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Field | Value |
---|---|
Gene ID | LotjaGi3g1v0320200 |
Transcript ID | LotjaGi3g1v0320200.2 |
Related isoforms 4 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Orotate phosphoribosyltransferase, putative; TAIR: AT3G54470.1 uridine 5'-monophosphate synthase / UMP synthase (PYRE-F) (UMPS); Swiss-Prot: sp|Q42586|UMPS_ARATH Uridine 5'-monophosphate synthase; TrEMBL-Plants: tr|A0A151RDY2|A0A151RDY2_CAJCA Uridine 5'-monophosphate synthase; Found in the gene: LotjaGi3g1v0320200 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr3:67969782..67988419) extracted from Lotus japonicus Gifu genome v1.2.
CAATATTAGAAAATAGGGACCCGGATTTCCTGCAGTTGGTAGTCCTGCCTTCGCTGCAGTCTAGAACTCTCAACTGTGGG ATCAAGATTCAATGGTTAAAATTTAAGGAGTTTTTTTTTGGTAAATAGGAAAATTAAACAACGAAACTACAAGCTAATTG AAACGATCCGCTTTATATAAAAAAAATTCATCAAGAAAGAATAAAAGAAAAAAAAAGGAAAAGGAAAAAAAAATTAATTA ACAAACTTAAAAAGAAAAAAAACACTAAAACAGAAAAATTAAAAATCGTATCCCTCACACTCTCTCACTCTGTTCATGTT CTTCTCTTTACGGCTGGAAACCCTAACACTTCCAATCTCCTCCCTCCGCCCTTCATCTTCTTCATTAGGAGCAACCAAAG TGTTTTCCTTCCAGTAAACCGCTCCAAACTTCACTCTTCCTTCGTTGTTCACCAACGCATTGAGAAGGTTGTCGGGAGCG TAGCGCCCTAACGTGACGGAGAAGGTGCGTTGTGTCACACCGAAGAGAAACTTCCCCTGGCTTAAAGTAGTGGAAAAATG GAGGAAAGGTATTGCTTGGCACAAGAGGATGATTAAGGTTTGCCACCCTTTTACTATTCCGTAGTATACATCTAAGTTCA AATCCTTTCGATATCTCATTGAATTTCCAATTAATTCAGTAAGCAATTGAACGTGAGTGGAGTTTCCTATGATTGGTGTG GGACCATGGCTCTTTGGAATGGCTAGTTGGCAACTTGAATATGTGCTGCCCAAAACGTGTTCTCACAGGGAAAGAAACCA AGTCAGGTGCATTACATAGTTGTGTTTGCATCTTAATGATTATTTGGCCATGATTCTTTTTCATGGTGTATTGCTCATAC TCATGAACCAAAAGTGAAATCTGTGTCTCATTATGTTTAGCTATAGATGATTCACAAGGGAGATGCAAGATGGATTGATT TGGTTTTAGTCGTCCAAGGATTTGCTAGCTACTAGCCCTTCGAGTATCTTGGAGACATTGGAAGCAATCATTAATCATTC TAACTCCTTATAGTGTGAGTGGTTTTCAATTACTGTGGCATAATTTTATTTCTCTATAACTGTTAAGTTAAATTATTTTG ATATATTACCTATTCATTTGAAAATTGGGGAAACATGCTTTTAAAGTTCTTGAGTTCTTTCAAAGTGAGTTTTATTAAGT CGATTTTGAGAATGCTTTATGAAGTTATATGAACTGAGAATTTACATTGATTTGATTTTGGAATAATGTGAAATTAAGAA TGCTATTTGAATAGCATTGATGAGTATTGGAAAGTGAATTTTGAGATTGTTGATGAGACTTGTGTTGGTTTGAGAAAATG