Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi4g1v0112600
Transcript ID	LotjaGi4g1v0112600.1
Lotus japonicus genome version	Gifu v1.2
Description	DNA topoisomerase 2; TAIR: AT3G23890.1 topoisomerase II; Swiss-Prot: sp\|O24308\|TOP2_PEA DNA topoisomerase 2; TrEMBL-Plants: tr\|A0A151TWJ6\|A0A151TWJ6_CAJCA DNA topoisomerase 2; Found in the gene: LotjaGi4g1v0112600
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr4:16088708..16102613) extracted from Lotus japonicus Gifu genome v1.2.

AACTAGATGATATATTTTGTAATATGTAATGAAATAAGTATATTTAACTTTAGAAACACTCCGAGGTTAAAATATTTCCA AACACTCATGCTCACTAACACACTCAGATCGAAACCTCTCCTCTCACATGGCCGCCGCCCTCTCATCTCACCGACCGTGC ACCGCCACCGCTCCCTTCCACGCCCAGCCGCCGCCGGCTGTAGGTCCCCTCTCCCTCTCTCACTCCCAGCCGCTCTCTTG CTCTCTCTCTCCCTCTGCAGATCTTCAACCGCGCCCAAATCTCCAGATCTCGCGCGTCCTCTCCCTCTGCCACTGTTCCT TCGTTGCACCGCCGCTCAGCCAACGCCTCCTTCATCTTGTGTGTCGAAGCCACACACAGCAACTTTCAAACCCCTTCGCG TGTCTGACTCTCACATGGCCGCCGCCTTCTCCTTCTCCACCGCTCGTCGCTCGCAAACCACCACAAGCTTAAGGGAAAAC TCGTGAACCCTCATCCTCCATCGCCGGTTAACGAAAACGAAAATTTCTCAGGTAATTGAAATTCTTCTTCTTCCGTTCAC CATTTCAAATGCAAATAATTTATAAAAAAAGCATACTTTAGGAGGAAGTTGATACAATCATTAGAGTTAGTAAAATGAAA ATATAGACCAAGTTGTTTAGTTAAAAAGTATATGATTGCAGAAGGAGAAGTTATTGAAAGTGATACCTTGTCTCTTACAG AGGATCGGAACTAGAGGAAAAAGTTGGCTAATCAAGTTGCATTTGACTACTTTTTATTCATATATTTACTGGTTTTGAAA CTTATTGACTGCTTTCTTTTGTCATTCTAAATTGCAAGTTATTGGCTCATGGAATTTTATGTGATGATATGGGGCTTGGT AAGACACTTCAAGCATCAGCCATTGTAGCCTCTGATATAGCAGAACATCAAGGGAATGGTGATCTTCTGCCATCTTTAAT AATTTGCCCATCAACACTAGTTGGGCACTGGGCCTTTGAGATAGAGAAGTATATTGAGGATCCAGTGATATCTAGTCTTC AGTATGTTGGCTCGGCACGGATGCTTCTTCGAGCTAATTTGTGCGAATATAATGTCATTATAACATCATATGATGTTGTC CGTCAAGATATTCAATATTTGGGGAAGCTGTTATGGAATTACTGTATTTTAGATGAAGGGCATATAATCCAAAATGCTAA GTCTAAGGTTACACTTGCTGTAAAGCAGTTGAAAGCCCAACACCGCTTAATATTGAGTGGGACACCAATACAGGTTGGTA ACGAGTTTATTTTCTCGTTAAAGGTAAAACCTATGCCACTAATCTGATAAGCACTAATCTGATAAACGTGTTACCTTTTC CTGCAGAATAACATAATGGATTTGTGGTCTCTTTTTGATTTTCTGATGCCTGGTTTCCTTGGAGCAGAAAGACAGGTACG TTTTTGCGCTCATCATTTTAATGGACGATGTTGCAAAAATTGTTGGTTTTCATTTTATCATCCATTTTTATTGTTGTCTC ACCTGGCATTCATTTAATTTGGATTTAACAGTTCCAAGGTACATATGGAAAACCACTTTTAGCTGCTAGAGATCCAAAGC GCTCTGCTAAGGATGCTGAAGCAGGAGCACTTGCTATGAAGGCATTGCATAAGCAGGCGATCTTCTCTTGTTATTTGTAA AAACCTGCTTTTCTCTTCAGATAAGTTCACATACTGCTTGTGTCATAATAGTCTGTTGTATTAGGCTATGAGCTATTTTG TTGGCTTAGTTGTTGTTGCTTCTGTGACTGTAGATTCTGTTAGTTAGCTTTACATTCAGTTATGATATAGCTCTGTCTAG ATATGGGTATTGGAAATGGAGAAGTAGAAGAGAATTGAGAAATGCAAAAACTTCTTATTACTCCGACTTTGGTGAATGTG CAAATTCATAGTTTATATCACTCAGTAGAAACTTATCCTCTAAGCTAACTAATCTATCTAACATGACAGCTATTACTAAT TCTGTTAGAGACTTTTAACAGATTACACAGTAACTAACTATTGATTAATTGAATAAACAGCTCAGCTGTATACTCGAGCA ATGTGCATCCTGTAATCACTGTGTCAGAATGAATGATATTTAAATTTCATTTTTGTTCATAATATATTCAGTTCTTTAGA ATTCTATCATTATTGCACATTTGCACTGCAAAATTGTGTTTTGTCTTCTAACTAGATGCCTCTATCCTCTAGGTTGTGCC TTTCCTCCTTCGAAGGACAAAGGATGAAGTCTTGTCTGATTTGCCGGACAGAATAATTCATTACATATACTGTAATTTGG GCGATGTACAACGTAAACTTTATGAACAGTTTTCTGATTCTCCTGCAAAGCAAGAAATGTCGTCTGTTGTAACGACAAAC