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Field | Value |
---|---|
Gene ID | LotjaGi3g1v0215700 |
Transcript ID | LotjaGi3g1v0215700.2 |
Related isoforms 3 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | mRNA-capping enzyme; TAIR: AT3G09100.2 mRNA capping enzyme family protein; Swiss-Prot: sp|O55236|MCE1_MOUSE mRNA-capping enzyme; TrEMBL-Plants: tr|K7K355|K7K355_SOYBN Uncharacterized protein; Found in the gene: LotjaGi3g1v0215700 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:32374377..32390993) extracted from Lotus japonicus Gifu genome v1.2.
GGTCTGCGCCCCTCTCTCACTGAGACATCGTGGATTAATAAAACAAAGCAAACAAACCCAAAAACACAAACCTCACTTCT CTTTCTCTCTCTAACTAACAACCAACAAACTTTCTCTGTCTAGGGTTTCGAACACGAGCTCGCTCTCACTCTCGCTGTGC TCACCACAATCCTAGGGCTCCTCTTTCACCCTTCGCGATCGACGAAGCTTCAATTGCCCTAGTTTCCTCTTCGATTCAGC CTCGTTCGTCTGCTGAGGTTTGCTAATTGCGATTCTTCCGCTCTTGCTTTTGCTGATTCTCAAGATTATCGTGTGAGTTT TGATTCTGCTGTGAATTTCGTTACTAGCTTGAGTTTTCCCGTGATTTTATTAATCTCTGAAATTGCTTGAGAATTTGTGT AGTTGGTGGAAGCCTTTAGCTATTTATTGAGCTGGTAGAATTTGCGGGCACGGTTGTGTAACGAGGATTGATTGATTTAT TTATTTGAATGGTGCAGGCAGAAAGGATTGTAGTGATCAGTGGCAAGCTAGAAGTAGTTGTTAGGGTTATTGGGATTTTT AAGGTGGCGGGCGAATGTTGCTTGATGCTTGATGATAGTCGCAATGGACTTGAATGCCTCGCCGGTCCCTGAGGAAGATG AAGATACTTTTGAGGAGAGGATACATGTCGAGGAGTTTACTGCACCCGAAGAGCGCATTGAATCTGGAGCTGATATAGCA CGCCGGGTACCATTTCCTCTCTGTTATTTTCATTTTATCATTTTCTAGAATCATGATTGTGATGGTCTATTTGGCTATTT TGCTTGATTCCCTGGACTAGGACTACTGTGATGGTTGTTTCTCGTTTTCTGGGATGAACTGGTGAAGTTCTTCTCATTTT CATTTGGTTTTGTTGCGACTTGTGAGCTTGGAACCTGTATTTGATAGGAACCTGTTTTTTTTTTTTTTTTTTTTTTTTTT TTTTTTTTCCGGGAGTGATAAACTGATGCTTCAAATAACCTTTATGGTTTTAGGATGTGAGTTGGTGCTTCCTGATATGG ACATTTTAATCCTTGAATAGCTTGATAAGAGAATCCTAACATGGTCCGCAAACTATTATTTGCAGTTCTGCATGATCAAT TTACCTTTTGTTTTCCTGATATGATGATTTGAGTGTTTGATATTAATGATGAACAGCTGGCTTCACATCCAGTGGAGTTA GGATTCTGGTTAACTTAGAAATTTCATTCTGTTGTTGCCTGGTATGCGACTCATAAAAATACACGAGTTTTCTATAATTT GGTCTATTGGAGCAATGTAGTTAAAATCGCAGTCTCACTCGTGAGATCAAACGTTTTTACGATCTTGAGGGTCCAGGACG TGCTCAGCCGCGTGGCTTCCTGGGCTCGGTCAAGTGGGTGCGTATAACCGTTAGAATTGAACGATTTTGACGAGCCCAAC TTCAGGTTGCTTTGGGTACACGACCCGTTTTGCGACCCGGAACACTTAATCTGAGTGTCCATTTGAAGTGCTCTCCTGTG TTCGTCAAGCTCCGTCTTCCTCTGTTCAAGCTTGTACACTAACCTGACATGGCATATTATCAGATTATACATTTTTTATG ACTGTTTGAAATGAATTGAATCCACATATCCTGCCATAAAAGGGAGCAATGTGAATACTTTACAATGTGAATACTATGTT AATCCATGCAGATGCACCCACGTAGTAGTCCATTTAGATACTTACTTGAGACCTGTAACATAACTTTGTTAGTAGTTGAG CATGTATCTAGCTTGTAATTTTAGTGATTGGATAATGGAAACTGCTTGGAGTACCTCAGTTCAATTTTTTGCGAGTTGTG ATGAAAGGAAAATTATGATTTATGATTGAAGATGAATTTAAGGTGTCCGAATTTCACTGCTGTTTGTTAAATTATACAGA GCATCTTCGTCAAGCAAACTTGGTTTTGAAATGGCAAAGATTTTTTTCTTTCTATCTGTCTCTTAAGTCTTATCCCCATC CCCATCCGATTGTTCCTCTCCCTGTCACACTCTCTATCTTTCCTTCTCATAATAACAGTTATTGTTGTTTGGATTAGATT TTCTGGTGCTCGATAAAGAGCATAATCAAAATGCTGTAGAGGGCTTTTAGCTGTTTTTTTTTGCATGGATAGAAATTAAG CGAAACCAGAAATAGGTTAATGGGAAGATAGAGTCTGATAGAGATTTTTTATAAACAGTTTGAAAAAAGAAGAAGCAAAA CTACAAGTCCAAAATTTGATGCGTTGGACACGCATTCTTTTTGGCTACTAAATCATATGTAGGGCACATATTGTGCTGCT TTTTTGTGCTTCATAAGTAACTAGTTTCTCAAACTGTATTTACCTTCACCTATCCTTTCATTAACACAATTCCTGACTTA