Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi5g1v0365500
Transcript ID	LotjaGi5g1v0365500.1
Lotus japonicus genome version	Gifu v1.2
Description	ATP-dependent DNA helicase 2 subunit Ku70; TAIR: AT1G16970.1 ATP-dependent DNA helicase 2 subunit Ku70-like protein; Swiss-Prot: sp\|Q9FQ08\|KU70_ARATH ATP-dependent DNA helicase 2 subunit KU70; TrEMBL-Plants: tr\|K7N5J8\|K7N5J8_SOYBN Uncharacterized protein; Found in the gene: LotjaGi5g1v0365500
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr5:68017827..68032731) extracted from Lotus japonicus Gifu genome v1.2.

GAAATATATATATATATTTAATTATTAAATAGTGGCCTGAAGGGATTGAAATGACCGAGTGACTGCCCTACTCTGAGTGC TAGAGAAGTTTGAGGCGAACGGAGTAGTGTACTGTGGTGGCATTCTTCGTTTCTTCTTATTCTTCAGAGAGATGGAATTT GACGACCCTGATGATATCTTCAGAGATGATGAAGACGACGCTGATGCTCGATTCTCTCTGGTTGGTTGGTTTGGTTATTC ACTCACTCACTATTCCATTTTCTTTTCGTTTAACATGAAATGAAAAAATGTAAATGTTTACTTATTTATCAGGAAAATGA GTCGAACAAAGAATATGTGGTTTTCCTGATCGATGCTTCTCCTAAAATGTTCACAAAGAGTTGCCCAGCGGTTAGTCTAG TCTAGTTACTTTATAGCTTACTGATTCATTCATTCAAAGTTCAAACTAAAACATGATGTACTTACATTGCATTGCATTGC AGGAAGACGAAGACCAAACCAATGAAACTCACTTCCGCATTGCCACCACTTGTATCTCTCACTCACTCAAGACTCAGATC ATCAACAGATCATATGACCAAGTTGCCATTTGCTTTTTTAACACAGTAAGATTTATTTATGCATTCTGCTTCTTTCTTCC TTATTTCATTACTTAATCTTTCTTTCTTTGCAGAGGGAGAAGAACAATTTACAAGACTTAAATGGTGTTTTTGTATTTAA TGTTGCTGAAAGAGAGGATCTAGACAGGCCAACAGCAAGGCTCATTAAAGAATTTCAACATTTGGAGGGTAAGCATTTAC ACTGCAATGAGATCACATTCCCAGGATAATACTAATTTCTTCTTAATCTTACCCAGAATCTTTTTCTAAAAACATTGGAA GTGTCATGTCCGGCTCTCAAGAAAATCCTCTCTACAATGCTATTTGGGTGGCGCAGGCACTTCTTCGTAAAGGGTATTTT ATGCATATAAAATATATATTACTTGCAGTCTTATCTACTTGATTTTCAGTGAATCATAAATCATAATGTCAAAACATTTA TATCAGGTCAGCAAAGACAGCTGATAAACGCATACTTTTGTTCACAAATGAAGATGATCCTTTTGGGACTGTCAAAGGGG CTGCAAAATCAGATATGACAAGAATGACTCTGCAGAGAGCTAAAGTACAAATCTGTGGATGCTTTCTAGCATAGATGGTT TAGATAAAGTTAAGTTTCAAGGAAGCTTAATTTCTTTTTATATCAGGTCTTTCATAATTTCTTTTTTCTGGTTTGTGTAG GATGCGCAGGATCTTGGCATATATGTTGAACTTCTTCCCTTGAGTTGCCCTGATGAAGCGTTCAATGTATCTCAATTCTA TGCTGTATGAACACATCCTTGACTCGTATTCCCTAATTTCTTCTCTTAAGCTATACCGATTGGATATATTTGTCATGCTC ACTTGTCAATTGTATTCCTTTCAGGATTTGATTGGGTTGGAAGGTGCTAATCTTGTTGACTTTATGGCAACAACAGGAAA CAAGTATGGCATCTTATCCTATCTATGATGCTCTCTGTTTTTTTTTATTCTTGCATTTGTGAAGTCTTTGAGATACCATT ATTTACTGTAGTGGGGCAACTAGTCGTATCCTTTGCAGTTTGACTCAGTGTTTGTTTGGTTTATATTTAGGTTGAATTGA TTTTGAATGAATTCATGTTAAAAAGATTGATTTGTTTTTGGGAGTGTTATTTTAAAAGTGTTTAGAATAATTAATTTTAT TTCGATGCTAATGTCGAATCACTTTTGAAGAATAAATTTAGGTATGTATTTTAAAATTTTGTGGGTCTCACCCAGAGTAC TTAGTGGGATAATTCATTTTAGGGAGGTACATTTGCTTGTAATCAATAATTCAATTTAGAAGATGGAAAACTAGTTTGTG AAATGTGTTGAACAAAACAGTACATGTTTCTGTAACATTGTTTTATTTCTATTACATGAGGGTTATGATGTCCGCAGCTA