GAACCTGCTGCAGCAGAAGGAAGTAGCCATACTACTAAAGCGGCTTCACATGTTTTCCAGGCAATATGATTTTTTTTAAT AATCAGCTAGTTATTGTTTCATCAGTTTGTTTTTTGACGTCCAATCCATTCCATGCATCAGGCATTCCAATACTTGCTAA AACTCTGCAGTCATCCGTTGCTTGTTGTTGATAGGAAGATTCTAGATTCAATTCCTGGCTTATTCCCAGAACTGTTTCCT GCTGGCTCTGATGCCAATTTAGAACTTGGGAATCTCCGTCACTCTCCAAAATTAGATGCTCTTTTTGAAATTCTTAAAAA GTCTGGAATTGGAGTTGATGCTTCAGGTTCTGAGGCTGCTGTTAGCGTTGGGCAGCATAAGGTCTTGATATTTGCTCAAC ACAAGGTAAATATTACCCTTTTCTTTAGGGCTAATTTATTTCTGTAGATTAATAAATGGTTTACTGAATTTGTCATTTAA CAATAGCTTGTTTTGCAGGCTTTTCTAGATATAATTGAAAAATGTTTGTTTCAGACGCACATGAAGAAGTAAGTTCCTGG AACTATCATCCAGATAATCATACTAGATTGGTTGTTTAGTTCACATGCTTGCGTTTAAAGCTTTTAGATAAATTATAAAA CCTTTGTTAATGAACAGATGTTGCATGCTTTTTCATGGAATTATGCTGCTCTAAATCAATTGATTTTGATTCCAATTGAT AATGACAATTCTCATTTTTGTTATTTCATTAGTGTCAAATATTTGAGGCTGGATGGATCAAATGAGCCAGAAACGCATTT TAAAATCGTCCAAGATTTCAATTCAGACCCTAACATTAATGTCTTGCTGCTTACAACACATGGTAACAACTTTTTTACCT TGTGCCAATGTATTTTTCTAGTAATTGTAGCTTAAGTTTTTTAAATTATATAAAATTCTTTATTTGCAGTCGGGGGATTT GGTCTGAACCTGACATCTGCAGACACCCTTGTTTTTGTGGAGCATGACCGGAATCCTATGCGTGATCATCAGGTGATTAT GGTCCATTAATTGCTTTCTCTAGATTCTATTTCAGTTCTAACCGCTATGATTTTGGGATCTGGGATACAAAATTAATTGC TGTATTTGGTTTTTTTCAACAAGCGTCTAATCAGGGTTGTTTCCAGCCTTGTTTCAGCGTTGAGCGTATATGGTGCCTTC TTGGACTATTGCCATCTCAAATGCTTAAAACATGGAGATTTCTCCTCTTGCATTCAAGGGGAAGGAATGTTCAATATTTG TTTTTGTAATTGACAGTTTCTTATATCAATAATAACCTGCAGGCTATGGATAAAGCACACAGGCTTGGTCAGGAGCGAGT AAATTGAAGAAGTTTATTGTAAATTGAAGTTTATATGAAAAATAAAGGGGAATTGTAAATTGAAACTGAAGACTTACAAC AAGGCTCATCGCAGAAATCCCCTCTGTCAATATTAGGGTACACTGTTTACGGTTCGGTCCACCAGCTTCATTGGCGTCTT CAAGGTTTGGAATGTCACAGAGTTTCATGGTGGTGGGAGAGGAGATTGGCGTCTGATTCGAAGGAGGGGGTTTGAGAGGG TGAGATTAGCAGTGGCGGTCGAAGGAGGGAGGCCGAAGGAGCGAGTCGTACGGCGGCGACGGTGGCCCTGGGCGCGCTGG AGGTTGCTGGACGCTTGGTGTTGCCGTGCGTGAAACGTGTTGGTGAGATCGAGAGTGAGTTCGAACGCGTTTATTGCCCC GGCCTGCTAGGGCAGGTGCCCAGGCTCCCCCAAAAAAATTCTCAAAGAAAAAAAAAAATTGGTTGTAAAAAAGAAGGAAT GGGCCAAACATTTGTTGGCTGGCCCAGGCTCATGAGTGTTGGCTGGCCATGTTACACGAAAAAGATGAATAAATGGGCAA AAGATGAAAACAAATAAACTTAAGGGACTAAAATAATAAAATCACCAAAGAACCAGAACCTTCTAGATTGAATCTCTATT CACGCGTTCGAACTCACTCTCGATCTCACCAACACGTTTCACGCACGACAACACCAAGCGTCCAGCAACCTCCAGCGCGC CCAGGGCCACCGTCGCCGCCGTACGACTCGCTCCTTCGGCCTCCCTCCTTCGACCGCCACTGCTAATCTCACCCTCTCAA ACCCCCTCCTCCGAATCAGACGCCAATCTCCTCTCCCACCGCCATGAAACTCTGTGACATTCCAAACCTCGAAGACGCCA ATGAAGCTGGTGGACCGAACCGTAAACAGTGTACCCTGATATTGACAGAGGGGATTTCTGCGATGAGCCTTGTTGTAAGT CTTCAGTTTCAATTTACAATTCCCCTTTATTTTTCATATAAACTTCAATTTACAATAAACTTCTTCAATTTACGATAGAT GGCTGCGCTCTCTGACGCGCAACGGGACTATTTTGGTGTTTTTGCATTGAATGGCAAACTTCTAAATGCGATGAAGACAA ACCCTAAGGAGTTTATAAAAAAGGCTAAAACTCGAGGTATATTGAAAATTCTCGGATTTAAACCAAGGAAAGAATTGACC AAAAAAAAACATGGAAAGAATTGACCAAAAAAAAAAAACCAAGGAAAGAGAGTATAGACGAGTCCATGGAGTCTTTTAGA TATGGTCGGGTGATGTATATGGCTGATCAGGTAAGTTGCCTAAAGATTGTATAGTTTTTAATCATGTTTTGATTTTGTTT TGTCTTAACGTACTGGTTACTACCTTGTTTTTTGTTCAGGACTATGATGGATCTCACATCAAGGGGTTATTGATAAACTT CTTTTATATGCTCAGCCCATCACTGCTTAGAATTCCATATTTTTTGTCTGAATTGATCACTCCCATAATAAGGGTAAGTT