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Field | Value |
---|---|
Gene ID | LotjaGi3g1v0121000 |
Transcript ID | LotjaGi3g1v0121000.1 |
Related isoforms 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|I1MJQ7|I1MJQ7_SOYBN DNA topoisomerase 2; Found in the gene: LotjaGi3g1v0121000 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:14822816..14830581) extracted from Lotus japonicus Gifu genome v1.2.
GTGCAAAGCAAAAACGCACCCACACAGCCACACTCACAAGTATCTAGCAGCTTCCAAACCCATAAGCCCAAACCAGAAGC AGCATTCAAATTTCAAACTCCCGCTCAAACCCCCAATTTTCAAATTCAAACACACCCACTCGACCGTTAGCCCCCTTCAA ATAAAACCAAGACCCAACCCCAACATTTCATTCGATCACCACCCATCAATCTTGATCTCTCTCCCTCTCTTTCGTTTCGT CGACACGATCTCAGTGTCTCGCCGCCATGGAGGCCTCAAAGAAGCGCCCTCTCCAGAACAGCAACGCCGCCAACGTCCCC TCCGCTGCCGCGGCGGCGAAGGGGAAAACCATCGAAGAAATGTACCAGAAGAAGACGCAGCTGGAGCACGTCCTTCTCCG CCCCGATACCTACGTCGGCTCGATCGAGAAGCACACGCAAACACTCTGGGTCTACGAGAACGACGAGATGGTTCACCGTC CTGTCACCTACGTCCCTGGCCTCTACAAGATCTTCGATGAGATCCTCGTCAACGCCGCCGATAACAAGCAGCGCGATCCC AAAATGGACTCGCTCAAGGTCACCATCGATCCGGAAGCCAACACGGTGTCGGTTTACAACAACGGTGACGGCGTCCCGGT GGAGATCCATCAGGAAGAGAAGGTTTATGTGCCGGAATTGATCTTCGGTAACCTGCTCACCAGTAGCAACTACGACGATC AGGAGAAGAAGACCACCGGCGGACGGAACGGTTTCGGTGCCAAGCTCACCAATATTTTCTCCACTGAGTTCATCATCGAG ACCGCTGATGGCAGGCGTCAGAAGAAGTATAAGCAGGTATTCTTGGATCAATTTTGTGATTGTTTCGATTTTGCAGCAAT TTATGTGTTTTTTCAGTTTTTTCTTGTTATGCTTGTTTCGATTTTGGAGCAATTTCTGTGTTTTGGGGTTGAATATGTTC TTGAATGATGGCATTTGTTTTCAATTTTTGGATTGATTTGAGTGTCATGTGTAGCAGTGCTGGGATTTAGGGTTTCATTG CTAGGGTTTCAGTGCTAGGGTTTTACTTGAGTAGATTTGTCAATTTAAGTTCTTGCTAGGGTTTTTATTTTTCACTTTTG GGGGTAATGAATTGAACATTGGTTTTGTTATTTGGAATTGAAAATTCTTTGTTGAAGTTTAAAGGCGATTGCCGATTTGT GAAGCTAATTGTGATAGTTTAATGGGTTTTCTGATTGGATTGATTTGGTTGTGATTGGAAGGTTTTTTCTGAGAATATGA GTAAGAAGGCTGAGCCAGTGATATCCAAGTGCAAAGAGAATGAGAACTGGACAAAGGTTACCTTCAAGCCGGACTTGGAA AAGTTCCAAATGACCCATCTTGAGGAAGATGTTGTTGCTTTGATGAAGAAGCGTGTGATGGACATGGCAGGTTGCCTTGG AAAGACTGTTAAGGTTGAACTCAATGGGCAATCGATTCGTATGAAGTCATTTCGTGACTATGCTGATCTCTACCTGAAAT CTGCTGAGAAATCAAGACCTGTGCCCCTTCCAAGGTTTTTATGTCCTCCATAGATTATAAGCTGATGTGTTCCGTTTTTC CTTCCATTATAGCTGTGTGCTAACTTGATTTGATTGTTGCTATTAGGATTCATGCTAAAGTAGGTGATAGGTGGGAGATT TGCACGAGTCTAAGTGATGGGCAGTTTCAACAGGTTACCAGTGAAACTTTTGAAGTAATTTTGAGTTCACTTTTTAGGCT