TGACCAAGAGGTTTAGACCTGTGCTAGGAGTATATTATATTAAAATAATGTTTGTGTTTAATTTTGCTCGATTCACTTTT TTAAGCCTCAGTTTTTGTGGTTTTCTGTTTCAACTTTAGATTGAAGGATATGAAAGATCAGCTAAGAAAGCGCATGTTTA TGAAACGCATAGTCAAAAAACTTAAATTCACTATAGTTGATGGGATATCAATTGAACTGAATTCATATGCTTTAATTCGT CCCACTGTTCCAGGTACGCATTTTGCTTGAATTCACTGCAGTTATTTTCGGATTGGAATTTATTTTCCTTGTTTTCTTTT GTTTTGCTGTCCTTTGCCGAGTTTTACCTTGGTTGGGCCCTTTTAAGTTTTTTGGTCCCTTTAAAGTTTTTCACTTAGAA AAAAATATGCTTCTGCCTTTCAGCTTGTATTCTAATTGTTGAATATCTATTAAGATTTAGTTTATAATTAGTCTTGTCTC ATTGAGATATAGTTTAGATTTGTTTCTCTATCTTAGATTAGTATATCTTAGATTAGTATCTATTTAAATAGAGATGATAT CTATTTAAATAGAGATAGGTTTAGATATATTTAGTTTCTTTTTATCTCTTTGTTAGTCTATATATATTGTAGTTTTCAGT CAAGTATTAATCAATGAAATACAAGTATTATTTTATCAAATTCAAGTTGGTATCAGAGCAAGTTTCGATCCTACCGCTGT GAGGGGGCTCCTCCCCCGTGAGCCCCCTCATGGTGACTTTCCAAATCCCCGTGAGCCCCCTCATGGTGACTTTCCAAATC TCTTTGGATTTATTTTTCATACTTTGCTTCTGCGCTTGTTAGTTCTAGCCGTTTTCTTACGGCCTCGTTTCTTTCTGATC ATGGTTCCCTTTCTCTTGAAACCCTAGTGATTCTTGTCACGTTCTTGGCAGTCACTATTGGCGTTCAACACTGTCAACGT CTTTCCACCGCCGTTTTCCGAAGTTGCTCAAAACGGATCAGAAACACCTCCATCTTTTCCCTGAAGCGTCGCCGCCTGTA TCTTGAGCAAGGTTGGTCCTTGAGTGGGCGAGTCTCATTGATTAGTGAACACTAAGAATCTGTGGTAGGAATATCTATGT CTCTCCCACGGTACCCCGTTCATACTTATCTGTTGCGGCGCAAGGAATGGAATACGAATTCTTTGTATGGCGTGGTCAAT AATTCGAGATTGTACTGATTCAGTAATGTGGTCTTTGTATGGTCAATGGCTGGTATTATTTTAATGGAAGCAAGCGGCAG AGTTTGATTAAGGTCTCCAGTGGTGCAGCACCTTTGAATGCAGCGGATATTTATTACTTTGTCCAAACTTTCCTAATCTT GATTTCATACAAGATACATGAATAATGAGGAAGCCACAATTTCAACAATAGATAAAGATGGTTATTGGAGATGTTTATTT CAATCAGGATGAGTATATACATACATCTGATCGCTATCTGATCGCTTGCAAGGTATTATCAAATACAAGGGCTTTCAGAT TGCTCCTGCTGATTTAGAAGTTGTGTTAATTTTGCATCCTGAAGTAGTTGATGTTGCTGTTACAACTACCATGTATGAAG AAACTAGAGAGATACAAGGTGGCTCTTTGGTCCAGCCAAGTTCTCAATTAGTGAGTTGGGTTACTCTGGTAATATTTCTT TTGTTGAATGGATGTATGCATCTGATGTGCACTGCAACTCTTTCTTAGAGTCCAATATTGAAGCTGCTATTGTTTGAAAG GGAAAAGTCTTTACCTAATCGTTGGGAGTAGGCGGTGAAGGGAAATTTCAAGTCTCTACGATTTCTGATTACCGCATTGC ATTGTGTGGCAGTAGCTTCTCTTCTCGAGTTAATTATATTTGTTACAAGCTATGCATATGATATATATGCTCTAGCTTGA GGGGAAGTGTTGTGTGAATTTCTCTCTCCGACAGCAGTGGCTTCTTGAGTTAATAATATTTGTTACAAGCTATGCATATG ACATATATGCTCTAGCTTGAGGGGAAGTGTTATTAGAGACTATGGTCAGCCACCACCGTCGGATTTCAAGCCACGCGCCC TCACGTGCCTCCCATCTCTCTGCGTGTGAAGTCCACGCGCCGCTCTCTCCGCTGCTTTGTTATAGCTGGTCCTCTTTGTG TATCAGCTAGGTTTGGTTTTAAGGATCCTCTGTTTTGACGTGTGTTGTGTCGTCACAGTTGTGATCATCCGGTCGTCCTC TCCCTGTTTGGTTTGTGGGTTTGCTGTTTTGACCCTGTTTGAACGTTTCTCGTGCCATCTCTCATTGTTGGCCAAGTTTG GTTTGGTTTGGTTTGGTTTAGTTTGGTTTGGTTTGGTTTGGTTTAGAGTTTTAACTCTGTTTTCACGCTCAGGTTCCGCA TTGGATTTTGAGACTTGAGTTGTTGTTTGCGTCTCATTGTTCGAGATGCTCTTATTATACTGCTCTTAGCTGACTTTATG CAATTTGGTTTTGAAGGTGACATTGTCACCTTCGTTTGTTTCGTCTCGATTGTTTGGTTTTCTAGTTGTTTGGTTTTCTG