GTTAGAACCGGTACCAGATTACACCTAATCACACACACACAATCAAGAAGAAAGCTCACTCCAGAATTCACACTGAATTC TGGAAGTTGAGAAGCATCGTTTATTGATAATTTTGGGAAAAAGGGGAAATACAATTCTCTTGGAGAAGAAGAACACTGAA TCCCACGATTCAGTTCCAACAACCTTCAACTTCCCAAAAGATGCTATTCCTAACTAACTTCCTTCTATTTATAGAAGTAC TAACAGAATAGCTATTATTTACAGAATAGTCCCTAAGAACTACTTATTACTGTTTAACCTCCTAGCCATTATAATTCTGG CTAATTACATATTAAACCCCAAAAGCTACTAACAGACCTACTCTTTCTGTCTTCTGACATAAACAGAAGTAATAGGTTTC CCCTTGATTCTATCATAAGTAAGTATGAGAAATTATCTTTTGTTGATAATGATACTTATCATTTATTATACTTATCATTT TTACGCTTTGGAAATCACACAGGCTTTTCATTGCAATGGGATTCAAAAATTATCATTTTATTCATATCCCGAATATGAAA AATGGTGGAAGAACTGGGGGAATTCTGATTGGAGAATCAAGTACTATAAGGTGGTGTTTTTAACTTGTAGAACCACATGT TTTTTTTTCTTCTTCTAGTTTTTCCTTATTTGGCTTCTGGTGTTTTTCTATAGGGGCTGGGTAGCTTTACTCCTGAGGAA GGGAAAGAATTCTTTCAAAATGTTGAAATTCAGAGAAAATACTTTGTTTGGCGCAACGATGAGGATCTAGATGCCATTAA TATTGCATTCTCGAAGTCAAAGACTAGAGAAAGGAGGGGATTGAGGCTTAAATTTAAGGTGGTAGACACATTTTTATTTA TACACATGTTAGTTGTAGAGAAGCTAATAAAAAGTCGTTTCTCTTTTCTTGCAGTCTAGCGATTATCGCGATTATACAGA TCTTAGTATCTGCTACAAGGATTTTCTACAGAAAGAATTTATATTGTACTCGATGGCGAGTGTACGGAGGTGCATTCCTT CGTTGATAGATGGTCAGAAGCCCTCCCAAAGGAAGATCCTTTACGGTGCATTCAAGAGAGAGTTGTTCACTGAAATAAGA GTGGACAAACTTATTGGTTATGTAGCTGAGCATTCTGCTTACCATCATGATGAATCCAGTTTGGCTACCACCCTTATGAG AATGGCTCGAGATTATGTTGGTAGCATGAATATAAATCTCCTGATGGCAAACGGTCAATTTGGTACTCGTAACCAGGTGA GATGAAACTGCTTATGAACTTTGTTTCAATTTTCTCCATGCTTTTGTAGTACTTACTCAATAACTTGCTCTTCCAGGGTG GCAAAGACCATGCATCTCCAAGATACATATACACTGAGCTTAACCCTATTTCTCGTTTCCTCTTCCCCGAGATTGACATT AAACTTCTCAAATACTTGAATGAGGATGGAATCTCAGTTGAACCTGAGTGGTATTTTCTTTTTGCTCTTTTGTTTTCAAA GGCTGTTTGTTCTTAGTATCTACTAAGAAACACAATATACTAATACAAATTCCATTTGGCACATAGGTACCTTCCTATCA TACCTTTAGTGCTTGTCAATGGTGTTAGCGGAATTGCGACAGGCTGGAATTGTTCCATCCCCTGCTACAACCCCAAGGAT ATCATTGCAAACATTAAGTGTTTCTTAAATGATGACAAGTTGCAACCAATGGTTCCCTGGTACAAAGGATTTAAGGGAAC CATTGATAAAAGTATAGAGGAGGGGTATGTAGTGAGTGGTAAAGTTGAAGTAATTGATGATCAAAGTTTTAGAATAACAG AGCTGCCCGTCAGCACCTGGACTAAAAAATATGAGAAGTTCCTTAAGGATCATCCTCTCATTGAGGTAACTGACCTAAAC ATTTCTTTACCATATATATGTATATATATATATACAAATTTACTTGGTTTATGTTAAGTTGGGTAATTTTTCATTCCAAT AATTTTCTTCATGCAGGCTTTCTGGCAGAATGGAGATAATAGCATGGTTGATATAAAAGTCAAACTGAAGCTGGAAACAA AGATGACGGAAAAGGAGCTTCTCGTTGAGTTCAAGTTGATTTCCAAAATCCCCAGAAGCAGAATGTATCTTTTTAATAGG AATGCAAGAATTCAGAAATACGATAGTCCTGAGCAAAGTATAACCTTTGTATGCTGAGTTGTTTGAATAGTAATAGTAAC ATATCAATGTTTTTAATTAATATTCAATGTTTTCTTTCTTATGCAGTTCTTCAAGAATTCTGTAAATATAGGCTTGAGTG CTATGATATGAGAACAGTGAGTTATTCAATGAGAATATGATGTCTTTATCTTCTCTTTTTATATTGGCAATGGGGAATAT ACTTAATCTTCTCTGAACCTATTAGTAAGAACTGAAATGCAATTTGGTTATGCTTTTGCAGGCGCCTAGTGTTCGACAAC TTAAAGACCAAGTTAGATTCATTTCAGAAGTTGTATTTAACATGATTGTGCTGAGCAAAAACATGAGCAAAGCTGAATTG GTGTTGAAACTGAAGGGTAATGGTTTCAAACCTTTGTCACAGAAAGGGGAAAATGTTGGAGGCGCCAAAAACTATGAACA TCTTTTGCCCATGTGCACTTTGACCTTTGAAAGTCTTAAGAAGCTGCAAGCTGAAAAGGAGAAGGAGTTGGATAATTTAA TGAGAGCAGATCTGTGGGCTTATAAAAAAAAAATCTAAGGATCTGTGGTTGGAGGACCTATTAGAGCTTGAGAAAAAACT AAATGTAGGGGAAGGTATGTCCAGAAATCTACATTTTCCGGAGCAACTACTTGACTACTCTCATATTGAAGAGTATAAGT