Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi6g1v0103100
Transcript ID	LotjaGi6g1v0103100.4
Related isoforms 4	LotjaGi6g1v0103100.1 LotjaGi6g1v0103100.2 LotjaGi6g1v0103100.3 LotjaGi6g1v0103100.5
Lotus japonicus genome version	Gifu v1.2
Description	DNA topoisomerase; TAIR: AT2G32000.1 DNA topoisomerase, type IA, core; Swiss-Prot: sp\|F4ISQ7\|TOP3B_ARATH DNA topoisomerase 3-beta; TrEMBL-Plants: tr\|I1LN46\|I1LN46_SOYBN DNA topoisomerase; Found in the gene: LotjaGi6g1v0103100
Working Lj name	n.a.

Genomic sequence (LjG1.1_chr6:22665870..22681784) extracted from Lotus japonicus Gifu genome v1.2.

ATTGAAAGCAAGAGCTTTTATATTATGAGGCTGTTCCATCAGTTGAAGTAAGGAAAAGATAGTAGAAAAAATCATTCGAG TTGTTAGGCATGAACATCTCCATGTGATTTTTGCTATATGTATTGTCATTGGAACTGGAAGTGTAGCAAGTGGCAAGTGC CTTGTTCTCTACTCAGATTCTGTAGATCAAATGATATTTTATGGGTTAAACCACGTAATCAGTCTCTTTTCATACTATGC ATGTCTTCCTGATTGGTTCGAGTATTAACTGCAGTTTTTCTTTTTCTTTGTTGACAATCTAGTGTAGATTTTCCTGGTAA ATATCAAGATTGGTCAGCCACAGATCCATTAGATCTCTTTCAAGCTCAGGTTTTAAAGAATGAATCAAACCCAAAGGTAT TTCTTTATAAATATTTCACTGAAGTATTAGTTTCTCTATATCTTTAATATCATAATTTATGCCTTGTTTTGAGATTTTGG GGCAAGATGGATTGGTTGTCTATAATTTTCAGACCGAGGTTTGCTACGCTTTATATATCACAATAAGAAGTAATAACAAG CAATACAAGAAAATTGTTTAAAAGACAAAGAAATGATGCAGCTTTTTCACTTCTCAATCATGTATGTTTGTACAACCTGA CTTGGGCCTATGCGGCCAGACTACCCTAAGCTAGACAAGTACATCACACTCCCTCTACACTAGGGCATACCAATTGTATT TTCCCAACTTACAAATGAACCTGATCCGGGGATCCCTAAATGGACTTCGTGAGAATGTTAGCTAGCTGGTCAATGGTATT GATGTAGCTAGTGACAAAACAACCAGAAGCATCTTTTCTGTAATAAAATGATATGTTTGGTCATTTGATGAAAGACCGGG TTGAAACTGCCAAACAACCCTATGGAAGTACTCTTCTTTTTACCCAAACCTGTCTACAACAGACAACCTCAAACTAAGGA TCTTTGAGTGTCACATTTGTTCTAATACAAAGTTTAGACAGGGAAAAACTTGATCCTAGTGTGTCTTTGTTGGTACTCAT CCACTCATGGAGGGTATAATTGTTATCATGACCTTCAAGGAGCAAGTGTGCTATTTCACCAAACCTTATCTTCAGAGGGA GACTTCTATGGAACATAGAAGCATCTTTTGGGTTACCCAATGTTCTTCTTGACCTGTCATTTGAGCCTAAGCCGAATCAA CCTTAACCTGAATCAAACTCGAGCAGAACGTACTTTGGACTTCATCATCTGAACTCATGTTTACTAGAGCTAACCTTCCC AACCAACTAGTACCTGAAATTAATGTGAGATTTGGAAAATATATGGTGTACACAAATAGACCAAAGTTCATTCCAGGATC TATCTAGGATCAAGAGTCCAAGTCTTCTCCTTTAGATGAGGTCTAACCCTCCAATTTTCTTGGCGAAACTGAAATTGAAA CTGTACATGATGACCTTGACCTTCCAATTGCCATTAAAAACAGAGCCATAAAATGCACCGAACAACCATTATACCCTCTC CCAAATTCTCTCTCCTTAAAAAATTCTCGCCTACCCACAACTTCCGTTATAAACCTAAATACTACATCTACACCTACTAC CCTGTCTGAGGCATTATCTGATAGAAAATGGAAACAAGCCATGGATGTAGAAATGAAGGCATTGTAGAAGCATAACACCT GGGAGTTTTTACTCGCCAGAAGGAGGTCGGTTGGGTGCAAGTGGGTATATGAAGTGAATATATAGCTGATGGATCAATTG AGAGGTATAAATCAAGGCTGGTTGCGGAAGGGTTCACACAACCCATTTTTCTCTCCTATAAATACTTTTTATGGGGCGTG TAAAAGCTTGACTATATTGAAATGACTTTAACTGTTTTCATTGTCTTTGTTCCTTCCCCCCTTTTGTTTTGGGATGTGTT AGTTCCATTAATGTTAGCTACTTAAGAATTGAATTTTACTACCTATGGAGTAGGGAGTTGTATTATCTATATTTGCTTTT GTTTCAGTTATTTCCTACGGTTAATGTCAAATGTTTCATTCAGGCGCATATTTGTAGGCATTTAAACCAAGAAGCTCGTG GATGCCGTTTTTTGGTATTGTGGTTAGATTGTGATCGTGAAGGAGAAAACATATGTTTTGAGGGTAACAATATTCTTTGT