GTTTAGGGCTTCAGCTGCGAGTTGCGCTGGCCCACTCCTCTAGTTGAGAGTTATTGGTTCTGGTTTAGGGCTTCAGCTGC GAGTGGCGCTGGCCCACTCTCTAATGTTTGAGAGTTGTCTGTGTCAAAGTTGACACCATTGTTTGTCTTAGAAGCCATCA ATCGGTCGACCTCAAGTATGTTTTATTTCTGTGTGGTTGTTGTTGGTGAGTTGTTGCTTCAGCCTTGTTTTGTTTTCGGG CGTATTGTTGCTGGTTTTTTTCGCCCTTGTTTGCTGGCTCAGCTACCCTACGACACTCCAGAAGAATTGGTTTTTGTCTT GCATCAATTTCAGCCAGATCAAGTATGAGAAGTTGTCTTTTGCCTGCCCATGAATTTAGCAGAAGTTCAAAAGATTATTC AATTTGAAGTATTAGAAGTTGTCTTTTGCTGCCATGGATTTACTCGAAGTTTGAAAGGTTATTCAATTCAGAGATTCACC AAGATCGTCATTATTAAGGGATATCTATTAAGATAATGTTCTTCTTGGGTTCGATTTGTTACAAGCTTAAAGCTAAGTAA GCTTTAGCTTGAGGGGGAGTGTTGAATATCTATTAAGATTTAGTTTATAATTAGTCTTGTCTCATTGAGATATAGTTTAG ATTTGTTTCTCTATCTTAGATTAGTATCTATTTAAATAGAGATGATATCTATTTAAATAGAGATAGGTTTAGATATATTT AGTTTCTTTTTATCTCTTTGTTAGTCTATATATATTGTAGTTTTCAGTCAAGTATTAATCAATGAAATACAAGTATTATT TTATCAAATTCAAGTCTAATTAATGACATTCCATGCTTTTGATGTGTAATGACATTCCATGCTTTTGATGTATAGGAGCG ATCACATGGCTTGATTCCATTACTAATCGTCCTTTGAAGGTGATGAATATTATAACCTCAATTATAAAATCTTCTCTGTT GCTGTGTAAATTTTGAATACCCTTATCATGTTCTAATTATATAGTTTCCATGACAATGCTGTGCCTGTATTATCCATTGG TTGAAACTTGATATGATCCTATGCCCAGACCCATTCTTTATCGATACCCTAAACAAGATTTTAGAAGTGATTTTATGTTC TAGTTTTTTTTTTTTTTAAAAGTATGAACATAACTGCATAGAAAGAATATTTACAAATTTGTTATGGCTTTCTGATAGTT TTGAGAAAGCCAAATCACTGCAAGCAAATTGCTGCGTCATATTCTTCTTGTGTATCTACAGTCATGTCTTTGTTATCTCA GAAATTGGGTGGAGTCAAGCTAGCTTGTGAGGTGGGGATTGTTTACCATATCTCTAATGGATACGGAATCTCAACAGACT CCCCTCTCACCCATGATTTGGAAACCCATAGGGCCTGGTTGATTGCACTAGGAAAGCCGAGGCCAGGTTGATTTTTTTAG GACGGGTGGCCCAACATCAGATCAAAGATAGAATCTGTTACCATCCTAGAATTTGAGTTGGTTTTAACTCTACGTCAAAG CTAACACATGAAGTGCGATTATCCGAGCCCTTTTAGGACTACTTTGGTGGTATTTCTAGTCGGTCTTGGATCTTAACATG TTATATGCTTTTTGTGCAGATCATAATGCTCTTGAGTTCCCTCTCTCTTTATTTTCTTTCACTTGGATGGACCATAATGC TGGTTAATCTAAAAAATCTACAAGTAAATGGTTTCAACTGGTTTGGTGGTGCAGAGTGAAAGAGCATTCATTTGTGGTGA TACTGCTGCAATTATGGAAGAGTCTTCTAGACGGTTTCATCCTTATAAGAAGTAAGTATCCTTATCTTATTTGAATATTA TAGTTTTGATTCCTTGGAGATACTTTCTTCACCTGTTTTTTTTCCCTATTTAGATTGAGGTTGACAGATAATAGCAACCC TAGTATATAAAACATTACAGTACCACTGAGAATAGGATTTCCTGGGATATGGATTATAACCAGTTCTTAGTTCTGGGAGA AATATGTCACTAAGGAAAAAAGAGATGACTGTACTTGGTTAGGCTTTAAAAATGTAGGTGGATTATGTTGTTGCAAATTC CTTCAGTTTATTCTTTGTAATCGTTGGCTGCTTCGTTGTGGGACTTTGTGCTTTAAAACCCAGGTGACCAACATCGAATC TTGCTGTTCCCACTCAGATTAGGCTGGATTCACCTTATCGCTGTCACGATCTTCCTCCGTAAGAAATCTGGAAGGAATAT TCGGATTCACCTAAAATATTTGGAGATTGTAGCTTGAATAACTCCTTCAATATGTTGTTGCCGCAGCAGAAAATTGGATT TATCAACAAATCTAGAGCATTGAGAACGTAACTAGAGCATTGAGCATTGGGAGAACGTAACTAAAGCCAAGTGATATCTG GCAATTCAAGCCAACAAATTAAACTTGTAGTTGTAGATTTGTTGAAGCTGGTTGCTTTACTGGACATTGATAAATATTTG ACTGCATGCCTGTGGAAATACCTCAAAAATCTTTATCATATTTTCTGATGTTGTTGTTTTCTTTTCGTTATCTTTATGAT AATATGATGTTTATGAATTTTTTCAGCCAGAACATTACATTTTCAATTGCGGAGCTATCTCTAATTAAAAGAGTTTCTAC