TTGCACTAAATTGAAAGTAACATTGAGAAGGTAAATTGGGCTTCTGTTTTTTTTTTGTTGGGGTAATATTGCTAACTTTA TTCCATTTGCCACTTGTTGCTCATCTAGTTCCAGGTTTAATGGAATGGATGATGAAAGTATGGTGGATTTTTTTTATGAA ATTGCATGGGAAGCATGGTTTAATGTTGAAATCCAGTTTTAAACCTTCTCATAGTTCTGGTTGTTGTTTCTATAAATTCA TTTTGTTTAAGTCTTCACACTGAAGATGATATCTCTCCAGTGGTGCTCAATCCCTGTATCTTCTAGCTTGATCTTCAATT TTCAACCCTATTTGATCTCATCCATGACAGTCCACCCACTACGCACTTTTCTTTTTCTTCTAGTTGCTTGATTCATGACT TCTGTCAATAATCTTTTCATATATTATTAGATTAATAGATTTGCAATCTGTTAGTTTAGCCTTTTATATATTTTTTCCTG TGCTTCCAGCAATCAGCACCAAGGTATAAATTGGTTAGCTTTTCTAAAGCGTTCCAAGCTTCATGGAATTTTATGTGATG ATATTGGGCTTGGTAAGACACTTCAAGCATCAGCCATTGTAGCCTCTGATATAGCAGAACATCAAGGGAATGGTGATCTT CTGCCATCTTAAATAATTTGCCCATCAACACTAGTTGGGCACTGGGCCTTTGAGATAGAGAAGTATATTGATAGTAGTTA ATCCCGGATAGCGGCGCATAGCGGCCGGCCCCAAAAATGGGATAGCGGATAGCGGGATGACCGCTATTTTGATTTTTTTT AAATATAAATAACAGTTTAATTCAATATACATATAAATACTAAAACATGACAAATATTACTTAAAATTCATAACATTCAT AATACCTAATAGTCATAAGGTTTAAAAACTAAAGAAGTTCAAGCCTCCAAGATTTAAAACATGAAACAACAACATTGAAA TTTAAAATAAGAGTTACTAGACTCCTAGCTACATAAGAAATCATCAATCATCATCTTCTTCTAGCTCGGGATCCTCTTCA TTGTCACTTTCACTTGTGTCCGTGTGGTAGATTTCTTCCCCCACCTCCTCTTCCTCTTCACTTTCCTCTTCACTCTCCAA ATCAACTTCTTCTATCACCACTCCCTTGCCTCTTCTTTGTCCTCTCCCTCGGCCTCTAGTGGTTGAAGTTGAAGGCCTAG TAGTAGAAGATGTAGTGGCAGCATCAATTCCCCTTCTTGATGTCCTTCTAGTATATGTCAAGGGCTCATCAACACCTCCT GCATTTGCAACATCTCCCCAAGTTAAGTCATCATCTTCAAAAACCAAATCATTTTCAGCATGTTCTTCTCCATCTCCACC CATTTCTCCAAACAACCACTCATTACTATCATCAATGCCATCTAGGGCAATGGGGTCAATGGCATCACGACAATCAAATC TTTCTCTAAGAGCTTGGTTGTATTTCACATAGACTAAATCTTGCAACTTTTGATGCTCAAGGCGACTCCTCTTCTTTGAG TGAATCTATATTATAATATAAAATAAATGTTAGTTTCATAATTATTTTATGAAACTCTAAAGTCTAAACTCTAAACTAAT ACTTTATAAAAATAAATAAATAGAGTATTAACTTACATGCTCAAAGATACTCCAGTTTCGCTCACAACCGGATGAACTGC ACGTCAAGCTTAGCACTTTAATAGCAAGTGCCGTCAAATGAGGAGTACATTGTCCAAAGGACCTCCACCACTCAGCTACA ATGATAATGCAACATAAGTTAGTTCATGATGCTTGAAGATTTAATCTAAATAAGGAGCATGGTTCTCACTTACCCGGAGA CATTGTTTTCCTTGCTCTTACGGCTTGTTTCTTTCCAAAGAAGCCTCCAGCCACCTTATACGTAGCCAATTCAAGCGTAA CTTTATCATTCACTTCATCATTCTCACTAAGTACATCAATACATTTGTAGACACCTTCCATGATTTCTAGATTACGATCC ATATCCGGATTATCATAAAAGTATTCTGGATTCAGAAAATGTCCCGCAGCATGCAATGGATGGTGAAGTTGACATTCCCA CCTATTATCAATAATTGCCCAAATCTCCTTGTACTTGCTTTCATTTCCTTTAAAACCACTTTTAATAGCCTCCTTAGCCC TATCCATAGCTTCATATATGTAACCCATTGCCGGCTTCCTTTCATTATCAACAAGCCTTAGGACACCCACCAATGGCCCC ATAGACCTAAGACAATAAGCAACGTCATTCCAAAATGTGTTCATGAGAACCACATTTGCTACCCCTTTCCCCTTAGTGAC TTTAGCCAAGGTAGTATTTGTCCAATCATCGGAAGTGAACATCTTTCTAAGGTTGTTTCTTTGAGTCTACAACCTTCGCA AAGTGAGAAATGTGGTGGCAAATCTTGTAACTCCATGTCTAACCAATTCTGATTTGTTGGTGTACTTTCTCATGATGTTC AATGCCAAAGTGTGATTATAGAAAAAGCCAACAAGACTTATACCCCTTTTGATGGTCTTTTGAACTCTTTTAAGCTTGCC AATGTCTTCTAAGATCAAATCAATGCAATGGGCAGCACATGGAGTCCAAAATAAGTGCTTCCTCTTAGCTTGTAGAATTT TACCTAAGACCCCATTCCAAATTAAAAAATTGAAATGAGCAAGAGCAACACATTATCACTAACACACTAATAAAGTATTT AACAAAGTAATAGTTAACGTCACATACCGGCCAATACATAATTGCTTCCGTTGTCGGTCACCACTTGCACAACATTCTTC TCACCAATCTCCTCAACAAGGCTGTCCAAAAAAGTGAATAACTTTTCTCCGGTCTTCATGTATGAAGATCCATCATTACT