TCTTAACATATTTCACTTTATTTTTTTTATTTCTTGATACTTTTATCATTATAACCTATTTGTGCTTGATATTGCAATGC AAAATTATTACTCTGATGATGTAAGTTTCGCTTTGGTTCTTAAAGAAAAAACCCTTAGCCCTTTTAACAAATCTACTTCT AGCTGCCTAACGTAACTTTCAAAAAAAGAAAAGTAAAAGAGCTACACTCTTCTACCCAATCTCTTTTACCTTCAAAACCG CTCCGATTCATTAAATTTATTTGCTACTTGCACCTTATGTTTGGTAAGAAAATAATAAAAGGAAAGAATGGTTGGTATGT AAAAAGAGAAATAAATAAAATAAAAGGTGAAATAAATATTATCTTATCTTAAGAGGGGAGTTCTTTTATTTTTGGAAATA TATACTTTTATTTTAGGAAAATATATCTTTTACTTTAAGAAATAAATAGTCATTTATTTTAGGACGGGATATCTTTTTAT TTTTGAGAAATAAATGTCCTTATTGTAGGAGGAGATATCTTTTATTATAGGAATGGATAAAGAGGGTTAATATAAATAGT CCCCTAGTTTTAAGAGAGCGATAACTTTTAGACATTGAATTTTTGTAAATTTTGGGGATATTCTAAGTGTTTGTACGAAA GGGATTTCCCTTTGATAAAAGAAGGTTAAACCTTCTTGAGAATAATAACGGAGAGAATTTCTTTCATGATTTAATTCTCC TTAATTCTGTACTATTTCTGGGGCCATTCAGAGTGAGAGACAGTGACAGGGTAGAGAGAGAGAGAGAGAGCGAAGAAGAC AGAGGCACAGACAGACAAAGCAGCAGCCTTCTCCGGCTCAGTGAAAAAAAAGAAGGGCTTTAGCGGAAGCTTGATTTGTG TTTCCCGGAGGAATTTTGCCTTCAAAAAACACGCACACGAGGTGTTTGATTTATGTCGTCTGTGTTTACTCTTGGGGCTT CAGTTTCATTCTTCCAGACTCTATGCTCCTGTATGCTACTCTGCATTCTCAGGCAGAAACTCGTTAACCCAGCTGTTTCA ATGCGATTGAGGCCTAAGAGGACTTGTTCTGGTGTCGAGTGTTTTGGTGGTTTTCACATACAAAGATTTTCTCATCTTTT CTTATTTTTGAGAGGGGATCTCACCTGAAAGCTTGAGATTTTCTTACCCTTTTTAATTTATTTGGTGTCAGTTTGATTAA TTTCTCTTGATTTTGTTGAAAATTTTCTGGAAATTTTGAGGGGGTTTTGGGAGGGTTTTTCCCCAATTTTTTGATTCACC ATGTCCAAGTCTCGAAAGCAACCTGCAAGTAGAAGGTTAAGGCCTGAGTTCAAGATGGCCAGGAAATTGCGGGTGATTTA TGATGACCCTTATGCAACTGAATCATCTGATGATGAGTACTATCATTCAAGGGAGAAGAAGCCCAGGAAAATCAAAAGAT GCATCACTGAGATTCCTCTTCCTCCTCTTGTTCCTGTCGTCACTGAACCTAACACCTTTGCTGAGAAGAAAATCAACATG AGCAGCAACAATGTTGTTGAGGTTCACAACAAGAAGAGGGTTTCAACCCAGAACCCTTCAACAAGGAGGCAACCCTCTTG CAAGTACAGAGGTGTTCGACAGAGGAAGTGGGGGAAGTGGGCTGCGGAGATTCGTGACCCGTTCAAAGGTGCCCGTCTCT GGTTAGGCACTTACAACACTGCTGAAGAGGCTTCCCAAGCCTATGAGAACAAGAGGCTCGAATTTGAAGCCATGGCTAAG GCTCTTGTACCCAACAATGGGTCTTCTGATAAGGGTTCTGCTTCAAACTCTTGCTCTGCTGCTGCTCCTGCTGAAGGTTC TGCATCAGAGAAATCATCTTCTGCTGCTGATGTTTCTGATGACTCTGATAGCATGTTCTCACACCCATCACCTTCCTCTG TGCTTGATGTGGATGCCTCAGCTAACAATTTGATTGAGAATGATGATAGCTCTAGTAATGAAGCTCCTGATGCTGATGCC ACTGAGGCCTGTGACATGGTTGCTGAATTGGCTGGTCTAGAAATACCAGACTTGAGTCTCCTGACCTTGCCTCCATCCGC ACCACCAACTGTTGCTGATGCTGTTGTTCCAGCTGGTACTGAGCCAAACCCTGTGCTTGATTTTGATTTCATATTTGATT ATCCAGGACAGGGCTTTGATGATGATACCAACTTTGGTGGTGGCCTAGAGGATATCCCAATTTTTGGGTTTGACGACAAT GTGCCTAGCCAGCTTCCTGATTTCGATTTTGGTGATTTTGGTTCTGATGAGTTTGCTGGTTGGATTGAGGAACCCTTCCA TATACCCTGCGCCTAAAGTTTTGCAGCTATTACATAGGAATAAAGATGAAGAGTAATACATAGTTATATAAGTCTAAGTT ATGTTGGTTCTATTGTACTAGTTTTGTGAGATCTCAGGAACTGCAAAGCCAGTTCCTCAGGAACTGCAAAGCCAGTTCCT GAGTTAGTAGTGGCGAGTTTATATTTATTTTGTTTATTGAGAGAGTATGTTAATGTTATATCAGTGCGATGTATTAGAGA ATCCTTCGGGTTTTCCCGTGCTATTAGAGCTGTCCAAGGGTTCAACCAATTTTGTAGTTTCGAAGTTCTATTGCGGAGTA TGAAATGAACTTCAGGTTTTGCTTGCAAAAAAAAAAAATCTTTACTATTTCTTTCTCATTGTAGATTCACTACAAAACCT AACACCTTGTTATTTGAACCTTAAGCTTAGTCCTTTTTGTTTTAGATTCTTTTCTAGGTAATATAATAGAATTTCCAAGT