CTGCATCTTTTTAGGAGCGTGAAGAAAGAAAGAGACGGTTGAAGCGAGAACGTTCAGATGACAGACCCATGCAAGTATCT CAGTCAACCGGATATGATCCGCCATTTCATACTAAGATCCTTAAACAATATGATACAAGTAGACTTCCTCCGGGTAAGGG TTTTTTCCGTGGTCCATTTGCTGACTTACCAGTGATAATTAGTAATGCCATTGAATCATATATCTTCCCAGCAATTTAAT ATATTCACATAATTATATTGCTCCCTGGAATAATAAACTCTGATATTTCCTCGTACTCTACTATCCTATCTCAAACTATT TTTTATAGTGGATTTATTATATTGATTAAACCAATGATATGCAAGAAACTTTGAGAAAGTTCTTACAGAGTAACTGAAGA TATTGACTTCTGTTATTAGAATACTAACTGAAAACTTTACATGGCAGTTTCTGTAATACTTTCTGGACTTTACATGGGAG TTTCTGTAATACTTTATGGTTAGGCCGTTGACTGCTAACTGAAACCAACTTTCTAACTACTTAACTGCTGTAGAAACAGC TACCTGAGTCAGCATACAACAGAAGCTACCCTAATATTCTCCCTTAAATACAAGGAAGATGGAGTGAGGAGAACTAATCA AAGACCTTCAGTTTGTTGCACATCTCTCAAAACCTGTTAGTGCTAAACGCCTTAACTAAGCTGGTCAAAGTTTAGTTGGT TCAGTTCAATTTATTGGGTTGCACTTTGTTTGTTTTAACTGAACGTACAGATGAAATTTAAAAAAAAAAGAAAAAAGAAA AAAGAAAATGAAAGGTTGAAATGTGAAATCCCTAACCTTTTCCCCTCTTCTCTTCCTTTGTGGCTGCCTCCTTGTAGAAC CAAAGTGCAGTTGTTTGAAAATCCACTCACTGCTGAATTGTTGGCTAGCATATTGTCATATACTCTTGCTTATCGTCGCT TGTCGCTTACCGTTTCTCATCGTTGGTAAGCTATTGGTCAAGCACTTATTGCTTGTGACCCATCACTGGTGGTGGTTTCA TGTCGTCACTCGTCAATGGTCAGCCATTAATTGTAGATTGACGTCAACTTTCACATGTCATTGCTCAGCCTTTACCCACC TCTGCCCCTGTGTCCTCTATCGTGATGGTTAGGGTTCCAACCATCGAATTGTTGTTAGTGAAGTTTGCTTGAGGTGAAGG AGCGAGAGACGACTGAGTACCTTGGATGAGGTTGATTGAAAGTTCAATAGAAAACTTCTTGTTCTCCTATACGCACACTT ATTGAGCAAGAAGGAGGGACTCGATCTCATCAATGGCAGTGCCTGAATTTTGCTGCTCATGTGAACAAGGTTTACCAGAG ATTCATACTCGGCCTTTTGAGAATAACATCAACTTGCTCCTTAGGAGAAACCGGATCACAAAATGAGTAGAGTCTGAAAT TGACTTGGTTCTCATAATTTCCTAGTGTTGTACTGAGCAAATCAGTGTGCAACGGGCCAACGGCCTGTACTTTGCTTGAG TCTATAGTGAAATGGGAGTGAAGTTTGTCCCATAGTTGAAACACTGTCATTTTGGTAAGAATTGGTGTGGAAGCAGAGGA CTGTAGCCAAGAAAGTAGTAGAGCATCTTGTTGCTCCCAAAGTAGGCACCGTTCACTAACTGTACCTGAATCTTGACCAG CCTTAGATTTGACTCTTGAAGGAATTCTTGGATTAACTGGGTATAAATGGAGATTATGACCAATAAATTTGCTGCTTCCG TAACAGGAACTTTTATTATTCAGTTTCTTAGAGATGGAGTGAGAAAATGAGATTGTAGAGTCCGCTGAAGCTGACACCGG GGAGGGACAGCAGAGAACGGTGTAGCTCTCATATAGGTGATGGTGGCGGACAAGGAGAACTGACGTCGGTCATTGTCTCT GGGAATTTCAAGCTTTTGATATCACAAAGGGGGGAGTCAGAAGAATAGTGACTATATTGAACAGATAATCTGAGTGATAC AATGGGTCTGTATATATAAGCTCAATGATGATCTTCTAACTGAAGTAACAGAGTCAACCTAACTCTCTAGCTGATTAACT TACAGCTTTTACTAGTAACATGTATCTAACCCATTGCCTAATGGGGACAATCCTTTGTGCTCTAGTGGAGTTAGGGTAGT ATACTGCTGTAGTGTTTGACTGTCTGTAAAGTATATGCTGTGCATTGATTCAGTTGATGATGAATCAGCTGGCTGTTACT CAGTTGGAAGTTAGTTACTGTTAGTAATCTGTCAAAATTAACCACAGGTACTAAAGCTGGTTTTTACTAATAATTTTCAG TAACATTTCTATTTTCTCATACTTTCTGTGAATTTTTCTCTAACTTTCTCACTGAACAGTTTCTATCCAACTAAAAACTT AACAAGAGAACATCTGTTATGCATTTATTGCTAGGCTGCTGATAGCTAACTGAAAATAACTTTCTAACTGCCTAGCAGCT GTAGAAACAGCTAGCTGAGTCAGCATACAGCAGATCATGGATGGTATTTGGTTGTAACGTTTGTTTTTGGGAACAAGTTT GGCTCTTTTTCTTGCACTTTGTTTTTTTTTTTTGGACTGTTAGGGGTTGGATGGGCTGGTGGATTTTAGTGGTACAAAAA ATGAGTACACTTCTAAGATTTTTTTTTAATAAAATGCAGATTGATAGGTGTTATAATTTGCTTTAGTCATATTTGAGATT ATTGGTTTACATTTTATGTTACAAATTACAGTTGTACATGTGAATGGACAATTGATTATGCATTATCATTTTGTTTTTTA CATGTAGGATGGTTGGATTGTCCTTCATTTGGCCAGGAAATTTGTTTCATGATACCTTCCAAGGTTCCACTTGGTGAAGC ATACAATGATTGTGTTGCTCCTGGTAAAAGATACTCATTTAAACAAGTGATACACAACCAGAGAGTTTTAGGCAGAAAAG