CCTGACAAACATAGATCCAGCTGGGCTATTCACTAGAAAATTAATCAAAGTCCTTTGCTTCCTATCCGTCCAAGCATCGG ACATAATCGAGCAACCATGCTTTCCTCTCTCTTCCACATTTTTCTTCATCAAGTTTTTGGTGTATTCCAACTCCTTTTTT AGGAGGGGGACTCTCATCTCATGGTAGCTTGGAGCTTTCAAGTGAGGGCCATAGCTTCCAACGACCTCAAGCATCAACTT GAAGCTCTTTGATCGCACAACATTGAATGGAATGCTATTCCGAATAAAGAATCTAGCAATATATTGGATTGTCCTTGCTC TAGCTTCTTTATCACCTGCATCAATCATGCTTGTTTGATTCTTCGCTTTTGTCAACTTCAAGCTTGTCTCCGGATCTCTC ATAAAAAGTATATCCAAGGGGCCTTTAACATTTGGCTTCTTAGGAAGAGTAGAGGAAGCCCCACTTGAACTTATAGGTCT TTTCCCACTTTTAATTGACACAATTTCTTGCAACTGATCTTCCTCCTCTTCATCTTCATTCAATTCAGTCAAGTGTTCTT GTTGCCCTTGTTTCTTAGCAAGAGCTTCCTTCAACAATAGTATCACTTCCTCTGGAACTTTCCTACATGAATTACAATCT CCCTTTTTTTTCATTTGATGACGTTTTGCCCTTGTAATTCCTCCTGAAGTTGTCACCCCACAGAAATCACATGTTACTCT CTTCCTATCATGTGGATTCTTCAAGCTGTTCCACTGCCATGCTATATCAATGTTGTCTCCTATAGGCTTGTAAAGCCCAT TTTCAGCCCGCTTGCAATTATTTACAACCTCACAGTCGTTTGGTTCAGAGGGGGATGCCATGGCTGGTCAGAAATCAGAA TAGGGAGTGAGCATTACTAAAACAGAGCATTATTGTAGTGAAGAGAAAGTGAGCACAAAACCAAAAATAGAAACAGAAAG AGGGGAAAGAAGAGGAAAATGAAAAACAGAGCAGAGTATGAAAAATAGAACAGATGCTGGAAATAGAAACAGGAAGATGG GAAAGAAGAGGTAAACGAAAAACAGAGGGAAAGAAGAGAAAAGTGGAAAAAAAAAACAGAGAGGGAAAGAGAGAAGAGGA AACCGAGAGAGAGAAGGAAGAAAACAACTAACCTCGTTGGTATGTCGCCGGAGAAGAAGCTCTCGCCGGAGAGCTTGTCG CCGGAGAAGGAGAGCGCCGGAGAAGGAGAGGAAGAGGTGGAATGTCCAAGCAAGGAAGAGAGGAAGAAGCAGAACACTGA TTCGTGAACGGCTCAACACGAATGAGAGAGTAAGGAAGAGAGGAAGAATAAAGTAGACCTAATTTCATTCGAATTACCTG TTTTGCCCCTGACTATAAAACTCCAACGGTTTAAAAATATGGGTTTTTCTGTCATTTAAAGATTCGATATGGGAGCGGCG CTACAGGCCGCGATTGGCCACGATTGAGCCGCGATTCGCGCCGCGACGGCCGCGATTCGTTTCCGCGACGCGATTTGCCC AGAATCGCGGGTAGCAGCCGTTACGCGACGCGACGCCGCGATAGCGGCGCTATTTGCCGCTATTGACAACTATGGTATGA ATACATGTTGTCTGGTATTCTCTAAATGCAGAAATGCAGAATGTTATTACTTTACTATGACGGCAAATGGTTTTGAGAAT GGCGAATTAGCATCATTAACCTGTGTTGTATATGCTATAATCTATATGTATGTCTGTCCTGGCAATCTTAGATTCCAAAA GGATTATTGTGTGCCACCAACAAAGTGTTGGTTTGAGTGGAAGGGGCTCAGGTTTCATATGGTTCTGGGTTTGATCCAGA TCCTTGTTTATGAAACAACACTATTAAAAGCGGTCCCCACTTTGGTGTGTGACAGTACCCTAAGAGATTAGTCTCTCACC ATCGTGTGGGTGAATATACTCTAGAAAAAAAACTTGGGCTTAAGTTTTTAGAATTTGTATGCCCTCACATAGGAAATATG TTCAGTACAAGCTTGATTCTTTTGTTATTTCAGTGAATATTAAGCATCATGGTTTATTTTTAGTTTCTAATGCTTTGGGC ATGATCAATTGTGTAGGCTTCTGTCAGCGAAAAGTTCAGTTGACCACTCTGATGGAGTCACTGAATTAGTAGGAAGTGGG GGATTGGTGGATCTATGGGACCAATCACATTATACAGATGAATCCAATCTGGATCAATTCTTGGCAAAGCTTAATGCTCT ACACATTTCACCCAAGAGAAAAACTACAAATTTTGACACTGTAAGTTGTAACATCTAATTTTTTTGCCCTCCACGCCCTT CACTCGTTTTTTGTTGTCACGTTTTGCTGGCATCTGCTCGTTTTTGCTTGTAAACAAGTAAATCAGTGTCTGCATGTTAT AGGGCATTGAGGAAAGTGAGGTTTGACCGATTGGTGGGGGCCCTTGGTGGTGATGTGTAAAGAATTGGTGGAGTAGTTTT ATTTTTTCTTGGATTTTGTATATATATAGAATCATATTCGTAATTGTAGTTTTAGTTACTAACACGTCAAATACCATGTA TCGTCAAATATCATCTGCTTAATCATCGATGCCATGCCATCTAGTCAAACTCTTTCAAATTTGACAAATCGCTAATTTGT ATGTTTTCTCATTAGTTAAACAAAACTGAATGCTGGAAAGGAAACTGAATATATAATATTTGAGGCTATACCGTGTGTGC ACACGCGCACGCCCGCACACACAAACACACACACACACTCTCTCTCTCTCTCTCTCTCTAGGTAGTTACTGATTTTGAAA CGGACCGACTTTTGAATTTTGGCCCGACTTTTTGAGTTTTGGCCGATTTTAGGGTTTCGACATAAC