AATTAATTTTACTTACGCACCCTTGATTTCTTTGTTATCAGGTCAGCTTTGTGAATGCCATTAATACAACCAAGGGTGGA ACTCATGTTGACTACATCACCAATCAGATTACAACCTATGTGATGAACAAAGTAAATAAAAAGAAAAAGGATGCCAATAT CAAGGCTCACAATGTGAAGAATCATTTATGGGTTTTTGTCAATGTTCTTGTTGATAACCCTGCTTTTGATTCTCAAACTA AAGAGACTCTCACGACTAAAGCAGCTAATCTCGGTTCTAAATGTGAAGTTCCTGAATCGATGTTGAAGGAAGGTTTGTCC TGCTGAACCATTTTTGTTAATACAACTAACATGGAATGGAATGGTGTTTTACACTTACATGTTGCAAATGTTTGCAGTTG CAAATTCTGGAATATTGGACACTCTCCTATCATGGGCAGATTTTAAGCAAAGCAAAGATTTGAAGAAAACTGATGGAACA AAGACTCAGAGACTTCGTGGGATTGTTAAACTAGAGGATGCCAATGATGCTGGTGGAAGGAACTCAGATAAGTGTACCTT GATACTGACAGAGGGAGATTCTGCTAAGGCCCTTGCTGTAAGTTTTTGTCATGTTAAGAAGTGTTTTTGGTGTTCATATT TTACATTAAACTTCAATTGAAAGATATTGGCAAGTTAAAGACAATCATAGAGACCCACTATTTACAAATAAACTGAGTTT CAGCCTTAAAAGCACTAATATTGTAAGGTCATCATATATAAAATTAATCCAATCAACTTATTTCCTGTTAATCGAAGTTA CCTCGGATAATTGAATTTTGATTTTCAATGTTCAACAAGTTCATGTTTAATACTTCTAATATAATTTGTTCTTTTTTCTA TATGAAGATGGCTGGGCTCTCAGTCGTGGGTCGGGACCATTATGGTGTGTTTCCATTGAGAGGCAAATTGCTCAATGTGC GGGAAGCTAGCAATAAGCAGATAATGGATAATGAAGAAATTCAAAATATAAAGAAAATTCTTGGACTGCAGCAAAACAAA GAGTATTCTAACGTGAAGTCTTTGAGATATGGTCATTTGATGATTATGGCTGATCAGGTAAGTTGCTCAAAGATTACGTA GTTTAGTCTTGTTTTGTCTTGGTCTTCAGTTTCTTTAGAATCTCATCAGGCACGGGGCATGTACTTAATTTTGGATTCAT GATAACTTAACTTTTTGGTGGTTTAGGATCATGATGGTTCCCACATCAAAGGGTTACTGATAAACTTCATTCATTCATTC TGGCCATCACTGCTTAAAGTTCCATCATTCATGGTTGAATTTACCACTCCCATAATAAGGGTAAGTATGGTTAATGTTCT GTTGATTAAGAAAACAGTGACTTGTACATCATTTTTCAGAACTTACTCTTTGGACTTCACTTATATATATATTTTCTGTC TCGGCAGGCTTTTCATTCAAACGGGACAAAATTATCATTTTATTCAATGCCCGAGTATGAATCATGGAGAGAGAACTTGG GGAATAATGCAACTGGTTGGAAGATAAAGTACTATAAGGTGCAGTGTTGTTGACATGGAGAACCTCCACAGTAGGTCTAC AATTAATTTATAAAGTGTTTGCTTATTTTGTTTCTGGTGTTTCTACAGGGTTTGGGTACAAGTACTCCTCAGGAAGGGAG AGAGTACTTTCGAGATCTTGGTAAGCATAGAAAAGACTTCGTTTGGGAAGATGACTATGATGGGAGTGCAATTGAGATGG CCTTCAGTAAGAAGAAAGCTGAGGATAGGAAGGTTTGGATTCGCAATTTTGAGGTGGGTAGTTAGTGTTAAGATAATACA CATTTTTATTGACAGATCCTTGTTCTGTGGAAGTATCAGTTAATAAAAATCTACCTTTCTCTTTTCTTGCAGCCTGGCAA TTATCGTGATCATGTTGCATCACGTATAAACTATAAGGACTTTGTGAACAAAGAACTTATATTGTTCTCTAGGGCTGATC TTCAAAGGTCCATTCCCTCGGTGGTTGATGGCCTCAAACCAGGTCAAAGGAAGATTCTTTTCTGCTCATTTAAGAAAAAG TTGTTCAAGGAAATAAAAGTAGGCCAATTTATTGGTTATGTGTCCGAACACTCTGCTTACCACCATGGTGAACAAAGTCT