TAAGCATACTTCATTTAGATATTTGTCCTTCTGTTTCTTTTGCTTCTTTGCCACTGAGTTTTTCTTTATTTTTAATTTGA AGAACTGGAGTAATCTAAATGAAAGGAATTTCTAGATTTGTACAAAACAAGAAAAAATATGAAAAGGATCCACATATCTA GTTGTTTGTCCAAATACAATCTAGAGAAATTTAACGCTCTATGCCAGACAAGAATCAAGTCTTTTTTGCATAACATTTAC TTGTGTTTTCATCTTTTTCCTCTTGATGTGCAGCTTGGTCTTGTGATTGATTTGACGAATACCTCCCGATACTATCCAGT CACAGATTTAAAGAAAGAGGGCATCAAGCATGTTAAGGTTTGTAGTGGCAATATTTTATTCACCAACGCATGCTTTTCTA ATTTTGTCTTCAAAACTGCAACACCTATTCTTGTCCTTACATTTTATGATCATTGTTGTTGTTTAGATTCAATGCAGGGG GAGGGATTCTGTACCTGATAATTTATCTGTGAACAAGTTCGTATATGAGGTTTGTTTCTTGCTTGATAAGATTTTTGTAG TCTTGCCTAATTTTTTAGAATAATTTCGCAAACATTTTTTGTTTCTTGGCTTAACAAGTAATTCATTGTTTACTTCAAAG ACCATCTTTTGACCTTTGCAATGAATACCATTGATGGTGGATGTGGCAAGCCAAACGTAGATGGCTTTGCAGCCAATTGC AGAAGCATGATGAAATAATATAATAATATATTTGCATGGTCCACCATTCACACAAGATAATCTAAAATTACTGTTGAATA TAACTGTTGAGATATTGTATGTAATGAGAGAGATATTCTACATATTTGGTTGATTTGTTTTGTGATTGTTTCCTTATATA ACTTGATCTTAATCCCTAGATTGTATGGCTCATCCTTGTATATATTGTACTCATAGTCATAGAATAGAATAGCAAGAATT TCATTCAAGTTGGTAGCAGCTCTCTCTAAGTTCGACCCCTATTTCACGCTTCCAGTTTTAAGAATTTTCTATTGTTCCCA CTATCTAATTTATCCCAAATAAGCTACTCGTTCAAAGAATTCTCCTAAAAAATGCAAGAGCCACTCTCTTACTCATGCAT GTTTGGATCAACTTATTTTTCCTCTGAATCAATAATGGCATCTAGAAGCTATTCACAAAAAAGCTTCTCCACAGAATTGA TTTTGACTTTAGAATCAATCGTAAAAAGATTACCAAACATGCACTGGGGGATTATTATTTTTTAACCACGTGATTATTGA CATTTCCAGGTTATTCAATTTATGTCGCGCCAAAAACACGCGAAGAAGTATATACTTGTTCATTGTACACATGGGCATAA TCGTACAGGATACATGATCATCCATTATCTCATGCGTGCTACATCAATGTCTGTTACTCAGGTCAGTTTTGGAGTTATAA TATAACTGGCATTTTCTCTCTGTTAAAGATGTTGCTTAGTCTCAGTGGATATGATTTGCTTCTTGTAGGCAATAAAAAAT TTTTCTGATGCACGCCCTCCGGGAATCTATAAACCTGATTATATTGAGGCATTGTATACATTTTATCATGAAAAAAAGCC TGAAATGGTAGTTTGTCCTCCTACTCCGGAGTGGAAAAGATCTTCTGAATTTGATCTCAATGGTGAGGCAGTTCCAGATG ATGATGATGATGGAATACCAGGCCCTGATTTGCAGGTATTGAAAATATACAGTGATTTCAATATTTTAGTTCTTGCTATT CATGCTATCTGAATTGCTTTTCTATCTTCTGGCAGGATTTGTTGTAAGTTCTTGTTAGTGTTATTCTGAGATTATATTAA TGGCAATTTGCAGATTTATAATCTTCCTATATCTCTCTTTCTCCATGTATTTTCTCTGCTGGTTGAATTCAGAAACTTCT TCGTTATCAAGTGGCTATTTCATTTGTCTGGCCCTGTGGATTTTCCTATTCAATCAACTTGGCCCCATGGCTTTCTGTGT GCAATAAAAAGAAAATCAGTCCTACACTCTTCGTGCTCTAGATGTCTAGTCCTGGAGTGTGTTGAGATCTCACATTGTCT AGGGATAGGACTATTTTTTAAAACCTTATTGTCGATTTTAGGACTTCAGAAGATGATATGATTCTTTAAGCACCCTTACT ATTGGCCTGGGAACTTTACCGAAAATCATCGTGGATTCCTAAGCCCTAAAATTGACAATAAGGGTTAAAACAAGCTGGGG ATGATGCTGACAATCATGTAGAGAATAAAATTAACCGTAAGAGAGACATTCACATGAATGTAGCAAATTTTAATGTCTTT GTAAAATATTGTGTTCCTTTGAAAATAGGGGAGAGGGCAGTGTCACTTAAGAATCTATTAAGGGGGGAGTATTTTTATCC TTACATCTTTTAGTTTATTTACTTGTTGTTTGTCTAATAGTAATATACTAATATTCATAGAGAAATAGAGAACTCGGCCA TTTGACATGTTTTAAACTTCAGGAGACACATGAGACAGACGCACGAATGACAAATGATGATGTTTTAGGAGATGAGATAC CTGCTGATCAGCAAGATGCACTTCGACAGTTCTGTTATCAAACACTTAAATTGGGTGCTGGGGTAAGCCTTTTTTTCATG CATGAGTTTATTGCTTTGATTTAAGAACCCAGTTTTAAATTATGATTTTTCCGCTTTTATGATTTCATTGCATCTGTACG TTTTTATTCAATTATATTACAATAAACGAATTAATGGCGTGTATTATGCTTGTTTTTACACTATCATTTGATCCTTTGTC TTTTTGATTGTCCTCGTTGGGCTGTTGTGTTTGTCAGTTGATGTGCTTGGTCATGTCATTATATCTTTCCAAAATTGCAC TATTCTATTAATATCCCTCATTTTAGAGGGTTTACTTTTTCTTTTGTTTAAAAATGTTACTTGATGCTGGGATGATGACA