Download Genomic Sequence

CDS sequence (LotjaGi4g1v0112600.1) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGGAGTCTTTTAGATATGGTCGGGTGATGTATATGGCTGATCAGGACTATGATGGATCTCACATCAAGGGGTTATTGAT AAACTTCTTTTATATGCTCAGCCCATCACTGCTTAGAATTCCATATTTTTTGTCTGAATTGATCACTCCCATAATAAGGG CTTTTCATTGCAATGGGATTCAAAAATTATCATTTTATTCATATCCCGAATATGAAAAATGGTGGAAGAACTGGGGGAAT TCTGATTGGAGAATCAAGTACTATAAGGGGCTGGGTAGCTTTACTCCTGAGGAAGGGAAAGAATTCTTTCAAAATGTTGA AATTCAGAGAAAATACTTTGTTTGGCGCAACGATGAGGATCTAGATGCCATTAATATTGCATTCTCGAAGTCAAAGACTA GAGAAAGGAGGGGATTGAGGCTTAAATTTAAGTCTAGCGATTATCGCGATTATACAGATCTTAGTATCTGCTACAAGGAT TTTCTACAGAAAGAATTTATATTGTACTCGATGGCGAGTGTACGGAGGTGCATTCCTTCGTTGATAGATGGTCAGAAGCC CTCCCAAAGGAAGATCCTTTACGGTGCATTCAAGAGAGAGTTGTTCACTGAAATAAGAGTGGACAAACTTATTGGTTATG TAGCTGAGCATTCTGCTTACCATCATGATGAATCCAGTTTGGCTACCACCCTTATGAGAATGGCTCGAGATTATGTTGGT AGCATGAATATAAATCTCCTGATGGCAAACGGTCAATTTGGTACTCGTAACCAGGGTGGCAAAGACCATGCATCTCCAAG ATACATATACACTGAGCTTAACCCTATTTCTCGTTTCCTCTTCCCCGAGATTGACATTAAACTTCTCAAATACTTGAATG AGGATGGAATCTCAGTTGAACCTGAGTGGTACCTTCCTATCATACCTTTAGTGCTTGTCAATGGTGTTAGCGGAATTGCG ACAGGCTGGAATTGTTCCATCCCCTGCTACAACCCCAAGGATATCATTGCAAACATTAAGTGTTTCTTAAATGATGACAA GTTGCAACCAATGGTTCCCTGGTACAAAGGATTTAAGGGAACCATTGATAAAAGTATAGAGGAGGGGTATGTAGTGAGTG GTAAAGTTGAAGTAATTGATGATCAAAGTTTTAGAATAACAGAGCTGCCCGTCAGCACCTGGACTAAAAAATATGAGAAG TTCCTTAAGGATCATCCTCTCATTGAGGCTTTCTGGCAGAATGGAGATAATAGCATGGTTGATATAAAAGTCAAACTGAA GCTGGAAACAAAGATGACGGAAAAGGAGCTTCTCGTTGAGTTCAAGTTGATTTCCAAAATCCCCAGAAGCAGAATGTATC TTTTTAATAGGAATGCAAGAATTCAGAAATACGATAGTCCTGAGCAAATTCTTCAAGAATTCTGTAAATATAGGCTTGAG TGCTATGATATGAGAACAGCGCCTAGTGTTCGACAACTTAAAGACCAAGTTAGATTCATTTCAGAAGTTGTATTTAACAT GATTGTGCTGAGCAAAAACATGAGCAAAGCTGAATTGGTGTTGAAACTGAAGGGTAATGGTTTCAAACCTTTGTCACAGA AAGGGGAAAATGTTGGAGGCGCCAAAAACTATGAACATCTTTTGCCCATGTGCACTTTGACCTTTGAAAGTCTTAAGAAG CTGCAAGCTGAAAAGGAGAAGGAGTTGGATAATTTAATGAGAGCAGATCTGTGGGCTTATAAAAAAAAAATCTAA

Download CDS Sequence

Protein sequence (LotjaGi4g1v0112600.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MESFRYGRVMYMADQDYDGSHIKGLLINFFYMLSPSLLRIPYFLSELITPIIRAFHCNGIQKLSFYSYPEYEKWWKNWGN SDWRIKYYKGLGSFTPEEGKEFFQNVEIQRKYFVWRNDEDLDAINIAFSKSKTRERRGLRLKFKSSDYRDYTDLSICYKD FLQKEFILYSMASVRRCIPSLIDGQKPSQRKILYGAFKRELFTEIRVDKLIGYVAEHSAYHHDESSLATTLMRMARDYVG SMNINLLMANGQFGTRNQGGKDHASPRYIYTELNPISRFLFPEIDIKLLKYLNEDGISVEPEWYLPIIPLVLVNGVSGIA TGWNCSIPCYNPKDIIANIKCFLNDDKLQPMVPWYKGFKGTIDKSIEEGYVVSGKVEVIDDQSFRITELPVSTWTKKYEK FLKDHPLIEAFWQNGDNSMVDIKVKLKLETKMTEKELLVEFKLISKIPRSRMYLFNRNARIQKYDSPEQILQEFCKYRLE CYDMRTAPSVRQLKDQVRFISEVVFNMIVLSKNMSKAELVLKLKGNGFKPLSQKGENVGGAKNYEHLLPMCTLTFESLKK LQAEKEKELDNLMRADLWAYKKKI

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
SUPERFAMILY	SSF56719 View details on SSF56719 Search for proteins/transripts with this domain View external data on SSF56719	2	570	569	3.14E-149	IPR013760 Show description in modal box View details on IPR013760 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR10169 View details on PTHR10169 Search for proteins/transripts with this domain View external data on PTHR10169	2	572	571	6.5E-207	–
