro data obtained from the EB-eye REST service.

Prediction algorithm	Identifier	Start	End	Length	E-value	InterPro ID
PANTHER	PTHR11472:SF47 View details on PTHR11472:SF47 Search for proteins/transripts with this domain View external data on PTHR11472:SF47	1	706	706	3.0E-185	–
PANTHER	PTHR11472 View details on PTHR11472 Search for proteins/transripts with this domain View external data on PTHR11472	1	706	706	3.0E-185	–
ProSiteProfiles	PS51193 View details on PS51193 Search for proteins/transripts with this domain View external data on PS51193	1	108	108	11.414	IPR014013 Show description in modal box View details on IPR014013 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF06733 View details on PF06733 Search for proteins/transripts with this domain View external data on PF06733	1	57	57	2.4E-14	IPR010614 Show description in modal box View details on IPR010614 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	2	488	487	1.87E-10	IPR027417 Show description in modal box View details on IPR027417 Search for proteins/transripts with this domain View on EBI InterPro Service
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	2	243	242	1.1E-22	–
CDD	cd17970 View details on cd17970 Search for proteins/transripts with this domain View external data on cd17970	3	42	40	9.47512E-15	–
ProSitePatterns	PS00690 View details on PS00690 Search for proteins/transripts with this domain View external data on PS00690	31	40	10	-	IPR002464 Show description in modal box View details on IPR002464 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.275.40 View details on G3DSA:1.10.275.40 Search for proteins/transripts with this domain View external data on G3DSA:1.10.275.40	51	210	160	1.1E-22	–
CDD	cd17970 View details on cd17970 Search for proteins/transripts with this domain View external data on cd17970	224	252	29	8.48486E-9	–
CDD	cd18788 View details on cd18788 Search for proteins/transripts with this domain View external data on cd18788	260	492	233	2.95481E-59	–
Pfam	PF13307 View details on PF13307 Search for proteins/transripts with this domain View external data on PF13307	297	506	210	6.8E-59	IPR006555 Show description in modal box View details on IPR006555 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00491 View details on SM00491 Search for proteins/transripts with this domain View external data on SM00491	314	494	181	9.5E-38	IPR006555 Show description in modal box View details on IPR006555 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	697	20	-	–

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:0003676 View details of GO:0003676 AmiGO InterPro QuickGO	Molecular function	Nucleic acid binding	Interacting selectively and non-covalently with any nucleic acid.	Subterm of View details of GO:0097159 View details of GO:1901363
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:0003678 View details of GO:0003678 AmiGO InterPro QuickGO	Molecular function	DNA helicase activity	Catalysis of the reaction: NTP + H2O = NDP + phosphate, to drive the unwinding of a DNA helix.	Subterm of View details of GO:0004386 View details of GO:0140097
GO:0004386 View details of GO:0004386 AmiGO InterPro QuickGO	Molecular function	Helicase activity	Catalysis of the reaction: NTP + H2O = NDP + phosphate, to drive the unwinding of a DNA or RNA helix.	Subterm of View details of GO:0017111
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:0006139 View details of GO:0006139 AmiGO InterPro QuickGO	Biological process	Nucleobase-containing compound metabolic process	Any cellular metabolic process involving nucleobases, nucleosides, nucleotides and nucleic acids.	Subterm of View details of GO:0006725 View details of GO:0034641 View details of GO:0044238 View details of GO:0046483 View details of GO:1901360
GO:0016818 View details of GO:0016818 AmiGO InterPro QuickGO	Molecular function	Hydrolase activity, acting on acid anhydrides, in phosphorus-containing anhydrides	Catalysis of the hydrolysis of any acid anhydride which contains phosphorus.	Subterm of View details of GO:0016817

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Expression data

Expression pattern

Expression pattern of LotjaGi5g1v0000800.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi5g1v0000800.2