TAACTGTAGCTATGTGTCCATGTCAACTTGGATTTGTGTCAAGGGACTATTTTGTTACTTATTGTCATTGCCTTATTTGT ATAGGTTACATAACCAAAGGTTGGCCCTCTGAATATTAACTTTCAATAATGATTAGTGAACCCCAGTACAATGTCGGCGT ACATTAGACACCCAACACATAGTGGAGGGAGCAACTGAGTTAGTACAATGTGTTCGGTTCATTTGATATTGACCAAATAA AACACTTCCCCAAATATGTGAATGTTATTAACCACAATATATTAGTTGTATATATTGACCAATTAATAGAAATACTTAAC CCCATATTTGAATCTTACTAACCACATTATTTCAATTGCTTATTATTAGAGGCGAGGATTGCTATACCCTTTATAATGTG ACTATTTTGGCCATATCTCTAGTTGGGACTTCTCAAAACACCCCACACCCAAGAATAGAAATCTGGAGTGTGTAATTTGC AGGAATGAACATCTGCGGGTGACCCATATATGGATGGTCTCCAATAAACAGATATAGGATAGTGTTAGGGTTCTAAATAT TAGATGTTTAATTTAGGCTAAAAAACACTTTTGGCCCCTGATGTTTTAAGTTTGTGCAAATTTTACCCCTACTCTATTTT TGTCGACGCTTCTACCCTCAATGTTTCAAAAATGTGCACTGTCTGCCCTCCGTCACTTTGACGTTAAAAAATTAACGAAA TGAGCTTTATTGGCACTAGCAATGCCACCTCAGGATCTACGTGGCATGAAGGAAGAACAAAAGTTATAATATAAATAAAA CTGTGTTGCAAAATATAACAATTATGTATGTAGTTCAACTGGTAAAGGGTTTGTTTTTCCAACTTGAGTTTGAATCCCCC TCACCTCTTTTTTCAAGTTCTGATTATAATTAGTGATGTGTCACGTCACGTAGATGCTGATGTGGCATTGCTAGTGCCAA CTAAGCCCCTTCCGTTAATTTTTTAACGTCAAACAGATGGAGGGGCAGATAGTGCACATTTGTGAAACATTGAGGGTAGA ATTATCGACAAAAATAGAGTAGGGGCAGAATTTGCATAAACTTGAAACATCAGGGGCCAAAAGTGCTTTTTAGCCTTTAA TTTATTTGGTTAGAAAATATAGGAGATTAGTTGGAAAGTTGAATTACCTCACTATTACTCAGCTAGACATTTCATTTTCT GTTAGTGTGGTGGTAAGTCAATTTTCGCATACTGAAGTATATTAAAGGAGCTCCAGGGAAAGGTTTATTGTACGAAGACA AGGGACATACACAAGTTGTAGGATACTCAGATGCAGATTGGGCAGATTCTCCTTCTGATAGGAGATCCACCTCTGGGTGA TAACTTAATTTCCCTGAAGAGTAAGAAACAAAGTGTAGTGGAAAGATCAAGTGCGGAGGCTGATATCCAGCCATGGCTGC GGCTACATGTGAACTTATTTGGCTCAAACAGTTGCTTCACGACTTGAGATTTGGGGATGTTTCACAGATTACAATTATTT GTGACAATCAGGCAGCCTTCCATATTGCCTCAAACCCAGTGTTCTCTGAGAGGACCAAACACATTGAGATCGATTGTCAT TTCATCAGAGAAAATTTTATCTGGAGATATCAACACTAGATTCGTCAATTCAAATGATTAGTTAGCTGATGTTTTTACTA AGTCTTTGAGCGGTCCTCGAGTTAGTTATATTTGTAACAAGCTTGGTGCATATGACATATATGCTCCAGCTTGATGGGGA GTGTTAGATATCTTGTAAATAAGTAGGATATCCTTTATTAATTGTAAATAGGTAGCATAATCATGTAGTTAGGGAAATAA GATATTTTGTATGTATTGTACCTTTATGGTACCTATTATATATAATGAGTTCCGCTGTGAAGTTGGAATGCACGGATTCA CCAAATTCCTCTTGTCTCTTTCTTTTCATTCAACAACTCTTATTTTTAATAAACTAACCCTATAAAGATAGACTCTTAAA ATAAAATATAAGGTTCTAAAATGAAAGATAGATTCTTAAACTAAATGATAGACTCTGATTCCATCTTAGAATTTGGGCTA TGCCTAACTGTACCCGAAAAGCTAGCGTAGAGGTAATTGTTGCTCTACCCTTTATAAGGACTATTTGACCATATCTCTAG TCAATGTGGGGACTTCTCAACACTTATATGTTACATAGACTTGGTTGAGTTAATGATAATGCATACCATTTGGTTCAAAG TTCAAACTGCGTTGACCAAATAATATACTCAATTAACCTGATATTTGACTGTTATTTATCAGTCCTATATATTTTTTCAT ATCACAAAGAACACATGTATGTTAACCAAATAATAGAAATACTTAACCACATATTTTTTGGAAAAACCAAATATATATTA ATAAGGGCCCCCAATGTTCAAAAGCAAGCTTACAAAGGAAGACAACAAAACAACAATTAAAGGAAAGAAAAAGAAAACAA ATACAGGAACAAACAAGAAAAACAAAGTTGTATACAAGCACCACTTTCGAATCTTTTTAACTACAATATATTAATTGTGG TGACTAAGTGTGTCCAATGTATGTCTACACTGCCCCTGGGCCTAGATATCATTATTGATTTACTTTTCCCTTCCTTGTTC ATAGTGTGTATTTCATCTTATTGTCTTCTAGTAAGATTCATTGTTTTACATATAGTGTTATTTGAGATTATTTGAGTATT