GGCTAGCACAATCATAGGAATGGCACAGGACTTTGTTGGTAGCAACAACATTAATCTGCTGAAACCAAACGGTCAATTTG GTACTCGTAACTTGGTGAGATAAAGCTGCCTATTAACTATGTCACAATTTTCTCCATGTTTCTTTTGTAACTTCGTACTT ACTCAGTAACTTGCTCTTCCAGGGAGGCAAAGACCATGCTAGTTCCAGATATATATACACTGAACTAAATCCTATCACTC GGTGCCTCTTCCACGAGAATGATGATAAGCTACTGGAATACTTGAATGAGGATGGGAGGTCAATTGAACCAAGCTGGTAA TTTCTTTTCTCCTTTCTTTTTAAAGGTTGTTCGTGATTAGTGTCTATTAAACATAATATACTAATAGAAATTCCACTTGT GTTGCCACATAGGTACATTCCTATTATTCCTTTGGTTCTTGTTAATGGAAGTGAAGGAATTGGGACTGGCTGGAGTTCAT ATATACCCAACTACAATCCAAGGGATATTATTGCGAATGTTAGGCGTTTGTTAAACGATGAGACTATGGTTCCAATGGAT CCTTGGTATAGAGGATTTAAGGGAATCATTGAGAAAAGCGCCAAGGAAGGGGGGTATATAGTGAATGGTACAGTTGAGGA AATTGATGAACAAAGTTTCAGAATAACAGAGCTGCCCATCCGCAAGTGGACTCAAGATTATAAGCAGTTTCTTGAATCCA TAACTGATGGGTCACCCAATGTCAAGGATCCTCTCATTGAGGTAACCTGACCTAAACATTTCTTCACCATATATACAAAT TAGTTTGGGTTATGTGATAATTAATGAGCTAATTTGGGTAAATTTTTCTTCTCAAATTTCCTTGTGCAGGATTTCAGACA GAATGGAGATGACGCAATGGTTGACATTGAAATCAGGATGAAGCTGGAAAAAATAGCGATGATTATGCAAGAAGGACTGC TCAAGAAATTTAAATTGACTACCACAATCAGCACAAGCAACATGCATCTTTTTGATGCAGAAGGGAAAATTAAGAAATAC GAAAATCCTGAACAAAGTAAGCCTTTGTATGCAGTGTTGTTCTGAATAGTAATATGTAATGTTTTAATAAATACTCACTG TTTTCTTTCATTTCTCATGCAGTTCTTGAGGAATTCTTTCCTCTTAGGTTGGATTATTATGAGAGAAGGAAGGTGAGTTA TTGGCAATAGGGAGTAGGATTGTCTTTACGTTCTGAACCTATTAGTAAGAACTGAAATGCAATTTGGTTGTGCTTGCAGC AATATATTCTGGAAAATTTTGAACGACTTTTGTTGGTGCTGGACAACAAAGTTAGGTTCATTTTAGGCGTTGTAAGTGGC GAAATTGTCGTGAGCAACCGGAAGAAAGCTGATTTATTGATGGAGCTGCAGCAGAAAGGTTTCACTCCAATGCCAAAAAA AGGTAAATCTGCAGAACCGCAAGTTGCTGGGGCTAATGATGAAAATTCAGAAGAGCAGGAAGATGAGAACACTAGAGAAG AGGCTGTCCGTGTTGAAGAAGCCAAAAGAGGTGACTATGAATATCTGTTGTCCATGTCTATTGGCACTTTGACCCTCGAG AGTGTTCAGAAGCTGCTAGCTGAAAAAGAAGAAACGGAAAAGGAGTTTGAGATTTTGAAGGCAACACCATCAAAGTCTAT GTGGATGAAGGATCTAGATGAGCTTGAAAAGAAACTTGATGTAGGAGAAATTACTTAAATTTTGATATTCTTCAGTTGTA TTTGAGTAAGGAATTTGTCATCTCTTAATTGTTACTATTTTTTTTGAATGTTACAGGAACAAGATGGCAAAGAGGCAGAG GACGAAAAAAAGAGAATAAGCCAAGCGAGTAAAAGGACATCCACTCGTGATTTGGGCACAAAAGCAGCAAAGAAGCCTCC ACAGCCACGAAAGAATACGAAGAAGACCAAAAATGCTGAGAGTGATAATTCTCCAATGGAAACTGGTAAGCCTCCACATC CAGAAATATTTTTGTATCATCTCTCAATATCCATACATATAAGAGTTTGAAATTTCTCTATTTGCATCAACAGAGAATGC TCCTGAAGTCAGTAAACCAAAAGGCAGAGCAGGTTCTAAGAATACTCAGAACCAAAAGGCAGAGAAGGTACGTCAACTAC