Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0022200
Transcript ID	LotjaGi3g1v0022200.1
Lotus japonicus genome version	Gifu v1.2
Description	DNA repair protein RadA like; TAIR: AT5G50340.1 DNA repair protein RadA-like protein; Swiss-Prot: sp\|P37572\|RADA_BACSU DNA repair protein RadA; TrEMBL-Plants: tr\|G7IHX8\|G7IHX8_MEDTR DNA repair-like proteinRadA; Found in the gene: LotjaGi3g1v0022200
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr3:2393528..2409194) extracted from Lotus japonicus Gifu genome v1.2.

CAAAATTCTATTTAAATACAACAGGCTACAAGTGGAACACCTCGTGCCTCGTACAATTATAATTTGAACTCTTGGAGCCC TGGCGCGGTTCATTTCCGAGCAGAACCTGCTGATTGATTTTGTCCACTGCCATGGCATAAACCCTAGAAACAGTAACCAG AGGGTTTATGCAAATGTGACAAAACCAACTTGGGTTTTCTCTGCACACCAAATTTTCAAGTTCAGATTTCTTCTTCTTCT TCTTCATCTTGTTGTGAGCATCAAATTTCACTATATCATGAGACTCCTCAGAACCATCTTCATCCAACACAAGCACCACC TCCTCCACCCCAAACGCTGCATTTCATCTCTCTTTTCCCACCCCTTTTCTTCAACCAGCGACGCCGACAATAAGGGCACC GGTTGGAGCAGTTACGGCGGCATTTTTGACCCCCCAGTTGCGCAGCAAAGACCAAATGATCACAGTGACGCCAAAGTTGG AAAGCCAACCCCAAGTGATCACAGTGACACTGAAGTAGAAGACATTCCGCGGGAGAATCCAACCCCAACTGGGAGGGTGA AGAAGGTGCAGGGTGGAGGAGGAGTGGGGAGGAAATCTGGGAAGGTGAAAACTCAGTGGGTTTGTATTAACTGTGGCCAT GAAGCAGGGCAATGGTGGGGGACTTGCGCCTCGTGCGACATGGTTGGCACTATGAAAGTGTTTCATGAGCCCAAGTTAGG TGATGCTGATGACAAGGCTAGAAATTGGTTAGCTGATGTTGTGGGCTCGTGGCTCCCGCAGAGACCGGATCAGTTGCGGC CCATGAAATTAGGCGAGGTTAACCGAGGATTTAATCAGCAGGATTGGAGAATTCCTTTGTGAGTTCCCATTTTTTCAGAT CATGTAGTATTTGGTTTGGAGCTTTTCTATGTAGTTTGTAACTAAGTGTTGATTCAAATTTTGTGGAGTAGTTAAAATAA ATAAAACTAACATTGAGGTTTGCAAGTGCTTATTAGGGTTTAATTGTGATCCACTGCAATTTTGCACTGACATCCAATCA TACTATGCTCTGTTGGAGAGACAATTATATTTGTTTTTAATTTTTATTAAAAAAAATGTATTTTCTGATTTGGGGAAGTC AGTTCGATGTCTGCGTAATCAAAATCTACACTAATAATTCTACATTTCTACTTATTAACAGATTGTTTCTATAAAAAGTT GTCATCTTTTTGTGAGTGAGTTAACTAGAAGGACTTGGTGTGTGCCAGAGCATTTGATCTTCAACAAAACTTGTGTGGTG GTTCTCAAGTTTTATACTTTGTAGTTCTGTTTGTTATCAGGTCTGGTCCTTTTGGAGATGAAGTTTCCAGAGTGCTTGGT GGTGGTCTTGTACCAGGTTTAGTCCAACTTACTTATCTATAGTGATATAGCAGTAGCTGTTGAGATTATTGTATTTCTTT TTCCTTCTCCATGTTTGTCGGGGTTTGTTGGATAAGTCAGGCCAGAGTTATCAGATGCATTATTTAACACTTTTTTTCAC TTAGAAGTTAGAAATACATCTGGTAAGAATTGTATAAACATTCCATTCTTCATAAATTTCATCAAGTTTAGTTTATCTGC TATGACTGTGGGCATTTATCAGAACTCTAATTTAATGAAGCCTAATGCTTTGAGTAAATTTTCTGCCTTGGCAATGTCTG TTTTGTGGATGGGACAAATTTGAGAGCTACTGTATATACTGAATCTGTGCTTGAATACTTCTAGCTGATCGTCTGGAAAG TTATAAAATCTTTCCTAATTCAGCTTGCTGGATGTTTTGGCACATAACAAATTTGATTATTCATGGAATTTTTTTCTTAA TTTTATCTATAATTGTGGTTTTGAAGGCTCTTTGACTTTAGTTAGCGGTGATCCTGGTGTTGGGAAGAGTACATTGTTGT TGCAGGTATGGATTTTATTTGGATGGTGAAACTGGATTTAAATGTCCAATGATCAACATTTTTTATGGATTTGTCAACGG TCATTAGTGCTTGGTTTAATTGTGACATTGGATTGGAAGGTGGCAGCAATGATAGCAGATGGGCACAAGGGTGGTGAAGC TTCTCCAGTTGTATATGTCTCTGGTGAAGAGGTTCGCTTTTAATACACCCCTAAATAGTTTTAAATTATGCTTTCCATCA ATAAGCTCATTGTCATATGATTCTTTTAATTTGTAATTGGAGTTTTTTTTCTTAATCTTTTTAACTTCTGTCACACACAC AAATAACTTCAGAGCATGCCATTTTGTCAAAATGACCATGTTGATAGTAAGATTGCGTGATCTACGAGCCTCGGCCTAGA