TGGACATCTACATCTTTTAGGGTTCAAGCCACTAAGTTGTTTGAGAGACTATTACAACTTGAAGCCATCAACTTTCCTTT ATCCCAGCAATGAGGTTACTTTTTTTCTATTCATCAATAAACTATTAAACTGTTGATTGAATCTTAAAATTATCACCAAT ATTTGGTTTTAATCTTCATTGGTATGCTTGGTGCTGATTTCTTATCCAGTACTTTTAACGAACACTGTTTAATTTTGGTG AAACTTGAATATTGAAAATGCAATGTTCTGAACTGACCAATTTATTGGTTTGGATCAGTTATTTTTTTTTTTTTAAATTT CCAACAAATTCTAACTAAAACGATTTTATGAATTGGTTCGGGTCCACATCTTATTAACTTTCATGTCTCTATCTGCATAT ATTTGTCTTTTATGTATACAATTTTATGTCCGTACCCGAGTAAATAAAGTTCATTCTTCTTTAATAATTATATATAACAG TTAAATTAATTCTAAATTATGAATTGGTTCGGGTCCGCATTTTATTAACTTTTATGTCTCTATCTGCATATATTATTGTC TTTTATGTATAAAATTTTCAATTTTATGTCCCTACGAGTAAATAAAGTTTATTCTTCTTTAATAATTATATATAACAGTT AAATTATTTCTTAATGTTGCCATCACTTTTAATTTACATTAATTTTTTGTAATTTTATCTAAATAATGATAATAAAATTG GATGATAAATATAATCAAAGACACTTGATAACTAATATGACAGTCCAAATGATTTAAAAAGTAAAAAATATAAGTTATAA ATAATAAAGAATTGAAAATAGGATAAAATATAATATTATCGCGTGAATGAAAATTCAACAGGTGATTACTTCTTATAGGC CTAGACTAACCTAATTAAGGAAATAAATAAATAAGTACAATATCTCATCTCCTATCTCCTATTTGATACTTGGAAATGAA ATCATAATAAAAAACAAATCTTCTAATAATAAACCAAATATTCTAATAATACAAAACTCCTCCTCAAGTTGGTGAGTGGA TATCTATCATTCAAAGCTTTCAAGTAAGATCTCGAAATCGCTCCAAGGGAAGTCCTTTGGTGAGCACATCAACCAACTAA AGTCCTTAGGGGACGTAGTGTGCATAAATAAGACCACTATCAAATTTCTCTTTGATGAAGTGTCGGTCTATTTCTATGTG CCTTGTTTTGTTGTGATGGACTGGATTGTGAGCAATACTAATAGCAGACTTATTATCACAGAAAAGCCTCTGAACTTGAT CTGGCAACTAAATTCTGCTTCTTTCTCCGCCATGTCATTAAATTTCCACCCAAGAAGTGGTGAAGCTCCTGTCAACAATT GACTCTGCATGATCTGCATCGTAGACCTCTCCCTGGAACTGCCTTTAGATACTGTGTTAGAATTAAGTTACATCCACACA TCACCACAAAGCCCTAAGCTTAAGGAAATGGGTGTATGTGTTGTTTAACTTATATACACTTATACATTTGCTACTCTACA CAATGTGAGACTTCTTTGAGTCACACTTGTTACTACTCTAACACTCCCCCATTCAAGTGGGATTCCATTTTTCTTCTTCT TCTTCTTGCCTGGGCTTGTACTCATTTATTCGAGTCTAAGATGCCTTACAACTTGCTTCTTTCTTCTTTGCCTAGGCTTG TACTCAGCGGAATGTCATTACGTGTTAGACTTCTGTTCTTGAGTCTCAGAGGCTTTACGACTTTTCTTTTTCCTGTCTGA GGTTGTACTCAGTGGTTCGTCATTAGGTGTTAGACTTCTGTTCCTTAGTCTCAGAGGCATGAACTGTATATACAACTTCG CCCCCCCCCCCCCCCCCCCCGAGATTTAAAAAAAAAATTCCGATTTTTTTTGGAAGCGGAAGCCATGGCTGAGGATCGAA ACCAGCTCATGATACCATGTTAGAATTGTTAAGTTTCATCCACACATCACCAGAAAACCTTAAGCTTAAGGCAATGGGTA CAACATGAAAGTTATGAAAATGCTGATTATGCAGGATCAGTCATATAGATAGGACATCAACCTTGGGTTTATGTATGCTC TTGGGTGGAAACCAATGTTGTTAATGGCGGATGATGGACTATGGTAAAGAGCCAAAAACCAGCTACATTTGACAAATAAT GATGGGAGATCATCGGCCACGGCAGAGAGCCAAAAACCTGCCATGAGATTCCTCCGTTGCACTGCCATGGCAGTATTTGA TAACACTGGTGGAAACATAGATGCACAAAGGAGGACGAAACAAAAGTTAGTTGCTTGATCATTTGTAGAATTTGATAGTG GCATAATGAATCTTTGAAATACTGTGGTTGAAAATTGTGCTGGATGACTTAATGATTCGATGTGAAAATCCTATGAAGCT ACTGTGTGACAATAGATCAGCCATTGATGTTGTTCATAATCCAGTCCAACATTATAGGGCAATACAGATAGACTGGCGTA CCAAAAAAAATAAATAGAGATAGACCGACACTTAATCAAAGAGAAACTAGACAATAATTAAAGAGAAACTAGATAATAAT