CAAATTCTTGAATTCCATGTTTTCCTGCAAATTATATTGAGCATTAACTCTTTGATATGGCTATTATCAGGTTGCTGATG ATGAAATTTTATCTCTTCAAGAACGCCTAGCTGCATATAACTTCGGATCATCCAGTGATCAATCCGGAGGTAAATAAGAT TATTATTGTTATAAAATTTGGGTAAAATTATACTGTGTAGAGTTAGGTAAATCAGGTTAAGTTTAAAATTAGGTAAAATT AGGCAAATTTGTAAGCCTTGATAATGGCGTTGTTTTTGGATATTGTCACGCAAGTTAATGAGAGAGAGAAAAGGAAGATG AATGATTATTGTGATATAGTTAGAAGAGTAGTTGATGTGTGTATGTATAGTGCTGTTACTATAGGGGTGTTTAAAAAGTG GGATTGTCTCTTACACCTAAGTTAAATCAGTTTCCTAATAAAAGTTATCTAAAATACAATTGAAATCAGATACTAGTTTG TGCAGCAGTAGTTAAATGGTTACTACATCCTTATATGCTAGTGCTTAAGCTATTATTTGCTACCTCTACAGTGATGGAAA CCGAAGAGCCTGTTGTGAAGAAAGGGAATAACAGAAAGGGTGGTGCCAAAAAGAAGTCAACCATTGTGTTGGATTCATCG GATAGTGATAATGAAATTAATGGTGTTGATGACGATGATGATGATGACTTCGAAGACACTTCAGCTGGGAAAAAGAAGGG AGGAAGAAAACCTGCTGCTGCCAAGAAGCCAACAGCAACAGCTGCAGCCAAGAAGCCAACAGCAGCTGCTGCAGCCAAGA AGCCAACAGCAGCAGCCCCCAGGAAGAGGAATGGAGCAGCAGCAGAAAGCAAGAAATCTACATTGAGTCAAAAATTCATA ACTGACATGTTGCAGCCTGCTGAGAGTGCAGGGATATCACCAGAGAAGAAAGTGAGGAAGATGAGGGAGTCTCCATTCAA CAAGAAAAGTGGTTCTGTGCTTGGAAGGCTTGCAGGCAAAGACTTGGGTTCTTTAAGTGAAGACTTGTCCTCGGGTGGTT CGGGTGCATCTAACTCTCCACCCAGTGCAGATACGGAGGTGGTTGAGGTTGCACCAGCAGCAGGAAGAGCTAGGCCTCAG AGGGCTAGACCACAAGTAACGTATGTGCTGAGTGAATCCGAAAGTGACAATGATTCTGATGCTAAACCTTCAGATTTTTC TGACTTTGAAGAAGATGATGACTAGGCTGATATAGATAACTTGATACTCTGATGAAACTTGATCTGCTTCTCGTGGATTT TAGCTTCCTAGTTTCGTGTTTCTGAACTTGAGTTGGATAGTTTCGGAAGTTACTAGAATGGATTGTAGTTAAATGGTTTT AAACTTCATTAGTGCAATATGAAGTGCGGAAAAAAGGTTAAATAAAATTAACTTTGTATATTGAATTTGACTGTTTATTT TTAAGGCTAGCTCCTTATTTTTTTTATTGTTTTCTTGGTCCTGCAATGGTTTTGACTTTTGAACAAAGGATATATTGGTG ACATTCTTCAAACCAACAAATCACTTAGGAAACTAGTGTAGTTGATTCTCACTTCTGATTTAACGAATTTTGACTATGTA TCAATGTAATTTTGGTTGAGAAAAAAAGTTAGGCATAACAACTCACTTTGAAACATTCTTGCAATCACTTTCACACTTTT TTCAAC
CDS sequence (LotjaGi3g1v0121000.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGAGGCCTCAAAGAAGCGCCCTCTCCAGAACAGCAACGCCGCCAACGTCCCCTCCGCTGCCGCGGCGGCGAAGGGGAA AACCATCGAAGAAATGTACCAGAAGAAGACGCAGCTGGAGCACGTCCTTCTCCGCCCCGATACCTACGTCGGCTCGATCG AGAAGCACACGCAAACACTCTGGGTCTACGAGAACGACGAGATGGTTCACCGTCCTGTCACCTACGTCCCTGGCCTCTAC AAGATCTTCGATGAGATCCTCGTCAACGCCGCCGATAACAAGCAGCGCGATCCCAAAATGGACTCGCTCAAGGTCACCAT CGATCCGGAAGCCAACACGGTGTCGGTTTACAACAACGGTGACGGCGTCCCGGTGGAGATCCATCAGGAAGAGAAGGTTT