AGCCTTCTCCAATTAAGGTCGCATGTAAGATCAGAAATTGGTACCATCGCAACTGGGATCATGATCTTGAACATAGGATC TTGGTTCGCGACCTGAATCAGAAAGACCCATTTTCTCACCGGTTTCTGACATGCTTTTAGATCTATTTCAGGTTGAAAAC ATTCACTTCACTGAAAACACTAACCATGAAAACCCACTATTAATCTAAGTATCTAACTGATCGAAGCTCTTCTACGCCTT TTTAATATTTCTGTGGTCTGACCTTCTATCTTCTCCTTCGTTTGGATGCCATTGATGAGAATGATGATTTCTTTTATGTG ACACAGAGCCTTCAGCAAATTGGCCACAGAGCAGATCGCCTTGGGATTAAATCTGATATTTATTTATATTCCAGTACTGA TATTGAGGTATTGTCTTGGGTTCTCTGTATTGGTTTTTCTGCTGCCATTTTTCCTGCTTTATTATTTATTTTAATACTTG AATTTTCATCAAAAAGTTATTGTCTTTGAACTATCCTGGAGTTTGTTTCACTTAGAACGTTGCTCTTAATTGCTTTAATT ATAATCAAGTCTCACTAATTGTCTTATCTTTTATTGTTTTCTCCATGATGTCAGGATCTATTGAAGAAAGCACAGTCTCT TTCCCCGCGTGCTCTGGTTGTTGATTCAATACAAACTGTTTATTCGAAAGCAATAGCAGCTAGTGCTGGAGGGCCTGTGC AGGTTTTCAGTCCACCAAATTTAATTCCCTAAGGGTATGCTTGTTTGGAGGGTTTTGGAGAAAATGGGAGGGAGCAATTT TTTATTTTTAAATTGAGAGGTATATAATGTTTACTAAATGAACAAAAGTTAGGACATTAAATTTATGCTAATCTACTACC TCTATTCCTTATTAACTGTCAACTTAATAAAAATTGTTTTTATATATCTGTCCACTTAGAATATCAAGAGAGCGTTTTCC GATGGAGCAAAAAAAAAAAGAATATCAAGAGAGCATTAACGGATGTTTTTTCATATAATGCCCTTGTGAGAAGAATAAAT TAGAAGAGATAAAATACATTTTAAAGGGTAAAATAGGAAAACAAATAATATCTTTCTTAAAGTTAACAAAATTAATTGCA TTTCTTAATATGTGTTTCTTCTATTTCTGGACAGTTCGTAAGTAACAGAGGGAGTATCATTTTATTTATTCCATGTTAAA AAATTATCAAATTAGAGAATGCATATTAACAGTAAAAAATTTACGCTCTCCTCACTTTCCCTCCAAAACTCTCCATCCTA AACATACCCTAAATATATTTTAAATTTACGTTGGATGTTTTAGCTGCAGTGTGCTATGTTTTCATCTTGGAATTTTTGAA ATGATGTCAGGTGATATATTTTTGAAGTTTATCTATTGATATTTATTAACTCTACTTTTTTTCCACACTAACTTCGTCTT TCTTGTATTGGTTGTTGTCAAACAAAGGCTTTTTTAAACAAGGATATACTCATGATTAGTAATTTTATGTTGCTAAAATT ATTTAATTGGTTAATTTAGTTGCTGAGACGAATGATCTACTTTCTCTTGCCCCACCTTATTGTTCTAATCTGCTCCTTAA TCAACAGCTGTCAAAATCCATTAACTATAACTGTTATTTTCAGTCAAATGGTGTTTCTGTGGTACATGACTTTTACAGGT GTGTGACAGGTGAAGGAGTGTACTTGGGCTTTGATGCGATTTGCAAAAACAACAAACATCCCAGTTCTTTTGGTGAGCAT GCATGCTCTATCAATTTTTTTGAATTATATTTAGATAGCGAGTTTTATCCATTTCTGCAGTTAATAGAATATAGAATGAA CAACTGAATATGTTAATTGATTTCACTAATTGAACTGAAGACATTCAGCTGTCACTAGTGTAGCACAATATAACCGAGGC ACTACTAATACACTGACATGCCCCCTCCAAACTCTGGGTTGGGAAGCAACACTATATTTATCAAACATCTATTTATCAAA CATCCTGAGTTTGTGTTGGGATTTGAAAAATCCTAAAAGCAGCCATAAGGTAAAAGGGGGAGGATAGGAGTAATTTTTAT ATTTTTGAATATTTAAAACTGAAAAATAAGCAAGAAGAGAGAAAGAGAAGAGATAAAAAGAGAGGGATACGAAAAACAAT CCGAAGGTATCCTTCTTGTTATGCTCCAATCAAGCTTCAGCACAAGTAGTTGTGACTCTGACTCACTCATGGAGGTAAGA TTTCTCAATTGATGGCTGCAACATCAGGATCATACTTGGCGGGAAGAGATTCAATGATAATGTCAAAACACACACGAAGA GGAATCAGATCACATCATCACAATTGATGAAAGTGCATCAACAATGGCCTGAATGGTGAGAGAAGTTAAGAAATTAAGCG GCCTCCTTTGGAAATGGATTGCAACTCAAGTCGAAGTTGCCGTGAGGCCCATGACCGAGTCTGCGTCAGATTGTGAAAGT ACTCATGAACACTATCTCACACTTGCCATGAATGGTGACAAGCAAGGGCACGAGGAAGGAAGAGAAGCCATGTGTAAAGC AGGGAGTCTTGTCCTCCCATGCAGTGTAGCTTGGATTCACTTCACCAAGATCACAATCCGATTTCGAGAGAAAAACAGAG GAATCCTTGGATTCACTATGACGCTTGTGACCTTGAAGAACACCTTCAACTTGAATTTCCATTACAGGATTTTTTTTCCC ATTGAGTCTCACTGATTTGATAAGAGAATGTCAGAGGAATGTTGGATGGAGTTGTGCGATTTTCTGGAGCCAGCAAAGGA