TTTGTTCACGATCGAGTGAACAGGAAAGGAAGCTAGGCCAGAACCCTAATAGGGATAAGGTCCCTAAAAGCTAAGCCGCC TATGTGTATAACATGTGTCAGAACCCTTTTTACAAGATATGCGACTCCCTTTTATAGTGGGAGTGCTCGAACCCTAGTTC TCAACCTAAGCGAACTCCTGGGCCTTATACAATCAGCCCATGAGTCCTTACAACCCTTTACCTAGATCTACCCATCTTCT CCCTAAGCAAAGATGTGAGAGCACCCACTCCTAGGAGCATCCCGAGAGCGCCCTCACCCCTCGTGAGCCTGTGCTGGGTG GGCCCTTACTATTGGAGAGAGCTCCACCTAGTCCACAAGACATGTGCCTGAAGTATGAAGGCTAAGTGTCTTTAGCCGTC TCCTACAGTTTCGCCTTCATGCGTGTGTGCTGGGCGGGCCCCTACTATTGGAGAGAGGTCCGCTCAGTCCAGGTTTGATC TCTACAACTTTTGTTCCCTCAGATCATCAATTGACAGATGTGTTGATTAAAGGATTTCCTACAGAGTGGTTTCAGGATCT AACGAGCAAGTTGGGAGATATCCATTCATCAGCTTGAGAGTGTTGTAAACAACCTATTTTAAGATAGAGTATTTTGTTCC ATATTTTTCTTCCTACTTACTGTGTTAATATAAGGAGACACTTTATTCTAATTATCATTTATCAGAACTCATGTATGAGT CTATTGTCTATACATATTAGTGCTTGTAATTTGTAAGAACCCGTGGATTAAATTTCTGATCACATTTAGCTCTTTCAAGT TAAGATTTTCTTTGTGATGCCTCTTTTTTTCTTTGCAGGGTACAGATAGTAGCAAGTGTATCTTTATTGCCCTTCATAGG TCCATGATAGAACTCAATCGGTATCTTTGATTCCTTGCAACTATTACTAAGGCTTTGTTTAGCTGCGCTGTCACATCCTT TAAGTCATGTTTGCTTCAACATTTTATTTTTGGTTTTTGGCATATCTGCATTTTCTTTTCCCTGCAAATTAGTTCTTGAT CAATTTAAATATGAAATTGTAGTGTGTTTAATTCACTCAAGATCAAGAAATCCGTGGGTATTAATGGACGGTTACTTATT GTAAGTGGTAAAAGGGGAAGAGAGAGGGATTTGTGAAAGGCACAATTGATCGAGAGTGACAGATATTATAGATTAACTAA ACATCTAATAGAGACATGATTTGTATCATAGTTTTGTGATTGACACAACTGTTGTCAAATGACTTCTTAGCATAATTGTG TTGGTAATTTCTGATCAAAGTAATGCCCTGGTGTGTCCTTCAGTTTTGCAGTTGCATTTAGTGGAAGTTCCTCTCGAACT CAATTGGTTGCCCTTATTGCTCAGGTACCATTATGTTGAATGCTAGAATGTTTTTGCATTATAATGAATAGTTTTCTCGA GTTCAAGTGTTTGCAGCTGATGATTTTGTTTGATGGCTGTCTCTAAACATCTGAAATAACTTTGCAATGCTACTTTAGTG TCATAATTGCCTTGCATACTTCTCAGTTTCCTTGCACTGGTCTTGTTGCTCATGCTCGAACTTACTTGTGAATGTTTCAC ACTGCTTTATAGTACCACACACTACTTTAGCTGTGGCTGTGAGATAATTTAGTTTGTGGGCAGGCATCTATAATATAAGA TTTGATCTACTGCCAACGGTTGTTTATATATCAATGTATTTGGGTCATTTGTGTCTTTAAAACAGAACGAACTTAGGATT TTTTGGGTTCTTATTGTATAAAAGGAGTTTGGTTGTTGTGGATTAAATTATATATTGCACGTGAATTTTCTCAAACTAAA GTGTGTAGTATATCAGTAAGCAATCGAATACTATGTCATAATTTTGGTATTTTGTAAGCTTGTTTTAGTTTGATCCATAC AGCTGACCTCACTTAGTGGGATAAGGCTTTTGTTTGTTTTGTAAGCATGTTTTAATTTATAAATTCTAGTCTAATTAAAA TTTCTATCGAAATAAATTGACAGTTTTTTTATTTTTTTTATTTTTTATCTCTGTTCATATTCATCAAACTTGTACCTATG TTATTCATCAAACTTGTACCTATGTTATTCCTAGCTCATGTGTCTGATTGTAGGAAGAGGTGATCCAATCAGGTGGTCAG ATCGAGCCTCCTGGAATGCACATGATTTATCTTCCATATTCTGATGACATCAGACTTGTTGAAGAGGTAGACAACTGCGA TAATTAGACTTGTGTTTAAACTTTATGTTGAAAAAACTGAGAAAACTAAGTTTGAAGTTTTAGTATGAAGTTATTATTAA GGTATGAAGGATTTTTGTAGCGTTACTCAAATACAAGTGGGACGGTGACTAAAGCAAGTGATGATCAAATAAAAAAGGCT GCTGATTTAATCAAGCGTATTGACTTGAAAGATTTTTCTGTATGCCAGATTACCAACCCTTGTAAGCTTCTTCTTGTTCC TCTAACTCATTCTCATCCTCTAGCATACTATTTATACTTCTAGTTAGCTTCATATTGGAAATCTTTGTCTTAATGTTAAA