ATGTGCCGGAATTGATCTTCGGTAACCTGCTCACCAGTAGCAACTACGACGATCAGGAGAAGAAGACCACCGGCGGACGG AACGGTTTCGGTGCCAAGCTCACCAATATTTTCTCCACTGAGTTCATCATCGAGACCGCTGATGGCAGGCGTCAGAAGAA GTATAAGCAGGTTTTTTCTGAGAATATGAGTAAGAAGGCTGAGCCAGTGATATCCAAGTGCAAAGAGAATGAGAACTGGA CAAAGGTTACCTTCAAGCCGGACTTGGAAAAGTTCCAAATGACCCATCTTGAGGAAGATGTTGTTGCTTTGATGAAGAAG CGTGTGATGGACATGGCAGGTTGCCTTGGAAAGACTGTTAAGGTTGAACTCAATGGGCAATCGATTCGTATGAAGTCATT TCGTGACTATGCTGATCTCTACCTGAAATCTGCTGAGAAATCAAGACCTGTGCCCCTTCCAAGGATTCATGCTAAAGTAG GTGATAGGTGGGAGATTTGCACGAGTCTAAGTGATGGGCAGTTTCAACAGGTCAGCTTTGTGAATGCCATTAATACAACC AAGGGTGGAACTCATGTTGACTACATCACCAATCAGATTACAACCTATGTGATGAACAAAGTAAATAAAAAGAAAAAGGA TGCCAATATCAAGGCTCACAATGTGAAGAATCATTTATGGGTTTTTGTCAATGTTCTTGTTGATAACCCTGCTTTTGATT CTCAAACTAAAGAGACTCTCACGACTAAAGCAGCTAATCTCGGTTCTAAATGTGAAGTTCCTGAATCGATGTTGAAGGAA GTTGCAAATTCTGGAATATTGGACACTCTCCTATCATGGGCAGATTTTAAGCAAAGCAAAGATTTGAAGAAAACTGATGG AACAAAGACTCAGAGACTTCGTGGGATTGTTAAACTAGAGGATGCCAATGATGCTGGTGGAAGGAACTCAGATAAGTGTA CCTTGATACTGACAGAGGGAGATTCTGCTAAGGCCCTTGCTATGGCTGGGCTCTCAGTCGTGGGTCGGGACCATTATGGT GTGTTTCCATTGAGAGGCAAATTGCTCAATGTGCGGGAAGCTAGCAATAAGCAGATAATGGATAATGAAGAAATTCAAAA TATAAAGAAAATTCTTGGACTGCAGCAAAACAAAGAGTATTCTAACGTGAAGTCTTTGAGATATGGTCATTTGATGATTA TGGCTGATCAGGATCATGATGGTTCCCACATCAAAGGGTTACTGATAAACTTCATTCATTCATTCTGGCCATCACTGCTT AAAGTTCCATCATTCATGGTTGAATTTACCACTCCCATAATAAGGGCTTTTCATTCAAACGGGACAAAATTATCATTTTA TTCAATGCCCGAGTATGAATCATGGAGAGAGAACTTGGGGAATAATGCAACTGGTTGGAAGATAAAGTACTATAAGGGTT TGGGTACAAGTACTCCTCAGGAAGGGAGAGAGTACTTTCGAGATCTTGGTAAGCATAGAAAAGACTTCGTTTGGGAAGAT GACTATGATGGGAGTGCAATTGAGATGGCCTTCAGTAAGAAGAAAGCTGAGGATAGGAAGGTTTGGATTCGCAATTTTGA GCCTGGCAATTATCGTGATCATGTTGCATCACGTATAAACTATAAGGACTTTGTGAACAAAGAACTTATATTGTTCTCTA GGGCTGATCTTCAAAGGTCCATTCCCTCGGTGGTTGATGGCCTCAAACCAGGTCAAAGGAAGATTCTTTTCTGCTCATTT AAGAAAAAGTTGTTCAAGGAAATAAAAGTAGGCCAATTTATTGGTTATGTGTCCGAACACTCTGCTTACCACCATGGTGA ACAAAGTCTGGCTAGCACAATCATAGGAATGGCACAGGACTTTGTTGGTAGCAACAACATTAATCTGCTGAAACCAAACG GTCAATTTGGTACTCGTAACTTGGGAGGCAAAGACCATGCTAGTTCCAGATATATATACACTGAACTAAATCCTATCACT CGGTGCCTCTTCCACGAGAATGATGATAAGCTACTGGAATACTTGAATGAGGATGGGAGGTCAATTGAACCAAGCTGGTA CATTCCTATTATTCCTTTGGTTCTTGTTAATGGAAGTGAAGGAATTGGGACTGGCTGGAGTTCATATATACCCAACTACA ATCCAAGGGATATTATTGCGAATGTTAGGCGTTTGTTAAACGATGAGACTATGGTTCCAATGGATCCTTGGTATAGAGGA