TAAAATAATGTTTTGGTCCTTATTTCAATGCTGTTGCAGTTATACAATCAACTGGTTTCAATGTAAATGATGTTTATCGT GCACGGTTTTCTTCTGTTACTGAGAAAGATGTCTTGAAGGCTCTAGACAACCTTGTCAGACCCAACAGAGATGAGGCACT GGCAGTAGATGCTAGGCAAGAGATAGATTTGAAAGTTGGGGTTGCCTTTACTCGATTTCAGACAAGTTTCTTCCAGGGAA AATATGGAAACCTAGACTCCAAAGTCATCTCGTTGGTTTTCTGCTCTCTTCTGTCTTTTTGCTTGTTTATCTTGTATTTG CTGTTCTGGATTTTTCTATGTCAAGTAACCAATTATCCCAACAGCTTAAGTTTTTGGGTAAGGACCACATGAATAATTTT ATATTATATTCTAACATGCCTCCTCACGCAAGAGCCTACTCGGGCTTGAAGCATGTAGAATGCACTGGCCCACCTACCAT CTGCTGAAATTCCACTTTTTATTAGAATAATGAGGGCTGCAAGGATCGAACTCTAGACCACTTGGTCACAGAGGCTCTGA TACCATGTTTTTTTTTTGAAATAGCTCTGATACCATGTTAAGTAACCATTCACGTGAATGGTTTTATATTATATTTTAAC ATTCTACTTAGTTCCGCATTCTTCAAATTAATGAAGAAAGGTGGTAATATTTTTTGGTTAGATTAGATCTATTCAAAAGT AAAATATTTTAACTTGTACATATCTGATATTAACAATCAGCTGACAAGAGAGTTGCAGCTTAATGATTTAAATATAGACC GTACCATGGAAATATTGTCACAAATTAATATTAGGGAATTGATTAACTGCTATGAGGGTTTTCTTCATTTTAGGGTGTAG TAAAAATCAAGATTTTACCTAGGATGGGTATTAGAGAGAGAACTGCTTCATTCATCGCTAAACAGAACTGTAACATATAT ATATATATATATATATATATATATATATATATATATATATATATAACGGGTTTTTCAAGATATTTTTTGCAAATACAGAT CTTCTAAAGCATGATGAGCTTGTGTGAGTAACAACCACTTAATTTCACCAAATCGAGTTCAAATCTTGGATCGGGATCAG CTGGGTGTGCAGAAACCATAAGATCATGTGATTTCACGAGTCAGTGCGCACTACGCTTGTAAATGAACTATGATGATCTC TGGAGTCATTGACTGTGCTGCTTTCAGATCTTGCAATGATAGAATTGTTTTCAAGATTAACTAGATGTTTGTCATGAATC TATTTGCTTTTAGCTTGAGCTTGTGGGACATTTAGTAATATGACATGGTATCCTAGTTTGATTCTTTGTCAATTAAGTAG CTGATGATCACTTTGTAATAAATTAATAAATGATAATTGTCTTTATTATGGCCTTGCTGTGCTTTGTTCTATTCTGCCTT TCATGTTCAGTTATACATTTGGGATCTGGGATTGGTTAGGTTGCTAGGCTTGATAAGCACTGCCATCAGGGAATGCAACC TGCAATATCGTCACTAGATCTAGTGGCATCTTAACTTCATTCAATTGCAGGAATTATCACACTTCACTAAATTTCTAATC GTTAAACTTTGTGTTAGTAGTTTGGTCAAACATAGATGGCATTATTCATTGTCTTAATTGCTGCGTATTTCAGCTATGGA CCATGTCAAACTCCTACTTTAGGATTTTGCGTGCAGCGGTATTTACAAATAAATACTTTCAAGCCAGAAAAGTTTTGGAG TGTGAACCCATACATAGTTCACAGTGGCTATGAAATCCAGCTCGAATGGCAACGTAGTAAATTGTTTGACATAAATGTGA ATATTTCTATCTCTTATTATTGTTGTTTCTTTGTCTCAAATTTACAAAAGACATCCATTTGATACTTCCATGCCATTGCA GGTTGCTACGATGTTTCAAAAGCTGGTTGCCGAGGATGGACTTTTGGAAGTGACCGAAATATCAGAAAAACAAGAAACCA AAAGTCGCCCTGTTGGTCTAAACACAGTGAATCTTCTAAAGGTTAGAAACCAAAGGGGATGGTAGTGTTTTATCTCTCAC CAAGTAATATAAACAGTTAAAATATTTGTAATTGTTAGAATATAGTGTACAGTTATTAATTATTTAATTCCAGATAGTTT CAGTTTTGTTGTAATCTGGTAGGACTTTTACAGAATAAGTTAGACAGCTGTCGCTCAGTTAGCTTCTGATTAGCTTAGGT GTCAAGCAGTAGTTCTAGAAACTGATTCTGTTGGAACCAGTTTTTAGTGGTTAGCTGTCCATAACAGAAAGCCTAAGAGG CTAAAAAACTAACTGAGGAAATAATACTCTGCAAACAGAAATACATTCAAACAACAATACAACCATTATTCAACTAAGTA TACAACACATAATACTCTAATAATATGAGATAAAAAGAGGGAAGAATAAAATATTCTATCATAAAATATTGCTATTTAAG ACAAAAATTCCTAGCAGAAAAACAAACCCCAGGAATGGGATACTCTGCAAGCTGTGAATCTGAAGGAAAGGATGAGGTGA GTTATAGGGACTCAGTCAGGTACAATAAAGTGAATACAAAGAGATATAGTAATCGCTTGAGTGTTCAAAACCAGGCATAG TTCAAATATCAGAGTTGAAATGAAAAGGTATCAACCTTTAGCTTGTATTAACTATGAGTGCAAAGGATTAAGGTGAGAAT GGAAGAAAAATGGTGAAATTAGAGAGACAAAGGAGTTTCCCAAGAGGGGAGAAGCGAAGAGGCGAGATATGTGGGGGAAA