GTCCGGCACAAAGGGATTCTTATTGTTAGGGGAAGCTGTCATTGAGCTCAGAGAATTTCCTTTGTTGTCCTAGTCCTCGC TTAATCTCCTTAGTCAGCCAACAATTATTTTCATATGCTGTTTTGGAAAAAATGGGAATGCCTTTTTATACTCTCTTTAT GATCCTAAAAGCTCATATGATTAGTATTGTTTGTGCGTAAGTTAATTTATATTTTTTTAAACTTTTCTTGTTGTTTCAAA TTTCAGATTGGACATGTGACAAAATCTGGGGATATAGCGGGGCCTCGTCTCTTGGAGCATATTGTTGATGTTGTTTTGTA TATGGAAGTTCGTACCTTGTTATCTTGCTCTTCTTTGAATATTTAACAAACATGTTTTTGCCCACTGCCTATCATTATAG TTTACTTGGCATTTTTTTTTGTAGCCTCTCTTACCCTTTTGGATATATAAGACTGTTCCTAGATTGTGAAGCCTTTATAT CCTACCTTTAAAGTACTATATTGTGGCATTGCAAGATAATAAGTTTTGACCAGGGGTATCTATTTCCAGTTTTGCATTTG CAAAATCACAATAAAATTTTAGAAAGGGGATGGTGGACGAATCACATGTTGATTTTCAGTGCAGATTCTACCTTAATGTT TGGGAGCAACATGCATTTAACTGTGGAAGTTTGAGGAAAACTTAGTTGTCTTTTGTTCAATACCAACCTTTTTTCAACTG CCTTTCCATGTTTGATGCAAGCTCCCTCAAGTAATGATGAAACAGTATTAAAAGATCCATAGTAAAACGTCACATTTGTA ATAAGTAAAAGGAGGAAGATATGAAATGGAAAAACACTAACATAGGCCACATAGAATGCCCTATTTGCGGTGGTCAAGCA GCGAAGAAATAGTCATTGGTGTTTGGTGACAATTCTTTTATTCCTTCCAGAAACTTTTTATGGTTACAGCACATGGATAT TGCTATCTCTACTCAAATTTTCTATAAATATTTGCTATTTGTTTTTTTATAGGCTTGCTATTTGTTTTTTATGATATTAC TTTAAAATCTCGTGTTATGTTTGCCTGGCATTTTATGTGCCTAATACTTATAGTTTGGTTCTTGAAATCACTGGTTTTCA TTACAAATTTCTCCTTGCCAATTGCTTATATTAATTCTCAGGGTGAGAGGTACACTACCTATCGAATGCTTCGGGCAGTA AAAAATCGATTTGGATCCACTGATGAGGTATGATACAAAATGAACCTCTTTGTGAACTTTTTTCTGATAGAACTTTTCTA TATTTGTTTTGCCTGTGTTTATTTTGTTGGTCATTTTGCTTGTATTTGCTGAACTTATATAAATTTTGCAGTTATCTAGT TATGCTGACTGTGCTGCTACTTATTTAATTATGCAGATAGTTAATGAATTTATATGAATTTTATCTAAATGTGTTAAGAT ACAGTATTGACAACCGTCCCAAACGTATCTTCTGCGAATGAAAATTATATCCCATTGACCTAAGAGTAAACAAGTTCAAC TAAATAGAGATTAAAGAAGTTCTTGTACTATTATCTCAATTTCTTTGTGGTATTTGGGTTTCTACTTTACCCCCATCTGT AATTATGATGATCTTCAAAAATTGGTGTTTGATCCATGCTGTCTTCGACTTGTGTGAACAGCTTGGAGTTTTTGAGATGT CACAATTAGGATTCCGGGCGGTTTCAAATGCCAGTGAAATGTTTCTCACGGAACAAGACTCTGGTTCTGATGTTTTAGCT GGGTTAGCTATTACTGTAATAATGGATGGTTCAAGAGCTTTCGTGATTGAAATTCAGGTAATTTTCTTTTATCGCTGTTG ATATTTATAAGTTTGTTTATCTAATATTATCATTGAAAATAAGATTATATTTCCTTTTTAGCTTTTGAGATAAATCAATC ACTAAAATTTTGTGATCTAGGTATTTGGTAGGGAGAAACCCCACCAAGCAAAATCAAAGAAAGAAAATGAAAACAAAATT AAGAGAAGAAGATAAAATGAAGGCTTTTGCCAAATTTCTTGTTAATCTTTCATAATGGAATCCATACAACTTATACTAAC TATCCACTCTAAGGGATGAAAGGTGACCTTACAAGTGGCACAATCCTAAGTAATAGAATATTCTAGAACATGAATCTAAA TAACAAACTAGAAATAAACATAGAAATAGTAATAACTAATTATAATTGGCTTAGTTACTTTAGGCCCATAAGAGATGCAG CTTTAGAAGCCCATTAAGGATGCAACCCTCTACTATTACCATCCTCTTGAAAACATCCTTGTCCTCAAGGATGAGAAATA GACTATCCAAGCAATAATAAGAATCCACTCAAGAAGTGTAGTGCTATGTGTCCAAAGCCCATGAAAGGAGTACAAGGTCT GTGAAGTGAACTCTGTCCTGAAGCAAACCAAAGGGTCCCAAGCCAAACATGTCTTGTCCAATTCCATTTCAAGAATTTTG AGTTGGGATTGAGAGAAATAAGACCAAGAGTCACGTCCAACTGCCAAAGATGTTCCAATGGACTTGTCCACAACAATGCT ATGCCATAAAAATCCATCACCAATAGAGTGACCTTGCCATAGAGTGACATGTTGAAGAAGATGTTCCAATTTCACCAAAC AGAACCACAAATGGAGAACCAGTTGAACCTCACATAAGTGGTATGCTTGAAAGCCATGTAGAGGTTCATGAGTCACAAGT GACTTTTCAGCTAAAATTCCCGGATCAAATGGTTTGCAAATCAACACAAGTAATTCTGATAATGCATTTTCCAAGGCTAG AGACAGTAAGGGAATAAACAGCTTGCCTAGGATACTTGGATCAACATGCTGGAATGGAGAAGTTAAATGAAAATCAACCG