GTTTTGGGGGATCCTTGATAGAACCCCGTAGCCGTTAACGGAGGTAACGGCCTAGGTGCACCTAGCTAGATTGATTCCGG GAGAAGAGGGCTATCCGTTAGATGGAGCCACCAGTGCACGGAGAGGGCTATCAACGAGATGTAGCTTCCCCCGATGAGAT ACGATACGATATATGATATGAAAGAGGAAAGGGCTATCCGTTATATGGAGCCGCCCCTATCGGAGAGGCTATCCCTTAGG AGGAGAGGGCTATCAACGAGATGGAGCCGCCTCACGGTTCTACATGTGTGACCCTATTAAATTATATTTCTGATTTTGAA ATGCTTTCATATGATTGACATGATTTTTATTCAGTTTCATTGAAATTGTTATTTATAAACTTGACAGTTTGATCATCTCT TATTTAAAATGATTCTTATTAACTTGGTTAATATTATATATATTACACACTCTGAACTGACTGTGAAAAACTCGTGTTTC ATATGTTTCCCCTTCCTGTTCATGGTGGTTGTTGACTCCTCACTAAGTCTTTGTGACTTACCCCATTCCTTATTTCCATC CACAGGAAACTGAGTAGCAGACTGTTGTCAGATTCAGGTCGTTCGGCTTATTTCGTTTATAGGCCTCATTGGAAGGTTGT CATTTAATTGTGTCTGTTGTCGGTCTTTGTCATTCTGCAGCTATAGGGGAGTCTTTGAGGGGATTCAGTCTAACTTGTTA TTTATTGTTTAAATTTAAGATTTAGCACATTAGTGCTGGATTTGAAATTTATGTATTCTTGGAATTCTAGTTATGATAAA TCTCAATTGTTAGATTTTATTATTTTGGAGATATTGATATTACAGGAAAGGTTCTTTTGGATTTATATAAATTACAGAAA ACATGTATAGTTTTGGAAAATTGTTTCGGGAAATGGCTTGGGTTAATTAGGCTTGCCAGGCTAAGGTGATAGTCTGTGCG CCGGTCACGGCTTGGGATTTTGGGTCGTGACAAAGTTGGTATCAGAGCTTTGGCTGTAGGTCCTATTAGCTGCAGACATG AGGTAGTGATAGAATCTTTCTAGTAAATTGTGAACCGCGGCACAAGTTACTTTAAAGATGCTATTAACGCCTCATGAGAG TCCTAAAGTTGTTTCCAAGTGTGATTTGAGTTCGTTCCTCATTCACTGTATTCCGAGTCATGTCATATATTTCATGAATA TTCTTTGTTCAGTGGTGATGCCACCTAAATTAGGATTTTCATCATATGATGAGTTAACTTATTAGGACCCTCTTTTAGGA GGTCGTGGTCGACGTTTTGGTTTAGGCCAAGGACCGTTGCCGGTAGGCGCTGGTTGCTCATTTTTGTAGCCAATATTAAC GTGCTTATATTGAGGTAATGAAATACAAGGATGTCAGAGCTTACATTTGGTACGAAGGAATTTTAACATGATTTGAAATA ATGTGTTGAACTGGTTGTTGGGCAGAAACAAGGGAACCCACATAAGAAAATTTATGAGCGTCAACTAGAGGCTAGATAGA GGAAAGTACCAACAAGTAGGTGCCACTAGACAGATTGAGGTTATATTAACTAGTCACATACATATTAAATCTCCTAATTT TCTAGTACTAGTGCAAGGTAGAATCCACAAAGGTTTATTAATGCTCTGGAGAAGCTATAGAGAGCATTAAGATGCTCACA CTTAAGGGCGGTAGAGTTAATGTCATCCAGTTGGAGGATTGTAGCTCATGATTGATCTAATGACTTTATGGTACGTGAGC GATTGGATCGCCTCTGATAACGTGAACGAATTTTCCTAGAAACTCATAAATCTTTTTCTTCTAAATTGTTTGATATGACT TGGTTTATAAGTTTGAACTGCTGGAGAAAATTGATTATAGTAGATAATCTTAAAACTTTATGTAGAGTCATAGACTAGAT TTAAGGGGTCCTTACGATCCATTTTTCCTCAAATGCATTTTTGCATGAGATCTACACCTTGTCTTGCTTGTCAAATGATC