ATGATGACATTTGATTTATAGTAAACCATCATCATAATTAAACAAACCTCCTTATACCTACACTTACGGCTTACCTCACC TGAATTATAGATTGTTAACTTAAACTTCTTCAAGATATCGGATTAAACATGTGGATGATTTATATATTTAAAGCTTGTTT GGGCTGACCAAAGAGCACTTATTGAAGCTGATCCAGTGCGTTTTTCAGTAGATAAACTTCAGTAAGCGCTCTATATAACG AGATTTTAGACTGGTTGACACGCGAATATCGTTTTTTTTTAAGTATGCTGCTATTTAGTAGCAGTTCCAGTCAAGATTAC ACCGTATCTAGTGCTATTCATTTGTTGGAGGAAAAATTCTATTTGGTATAAGTTGAGTTCTTATGCAGAAATTAAATGTT CGAAACTTTTAAATTGCAACAAAAGCTTTTTTTCACACTTTCGGGGTTAATATCCAAATTTTTAGAAAGGCCATTGATCA AGGTCTTTCTCTACCTTTTTTTATCAGGTTATTCTCCATTGATTCAACTTTTCTTACTTTGGCCTCTATTGGTCTTTTCC TCATGTGACCAAACCATTTAGGCTAGATTTACCCCAACTTTTCATGTCTTCTTTTTGTCCCATCTCTTCTACCACAAAAC TCTCATCTCCATAACACTGATAACTAATATAATTTTTTGTTGTTGTTGTTGGTGAAATCATGGTTTATATAGCTGTGTTT ATACATACCATGGTATTACAGATAACATTTGGACTTTTTTTCTGGTTGAAATTTGCTAAATCAAATTCATGTTACATTTT ACATATTCATGTTCCTCTAATAGTTAATATTTCTCGAGTAGTCGAGTTATTATTATTCCCATTTGACTTAGCGAAAGAGA TTTCAGCCTTGCAGAGGCACTATGCAGTATTGCAGGCATTAGCTCTGGAAGAGAATGAAATTCCAGAAATGAAAGATGAG ACATTACCTGATGAGGAAGGTTTAGCCAGGTAAGTGCAAGGTTTTCAAGATATATTTAATATTTTAATGTGTTCGATTTG CACAATGCAAAAAAATGGAAAACAAGAAGGATATTCTACTGCTCTGTTTCCTGTTTGGCTCTTCTTCTTTTCACTGGAAA AGGATTGTTCAAGACTTCGGCATGAAATGATAAACCTACTTATGTGTCCCCTGCAGACCAGGAGTAGTAAAGGCATTGGA TGAATTCAAGATCTCTGTATATGGGGAGAATTATGATGAGGAAAGTGAGCATGGAATTGGGAAGCCAACTGAAGCATCCA AAAAACGAAAGGCACATGCTGAGTTAGCAACAAAAGAGTGTGAAAACTATGACTGGGGTGAGCTCGCTGATGCTGGAAAG GTAAACTTTGAAACTATGACTGGGGTAGGACAAGCAGATGTGCTTGTGGCTTAAGCCAATTTTGCAAAGAACATAAAATG CACCTTTTTGAAGGAAAATGATTCATACACATCCGTATAGTGCAGACACCCTACATGCACCCAGAGTGAGAAAGGTACAG GAGAAAGAAGTAATGAATGTGATATATGATAAATGTGATAAGAAGAGAGACATAAAAGTAGTAATGAGGTGTTTGTATGG TGTCTATTATACTGATTGTGTGTCTAAGTATCATTACTATTTTTAAAAAGACCGTGCATGGATTTGGTTGGTAGCCCTGT AGGCTTTTTAGCTCACTATTTTTGATGAATCTGAGAATATCGTAGGTTCCTTATATAGATTATGTTAGCAGAAGTTAGGC ACAGACTTTTGTTATCAATTCTCCAGCACCTAAAATATATTCTTAGGTACTCACAATATAACCAGAATAATAATAGGGTA ACAATAAAATTTATATTCATGTATAAGTATAACGTTTTTGAAATGGATGAGTAATAAAGGAAATATAGTGTCACTAAGTT GGCTACATGATCCAAAGTCGCCTTTCCACACTGATGAGCTTAGCTGCACAGCAAATTTTAGTTTGTGAATTTTGTTGAAC ATTATTTCAGGTAGGACCCATGTAACATTAAAATTTTTAGTTGCTTTAGCTGTCACTTATTTTTAAAATTGTTGATATCG AATTGTTTGATCTTGTTTTGCAGTTAAAGGATTTGACTGTAGTGGAGTTGAAATATTATCTCACAGCTCATAATCTTCCT GTTTCTGGGAAGAAGGAAGCTCTAATTAGCAGAATATTAACTCACATGGGAAAATGAGCCAGCAGGGCCAATATCTTCCA TTAATGATTTTGTAACATCAATGGCCAGAACATCCAAGACTCACAAGTACAAGAGCTACTGAATTTAATGTTTTAATTCA TTGCTTGTTCTTGACCCGATCTTGGATAGCATATTCAATTTTACTTACTAGCTCAGTAGCAAACTGTTTGTTACTTAATA TTATTTACATAGTTTAAGAGATTATTTATTGATATATAACTTGACTTAAATGCCATTATTTATACTTCCGTTCCAAAATG CTGGTTGTTTTATCTTTTTTCCATTTTGAATAATGTATGAGATTGATGTGAGGTAGTTGTGAAAAACAGTTGAAAATTGA ATCCTTTTGGATAATTCCCTACCTG