TTTTCAATTGCTATATTTGTGTGTTTTCTTATTCAACAGAAGCCTGGTTACTTAATCCTACATAACATGTAGATTGGATT ATTGCTATATTTATGGATCAGTAATAATATAAGACGTTTTAATATGAGTAATTTGTGTAATATTTGTGTCTGACTAGTAA ACGTTATAAGTTCCTAATGCTTCTTATAAACTGTAAATCTTTCCTTAATTCAGGGAATAGATATTTTTTTTTAATTGGGA TTGGGAATTATTATATTTTAAATGTTCATCATTCAAGTTTGATGCTGTATAATTCTTGTTCACTGCTGTCTTCTATTTGG TTCTGTATGCGCAAACCTAAGCTGCTGATGACATGGGTCCTTTATAAAGCTTTTATAGTATCTTGCCTTTTTTTCCTCCT TTTGATTTTGCTGATTTCCCTGCTTGATGGACCTCGAATGCTTGGCGTACCTATTTCACTAATTATTAATATGCAGGCCA GAGGACATACACAATTTCCAGGTTCACACCCAGTTTCTCTCAACAGGTCTATTTATCTGAGCCATTAACATATATTTTGA TTTTACAGTAGTTATGCATTAAACTTGGGTGCTGCTAATTCTTTTGCTATCATACTTATTTTGTTGATGTGTCTCCTAAC AACACATCTTAACGAGCAAAAAAAATACTTATCTCTTTATTGATTACTTATGGTAGAAAGTATTGATTTAAATTATTTCA GACTTTGAAGACGTTAAATGCTTTTATATTTATTAGATATTTTTTATTTTTGATTCCTTAACATGTGCCCTAAGGGGCAA GACAAAAACTAAATATCTTTTCATTGGTTTACACCAAATACAGTGTACCAGCTATAGTCTAGTACAGCTCTGGCAGTTAG TTATGGTTAGGATCCAGTTAAGCTCTCTAGCCCATCTATATGTAGGATATACTGCAACTGTGTAGCACTATTCAGTTTTC TTTCAAATCATTTTCAGTTCTCTCTATCTTTCTATGTTCATTCTCTCTCATTCTAATATGGTATAAAGTGCCTAATCATT GGAAAGCATGGATCCCAGCAAATCTCCGCTTCACTCTCCACTAACAGCGCAGATGCCCATGCATGCGAGGCTAGTCACAG CTGCCTCATACTCATAGGCTATTTCACTTCGTCAAGCATGTTGTTTTCCTTCACACACTATCACAAACAGTAGCAAAAGC TCTTCAGCTAAGAATTGAACTTCAGACTACCAATTATGTCTCTAGTTATAGTTATTTACACTGTTTAGTCGACAGTTATT CAGTCAGGATCAGTTATGTACTCTAGCCTTTCTATATATGCGGTAACACTCTGATCATTTTGTATTCAATATAAGCATAT TCAATATAAGCATTCTCAGCTTCAGTCTCTAATCAGTTGATTCTAACCGAATGAGCTAACTGATTAACTTCCCTTCCTTT ACTAAGGAAGGTTGTTACTTCCTAATTGCGTAAGCCCTAGCTGGCATTTTAACTGCCAGAGTTAGCTATTAACTAACTTC CAACCCTCTTATTCCTTCTCTGGTATACTTTCTTAACCAGAGGCTTACAAGTCGACCTATCACTCTCTCTTGATATGATC ATTTTCTCTCACTCGTACACTTTCTCAGATTTGTAAATTTACTACCGACATTGATTTCACGATTTTGTTCCTTATTAATT TTATGATTTTATCTGTAATCTATTTTAAATTTGGTTATGTTGGTCTGTGCAGGGATAATTTGCAGTTGTTACGACAACGC TATTATTATGCAACATGGAAGGCTGATGGTACACGATATATGATGCTAATAACATTGGATGGGTGTTTCTTGATAGATAG AAATTTTAATTTTCGAAGGGTCCAGATGAGATTTCCTTGCAGGAGTACAAATGATGTACGTGGGGTACTTCAAAATTTCT GATAGTGATTGTTAAGGCTTAGAGCTTTTAACTTGAATAGATTTTTCAACATGTGTAAATACCATTATCAACTGTGATCA TGATAATTAATTTACATTATCTAGTGATAGGTAGTAAGTTAGCTTATGGTCATCTCATCATTAACACGTTGATCAATTGT AGTATTGAATATTGAAACTATGAATAAGAAATTAGTGTGCTGCCTGGTAATATGTCAAACGATGTCTTCCAACAAACCCT AACCCTCATTTTTATACTTCCATTTTACAAGGTTTCCAACACTTGCTGTTTTTTTATGCAACCTTAAATTTGAAAATCTT GTCAAACCACTGGTGTGACCACTGGCTTGTCCAGACTGGCCTGTGGCAACCAAATGTGCAGTATCTGTCGTGCTGTGATC TAATTCTACTGGTGCTCTTCTTTCATTTAGACTGCATTTCCCTTTCTATACCCCTTTCCTCTTGGTGATCAACAGTTGTG CTATTTTCTAGTCACCACTAAAGCTACTTCTGATTACTAGTTGTCCTCACACCAGAAACAGAAAGGTCTCACCAGCCATA TCTGCAGTGCCACCATCATTCGAATATGCACCACCTGATCTTGCGAACTTTACTGTTGAAGCATGATTTCCATTCTCCAT AGATGTTCACTTTCTTCATTTGGACTGAGCATTCTTCTCGTTTATTCCATAAGAAGTCCTCAAGTTGGGGTAACAAGCTT GATGTATATAACCTACATACCCCTAATTCAAGATGGACTGTTACATATAGCACACGTGTAAAACTGTAAATATGATGACC AACTTTAGTTTTAATGGGATTGATGTAAATTTGCTTGGCAAGCTGCTGTTAGTTACTGATTAATCAGCCTTGTTTGTAAT AAAAGATCAGGGTGTAGCCTAGAAATGAATTTTCTAAACACAGTTTTTACGATAATGATACACAAACTGATATTTGGTAT CTTTGTATTCAAAGGGCTTGGGCGAGAAGACCCACCAATTCACATTACTTGATGGTGAGATGGTTATTGATACCTTGCCA