CAAGGAATTGGTGAGGGGCAAACAGTTTAATCCCACAACATATAGAATGAAGAGTCCTTGACAATGCAAAACAGCCTGAA TGTGTCTCAGGAAATAAATTTACCTCCATAAAAAGCTCACTAGAGGCATCTGAGGGAGTGTTCTCTGACTTTGCCCCTAA AGGATACACCCACAGCAAAACTAGACCAGATGAGTGGTGCATCCCATTAACAAAATGATTTGCAGATGAGTGATGCAAGT CATGCAACCCTCTACCAGTATTTGAATTGTGCTTAAATTGTGACCAGGTTATGAATGATTTAAATCCTCAGTAGGGAAAG TATATTCCTGTAGGAATAAAAAGGGCTCTGATGATAAGTTTAAGAAAAATCCCTCCCCTCCATTCCCCTCAAACCAAGTT GAGCACACTGTTACCATCATGTATCTATTTTACAGATCTCTGAATACACCTGAATTTGCATCATCTGTGTCTTGTACTCT TCTAGTTCCTCTTTATTATTTGTACTCCAACACCCTTTAAAAGATATTATATAGATTAGTTTTCAAATTTATTTTGCAGG CACTTTGCCTTCCAAAATCCTCTGTATCATCTCCACAGCTAGTTGGGATCCAAACAAATAGAGCTAATATGATCAAATGT GTAAGTTATTTTTGATGTTTTTACTATCTTTCCTTTCATAATTGCACTGGTTGGCCATTTTTTTCTACTCTATCTTAATG AGAAAATGGATGCTTGTGTGGGATATTTATTTTCTTGTTTAAAATATATGATCTACTGCGATTTAAATTTGTTCAGTTGA TTAGTGCTCTGTTCATTGAACTGTAGGTTCTTATAAAGCAAGCGGGTCTCCATCTCCAAGAAAATGTAAGCTGGGGGGTT GTTACTGTAATACCATAAATTTTCCTAATTCTAATTGCTTATCCTTTACCCATCCTATTTTACACTTATGAGCATGGTCT GCATCTTTGGTTTGAGAATTTAGACTTACGTGTGCAGATAGCTCAGTGAACTTAGAAGGCATTTGATAGGTGCAAACCAC AACAAATATAAATATTCACTTCTGGCTTGTCTTTGTAATCTGTAATGGTTCATTTGTGAATTCTCTTATCTTCCAAAATA GTTGTCTCATTTTCTGTCACATCCAAGTCTGTTTAATGCTTATAATGTAACTGTTGGAAGTATTTCCTTTTTGATATTTG TATTATATTTTATTTCCTTATCTTGCCTTTGTACAACAGGTTTTGTTTTTAAATGTTGTTGGTGGAATGAAATTGGAAGA GAGTGAGACTGCTGGAGATCTTGCAATAGCAGCTGCAATTTGCAGCAGGTTTGTGTTCTAATTTATTTAGCAGCTGCAAT TTGCAGCAGGTGTGTGTTCTAATTTATTTGAACATCCTTGTTCTGACAATGTCTAATGATTTCTTTGCCAGTATAATATT CTCAATTTTTCATTTTTCATATCATTGGTTAAATAACTTCTTTTTTCCTCCCCCCACCCCGCAGTTTCTTGGAGTTCCCT ATGCCAAAGGACATTGCGTTCATTGGTGAAATTGGCCTTAGTGGAGAGCTTCGCACGGTGAGCATGTTTTTTTTAATATT TAATGTTGCTATTTGCTACTATGATATTTAAAGGCCAATTAAGAGTCTTCAATAGCATACTGGTGTGCTGACTGCTATAT TGAAGGGCTTAATCATACCAATTTGCACATCCAGCTATAAAAGCCTGATCTTTGTGAGATTTTCAGATCAGTTGCTTGTT AGATCTCATGTGTTGTCTTTGTGGCATTTTCATATTTCTAAATAGATATGAAACTACTGCAGAGATTAATTTATTAAACA CCAGTGTTCCTTGCATTTGCTTATCTTTCCTCAAAATCAATTCTAGCACCTAGCATCTTCTCTCCAGAAGTGATTTTGGC CTTAGTATCAAATCAATTGTAGAAGGATTTTTCAAACATGCACTAATTGGTTTTAGTTCTGAAATAACATAACTTCATAC GTCAAAGTCAAGTACTACCTCCGTTTCAAAAAACTCTCCAGTAGTGTTATCAAATATCCATAGCAGCGCCGTAGCGGTTT TTTTGGCTTTCTGCCATGGCCGATATCCCGCCATATGACCTTCATTTCCGCCATTATTTGTCATGTGTGGTGGGATTTTG GCTTTCCACAATTAACAACAATGCTCTCTAGAAAGAGAAGAAATACGCAAATTACGAAATACAATTAATATTGATAACTT TTTAAAACATATTATTTGTTTTTCTATTTTACCCTTTAAAGTGTATTTTTATTTCATTTATTTTTCTCATACTGGCATTA TATGGAAAAATATCAATTAATCCCTTCGAATTCCTTGTGGGCATATATTATGAAACAATTTTTTTTTTGTTGCTTTAAGT GATTATTTTGAGAAGTTAGTTGCCCCATCCTCACCTATGCCTTGAGAGGTTGTGATTGCAGCACTGTGGACCCAATTGCC GCTAAAGCTGGGCCCAAAGAACTGCTCTTTTCTTTCATTTATGAAGTCTAAATGTGACAAATTGTTGTGTTATTTATTTA TTTTATCAAGCCTAAGCCTAGTTTGTTTGTTTATTAATTTATACAGGTTCCTAGAATTGAGAAAAGGATACACACAGTGG CAAAGCTGGGTTACAGAATGTGTGTAGTGCCGAAGCAAGTTGAAAAAGTTTTAGGAACTGTAGGTATAGAAAACATGCAA GTTGTATGTTGCAGGAATCTGAAAGAGTTTATTAACACTGTGTTCAGATGAGATAATTAAAAGAAGCTCCAAGTGTTGTG