ATCATGTAGCTTTCTTTGGAGATAGTAGGGTGTGATATTGGCGCAGTCAGAAAAGTAATATTATGGAGGATTGTTTTGTG ATTGTGGTGCAACTTCCTCTAGTCGTGGATAAGCCTTAGTAGGAGCGTCTTTAGCACTTTCTCTGACCCTTACAACACTT AGTGGCAGTTGGCCTTAGGAATTGGTTGTGACGAGAATGATGCTTTGGGCATTCATAATCTTCGGGAATATAATCAAGAG AAGTTCTGTAACCAGGTTAGTCAAATTTGAATTGGCTTTGAAACTTCAATTGAAGGAAGATGGTGAGTTTATAAAAAATG GGAGTTTGGATGTGTGGTGTAAGATCATTGTTACAATTTTTGTCGGATCAGTTGGCATAAAGTTGTCTTGTCTCTTATAG AAAACGTAATTACCTTGGATTAGTTTCAGCATGTTAGTGAAATTGACTCTTGGCTTAGTACTTCTATCGCGCTGTTTTGG GGAATATTGAGAAAGACATGTGCTGTTTAATATACACACAAAAAACACATTGGTATTATTGTTTTAAGGTTTTAATATTA CTTAATACTTATTATTAATCTTGTTATTATACCCTTTAGTTGCTTTGAAGGAAATGTGATGAGAAGGTCATGAAGTATCT TAGAAGAGCAGTAAAGTATTTGGTGGTTAAGGTCAAGGACAAAGTAGTGAAGTTTGAATTACCTAGAGAGTCATATTTCT CATTTAGAGAGAGTGAAGTTAGGAACAATGCAATCTAATTTCAGCGGCGAAGTTAGAAGGTTATTAAGGAAAGGTTGTCA TGGATACTTGACTTTGGGTAAAAGGATACTCAAGCAGCTGGAAAGAAAAAATAGAAGAAATTCTTGTAGCGTGCGACTTT GTGATGAATTTCTTGATGTACTAATCAATAGACAATAGGCGAATAGATTGCATGAGCTCAATAGTTAGAAAAGGAAATAG GACTTGTGATCTAGGTACCATCAAAGGAATTTCAAGAAGGATAGAATTTAATAGAAAACTTTCAGAATATGTTGTGACCA TAATGAGATATTAGTCATGTTTTTAGATTTAGTGATGCCACTGTTGTTATATGGATTTAATGAGCTACATCTTTAAATCA TTCTTGAAATATTTAGTGATTGTAATTATTGATTATTCTTGTATATTCCTAAGGATAAGGAATAACACTAGAAGCTTGTT GATAATAGAGTTTGGTTTGGGTTGCTTGTTTCAACTCATTGTTGGCTCATCTAAAAAATTCATTCTATTTTGGTTGATGA TGTTGAATATGATCAAGGTCAAGATTCGTAGGAGATGAAGGTGGTAGAGGATTTCTAAGGTGAAAAGGTTCCACGTTTAA AGGTAGACTCTCGATGACATTTTATGACTTTGATGTTGGTTGTGTTGTGTGAGCCTAATACTAGTATGAGGAGGAAAATA ATAGAGGATGCTTATCATTATTTTTGAATCATACATCCGGGTTTTAATAAAATGCATTAGGATATGAAGAAATTTTATTT ATGGGAAAGAATGAAGAAAGACATAGAAAATTGATTTATGAATGTTTAGCATGTTAGCAAGTGAAGGTTGAGCATTAAAG CGAGTTATGTTGCTTCAGTCTATTAAGATACCATAGGGAAAGAGAGAAGGTGTTGTTACGAACTTGGTGAGAGGTTTGCT TTGGAATATAATGAGTTATGATTTTGTATCAGTGATTATGGATTAACTGGTTGAGCATGAACACTTTCGTCTATAAAAGT ACTTACACTACAACATTGTATAGTTTACCTTGGTTGAGATTGTTTGTTTGAATGGTGTAAGCTTGTTTATAATTTGAGAT CAAGGAGCTTAATTGAATGCATTGTTTTAGAAGACTTTCAAAGTTGTTGTGGGGTCCCATTTGAATTTGGGTACAACTTT CTATCCTTAAATTGATGGCTGATTTAAGAGGATTATTCAGATCTCGGAAGATATGTTTTGTGCTCGTGTTTTTAGACTTT