GATTCACAGAAGCAGGAGAGAAGATACCTTATATATGATATGATGGCAATCAACCACGTATCAATAATAGAGGTTTGATT TATATATGATTGCATAAAATAATGCTGGGTGATTCCATTTCTGTTTTGAGCTTGTTAGAAAGAATGTACATAGTGTGCTT AACATCATATAGTATCATAGAATTGCAGTAATTCGGATGACTATACTGTATTTATTATTTTCAGTCTTTGTAATTCACCT CTGCTCTGTAGATTAGACACATGGATTCTATCCCTCGCCTCCCACTTTCGTATTCCTTAACATGGTATCACAGCATGATG GAATTCAGCCCCATATTTTGTGCAGTTAAATTTTATTTGCATGTATCTTTGTTATGCCTTCATTGTCAGTTTATCTGGTC TTGTAAGTTTAAGAACTGTTTCCAAAAACAGGTTTTGAAAACAAACAGGCTTTTAAATTCAGTTTTTAAAAACAGAAAGC AATTTTCAAAAACTGTAATCAACAGTGAATTTACGAAAGGATGATGTGGTAAAATTCGAGTCAGACTTTCTTAACATATG CTGATGGAAAACCTTGATTTGAGGAAACCACAATTCAAGATGTCCATATTTTTTCCCCATTGAAGTTGTTTGTATCTGCT ATTTCTGTGTTATCTGTCTTGCCTTCCTTGATTCTTTGATATGAAGTGTACCAAGCTGTGTGTGATTACTGATTAAAGCC AAACTTGGCGCAGCGACCCTTCTATGAACGGTGGAAGATGCTTGAGAAGGAAGTGATTGAACCTAGGAACCATGAACGAC ACAGTATATACCAGAGCAGAAATCCTTACTATAGATATGACTTGGAACCATTCAGGGCATGCATCTCTGACCTTAAATTG ATCATAGAATACTTTAAGCTACTTCGTTTTTCTGCTTGTGGCTCAACTATTGATATACTCGAAATGTTTAGGTGAGGAGG AAAGATTTTTGGTTGCTCTCTACTGTCACAAAGCTTTTAAAGGAATTCATAAAAAGACTCTCGCATGAGGCAGATGGTCT TATATTTCAGGTGGGTTTTGATCAGTGCTCATCTTCAATGTACTAAACACGAGAATGAGATTTTCTATTTTGTGCCAAGC TTCAGTGTATTTTAAATCATGTGTGGTATTGCCTTTTCTGATCTTTGGTTTTGAAATTCTTGATTGCTTTATGAAATGGG ATGTACGTAATACATTCTATTTGCAACATAATCAGCATGAGAATAAATTTCTGGGTCTGATACTTGTGAATCACGGCTAA AGATTTGAGAAGGAAAGGAATCATTGTACCTAGACTACTTCATGGTCTATTCCTTTTCCTTCCAAATCCTGTTTATAAAC AAGGTGTTTCTTTCTTTTTCTTTTTTCTTTTGTTAATTTATTCAATGGAGGTTGTTACTAACACTGTTAATTTACCAGGG TTGGGACGATCCATATGTACCACGCACTCATGAAGGACTCTTAAAGTGGAAATATGCTAATTTGAATTCAGTTGATTTTC TATTTGAGGTTGTGACATCACTTTATTGCATATGGTGTTGGGATATTAGTTCTAATGTCTCTCTTTCAGTCATAGTTTGT TGATGATGCAGCCAACTAATTTATATCTGCTTGTGCTTACAGGTTGATGGTGATCGTGAGCTACTTTTTCTCTATGAGCG TGGAAAGAAGAAACTCATGGACGGAAATAGGGTTACATTCGGAGGTCAGACAATATTTATTTTTCAGTTTATCTGTCCTA CTCATTTAGTTTTGGTAGATATAATCTTCATTCATGCTTCACTGTTTTTTATATAACATTGCGCTTCTTTATATAATAGG AAATCTATAATGTCAAGTTGTTAAGATTCTACAATGACCAGAGATATGAAAAGTAGTATTTTTAAGGTAACCTCATGAGC TAGCTTGTGGGGTATAATCAAGCCTTCCCCTAATTCTAAGATGGTATCAGAATCAAATATTGAGCCACCTATAGATTTCT AAGAATCAATCTGGTCCCGCAACTATCCTAGTAAATGTGTCAACATGAAGATTTTACTTAGGATCAAGAGGGGGGTAAAA GATCGTATCATTAGATAGTAACACGGATCATAAGATCCTCCACTAAAGGAAAAATTATATTTAAACTTATACTTGTGTTT AGAGAATAACATAGCTATAAAGTCAATGCAAACAGTGATATTACTTTTAAATTTAATTAATACTAATTATTATGATTATA ACTGTGTAACTCATTACTCATTAGTTTTATTTATTTATAATATGATAAAACTGGATAGTAAATATAACTAAAGACACGTG ATAACATAGATGACTGAGACAAAATAACTAAAAAAAGATAATAATATCAGTACTAGAGTTTTAAAAAGCATAAATATAAA CATTTAAATATGGAATGAAAACAAATTCGGTGATTGGGTTGAAAAAAAGATATATCTGAAATTGCTATTGGTTTGGTTTG GATTTAAAGTGAAGAGAACCAATTAATCAATTCAATCTGAACCATTAGATTGGTTTGGTTAGAATTATTTGGCTTTTTGG GTCAATTCGAACCAATGAACAGTTGAACACCCCTTGCGCATGCCCATTTCTTCCAGTAAGATTTGTGATCGTCCAAATTT TTCTTTGTCATTTCAACTTTGTTTCAAATGTTTAACCTAAATCTAATGCTAAGAAGACTTAAATCAAATACCATGTCAGG CAATTATCTCACATCTCCTGGAACTCCACTTTGGCTAATGAAAAGGGATGACATTGGTGTAAAAAACAGGCAATTATTTG GCATGCATGCTCCCTTAAACTCTTCTTGAAAAATGGAGTTGTTGGTAGTTTGAGAGCTCACTCCCCTTCTCTTGAAAAGG ATTGCAAGATTGTCAATTTCTTTCCTTTTCCTTTTTCGGACTCATTCAGAGATTCACCTCTAGAAGGTCCTTCATACTCT TCTGTACTTATTTATGTATTTTTCTTGTAAGCTGGGAACAATGTCCGGCATTTGCTTCCTAACATCATCAGGAACAGATG