AAGTAATTTGTGGTCTTCAATCTCTTTGTATGTTTGTGTGTGTGTTTGTATCTCACTCAAACTGTGGGTTTCAGCAAGAT TTTGGAGTCAGCATATTATATATATTATATATATTTAACCCAAAACAGTTCCTTTTCTCACCTCTGGATCTGACCCTAAG AGTGGAACAAAGGAGTTTTACTTCATTGACTAATAACTGAAATAGTTACATCTTGCTTTCTTTTTAGTACACTTGTTTAG ATAAAATAACTCATGTACTATGTTTATTCTTTCCAGGTTGCTTCAAGTGCTCTTGGATTTGGTCCTCATATGGCTATGCA ACTAGCTGAACGGTTGTATACTCAAGGCTTCATCAGGTTTTCACATGATTTCATTCGTGTATAATATTAAAATGTAAGAT TTACATTATTTTTTTTGCATGCAATAACCTATGATTGGTTTCTACATGATGTTTCTCAAGCTATCCACGTACAGAGAGCA CAGCATACCCACCTTCATTTGACTTTCGTGGTGCACTCTCTGCACAAGCAAATAATCCAACTTGGGGTAATTATGTGGAA GGGCTACTTACCAATGGTTACCTGAAACCTCGACTTGGAACTGATGTAGGCGACCATCCTCCCATTACTCCAATGAGACC TGCAGCGGAGGATATGTTGGGCAATGATGCTTGGAAGCTGTACCAATATATTTGCCAACACTTCATAGGGACAGTGTCTC CAGACTGCAAGTATGCAAGGTAAAAGCTCAAGTGTTTCAACAACATTTCTCAGTTATCTACTTTTATGGTTTTGGTTCAT TCAGTAATTTCACTAATGTCCTTTGCCTTTTATTCGATTTAATGTTATTAGAGACAATGTGTTAATTTATCCTGGTTGTG TTCTCTCATTGATATCTTAGTCTTTTTGAGATAATGATAAATGATACTGAATGCTGAGTACTGGGGTTAAACATTCTGTG ACTATGTATTAGGCCAAGGTAGTTTTTCTTGGTCAGTTCATAGATATGTAGGCCCTTAAACCTATTGGAATTTTCGGCCT CCCAATTTTCCCATGTAAGACTGCAGCAAAATTGCAAAAATGCGTATTATATAAGATGCAGAGTGTGGCTTCCCCAAAAT TTGTTGTTTATCATCATGGTAATCATGTAATTGCTAGGTATTATATTGACACAGTGTTTGCTTTTCTTCAATCTAAGCTT AACCTTTGTCCAAACCTTTGCAAATATTTACCCGCCCTTGCTTGGTCTGATTGCATGAACATGGTAAACTTGTAGTTGTA GTTTTCTCATGCACTATTGTCGTACTTGCAGGAGAAAGGTTGAGTTTTCAATTGGGGGAGAGTCCTTTCATTGTACAGGG CAGCATGTTATCACCAAAGGATTTACGGCTATAATGCCTTGGTTGGCAATAAATGATAAAAATATTCCATCATTTATAAA AGGGCAGAAAATAGAAGTATCAAAGGTGGAGCTCTATGAGGTAAGTGTGGAACCCTTGCGACTCATGTTCAGTTTCTATA CAGTGTTATGTCTAATTTTGTTATTACTACTATTATCATTATCACTGTTATTATCATTATCTTCTCCAGCGTCCTCCAAT CACCTTCCAGCCACCTTCCGACATCTTCTGGTGACTTCTCCGGTGTCCTCCTCCTCCTCCTCCCCCTCCTCCTCCTCCTC CTCCTCTTCTTCTGCTTCTGCGTTTTTTGGGCTGTCCGTTGATCTGATTGATAAGATATATTGTTATGATAAACTATATT GTTATCTTATGGTAGATTAGGATAAGATACTATTTTTCTTATTTAGATTAGGGAACCTAGTTTATATGTAGTGCATTCTG AATCATGATAATTGACATCCATTGTTCAAACACTTTCAGTTTAATTGCATAAAACTCATTTCACATGAAAATTATGTGTG CATATTACTGATGGCAGTACCATGATTATCCAGGGGACTACAACACCTCCAGATTATCTTACTGAAAGTGAACTGATCTC CCTGATGGAGAAAAATGGAATAGGAACAGATGCATCAATTCCTGTTCATATTAACAACATATGTGAACGGAATTATGTGC AGGTAGTGGATATAGGTTCGTGGTCTGTGTTTATTTTGTTCAATGTCAGGGTATTCACTTCACATCCAATTGCAGGTACA AGCGGGCAGAAAGCTTGTCCCGACTACGTTAGGCATAACTTTAGTAAGAGGCTATCAATCAATTGATCCAGACCTCTGCC TGCCCGATATCCGTAGCTTCATTGAGCAACAGATTACTCTTATTGCTAAGGGTCAGATTGATCATCATCGTGTAGTGCAG CATGTAATCCAACAATTCAAGCAGAAGTTTTGTTACTTTGTCAAGAAGGTTGGCTGACTAACTTTTGTGCTTGTCTTGTT TCATCATGTCTTAATTTTCACAGCATGACAGGTTTTCATTTGTTTATTTTTTCTCAATTTAAGTTTGTTTTCCCCTGACC CTCCTTCCATCACCCCCAAAATGAACATGCACTTGTTGGTTTTGAACTTGTTTGACTGAAATTTTAAAATTAATTCATTC TCATGCTTTCAATCAGACCAACCTTAAGTGCATTGGGTGACGTTTTAAAAATTTGCTTTACAACTTGATCTTTGTTTGGT AAAAACTTTTCAAAATAAGTTAGTCTACCTTATTTTTAAAAGCACCTAAGGCGCTAAAATTCAATTTCTTTGGACATCAG GCGAGCACCGTCCAACTTCCGGTGAACACTGTGCGTTGACTTTCAGCCTATCTCTGGCGACCACTGCCCTTGTTTCCTTG