AGAAGGAGTTGAGAGCATAATTTGTCTTTAATGAAGTTGGCTTATAATAGCAACTATTAGCCTGGCATTAATATTGTACA ATTTGAGGCTTTGTATGGTAGGGGATGTAGCAATCGATAGATTGGTTGAATATGGAGAAACTAAACTTGTATGTCCATAC CCTATCCAAGATGCAATAGAGAAAGTTAGACTAGTTTAGGTCATTTGGGTACAGGTCAAGGTAAACAAAAGTATTATGTT GATTGGAGGCGAAGTCCTTTAGAGAAGAAGTTGGTGATCATGTGTTCTTACGCGTCTCTTTAATGAAAGAGGTATTATGT TTTGGTAAAAATGGGAAGCTGAGACCAAGATTCATTGGACCATTGAGGTCTTAAAGAGGGATGGCCCTATGGCTTATCGA TTGACACTTCTTCCAAATCTTTCTACAGTTCATACAGTTTCATGTTTACATGATTCGGAAATGCTTTTATGATCCTTCCC TCGTTGTTTGTAATGAGAATGTATTGTTAGATGAACCTTTATCTTAGATGGAGTTTGTGGTAGGAATAGTGGATAGAAAG GGTGAGATGCCTACATTCTACGGACATTGGTTTAATGATAGTACCCTGACAATGAACATTTGGAGAAGAGATGACTTTGA AACCAATGCACAAGACTTAAAATTCGAGGGCGAATTTTCTTAAGGGGGGAAGATTGAAACGATCCGCTTTATATAAAAAA AAAATTCATCAAGAAAGAATAAAAGAAAAAAAAAGGAAAAGGAAAAAAAAATTAATTAACAAACTTAAAAAGGAAAAAAA CACTAAAACAGAAAAATTAAAAATCGTATCCCTCACACTCTCTCACTCTGTTCATGTTCTTCTCTTTACGGCTGGAAACC CTAACACTTCCAATCTCCTCCCTCCGCCCTTCATCTTCTTCATTAGGAGCAACCAAAGTGTTTTCCTTCCAGTAAACCGC TCCAAACTTCACTCTTCCTTCGTTGTTCACCAACGCATTGAGAAGGTTGTCGGGAGCGTAGCGCCCTAACGTGACGGAGA AGGTGCGTTGTGTCACACCGAAGAGAAACTTCCCCTGGCTTAAAGTAGTGGAAAAATGGAGGAAAGGTATTGCTTGGCAC AAGAGGATGATTAAGGTTTGCCACCCTTTCACTATTCCGTAGTATACATCTAAGTTCAAATCCTTTCGATATCTCATTGA ATTTCCAATTAATTCAGTAAGCAATTGAACGTGAGTGGAGTTTCCTATGATTGGTGTGGGACCATGGCTCTTTGGAATGG CTAGTTGGCAACTTGAATATGTGCTGCCCAAAACGTGTTCTCACAGGGAAAGAAACCAAGTCAGGTGCATTACATAGTTG TGTTTGCATCTTAATGATTATTTGGCCATGATTCTTTTTCATGGTGTATTGCTCATACTCATGAACCAAAAGTGAAATCT GTGTCTCATTATGTTTAGCTATAGATGATTCACAAGGGAGATGCAAGATGGATTGATTTGGTTTTAGTCGTCCAAGGATT TGCTAGCTACTAGCCCTTCGAGTATCTTGGAGACATTGGAAGCAATCATTAATCATTCTAACTCCTTATAGTGTGAGTGG TTTTCAATTACTGTGGCATAATTTTATTTCTCTATAACTGTTAAGTTAAATTATTTTGATATATTACCTATTCATTTGAA AATTGGGGAAACATGCTTTTAAAGTTCTTGAGTTCTTTCAAAGTGAGTTTTATTAAGTCGATTTTGAGAATGCTTTATGA AGTTATATGAACTGAGAATTTACATTGATTTGATTTTGGAATAATGTGAAATTAAGAATGCTATTTGAATAGCATTGATG AGTATTGGAAAGTGAATTTTGAGATTGTTGATGAGACTTGTGTTGGTTTGAGAAAATGGTTTTGGGGGATCCTTGATAGA ACCCCGTAGCCGTTAACGGAGGTAACGGCCTAGGTGCACCTAGCTAGATTGATTCCGGGAGAAGAGGGCTATCCGTTAGA