PRINTS	PR00418 View details on PR00418 Search for proteins/transripts with this domain View external data on PR00418	3	19	17	2.8E-18	–
PRINTS	PR00418 View details on PR00418 Search for proteins/transripts with this domain View external data on PR00418	21	38	18	2.8E-18	–
PRINTS	PR01158 View details on PR01158 Search for proteins/transripts with this domain View external data on PR01158	22	37	16	1.5E-57	IPR001154 Show description in modal box View details on IPR001154 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00418 View details on PR00418 Search for proteins/transripts with this domain View external data on PR00418	42	54	13	2.8E-18	–
PRINTS	PR01158 View details on PR01158 Search for proteins/transripts with this domain View external data on PR01158	43	54	12	1.5E-57	IPR001154 Show description in modal box View details on IPR001154 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF16898 View details on PF16898 Search for proteins/transripts with this domain View external data on PF16898	48	173	126	6.0E-31	IPR031660 Show description in modal box View details on IPR031660 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.1490.30 View details on G3DSA:3.30.1490.30 Search for proteins/transripts with this domain View external data on G3DSA:3.30.1490.30	50	93	44	3.6E-12	–
PRINTS	PR00418 View details on PR00418 Search for proteins/transripts with this domain View external data on PR00418	85	101	17	2.8E-18	–
PRINTS	PR01158 View details on PR01158 Search for proteins/transripts with this domain View external data on PR01158	91	103	13	1.5E-57	IPR001154 Show description in modal box View details on IPR001154 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00434 View details on SM00434 Search for proteins/transripts with this domain View external data on SM00434	156	581	426	2.6E-106	IPR002205 Show description in modal box View details on IPR002205 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.90.199.10 View details on G3DSA:3.90.199.10 Search for proteins/transripts with this domain View external data on G3DSA:3.90.199.10	174	485	312	6.5E-142	IPR013758 Show description in modal box View details on IPR013758 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00521 View details on PF00521 Search for proteins/transripts with this domain View external data on PF00521	176	571	396	2.1E-95	IPR002205 Show description in modal box View details on IPR002205 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01158 View details on PR01158 Search for proteins/transripts with this domain View external data on PR01158	204	227	24	1.5E-57	IPR001154 Show description in modal box View details on IPR001154 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01158 View details on PR01158 Search for proteins/transripts with this domain