TAAATCTCTCTTTTTTGGTACCTATGATGTCAAATTCCCCCCTTCAACAGGTTGTAAATATAGGTAATCATCATGGCTTA AGTACTGCATGAGATGCAATGGATTTGGTTTTATTGTGTCAATTAACTTATGATTCTTATCTCTTACATGCAAGTTAAAT TTGCTGTTGTAAACTTCAGCCACCAATATCAAAATCATCATTACTAGAATTTAAGATGTAATTTCTTTTTGGTATCAAAG ATGTTTTGAAGGTTTTATCCTGTTTAGTCATTTTTGGTGATCTGTTCTTTCATCTGCTTCTCCTGTGATATCTTGAGGAT TCGGGAAGCTTGGCTGATGGGTTGAAGCCAGTAACCTTGCCCACATTCGGTCGGTTATCACAACCTTCTTTTCTCCCTCA TTTATGAGCTGCACAAAAAAAAAGTTTTACTTAGTGTGAAGTGATTATATAGTTCAATTCTTGGATTTGGCTTAAACCTA GCTCATCCTCAAAAGCTAGCTTAAATGTGAGGATTGTCCTCATTTATAAGGACTTATTATGAGGCTTTAACACGCTCCAT CGTGCTCAGGAGTAGACATAATGATCAAAATAAGCACCAAGCAATTGGCTTGATCATTATGCAACCTATGAATGTCTTGA ACAGAGGTCTGTTAAGTGGATAACAAGACACAATTGGTGCAACAGCAAACAGGTTTTGCTAGTGACAAGAACTTACATGA AATGGGATGTAACAATTTCTGCCATTAACTGGACCCACTGTGAAGCCTGTATATCCAGCCATTGCACCATGAACAGCACT TTGGGCAAGGAGGGTGCAATGCACATTATCAGATGCATTACTTGGAATAGCACGGATCATGTAAGTAGGATCTGTCGGAC AATATTATAATTTCTCACTTGTTTTTTCTATTTGAAATAAAAATAATATATACATATATTTATATATTATATATATAGAG AGAGCTCACCAATATACTTGAGATTTATAGTCATTTTTTGACATTTTGCAAAGTGATCCTGCAACAGAAATAAATATTCT AAATGTAAAAACAAAGTGTAAAATTCAGCTGTATGAAAATATATTCATTCAAATACAGAACTTGTTCTTATGAATTTGGA AAAAAAAAATTCAGAATTTCAAAAGCAGCCAAAGCAAGTTAGACCACTGTTGATACTATTGCTATGGTGCTTAATATCTT ATAACCTATAACAGTTGTTAATAGCTTCATATATCTGTCTATGTTGCTAACTTGAAAATACCCAATGAATTCTACATTTA ATCACATGGTTTTCCCATAGATTCTTGGGCTATCCAACTTCATAATTGTCTACCTTAGAAGCTCATGATTTAACTACAAG AAACAGGTTGTCTAAATGACCCATAAGAAAGTTTGAGTTAAATAACTCATCATTTAATCACATTGAAGATAAGTGAGTTA AAATTTTTATATTTTATTTATTAATTTATTTATAAAAAATCATATTGATCTATTGAGTTGTGAGTTAGTAACCCACACGA GTCATTTAGACAATCCACAAGAAACACATCTACCTCAATAGTAAAGCTAAACCTACAGAGTTTTAACCTTAATTTGTTGG GATAACCACAGACCAACATCATGAGGTAACTCCATTGGAGAAGCATCTCTCTTATTCATGTTAGATGAGTTGTGGTTAGG AAGAAGCTCTTGTCCTGCACCTTCAGCAATTACTATAACCAAGTGCCCTTGTTCTCTAAGTCTTTTCTCAATAAACTCAA AGAGTCCACCTGGACCCTCAAGGTAAAAGTGTGATTCTGGAATCAAGCAACAGTCCACATCTCTGCTGGCTAGAGTTGCA TACATGGCTATCAATCCTGCATCAACATGTCATCATATGGTGAGCATAACAACTAATTCAAGACAAAACAAATATTAAGA ATGACAAGAACATTGTCTCTTGTATTGACCTGAAAACCAAAACTAGACCTTCCATAGACTTGTATTGAACGAAAAGGATC AGACATGAATGCAATATTCTTATAATTCAGGTTAGATCTAACTATTTTCTAAAAGCTATAGTTTAGAGGTGATGATTGCT CTTATATGAACTAATTTTGCCATATCTAGTCAATGTCAGACCTTAACACATTCACTCACACCCAGAGAACTCGACATTGG AGTATGTAATCTGCAGGTCTGGACATATTCGGGTGACTCATGTGTGAGTGGTCTCTAATAAACGGATTTAAGATAGACTC TTTTATCACTATTGGCTTGAGTTGAGAATATCTACCACCTCGTGATCCTAGTGACCTTACTTAAGATAAATCAAACATGT ATCACTTGAACCAATCACAAGTTGAATCAAACATGTATCACTAAACAATTATCATAGCAGCATACATACAAGTACATTCT CTAATCTATACTATATTATTATGATAGCATTAGGCTGAAGTTGTAAATTACCAAAGGAAGGAATAGAGCTTACCACTGCA ACGCCCCATTAACTTAACAACACCAATACCATTCTCAGTGCTCTCTGCTTCCACATGGGCAGAATCGATAGCCCTTTGTG CCTCTTCAACAGCAGTGTCGAAACCTATTGACTTATCAATAACCTGATTCATATAGTAATGACATTAGTAGGTGTTTTCA AATGGCATATAAATGTATATGATTTTCACATATACAATCAGTGTATTCTTACGGGTATATCATTATCAATAGTTTTTGGA ATTCCAACTACTGCAACTTTCAAGCCTCGTCTTCTAACTTCCTGCATAAATAACTAAACCTTCTGAGTACAGATTTCACA GGAAAAAGTTATGGAGAATTCTAACATCTACCACTGAGTAGATTGTGTATTAGTACACCACTTGTAACTTGTTGGCAATT