Download Genomic Sequence

CDS sequence (LotjaGi5g1v0365500.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGAATTTGACGACCCTGATGATATCTTCAGAGATGATGAAGACGACGCTGATGCTCGATTCTCTCTGGAAAATGAGTC GAACAAAGAATATGTGGTTTTCCTGATCGATGCTTCTCCTAAAATGTTCACAAAGAGTTGCCCAGCGGAAGACGAAGACC AAACCAATGAAACTCACTTCCGCATTGCCACCACTTGTATCTCTCACTCACTCAAGACTCAGATCATCAACAGATCATAT GACCAAGTTGCCATTTGCTTTTTTAACACAAGGGAGAAGAACAATTTACAAGACTTAAATGGTGTTTTTGTATTTAATGT TGCTGAAAGAGAGGATCTAGACAGGCCAACAGCAAGGCTCATTAAAGAATTTCAACATTTGGAGGAATCTTTTTCTAAAA ACATTGGAAGTGTCATGTCCGGCTCTCAAGAAAATCCTCTCTACAATGCTATTTGGGTGGCGCAGGCACTTCTTCGTAAA GGGTCAGCAAAGACAGCTGATAAACGCATACTTTTGTTCACAAATGAAGATGATCCTTTTGGGACTGTCAAAGGGGCTGC AAAATCAGATATGACAAGAATGACTCTGCAGAGAGCTAAAGATGCGCAGGATCTTGGCATATATGTTGAACTTCTTCCCT TGAGTTGCCCTGATGAAGCGTTCAATGTATCTCAATTCTATGCTGATTTGATTGGGTTGGAAGGTGCTAATCTTGTTGAC TTTATGGCAACAACAGGAAACAAATTGAAGGATATGAAAGATCAGCTAAGAAAGCGCATGTTTATGAAACGCATAGTCAA AAAACTTAAATTCACTATAGTTGATGGGATATCAATTGAACTGAATTCATATGCTTTAATTCGTCCCACTGTTCCAGGAG CGATCACATGGCTTGATTCCATTACTAATCGTCCTTTGAAGAGTGAAAGAGCATTCATTTGTGGTGATACTGCTGCAATT ATGGAAGAGTCTTCTAGACGGTTTCATCCTTATAAGAACCAGAACATTACATTTTCAATTGCGGAGCTATCTCTAATTAA AAGAGTTTCTACTGGACATCTACATCTTTTAGGGTTCAAGCCACTAAGTTGTTTGAGAGACTATTACAACTTGAAGCCAT CAACTTTCCTTTATCCCAGCAATGAGGGTACAGATAGTAGCAAGTGTATCTTTATTGCCCTTCATAGGTCCATGATAGAA CTCAATCGTTTTGCAGTTGCATTTAGTGGAAGTTCCTCTCGAACTCAATTGGTTGCCCTTATTGCTCAGGAAGAGGTGAT CCAATCAGGTGGTCAGATCGAGCCTCCTGGAATGCACATGATTTATCTTCCATATTCTGATGACATCAGACTTGTTGAAG AGCGTTACTCAAATACAAGTGGGACGGTGACTAAAGCAAGTGATGATCAAATAAAAAAGGCTGCTGATTTAATCAAGCGT ATTGACTTGAAAGATTTTTCTGTATGCCAGATTACCAACCCTTCCTTGCAGAGGCACTATGCAGTATTGCAGGCATTAGC TCTGGAAGAGAATGAAATTCCAGAAATGAAAGATGAGACATTACCTGATGAGGAAGGTTTAGCCAGACCAGGAGTAGTAA AGGCATTGGATGAATTCAAGATCTCTGTATATGGGGAGAATTATGATGAGGAAAGTGAGCATGGAATTGGGAAGCCAACT GAAGCATCCAAAAAACGAAAGGCACATGCTGAGTTAGCAACAAAAGAGTGTGAAAACTATGACTGGGGTGAGCTCGCTGA TGCTGGAAAGTTAAAGGATTTGACTGTAGTGGAGTTGAAATATTATCTCACAGCTCATAATCTTCCTGTTTCTGGGAAGA AGGAAGCTCTAATTAGCAGAATATTAACTCACATGGGAAAATGA

Download CDS Sequence

Protein sequence (LotjaGi5g1v0365500.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MEFDDPDDIFRDDEDDADARFSLENESNKEYVVFLIDASPKMFTKSCPAEDEDQTNETHFRIATTCISHSLKTQIINRSY DQVAICFFNTREKNNLQDLNGVFVFNVAEREDLDRPTARLIKEFQHLEESFSKNIGSVMSGSQENPLYNAIWVAQALLRK GSAKTADKRILLFTNEDDPFGTVKGAAKSDMTRMTLQRAKDAQDLGIYVELLPLSCPDEAFNVSQFYADLIGLEGANLVD FMATTGNKLKDMKDQLRKRMFMKRIVKKLKFTIVDGISIELNSYALIRPTVPGAITWLDSITNRPLKSERAFICGDTAAI MEESSRRFHPYKNQNITFSIAELSLIKRVSTGHLHLLGFKPLSCLRDYYNLKPSTFLYPSNEGTDSSKCIFIALHRSMIE LNRFAVAFSGSSSRTQLVALIAQEEVIQSGGQIEPPGMHMIYLPYSDDIRLVEERYSNTSGTVTKASDDQIKKAADLIKR IDLKDFSVCQITNPSLQRHYAVLQALALEENEIPEMKDETLPDEEGLARPGVVKALDEFKISVYGENYDEESEHGIGKPT EASKKRKAHAELATKECENYDWGELADAGKLKDLTVVELKYYLTAHNLPVSGKKEALISRILTHMGK