TTTAAGGGAATCATTGAGAAAAGCGCCAAGGAAGGGGGGTATATAGTGAATGGTACAGTTGAGGAAATTGATGAACAAAG TTTCAGAATAACAGAGCTGCCCATCCGCAAGTGGACTCAAGATTATAAGCAGTTTCTTGAATCCATAACTGATGGGTCAC CCAATGTCAAGGATCCTCTCATTGAGGATTTCAGACAGAATGGAGATGACGCAATGGTTGACATTGAAATCAGGATGAAG CTGGAAAAAATAGCGATGATTATGCAAGAAGGACTGCTCAAGAAATTTAAATTGACTACCACAATCAGCACAAGCAACAT GCATCTTTTTGATGCAGAAGGGAAAATTAAGAAATACGAAAATCCTGAACAAATTCTTGAGGAATTCTTTCCTCTTAGGT TGGATTATTATGAGAGAAGGAAGCAATATATTCTGGAAAATTTTGAACGACTTTTGTTGGTGCTGGACAACAAAGTTAGG TTCATTTTAGGCGTTGTAAGTGGCGAAATTGTCGTGAGCAACCGGAAGAAAGCTGATTTATTGATGGAGCTGCAGCAGAA AGGTTTCACTCCAATGCCAAAAAAAGGTAAATCTGCAGAACCGCAAGTTGCTGGGGCTAATGATGAAAATTCAGAAGAGC AGGAAGATGAGAACACTAGAGAAGAGGCTGTCCGTGTTGAAGAAGCCAAAAGAGGTGACTATGAATATCTGTTGTCCATG TCTATTGGCACTTTGACCCTCGAGAGTGTTCAGAAGCTGCTAGCTGAAAAAGAAGAAACGGAAAAGGAGTTTGAGATTTT GAAGGCAACACCATCAAAGTCTATGTGGATGAAGGATCTAGATGAGCTTGAAAAGAAACTTGATGAACAAGATGGCAAAG AGGCAGAGGACGAAAAAAAGAGAATAAGCCAAGCGAGTAAAAGGACATCCACTCGTGATTTGGGCACAAAAGCAGCAAAG AAGCCTCCACAGCCACGAAAGAATACGAAGAAGACCAAAAATGCTGAGAGTGATAATTCTCCAATGGAAACTGAGAATGC TCCTGAAGTCAGTAAACCAAAAGGCAGAGCAGGTTCTAAGAATACTCAGAACCAAAAGGCAGAGAAGGTTGCTGATGATG AAATTTTATCTCTTCAAGAACGCCTAGCTGCATATAACTTCGGATCATCCAGTGATCAATCCGGAGTGATGGAAACCGAA GAGCCTGTTGTGAAGAAAGGGAATAACAGAAAGGGTGGTGCCAAAAAGAAGTCAACCATTGTGTTGGATTCATCGGATAG TGATAATGAAATTAATGGTGTTGATGACGATGATGATGATGACTTCGAAGACACTTCAGCTGGGAAAAAGAAGGGAGGAA GAAAACCTGCTGCTGCCAAGAAGCCAACAGCAACAGCTGCAGCCAAGAAGCCAACAGCAGCTGCTGCAGCCAAGAAGCCA ACAGCAGCAGCCCCCAGGAAGAGGAATGGAGCAGCAGCAGAAAGCAAGAAATCTACATTGAGTCAAAAATTCATAACTGA CATGTTGCAGCCTGCTGAGAGTGCAGGGATATCACCAGAGAAGAAAGTGAGGAAGATGAGGGAGTCTCCATTCAACAAGA AAAGTGGTTCTGTGCTTGGAAGGCTTGCAGGCAAAGACTTGGGTTCTTTAAGTGAAGACTTGTCCTCGGGTGGTTCGGGT GCATCTAACTCTCCACCCAGTGCAGATACGGAGGTGGTTGAGGTTGCACCAGCAGCAGGAAGAGCTAGGCCTCAGAGGGC TAGACCACAAGTAACGTATGTGCTGAGTGAATCCGAAAGTGACAATGATTCTGATGCTAAACCTTCAGATTTTTCTGACT TTGAAGAAGATGATGACTAG