TGCACGCTACAACATCTTTCCGAGTTCCTGCTAAATGATGTTTTCATCTATTCTCACCTCCTATATAATCTTTCTTACAA TGTTTGCATTTTATTTATCTTGCATCCTCATCAGTATACACCCCACGGTTTCAGCCACATTGCTTGTGATTCTAGCTGCA TTCTTATGAATGTTAGATTCTCCTCCACCAGCCGCACGTGAGGATATGATTTCTTCAAAAAGAACAGAAAATGAGCTCAG AAGTGAGGCAAAAGCATAGCATATTATAATCAAAGAGAGACAAATTAGAGCACTAACTTGATGTGCTAAATAGAGCACAA AAGGGAGATGAAACAGAGCACCAAAGAGAGACCGAACAGAGCAGAGAACCTCGACGTTGTGCATCGAAGAATCAAATCAT CATAGCCTCACGACTATCTCAGTGAACCAGCCTTACCAAAAAATAATAACAGTCCTACAATCTCTACGTTCTAGATGTTC AGTCTTCGGTTTTTTAGGTGTTTAAAATCCTATATTAATTAGAGATACGACCAAAGTAATCATTGTAAACTTGAGTAATC CTCATCACACAAGTTACTTCTTGGGGTAGAGTTAGGTCTAGCCCAAAATATAAGACAAGTCTTGGCTTTTACGGGGTCGA AATGTGTCAATTGCTTGAATTTCAAACTTGGCCTAAAAAAATTTTCTCAAGTTTAAAGTTTGAGCTTCACTTGTCTGAAC TTGAAACTTGAGCAGGGCTATATTAGTTTGTCTATAGCTTGATTGTTTGTTTCCTCTATCAAATTTCTAATTGAATTTTG TTTGTGTTTACTAATTTAGTATTTAGCAGATATTTATGCTAGAAGATAAAGTAAAAATATATGTAATTTTGCACTAAGGA ATGTGACTGAAATTCACACATTATGGAGTTTTTTTTTCAGAGTGATAGAAACTCATCTAGAATATAACTCTTGAAAATTG GAGTTAGGTAACTGATAGATATAGATAATGATCAAAACTACAATTCTCTAGGTATTAGGTAAATATAATAAATAAATTTG CTATAAACATACCCTAGTTATTTGTCAGCTGTGAATGCGAAGGTTACTAAGTTGAGCTTGAGCTTGAGCTTGTTTCTTTA ACTAAACAACCGAGTTTAATTACTGAGCTCTTTTACAACCCCATTGGCATTATTTATTTCTCAATGTAGCGCATTTTCAT ATGCTACTTTAGAGTTAAAGTTTGGTTATTTTCATAATAACCAGTTTCTAGCACCATTCAAAAAGTGGTTGGAGAAGGAA GCTGTACCTATAAATTGTTTTGAATGATGCTTTAGTATTACTATTAATACATGATGTTGTTCTATTTTTATTTTTTTTGT CATTATTTTGATGTTGCTTGTTTAATTGTTAAGTCTGAAGTTTCTGGTCCTTGTTTTATTCTAACTGCATTTATTTTGAT TACTTTCTGAAACCCTAAAATCTGCAGATGACTCAGATCCCTCAGTTTATGCTGGAAAGATCATAGAGTGTTCCTGGGAT TTTGATGAACTGGAATGGAAATTCTTGCGAGTCAGGACAGATAAATCAACTCCAAATGAGTTTAATACATACAAGAAGGT CCAATACTAAATCCCATTTTCTAATTTCCCTCAACTCTGATTCTGCACTTGGCCTCAGTCATTTACTTAATTTATTATTA TAGGTGATGCGAAGCATAAGAGACAACATTACGGAGGAGGACTTATTGAATGAAATAGATGAGATAATCCGGCTGCCTAT GTATGCTGACAGGATAAGAATGGATAGTAAAGCAACTCAGCATGCAAATGCTGCAAGACGTAAGCAATGATTGGTGGTGG TGGTTAGATAGGAACTTATGCTCACAAGTGAGAACAAGATCAAATGTATCCAGTGATGTCTGGCTCTGAGATTTATTGGA ATTTGTTTAGGATTTGGCTATGTATTACTATTTAGCCATTAACCGAAGGTTGCTTCTATTATGTAATTATTAGTTCTTGC GGTAATTGCTGCTGAGTTGTGTGATGCAGGTGGTACCGCACAAATTCCGGCCTGAATCCATTTCCTATGGTTGTCCAGAT CAAGAGAGTTAGGTTTAGGATCTCAATGTATATTATCATTTTTCTTTTTTTAATTAGTGATTAAAAGTTATTCAAAGGGA GCTTTTCTTGATGTCAAAGTTCCCTTGCATTGGCTAGAATTTCCCGAATGTGAATATTCATGTAGAACTAACCAGTCTTC CGCTCTCTTTTCATGTTTTATTTTCCAATCACTCAATCATATTCATATTTTAGTTAA
CDS sequence (LotjaGi3g1v0215700.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGATAGTCGCAATGGACTTGAATGCCTCGCCGGTCCCTGAGGAAGATGAAGATACTTTTGAGGAGAGGATACATGTCGA GGAGTTTACTGCACCCGAAGAGCGCATTGAATCTGGAGCTGATATAGCACGCCGGGAGCGTGAAGAAAGAAAGAGACGGT TGAAGCGAGAACGTTCAGATGACAGACCCATGCAAGTATCTCAGTCAACCGGATATGATCCGCCATTTCATACTAAGATC CTTAAACAATATGATACAAGTAGACTTCCTCCGGGATGGTTGGATTGTCCTTCATTTGGCCAGGAAATTTGTTTCATGAT ACCTTCCAAGGTTCCACTTGGTGAAGCATACAATGATTGTGTTGCTCCTGGTAAAAGATACTCATTTAAACAAGTGATAC ACAACCAGAGAGTTTTAGGCAGAAAACTTGGTCTTGTGATTGATTTGACGAATACCTCCCGATACTATCCAGTCACAGAT TTAAAGAAAGAGGGCATCAAGCATGTTAAGATTCAATGCAGGGGGAGGGATTCTGTACCTGATAATTTATCTGTGAACAA