Download Protein Sequence

Domain prediction

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

Prediction algorithm	Identifier	Start	End	Length	E-value	InterPro ID
PIRSF	PIRSF003033 View details on PIRSF003033 Search for proteins/transripts with this domain View external data on PIRSF003033	1	627	627	7.6E-98	IPR006165 Show description in modal box View details on IPR006165 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR12604:SF2 View details on PTHR12604:SF2 Search for proteins/transripts with this domain View external data on PTHR12604:SF2	8	627	620	1.8E-198	IPR006165 Show description in modal box View details on IPR006165 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR12604 View details on PTHR12604 Search for proteins/transripts with this domain View external data on PTHR12604	8	627	620	1.8E-198	–
TIGRFAM	TIGR00578 View details on TIGR00578 Search for proteins/transripts with this domain View external data on TIGR00578	27	625	599	9.3E-89	IPR006165 Show description in modal box View details on IPR006165 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF53300 View details on SSF53300 Search for proteins/transripts with this domain View external data on SSF53300	28	261	234	1.31E-42	IPR036465 Show description in modal box View details on IPR036465 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.50.410 View details on G3DSA:3.40.50.410 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.410	29	260	232	1.9E-59	IPR036465 Show description in modal box View details on IPR036465 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd01458 View details on cd01458 Search for proteins/transripts with this domain View external data on cd01458	29	259	231	8.10675E-48	–
Pfam	PF03731 View details on PF03731 Search for proteins/transripts with this domain View external data on PF03731	31	265	235	1.0E-55	IPR005161 Show description in modal box View details on IPR005161 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF100939 View details on SSF100939 Search for proteins/transripts with this domain View external data on SSF100939	264	540	277	2.16E-57	IPR016194 Show description in modal box View details on IPR016194 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00788 View details on cd00788 Search for proteins/transripts with this domain View external data on cd00788	264	540	277	4.2491E-76	–
Gene3D	G3DSA:2.40.290.10 View details on G3DSA:2.40.290.10 Search for proteins/transripts with this domain View external data on G3DSA:2.40.290.10	264	445	182	4.9E-44	IPR016194 Show description in modal box View details on IPR016194 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF02735 View details on PF02735 Search for proteins/transripts with this domain View external data on PF02735	274	472	199	4.3E-36	IPR006164 Show description in modal box View details on IPR006164 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:4.10.970.10 View details on G3DSA:4.10.970.10 Search for proteins/transripts with this domain View external data on G3DSA:4.10.970.10	289	350	62	4.9E-44	IPR027388 Show description in modal box View details on IPR027388 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00559 View details on SM00559 Search for proteins/transripts with this domain View external data on SM00559	317	460	144	4.9E-30	IPR006164 Show description in modal box View details on IPR006164 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.1600.10 View details on G3DSA:1.10.1600.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.1600.10	446	547	102	6.0E-18	–
Pfam	PF03730 View details on PF03730 Search for proteins/transripts with this domain View external data on PF03730	486	568	83	1.8E-17	IPR005160 Show description in modal box View details on IPR005160 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.720.30 View details on G3DSA:1.10.720.30 Search for proteins/transripts with this domain View external data on G3DSA:1.10.720.30	569	627	59	3.8E-9	IPR036361 Show description in modal box View details on IPR036361 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF68906 View details on SSF68906 Search for proteins/transripts with this domain View external data on SSF68906	580	625	46	2.2E-8	IPR036361 Show description in modal box View details on IPR036361 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF02037 View details on PF02037 Search for proteins/transripts with this domain View external data on PF02037	591	624	34	2.9E-8	IPR003034 Show description in modal box View details on IPR003034 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSiteProfiles	PS50800 View details on PS50800 Search for proteins/transripts with this domain View external data on PS50800	591	625	35	9.647	IPR003034 Show description in modal box View details on IPR003034 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00513 View details on SM00513 Search for proteins/transripts with this domain View external data on SM00513	591	625	35	1.3E-5	IPR003034 Show description in modal box View details on IPR003034 Search for proteins/transripts with this domain View on EBI InterPro Service

Gene function (GO predictions)

GO predictions are based solely on the InterPro-to-GO mappings published by EMBL-EBI, which are in turn based on the mapping of predicted domains to the InterPro dataset. The InterPro-to-GO mapping was last updated on April 27, 2020, while the GO metadata was last updated on April 27, 2020.

GO term	Namespace	Name	Definition	Relationships
GO:0000723 View details of GO:0000723 AmiGO InterPro QuickGO	Biological process	Telomere maintenance	Any process that contributes to the maintenance of proper telomeric length and structure by affecting and monitoring the activity of telomeric proteins, the length of telomeric DNA and the replication and repair of the DNA. These processes includes those that shorten, lengthen, replicate and repair the telomeric DNA sequences.	Subterm of View details of GO:0006259 View details of GO:0032200 View details of GO:0060249
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:0003684 View details of GO:0003684 AmiGO InterPro QuickGO	Molecular function	Damaged DNA binding	Interacting selectively and non-covalently with damaged DNA.	Subterm of View details of GO:0003677
GO:0005634 View details of GO:0005634 AmiGO InterPro QuickGO	Cellular component	Nucleus	A membrane-bounded organelle of eukaryotic cells in which chromosomes are housed and replicated. In most cells, the nucleus contains all of the cell's chromosomes except the organellar chromosomes, and is the site of RNA synthesis and processing. In some species, or in specialized cell types, RNA metabolism or DNA replication may be absent.	Subterm of View details of GO:0043231
GO:0006303 View details of GO:0006303 AmiGO InterPro QuickGO	Biological process	Double-strand break repair via nonhomologous end joining	The repair of a double-strand break in DNA in which the two broken ends are rejoined with little or no sequence complementarity. Information at the DNA ends may be lost due to the modification of broken DNA ends. This term covers instances of separate pathways, called classical (or canonical) and alternative nonhomologous end joining (C-NHEJ and A-NHEJ). These in turn may further branch into sub-pathways, but evidence is still unclear.	Subterm of View details of GO:0000726 View details of GO:0006302
GO:0042162 View details of GO:0042162 AmiGO InterPro QuickGO	Molecular function	Telomeric DNA binding	Interacting selectively and non-covalently with a telomere, a specific structure at the end of a linear chromosome required for the integrity and maintenance of the end.	Subterm of View details of GO:0043565
GO:0043564 View details of GO:0043564 AmiGO InterPro QuickGO	Cellular component	Ku70:Ku80 complex	Heterodimeric protein complex composed of a 70 kDa and a 80 kDa subunit, binds DNA through a channel formed by the heterodimer. Functions in DNA double stranded break repair, chromosome maintenance, transcription regulation, V(D)J recombination, and activation of DNA-PK.	Subterm of View details of GO:0032991 View details of GO:0044428

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Expression data

Expression pattern

Expression pattern of LotjaGi5g1v0365500.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi5g1v0365500.1