Protein sequence (LotjaGi3g1v0121000.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MEASKKRPLQNSNAANVPSAAAAAKGKTIEEMYQKKTQLEHVLLRPDTYVGSIEKHTQTLWVYENDEMVHRPVTYVPGLY KIFDEILVNAADNKQRDPKMDSLKVTIDPEANTVSVYNNGDGVPVEIHQEEKVYVPELIFGNLLTSSNYDDQEKKTTGGR NGFGAKLTNIFSTEFIIETADGRRQKKYKQVFSENMSKKAEPVISKCKENENWTKVTFKPDLEKFQMTHLEEDVVALMKK RVMDMAGCLGKTVKVELNGQSIRMKSFRDYADLYLKSAEKSRPVPLPRIHAKVGDRWEICTSLSDGQFQQVSFVNAINTT KGGTHVDYITNQITTYVMNKVNKKKKDANIKAHNVKNHLWVFVNVLVDNPAFDSQTKETLTTKAANLGSKCEVPESMLKE VANSGILDTLLSWADFKQSKDLKKTDGTKTQRLRGIVKLEDANDAGGRNSDKCTLILTEGDSAKALAMAGLSVVGRDHYG VFPLRGKLLNVREASNKQIMDNEEIQNIKKILGLQQNKEYSNVKSLRYGHLMIMADQDHDGSHIKGLLINFIHSFWPSLL KVPSFMVEFTTPIIRAFHSNGTKLSFYSMPEYESWRENLGNNATGWKIKYYKGLGTSTPQEGREYFRDLGKHRKDFVWED DYDGSAIEMAFSKKKAEDRKVWIRNFEPGNYRDHVASRINYKDFVNKELILFSRADLQRSIPSVVDGLKPGQRKILFCSF KKKLFKEIKVGQFIGYVSEHSAYHHGEQSLASTIIGMAQDFVGSNNINLLKPNGQFGTRNLGGKDHASSRYIYTELNPIT RCLFHENDDKLLEYLNEDGRSIEPSWYIPIIPLVLVNGSEGIGTGWSSYIPNYNPRDIIANVRRLLNDETMVPMDPWYRG FKGIIEKSAKEGGYIVNGTVEEIDEQSFRITELPIRKWTQDYKQFLESITDGSPNVKDPLIEDFRQNGDDAMVDIEIRMK LEKIAMIMQEGLLKKFKLTTTISTSNMHLFDAEGKIKKYENPEQILEEFFPLRLDYYERRKQYILENFERLLLVLDNKVR FILGVVSGEIVVSNRKKADLLMELQQKGFTPMPKKGKSAEPQVAGANDENSEEQEDENTREEAVRVEEAKRGDYEYLLSM SIGTLTLESVQKLLAEKEETEKEFEILKATPSKSMWMKDLDELEKKLDEQDGKEAEDEKKRISQASKRTSTRDLGTKAAK KPPQPRKNTKKTKNAESDNSPMETENAPEVSKPKGRAGSKNTQNQKAEKVADDEILSLQERLAAYNFGSSSDQSGVMETE EPVVKKGNNRKGGAKKKSTIVLDSSDSDNEINGVDDDDDDDFEDTSAGKKKGGRKPAAAKKPTATAAAKKPTAAAAAKKP TAAAPRKRNGAAAESKKSTLSQKFITDMLQPAESAGISPEKKVRKMRESPFNKKSGSVLGRLAGKDLGSLSEDLSSGGSG ASNSPPSADTEVVEVAPAAGRARPQRARPQVTYVLSESESDNDSDAKPSDFSDFEEDDD
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 |
---|---|---|---|---|---|---|
MobiDBLite | 1 | 18 | 18 | - | – | |
MobiDBLite | 1 | 20 | 20 | - | – | |
PANTHER | 17 | 1249 | 1233 | 0.0 | – | |
PANTHER | 17 | 1249 | 1233 | 0.0 | – | |
SUPERFAMILY | 29 | 262 | 234 | 1.24E-58 | ||
Gene3D | 36 | 278 | 243 | 8.0E-106 | ||
CDD | 75 | 221 | 147 | 1.02702E-91 | – | |
Pfam | 76 | 223 | 148 | 2.6E-12 | ||
SMART | 78 | 668 | 591 | 0.0 | ||
PRINTS | 78 | 93 | 16 | 9.5E-54 | – | |
PRINTS | 115 | 128 | 14 | 9.5E-54 | – | |
PRINTS | 158 | 172 | 15 | 9.5E-54 | – | |
SUPERFAMILY | 257 | 415 | 159 | 1.01E-41 | ||
CDD | 265 | 416 | 152 | 2.73796E-70 | – | |
Gene3D | 289 | 416 | 128 | 4.3E-45 | ||
Pfam | 293 | 421 | 129 | 9.8E-24 | ||
PRINTS | 312 | 325 | 14 | 9.5E-54 | – | |
SUPERFAMILY | 430 | 1173 | 744 | 7.85E-245 | ||
PRINTS | 438 | 448 | 11 | 1.4E-84 | ||
Gene3D | 439 | 696 | 258 | 5.5E-118 | ||