ATATGCAAAATGGTTGATAACTTATCACTAAAGTTTGTAACCATATCTTATGCTTGTACAATATCTACTATGACCTCATC AAGCTAGGGTGCGTTTGGTTAAACAGTTTAATTAAGCGGTTAAGGTAATGAGCCCTTATGACATAAACGCTTATTTATAA GCTCATAACAAAATGCCAAGATCTGCAGAGTGAGTATCAGCACTCAAATGGCATCAATTAATTACCACAAAAATCATAGC TGCCTCCTTTTGAGTTCCATATCCTCCAAGTATATAAACCTGGTTAATGCCCCTATCCTGAATGCTATCGACAATCTTTG ATGTATCATGGCCTCCATATGATGTCCCAAGAATGGTTCCACCACGTTTGTGGATATCATTGACAACCTTTGGTGTTAAA GGAACTGTGTTTCTTGAATAAAAACCTCTATACCCTCCCTGCATTTAACCACACACTAGATTTTAATTTGATGAAACACC TTCACCAAAAACTATCCAATACTTGTGAAAATTTTCAAACAAATATGGTGATTAGTTCATAAATTGTACCTCTATTCCCT GAACTCTGTGCACACCATACATATTGTACAAGCCACAAACTATTTCTCTTATCACTGTGTTCAGACCAGGACAAAGACCT CCACATGTGACAATACAAGCATACACTTCCTCTGAATCAAAATATACCTGGACAACATTCAAATCACTATTGTCTCCCCA TAAATTACATCTTTAGAAATCAGTTTCTACCCCCAAAAAAAAGCAAACCTTCTGAGCAGGTCCGGCACGCCGGAAATGGG TTCCTCTGGAACTATTTTTATGCACCACTATCTACACCCAAAAAAAAAATAGATTCTTATGAGTTATGAACAATTTAGTA GATGTTTGGTTTTACGATTTGCACATAATCTAGCATGCGTTTGTGCCGAAGCTAAGACTTGAAGCTTCTAACCAGAAGTG ATTCTAGAGTCTTTTATTGTGAAACAAAACATACTATTGGATAGAATAAGTGCAAATGGTAGACTATGTCTTAGTGCATG TTTAGAAATCTTTCTTACAATTGATTTTAAAGCCAAAATCAATTATAGGCAGAAGCTTTTATAAGTAGTTTCTGAGTGTT AGAAAGAAAAGCCGGTCCAAACATGCTATTAGGGAGATATGAGAATCAAAAGAACAAAAGGTCAATAGTTACTAGCCTGT TGCGCAACTGTATCATCCTCATTCACATAGTACTGCCTGTGGAAACATAAATTAACCAACTTGATCACTGAATTAACAAT CTTATAAGCACACAATCCAAAATACAAAATACAGTAACTCCAGAACCTACACGCTAATAGTAAACTAACACTTAAAAGTA CATAGTAACTTACTTAACAACTGAATAGGAAGGATTGTCTTGTAAAGGGTCAGGATATGTCTGCATCATGATCAATCAAC AAGAAAGCAAACAGGAAAAATCAAACACATGTAATGAATATAAATGCATCAATCCACTAAAACAACACAAGTTCATTTGA TCATATATCAACCATATACAAGACTAGCAGAAATTAGAGAATTACAGGGAGATGAGGGATGTAATCAGAAAGGTGAGGAA CATCCTCAAGTACAAAACCAGAGTCTGCATCTGTTTTGATGTTGTTGTTGTTGTTGGATTCTGTAATAACAGAATTTGAT TTTTCCATGACTCACTCAATGGTTGGCTTTACCTCATATCCCTCTTTACCAAACTTATATATATTTCATAACATAAGCAA TGATATGATATTATAACTAAATAATAATCATAATTTGCATCATGTGACGGACTTTACGTTGGAAACACCTAAGTTTCCAT AGCTGAATTGTTGTTGTCTGCGTGAGAATTATTATTCGAGCAGGAATATTCACGGTTTAATTAAAGTGTGTACTATTTAA GCAACTTTATATCTCTATTTTTTTTTGTTACAAGAGGAATCCAACTTCATATCTATTTGACAACAAA

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0022200.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAGACTCCTCAGAACCATCTTCATCCAACACAAGCACCACCTCCTCCACCCCAAACGCTGCATTTCATCTCTCTTTTC CCACCCCTTTTCTTCAACCAGCGACGCCGACAATAAGGGCACCGGTTGGAGCAGTTACGGCGGCATTTTTGACCCCCCAG TTGCGCAGCAAAGACCAAATGATCACAGTGACGCCAAAGTTGGAAAGCCAACCCCAAGTGATCACAGTGACACTGAAGTA GAAGACATTCCGCGGGAGAATCCAACCCCAACTGGGAGGGTGAAGAAGGTGCAGGGTGGAGGAGGAGTGGGGAGGAAATC TGGGAAGGTGAAAACTCAGTGGGTTTGTATTAACTGTGGCCATGAAGCAGGGCAATGGTGGGGGACTTGCGCCTCGTGCG ACATGGTTGGCACTATGAAAGTGTTTCATGAGCCCAAGTTAGGTGATGCTGATGACAAGGCTAGAAATTGGTTAGCTGAT GTTGTGGGCTCGTGGCTCCCGCAGAGACCGGATCAGTTGCGGCCCATGAAATTAGGCGAGGTTAACCGAGGATTTAATCA GCAGGATTGGAGAATTCCTTTGTCTGGTCCTTTTGGAGATGAAGTTTCCAGAGTGCTTGGTGGTGGTCTTGTACCAGGCT CTTTGACTTTAGTTAGCGGTGATCCTGGTGTTGGGAAGAGTACATTGTTGTTGCAGGTGGCAGCAATGATAGCAGATGGG