GGCTTCTGTTCTGCTGTTTTTTAATTTCCTTTCTTTTCCTCTTTATTTTTCTATTCTCAATCATTTCATTTAGTTACCCT TCGGTTCTCTCCTCTCTTCTCTATCATTTCATCATGTTATGAATTTTAAGTTATATTTTCCATTTGTTTAGTAATTATAT GTATATACTATTAAACTGTTAATTATATAAAATTATATATGAAAATCAGAATAGCGGCCATCCCGCTATGCGCTAACCCA CTTTAGGGGTTGGCCGCTATCCGCGATTGCTACTATGCTCCATTGACACCTGCAAAGGGTGGCAGCAAAAGGGCACTATG CGGACAACAAAGGAGCAAAGGAAATAAGGCTGTAATAAGACGGCTAGGGCTCTTTAGACCAGGAGCTCTAATATCAAGTT GAAATGAGAAGAAATGTAATTTTGTTTCTTATTACAAAGTACAATACAAACTACGATAGATGGTTGCACATTAATAGACT AAGGCTCTCCTAATTAAAGAAATAATTACAAATAATTTAATTTGGACAAAGCTCCTATTTACAATTGTACGAATCATATA AATAAGGAAATAAATACCTCATGATCTTATAATGATATTACAACAGATAACTAGAGATGAAAGAAGGTCAAAAGTTTCAA AACAAATGAACAAAAGAAAAAGTCCAAAGAGCCAAGTGATTGGCGGGAAATGAATAAAGAAAAATGACACGATGGATGCT ACAGTGAAAAGTTATGTAAGTTTATTAGTTGTAGATTACTATAGTATTGGCAGATGTGCAGGAGTCTTTGTGAATGAACT TTTTAGTATCCGTGAGTTGCTGCCTGTTGCATTTCTTTGATCATGAGATTCTCCACAGCTTCCTTCGAAATTATTTAATC TGCACATGTAGTTCACCATGTATAATAAAGTTGCAGATTTCATGAATTTATTCTCTCTTATACTAATTCTGTTGCTTTCT ATCTGGCCCAGATTGAAGCCATGGATGCATTATTTGAAGCACAATTTTCCACACTTGTTGATTCAGGCCGTATTCTTAGT AAATGTGGGAAATGCTTGCGGTATATGAAGTACATTTCTGCTCAGCCCTCACGTTTATATTGCGGTATATGTGAGGAGGT GTATTATCTTCCACAGAAAGGCACAATCAAGGTATACTATGTAACTATAATATATTGTAATCTATCAAACTTCCTTGATA TTGGTGATTGGTTTCTCAATCAAAAGAAAATGGCCCTCTTTCTAATATAGTGTAAAGACTTCACTTTCCATTTACCATCT CTCTCTCTCTCTCTCTCTCTCTCCTCTTAACTGCACCTCTTCCTCGTACTGTCTCTCTTCTAACAAGACAACCCAGTGCC CCTAAAGCTTCTGCCATGGCTGTGTCCAAGTAAGAGTCAGAGCTATTTTAGAGTTTAGAGTTTAGACATATTATAGGCAG TCTTGTCTTTTTTCATAAGAGGTTGATCCCATGATTTGAACCAGTGACATCCTAGGCATGGCGTGGAAGCAACACTAACT GTTGCGCCAATTATCTTCTATTGTCTCTCGTTCTACATCAATTTGGTATCAATGCTAACGTCCTTTCAAGCATATGTACC TTTAGCCTTGTCAAATATATCATGCAAAACCGGAAGCATTTAATCACACTAAACCGCTGACTTACAAATATAGAATGTTT CTGTCTAAAGGCTGTTAGAACTTGCCATTTCTTTGCGGAATCTTTGAGAGCTTTTGCATATAAATCTCTCCTTGTACAAC CACCCCTGCCACTTATGGGAGGCTGCTGATAACATTCCACGAGATTGATTGGCAAGGAATCATTTCCATTTAATATTAAG TCTTTTCATCCATTTGAGAATGTTTCTGTTGCTATATTATGTTGTGTGATTAACTGGTTTCTGGTATTTTAGAATGTTTA TGTTGCGGTATTATGTTGTGTGATGTGCCCAATATCTGTTACTGTTACCCACATTTGCATTAACTGGTTTCTGCAGCTGT ACAAGGAATTGTCTTGTCCTCTAGACAATTTCGAGCTTTTGCTCTGCTCGATGGGCCCAGATGGTAAATCTTTCCCTCTC TGCCCATACTGCTACAGCAATCCCCCATTTGAAGGTATTGAAGCACTCATAAATACGGCGAAAACTAGTACTTCGGGCAA GATTGGCAAGGGAGCTGGCATGCCATGCATCCTATGTCCCCATCCCACTTGCCCAAATTCTCTGGTTTCCCAGGGTGTAT GTGCTTGCCCAGAGTGCAGCGGGACACTTGTCTTAGACCCAGTAAGTGCTCCCAAATGGCGACTTTGTTGCAATATGTGC AATTGCCTAGTTTTTCTTGCACAGGGTGCTCATAGAATTTCCACTACTAAAGAACGGTGCCCTGAATGCGACTCTTCAAT CATTGAAGTGGACTTCAATAAGAAAGCAACTCCTCTAGAAGATGGATCCACTTTGCACCGTGGTTGCATTCTTTGTGATG AGTTACTGCATTCCCTTGTGGAGATGAAACATGGGAGAGGCTTCAGGCAGAGTTCACGGGGAAGAGGAAGAGGAGGAAGA AAAGGCGGGTATAGGGGCAGAGGACGCAGGGGTGGATCAATGGTGGACCCAAAAATGAGTTTCCGAGATTTCTAA

Download Genomic Sequence

CDS sequence (LotjaGi6g1v0103100.4) extracted from Lotus japonicus Gifu v1.2 CDS.