GTTCGTATATGAGGTTATTCAATTTATGTCGCGCCAAAAACACGCGAAGAAGTATATACTTGTTCATTGTACACATGGGC ATAATCGTACAGGATACATGATCATCCATTATCTCATGCGTGCTACATCAATGTCTGTTACTCAGGCAATAAAAAATTTT TCTGATGCACGCCCTCCGGGAATCTATAAACCTGATTATATTGAGGCATTGTATACATTTTATCATGAAAAAAAGCCTGA AATGGTAGTTTGTCCTCCTACTCCGGAGTGGAAAAGATCTTCTGAATTTGATCTCAATGGTGAGGCAGTTCCAGATGATG ATGATGATGGAATACCAGGCCCTGATTTGCAGGAGACACATGAGACAGACGCACGAATGACAAATGATGATGTTTTAGGA GATGAGATACCTGCTGATCAGCAAGATGCACTTCGACAGTTCTGTTATCAAACACTTAAATTGGGTGCTGGGGCCAGAGG ACATACACAATTTCCAGGTTCACACCCAGTTTCTCTCAACAGGGATAATTTGCAGTTGTTACGACAACGCTATTATTATG CAACATGGAAGGCTGATGGTACACGATATATGATGCTAATAACATTGGATGGGTGTTTCTTGATAGATAGAAATTTTAAT TTTCGAAGGGTCCAGATGAGATTTCCTTGCAGGAGTACAAATGATGGCTTGGGCGAGAAGACCCACCAATTCACATTACT TGATGGTGAGATGGTTATTGATACCTTGCCAGATTCACAGAAGCAGGAGAGAAGATACCTTATATATGATATGATGGCAA TCAACCACGTATCAATAATAGAGCGACCCTTCTATGAACGGTGGAAGATGCTTGAGAAGGAAGTGATTGAACCTAGGAAC CATGAACGACACAGTATATACCAGAGCAGAAATCCTTACTATAGATATGACTTGGAACCATTCAGGGTGAGGAGGAAAGA TTTTTGGTTGCTCTCTACTGTCACAAAGCTTTTAAAGGAATTCATAAAAAGACTCTCGCATGAGGCAGATGGTCTTATAT TTCAGGGTTGGGACGATCCATATGTACCACGCACTCATGAAGGACTCTTAAAGTGGAAATATGCTAATTTGAATTCAGTT GATTTTCTATTTGAGGTTGATGGTGATCGTGAGCTACTTTTTCTCTATGAGCGTGGAAAGAAGAAACTCATGGACGGAAA TAGGGTTACATTCGGAGATGACTCAGATCCCTCAGTTTATGCTGGAAAGATCATAGAGTGTTCCTGGGATTTTGATGAAC TGGAATGGAAATTCTTGCGAGTCAGGACAGATAAATCAACTCCAAATGAGTTTAATACATACAAGAAGGTGATGCGAAGC ATAAGAGACAACATTACGGAGGAGGACTTATTGAATGAAATAGATGAGATAATCCGGCTGCCTATGTATGCTGACAGGAT AAGAATGGATAGTAAAGCAACTCAGCATGCAAATGCTGCAAGACGTAAGCAATGA
Protein sequence (LotjaGi3g1v0215700.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MIVAMDLNASPVPEEDEDTFEERIHVEEFTAPEERIESGADIARREREERKRRLKRERSDDRPMQVSQSTGYDPPFHTKI LKQYDTSRLPPGWLDCPSFGQEICFMIPSKVPLGEAYNDCVAPGKRYSFKQVIHNQRVLGRKLGLVIDLTNTSRYYPVTD LKKEGIKHVKIQCRGRDSVPDNLSVNKFVYEVIQFMSRQKHAKKYILVHCTHGHNRTGYMIIHYLMRATSMSVTQAIKNF SDARPPGIYKPDYIEALYTFYHEKKPEMVVCPPTPEWKRSSEFDLNGEAVPDDDDDGIPGPDLQETHETDARMTNDDVLG DEIPADQQDALRQFCYQTLKLGAGARGHTQFPGSHPVSLNRDNLQLLRQRYYYATWKADGTRYMMLITLDGCFLIDRNFN FRRVQMRFPCRSTNDGLGEKTHQFTLLDGEMVIDTLPDSQKQERRYLIYDMMAINHVSIIERPFYERWKMLEKEVIEPRN HERHSIYQSRNPYYRYDLEPFRVRRKDFWLLSTVTKLLKEFIKRLSHEADGLIFQGWDDPYVPRTHEGLLKWKYANLNSV DFLFEVDGDRELLFLYERGKKKLMDGNRVTFGDDSDPSVYAGKIIECSWDFDELEWKFLRVRTDKSTPNEFNTYKKVMRS IRDNITEEDLLNEIDEIIRLPMYADRIRMDSKATQHANAARRKQ
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 | 72 | 72 | - | – | |
PANTHER | 20 | 683 | 664 | 0.0 | – | |
PANTHER | 20 | 683 | 664 | 0.0 | – | |
MobiDBLite | 23 | 63 | 41 | - | – | |
Coils | 40 | 60 | 21 | - | – | |
Gene3D | 67 | 284 | 218 | 1.3E-57 | ||
PIRSF | 76 | 684 | 609 | 6.7E-240 | ||
SUPERFAMILY | 89 | 278 | 190 | 1.9E-46 | ||
CDD | 92 | 258 | 167 | 3.19309E-64 | – | |
SMART | 103 | 263 | 161 | 0.0031 | ||
Pfam | 142 | 261 | 120 | 1.2E-15 | ||
ProSiteProfiles | 186 | 255 | 70 | 13.456 | ||
ProSitePatterns | 208 | 218 | 11 | - | ||
MobiDBLite | 288 | 311 | 24 | - | – | |
Gene3D | 307 | 553 | 247 | 6.7E-81 | – | |
SUPERFAMILY | 316 | 554 | 239 | 5.18E-43 | – | |
CDD | 326 | 554 | 229 | 1.46024E-91 | – | |