CACAAGGGTGGTGAAGCTTCTCCAGTTGTATATGTCTCTGGTGAAGAGAGCCTTCAGCAAATTGGCCACAGAGCAGATCG CCTTGGGATTAAATCTGATATTTATTTATATTCCAGTACTGATATTGAGGATCTATTGAAGAAAGCACAGTCTCTTTCCC CGCGTGCTCTGGTTGTTGATTCAATACAAACTGTTTATTCGAAAGCAATAGCAGCTAGTGCTGGAGGGCCTGTGCAGGTG AAGGAGTGTACTTGGGCTTTGATGCGATTTGCAAAAACAACAAACATCCCAGTTCTTTTGATTGGACATGTGACAAAATC TGGGGATATAGCGGGGCCTCGTCTCTTGGAGCATATTGTTGATGTTGTTTTGTATATGGAAGGTGAGAGGTACACTACCT ATCGAATGCTTCGGGCAGTAAAAAATCGATTTGGATCCACTGATGAGCTTGGAGTTTTTGAGATGTCACAATTAGGATTC CGGGCGGTTTCAAATGCCAGTGAAATGTTTCTCACGGAACAAGACTCTGGTTCTGATGTTTTAGCTGGGTTAGCTATTAC TGTAATAATGGATGGTTCAAGAGCTTTCGTGATTGAAATTCAGGCACTTTGCCTTCCAAAATCCTCTGTATCATCTCCAC AGCTAGTTGGGATCCAAACAAATAGAGCTAATATGATCAAATGTGTTCTTATAAAGCAAGCGGGTCTCCATCTCCAAGAA AATGTTTTGTTTTTAAATGTTGTTGGTGGAATGAAATTGGAAGAGAGTGAGACTGCTGGAGATCTTGCAATAGCAGCTGC AATTTGCAGCAGTTTCTTGGAGTTCCCTATGCCAAAGGACATTGCGTTCATTGGTGAAATTGGCCTTAGTGGAGAGCTTC GCACGGTTCCTAGAATTGAGAAAAGGATACACACAGTGGCAAAGCTGGGTTACAGAATGTGTGTAGTGCCGAAGCAAGTT GAAAAAGTTTTAGGAACTGTAGGTATAGAAAACATGCAAGTTGTATGTTGCAGGAATCTGAAAGAGTTTATTAACACTGT GTTCAGATGA

Download CDS Sequence

Protein sequence (LotjaGi3g1v0022200.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MRLLRTIFIQHKHHLLHPKRCISSLFSHPFSSTSDADNKGTGWSSYGGIFDPPVAQQRPNDHSDAKVGKPTPSDHSDTEV EDIPRENPTPTGRVKKVQGGGGVGRKSGKVKTQWVCINCGHEAGQWWGTCASCDMVGTMKVFHEPKLGDADDKARNWLAD VVGSWLPQRPDQLRPMKLGEVNRGFNQQDWRIPLSGPFGDEVSRVLGGGLVPGSLTLVSGDPGVGKSTLLLQVAAMIADG HKGGEASPVVYVSGEESLQQIGHRADRLGIKSDIYLYSSTDIEDLLKKAQSLSPRALVVDSIQTVYSKAIAASAGGPVQV KECTWALMRFAKTTNIPVLLIGHVTKSGDIAGPRLLEHIVDVVLYMEGERYTTYRMLRAVKNRFGSTDELGVFEMSQLGF RAVSNASEMFLTEQDSGSDVLAGLAITVIMDGSRAFVIEIQALCLPKSSVSSPQLVGIQTNRANMIKCVLIKQAGLHLQE NVLFLNVVGGMKLEESETAGDLAIAAAICSSFLEFPMPKDIAFIGEIGLSGELRTVPRIEKRIHTVAKLGYRMCVVPKQV EKVLGTVGIENMQVVCCRNLKEFINTVFR

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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	PTHR32472:SF19 View details on PTHR32472:SF19 Search for proteins/transripts with this domain View external data on PTHR32472:SF19	2	588	587	1.9E-287	–
PANTHER	PTHR32472 View details on PTHR32472 Search for proteins/transripts with this domain View external data on PTHR32472	2	588	587	1.9E-287	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	43	107	65	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	62	89	28	-	–
TIGRFAM	TIGR00416 View details on TIGR00416 Search for proteins/transripts with this domain View external data on TIGR00416	109	579	471	1.3E-136	IPR004504 Show description in modal box View details on IPR004504 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01874 View details on PR01874 Search for proteins/transripts with this domain View external data on PR01874	116	140	25	5.1E-62	–
ProSiteProfiles	PS50162 View details on PS50162 Search for proteins/transripts with this domain View external data on PS50162	191	344	154	22.817	IPR020588 Show description in modal box View details on IPR020588 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	200	408	209	1.9E-37	–