View external data on PR01158	251	273	23	1.5E-57	IPR001154 Show description in modal box View details on IPR001154 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01158 View details on PR01158 Search for proteins/transripts with this domain View external data on PR01158	281	301	21	1.5E-57	IPR001154 Show description in modal box View details on IPR001154 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.30.1360.40 View details on G3DSA:3.30.1360.40 Search for proteins/transripts with this domain View external data on G3DSA:3.30.1360.40	358	450	93	6.5E-142	–
PRINTS	PR01158 View details on PR01158 Search for proteins/transripts with this domain View external data on PR01158	386	400	15	1.5E-57	IPR001154 Show description in modal box View details on IPR001154 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR01158 View details on PR01158 Search for proteins/transripts with this domain View external data on PR01158	459	485	27	1.5E-57	IPR001154 Show description in modal box View details on IPR001154 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.268.10 View details on G3DSA:1.10.268.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.268.10	486	573	88	6.5E-142	IPR013757 Show description in modal box View details on IPR013757 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	555	575	21	-	–

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:0003918 View details of GO:0003918 AmiGO InterPro QuickGO	Molecular function	DNA topoisomerase type II (ATP-hydrolyzing) activity	Catalysis of a DNA topological transformation by transiently cleaving a pair of complementary DNA strands to form a gate through which a second double-stranded DNA segment is passed, after which the severed strands in the first DNA segment are rejoined; product release is coupled to ATP binding and hydrolysis; changes the linking number in multiples of 2.	Subterm of View details of GO:0008094 View details of GO:0061505
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:0006259 View details of GO:0006259 AmiGO InterPro QuickGO	Biological process	DNA metabolic process	Any cellular metabolic process involving deoxyribonucleic acid. This is one of the two main types of nucleic acid, consisting of a long, unbranched macromolecule formed from one, or more commonly, two, strands of linked deoxyribonucleotides.	Subterm of View details of GO:0044260 View details of GO:0090304
GO:0006265 View details of GO:0006265 AmiGO InterPro QuickGO	Biological process	DNA topological change	The process in which a transformation is induced in the topological structure of a double-stranded DNA helix, resulting in a change in linking number.	Subterm of View details of GO:0006259 View details of GO:0071103

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Expression data

Expression pattern

Expression pattern of LotjaGi4g1v0112600.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi4g1v0112600.1