CDD | 453 | 571 | 119 | 2.44577E-80 | ||
ProSiteProfiles | 453 | 567 | 115 | 17.441 | ||
PRINTS | 453 | 460 | 8 | 1.4E-84 | ||
PRINTS | 455 | 469 | 15 | 9.5E-54 | – | |
Pfam | 455 | 558 | 104 | 1.8E-7 | ||
ProSitePatterns | 457 | 465 | 9 | - | ||
PRINTS | 501 | 514 | 14 | 1.4E-84 | ||
PRINTS | 525 | 541 | 17 | 9.5E-54 | – | |
PRINTS | 543 | 560 | 18 | 9.5E-54 | – | |
PRINTS | 544 | 559 | 16 | 1.4E-84 | ||
PRINTS | 564 | 576 | 13 | 9.5E-54 | – | |
PRINTS | 565 | 576 | 12 | 1.4E-84 | ||
Pfam | 569 | 696 | 128 | 2.4E-47 | ||
Gene3D | 572 | 617 | 46 | 5.5E-118 | – | |
PRINTS | 608 | 624 | 17 | 9.5E-54 | – | |
PRINTS | 614 | 626 | 13 | 1.4E-84 | ||
SMART | 679 | 1158 | 480 | 2.3E-211 | ||
Gene3D | 697 | 1163 | 467 | 8.8E-198 | ||
CDD | 698 | 1163 | 466 | 2.15349E-138 | ||
Pfam | 699 | 1161 | 463 | 7.2E-128 | ||
PRINTS | 727 | 750 | 24 | 1.4E-84 | ||
PRINTS | 774 | 796 | 23 | 1.4E-84 | ||
PRINTS | 804 | 824 | 21 | 1.4E-84 | ||
Gene3D | 881 | 985 | 105 | 8.8E-198 | – | |
PRINTS | 910 | 924 | 15 | 1.4E-84 | ||
PRINTS | 994 | 1020 | 27 | 1.4E-84 | ||
Gene3D | 1021 | 1150 | 130 | 8.8E-198 | ||
MobiDBLite | 1070 | 1105 | 36 | - | – | |
Coils | 1130 | 1150 | 21 | - | – | |
Coils | 1153 | 1180 | 28 | - | – | |
MobiDBLite | 1167 | 1187 | 21 | - | – | |
MobiDBLite | 1167 | 1254 | 88 | - | – | |
MobiDBLite | 1266 | 1499 | 234 | - | – | |
MobiDBLite | 1309 | 1323 | 15 | - | – | |
MobiDBLite | 1374 | 1388 | 15 | - | – | |
MobiDBLite | 1432 | 1449 | 18 | - | – |
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 , while the GO metadata was last updated on .
GO term | Namespace | Name | Definition | Relationships |
---|---|---|---|---|
Molecular function | DNA binding | Any molecular function by which a gene product interacts selectively and non-covalently with DNA (deoxyribonucleic acid). | ||
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. | ||
Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
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. | ||
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. |
Expression pattern of LotjaGi3g1v0121000.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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