SUPERFAMILY	SSF52540 View details on SSF52540 Search for proteins/transripts with this domain View external data on SSF52540	201	395	195	3.36E-42	IPR027417 Show description in modal box View details on IPR027417 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01874 View details on PR01874 Search for proteins/transripts with this domain View external data on PR01874	204	232	29	5.1E-62	–
Pfam	PF13481 View details on PF13481 Search for proteins/transripts with this domain View external data on PF13481	206	348	143	4.8E-18	–
SMART	SM00382 View details on SM00382 Search for proteins/transripts with this domain View external data on SM00382	212	370	159	6.4E-12	IPR003593 Show description in modal box View details on IPR003593 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01874 View details on PR01874 Search for proteins/transripts with this domain View external data on PR01874	300	324	25	5.1E-62	–
PRINTS	PR01874 View details on PR01874 Search for proteins/transripts with this domain View external data on PR01874	339	367	29	5.1E-62	–
PRINTS	PR01874 View details on PR01874 Search for proteins/transripts with this domain View external data on PR01874	374	400	27	5.1E-62	–
SUPERFAMILY	SSF54211 View details on SSF54211 Search for proteins/transripts with this domain View external data on SSF54211	381	588	208	2.84E-27	IPR020568 Show description in modal box View details on IPR020568 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.230.10 View details on G3DSA:3.30.230.10 Search for proteins/transripts with this domain View external data on G3DSA:3.30.230.10	420	589	170	7.0E-13	IPR014721 Show description in modal box View details on IPR014721 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01874 View details on PR01874 Search for proteins/transripts with this domain View external data on PR01874	450	473	24	5.1E-62	–
Pfam	PF13541 View details on PF13541 Search for proteins/transripts with this domain View external data on PF13541	493	559	67	3.6E-8	–

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: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: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: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: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:0008094 View details of GO:0008094 AmiGO InterPro QuickGO	Molecular function	DNA-dependent ATPase activity	Catalysis of the reaction: ATP + H2O = ADP + phosphate; this reaction requires the presence of single- or double-stranded DNA, and it drives another reaction.	Subterm of View details of GO:0042623

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Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0022200.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi3g1v0022200.1