Pfam | 355 | 553 | 199 | 2.8E-76 | ||
ProSiteProfiles | 437 | 581 | 145 | 9.304 | ||
SUPERFAMILY | 556 | 668 | 113 | 1.46E-22 | ||
Pfam | 573 | 651 | 79 | 2.5E-18 | ||
Gene3D | 593 | 660 | 68 | 4.4E-22 | – |
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 ligase (ATP) activity | Catalysis of the reaction: ATP + deoxyribonucleotide(n) + deoxyribonucleotide(m) = AMP + diphosphate + deoxyribonucleotide(n+m). | ||
Molecular function | MRNA guanylyltransferase activity | Catalysis of the reaction: GTP + (5')pp-Pur-mRNA = diphosphate + G(5')ppp-Pur-mRNA; G(5')ppp-Pur-mRNA is mRNA containing a guanosine residue linked 5' through three phosphates to the 5' position of the terminal residue. | ||
Molecular function | Polynucleotide 5'-phosphatase activity | Catalysis of the reaction: 5'-phosphopolynucleotide + H2O = polynucleotide + phosphate. | ||
Molecular function | Protein tyrosine phosphatase activity | Catalysis of the reaction: protein tyrosine phosphate + H2O = protein tyrosine + phosphate. | ||
Molecular function | ATP binding | Interacting selectively and non-covalently with ATP, adenosine 5'-triphosphate, a universally important coenzyme and enzyme regulator. | ||
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. | ||
Biological process | DNA recombination | Any process in which a new genotype is formed by reassortment of genes resulting in gene combinations different from those that were present in the parents. In eukaryotes genetic recombination can occur by chromosome assortment, intrachromosomal recombination, or nonreciprocal interchromosomal recombination. Interchromosomal recombination occurs by crossing over. In bacteria it may occur by genetic transformation, conjugation, transduction, or F-duction. | ||
Biological process | 7-methylguanosine mRNA capping | Addition of the 7-methylguanosine cap to the 5' end of a nascent messenger RNA transcript. | ||
Biological process | Protein dephosphorylation | The process of removing one or more phosphoric residues from a protein. | ||
Molecular function | Protein tyrosine/serine/threonine phosphatase activity | Catalysis of the reactions: protein serine + H2O = protein serine + phosphate; protein threonine phosphate + H2O = protein threonine + phosphate; and protein tyrosine phosphate + H2O = protein tyrosine + phosphate. | ||
Biological process | Dephosphorylation | The process of removing one or more phosphoric (ester or anhydride) residues from a molecule. | ||
Molecular function | Phosphatase activity | Catalysis of the hydrolysis of phosphoric monoesters, releasing inorganic phosphate. | ||
Cellular component | Host cell nucleus | A membrane-bounded organelle as it is found in the host cell in which chromosomes are housed and replicated. The host is defined as the larger of the organisms involved in a symbiotic interaction. |
Expression pattern of LotjaGi3g1v0215700.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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