ATGAGTGTAGATTTTCCTGGTAAATATCAAGATTGGTCAGCCACAGATCCATTAGATCTCTTTCAAGCTCAGGTTTTAAA GAATGAATCAAACCCAAAGGCGCATATTTGTAGGCATTTAAACCAAGAAGCTCGTGGATGCCGTTTTTTGGTATTGTGGT TAGATTGTGATCGTGAAGGAGAAAACATATGTTTTGAGGTTATACAATCAACTGGTTTCAATGTAAATGATGTTTATCGT GCACGGTTTTCTTCTGTTACTGAGAAAGATGTCTTGAAGGCTCTAGACAACCTTGTCAGACCCAACAGAGATGAGGCACT GGCAGTAGATGCTAGGCAAGAGATAGATTTGAAAGTTGGGGTTGCCTTTACTCGATTTCAGACAAGTTTCTTCCAGGGAA AATATGGAAACCTAGACTCCAAAGTCATCTCCTATGGACCATGTCAAACTCCTACTTTAGGATTTTGCGTGCAGCGGTAT TTACAAATAAATACTTTCAAGCCAGAAAAGTTTTGGAGTGTGAACCCATACATAGTTCACAGTGGCTATGAAATCCAGCT CGAATGGCAACGTAGTAAATTGTTTGACATAAATGTTGCTACGATGTTTCAAAAGCTGGTTGCCGAGGATGGACTTTTGG AAGTGACCGAAATATCAGAAAAACAAGAAACCAAAAGTCGCCCTGTTGGTCTAAACACAGTGAATCTTCTAAAGGTTGCT TCAAGTGCTCTTGGATTTGGTCCTCATATGGCTATGCAACTAGCTGAACGGTTGTATACTCAAGGCTTCATCAGCTATCC ACGTACAGAGAGCACAGCATACCCACCTTCATTTGACTTTCGTGGTGCACTCTCTGCACAAGCAAATAATCCAACTTGGG GTAATTATGTGGAAGGGCTACTTACCAATGGTTACCTGAAACCTCGACTTGGAACTGATGTAGGCGACCATCCTCCCATT ACTCCAATGAGACCTGCAGCGGAGGATATGTTGGGCAATGATGCTTGGAAGCTGTACCAATATATTTGCCAACACTTCAT AGGGACAGTGTCTCCAGACTGCAAGTATGCAAGGAGAAAGGTTGAGTTTTCAATTGGGGGAGAGTCCTTTCATTGTACAG GGCAGCATGTTATCACCAAAGGATTTACGGCTATAATGCCTTGGTTGGCAATAAATGATAAAAATATTCCATCATTTATA AAAGGGCAGAAAATAGAAGTATCAAAGGTGGAGCTCTATGAGGGGACTACAACACCTCCAGATTATCTTACTGAAAGTGA ACTGATCTCCCTGATGGAGAAAAATGGAATAGGAACAGATGCATCAATTCCTGTTCATATTAACAACATATGTGAACGGA ATTATGTGCAGGTACAAGCGGGCAGAAAGCTTGTCCCGACTACGTTAGGCATAACTTTAGTAAGAGGCTATCAATCAATT GATCCAGACCTCTGCCTGCCCGATATCCGTAGCTTCATTGAGCAACAGATTACTCTTATTGCTAAGGGTCAGATTGATCA TCATCGTGTAGTGCAGCATGTAATCCAACAATTCAAGCAGAAGTTTTGTTACTTTGTCAAGAAGATTGAAGCCATGGATG CATTATTTGAAGCACAATTTTCCACACTTGTTGATTCAGGCCGTATTCTTAGTAAATGTGGGAAATGCTTGCGGTATATG AAGTACATTTCTGCTCAGCCCTCACGTTTATATTGCGGTATATGTGAGGAGGTGTATTATCTTCCACAGAAAGGCACAAT CAAGCTGTACAAGGAATTGTCTTGTCCTCTAGACAATTTCGAGCTTTTGCTCTGCTCGATGGGCCCAGATGGTAAATCTT TCCCTCTCTGCCCATACTGCTACAGCAATCCCCCATTTGAAGGTATTGAAGCACTCATAAATACGGCGAAAACTAGTACT TCGGGCAAGATTGGCAAGGGAGCTGGCATGCCATGCATCCTATGTCCCCATCCCACTTGCCCAAATTCTCTGGTTTCCCA GGGTGTATGTGCTTGCCCAGAGTGCAGCGGGACACTTGTCTTAGACCCAGTAAGTGCTCCCAAATGGCGACTTTGTTGCA ATATGTGCAATTGCCTAGTTTTTCTTGCACAGGGTGCTCATAGAATTTCCACTACTAAAGAACGGTGCCCTGAATGCGAC TCTTCAATCATTGAAGTGGACTTCAATAAGAAAGCAACTCCTCTAGAAGATGGATCCACTTTGCACCGTGGTTGCATTCT TTGTGATGAGTTACTGCATTCCCTTGTGGAGATGAAACATGGGAGAGGCTTCAGGCAGAGTTCACGGGGAAGAGGAAGAG GAGGAAGAAAAGGCGGGTATAGGGGCAGAGGACGCAGGGGTGGATCAATGGTGGACCCAAAAATGAGTTTCCGAGATTTC TAA

Download CDS Sequence

Protein sequence (LotjaGi6g1v0103100.4) extracted from Lotus japonicus Gifu v1.2 Proteins.

MSVDFPGKYQDWSATDPLDLFQAQVLKNESNPKAHICRHLNQEARGCRFLVLWLDCDREGENICFEVIQSTGFNVNDVYR ARFSSVTEKDVLKALDNLVRPNRDEALAVDARQEIDLKVGVAFTRFQTSFFQGKYGNLDSKVISYGPCQTPTLGFCVQRY LQINTFKPEKFWSVNPYIVHSGYEIQLEWQRSKLFDINVATMFQKLVAEDGLLEVTEISEKQETKSRPVGLNTVNLLKVA SSALGFGPHMAMQLAERLYTQGFISYPRTESTAYPPSFDFRGALSAQANNPTWGNYVEGLLTNGYLKPRLGTDVGDHPPI TPMRPAAEDMLGNDAWKLYQYICQHFIGTVSPDCKYARRKVEFSIGGESFHCTGQHVITKGFTAIMPWLAINDKNIPSFI KGQKIEVSKVELYEGTTTPPDYLTESELISLMEKNGIGTDASIPVHINNICERNYVQVQAGRKLVPTTLGITLVRGYQSI DPDLCLPDIRSFIEQQITLIAKGQIDHHRVVQHVIQQFKQKFCYFVKKIEAMDALFEAQFSTLVDSGRILSKCGKCLRYM KYISAQPSRLYCGICEEVYYLPQKGTIKLYKELSCPLDNFELLLCSMGPDGKSFPLCPYCYSNPPFEGIEALINTAKTST SGKIGKGAGMPCILCPHPTCPNSLVSQGVCACPECSGTLVLDPVSAPKWRLCCNMCNCLVFLAQGAHRISTTKERCPECD SSIIEVDFNKKATPLEDGSTLHRGCILCDELLHSLVEMKHGRGFRQSSRGRGRGGRKGGYRGRGRRGGSMVDPKMSFRDF

Download Protein Sequence

Domain prediction

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

Prediction algorithm	Identifier	Start	End	Length	E-value	InterPro ID
PANTHER	PTHR11390:SF20 View details on PTHR11390:SF20 Search for proteins/transripts with this domain View external data on PTHR11390:SF20	1	786	786	0.0	–
Gene3D	G3DSA:3.40.50.140 View details on G3DSA:3.40.50.140 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.140	1	101	101	3.0E-29	–
PANTHER	PTHR11390 View details on PTHR11390 Search for proteins/transripts with this domain View external data on PTHR11390	1	786	786	0.0	IPR000380 Show description in modal box View details on IPR000380 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF56712 View details on SSF56712 Search for proteins/transripts with this domain View external data on SSF56712	2	562	561	2.35E-140	IPR023405 Show description in modal box View details on IPR023405 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01751 View details on PF01751 Search for proteins/transripts with this domain View external data on PF01751	26	85	60	6.0E-8	IPR006171 Show description in modal box View details on IPR006171 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00417 View details on PR00417 Search for proteins/transripts with this domain View external data on PR00417	50	63	14	1.1E-11	IPR013497 Show description in modal box View details on IPR013497 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00436 View details on SM00436 Search for proteins/transripts with this domain View external data on SM00436	77	173	97	2.3E-32	IPR003601 Show description in modal box View details on IPR003601 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF01131 View details on PF01131 Search for proteins/transripts with this domain View external data on PF01131	101	511	411	7.3E-109	IPR013497 Show description in modal box View details on IPR013497 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd00186 View details on cd00186 Search for proteins/transripts with this domain View external data on cd00186	104	522	419	3.03284E-125	IPR013497 Show description in modal box View details on IPR013497 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.460.10 View details on G3DSA:1.10.460.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.460.10	108	522	415	1.7E-154	IPR013824 Show description in modal box View details on IPR013824 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00417 View details on PR00417 Search for proteins/transripts with this domain View external data on PR00417	143	161	19	1.1E-11	IPR013497 Show description in modal box View details on IPR013497 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:2.70.20.10 View details on G3DSA:2.70.20.10 Search for proteins/transripts with this domain View external data on G3DSA:2.70.20.10	167	420	254	1.7E-154	IPR013825 Show description in modal box View details on IPR013825 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00437 View details on SM00437 Search for proteins/transripts with this domain View external data on SM00437	219	474	256	4.0E-77	IPR003602 Show description in modal box View details on IPR003602 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:1.10.290.10 View details on G3DSA:1.10.290.10 Search for proteins/transripts with this domain View external data on G3DSA:1.10.290.10	227	352	126	1.7E-154	IPR013826 Show description in modal box View details on IPR013826 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00396 View details on PS00396 Search for proteins/transripts with this domain View external data on PS00396	256	270	15	-	IPR023406 Show description in modal box View details on IPR023406 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00417 View details on PR00417 Search for proteins/transripts with this domain View external data on PR00417	261	270	10	1.1E-11	IPR013497 Show description in modal box View details on IPR013497 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00417 View details on PR00417 Search for proteins/transripts with this domain View external data on PR00417	338	354	17	1.1E-11	IPR013497 Show description in modal box View details on IPR013497 Search for proteins/transripts with this domain View on EBI InterPro Service
PRINTS	PR00417 View details on PR00417 Search for proteins/transripts with this domain View external data on PR00417	436	450	15	1.1E-11	IPR013497 Show description in modal box View details on IPR013497 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	762	800	39	-	–
MobiDBLite	mobidb-lite View details on mobidb-lite Search for proteins/transripts with this domain	765	783	19	-	–

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:0003916 View details of GO:0003916 AmiGO InterPro QuickGO	Molecular function	DNA topoisomerase activity	Catalysis of the transient cleavage and passage of individual DNA strands or double helices through one another, resulting a topological transformation in double-stranded DNA.	Subterm of View details of GO:0016853 View details of GO:0140097
GO:0003917 View details of GO:0003917 AmiGO InterPro QuickGO	Molecular function	DNA topoisomerase type I activity	Catalysis of a DNA topological transformation by transiently cleaving one DNA strand at a time to allow passage of another strand; changes the linking number by +1 per catalytic cycle.	Subterm of View details of GO:0003916
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 LotjaGi6g1v0103100.4, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

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LotjaGi6g1v0103100.4