TGGAGCCACCAGTGCACGGAGAGGGCTATCAACGAGATGTAGCTTCCCCCGATGAGATACAATACGATATATGATATGAA AGAGGAAAGGGCTATCCGTTATATGGAGCCGCCCCTATCGGAGAGGCTATCCCTTAGGAGGAGAGGGCTATCAACGAGAT GGAGCCGCCTCACGGTTCTACATGTGTGACCCTATTAAATTATATTTCTGATTTTGAAATGCTTTCATATGATTGACATG ATTTTTATTCAGTTTCATTGAAATTGTTATTTATAAACTTGACAGTTTGATCATCTCTTATTTAAAATGATTCTTATTAA CTTGGTTAATATTATATATATTACACACTCTGAACTGACTGTGAAAAACTCGTGTTTCATATGTTTCCCCTTCCTGTTCA TGGTGGTTGTTGACTCCTCACTAAGTCTTTGTGACTTACCCCATTCCTTATTTCCATCCACAGGAAACTGAGTAGCAGAC TGTTGTCAGATTCAGGTCGTTCGGCTTATTTCGTTTATAGGCCTCATTGGAAGGTTGTCATTTAATTGTGTCTGTTGTCG GTCTTTGTCATTCTGCAGCTATAGGGGAGTCTTTGAGGGGATTCAGTCTAACTTGTTATTTATTGTTTAAATTTAAGATT TAGCACATTAGTGCTGGATTTGAAATTTATGTATTCTTGGAATTCTAGTTATGATAAATCTCAATTGTTAGATTTTATTA TTTTGGAGATATTGATATTACAGGAAAGGTTCTTTTGGATTTATATAAATTACAGAAAACATGTATAGTTTTGGAAAATT GTTTCGGGAAATGGCTTGGGTTAATTAGGCTTGCCAGGCTAAGGTGATAGTCTGTGCGCCGGTCACGGCTTGGGATTTTG GGTCGTGACAAAGTTGGTATCAGAGCTTTGGCTGTAGGTCCTATTAGCTGCAGACATGAGGTAGTGATAGAATCTTTCTA GTAAATTGTGAACCGCGGCACAAGTTACTTTAAAGATGCGGCAACAACTCCGCCGGAGGAGATACTAAATCAGTCGCCAC ACATTGCAATCTCGCCCCAAGACCTGCTAGCCAATCTGCTGGTGCATTCCCTTCACGAGTAACATGATAAATCTTCACCT CCCAACTTCGCGAAAGCAAGAGATGAATATATATCCATCAACAAACTACCATACTGATGAAAGTCATAGTGTCCTTTCCC CACAGCTCGAACCAACTCTTCGCAATCAACTCCAAAAATAACCTTCTTCCAATTGTGACGCCAGAGAAACTTCAAACCCA ACAACATAGCTTGGATTTCCGCATAAAAAGGATCCCCACCATCAGCACCCGCATAAAAACCTCCAAGCCAGGTCCCTGTG GAATCACGAACGACACCCCCCATTCCCATATGAAGCTGAACATGATTGAAAGCCCCATCCACCATACACAAAACAAACCA AACCCACTTGGAGGCGGCTTCCATCTAGCCCGAGTCCGCAACTCTGGGATCTGCAGCACCTCACAACCCAGCCATCGATC ATTCTCCACCAAGTCTTTTCTTATTTCATCACACACGTAAGAAACTGTCCAGCGGCCATCCACAATGACCATTTCGTTTC GCCACTGCCATTGTCTCCATTCTCCAAAGCACGGCAAGGAACAACGCTGCATGAGATCCACGAAGCAGCATCTGTGTCCA ACTCTGCACTGTCGTCGCAAAGAACCGGAGCCAAGTCTGAGCATTAACTATAACTTAAAACAATGTGATTAAATCAAAAT CCTGTGATTTGATCTAAGGGTTATATATGTCCTTTTCTTATCCTGAAGTAAATTTGAATTTTAATGCACATTTGTCAATG GCTATTAAGACTTTTTTTTTAAAGCAATGGCTATTAAGACTTGAACTCATATTATAGTTTTTTTTTTAAATTATTTGATT TTAAGACTTTAACTCAAGTTTAACAGATTTATTACAATTTTTTTTTTTTACATCAGGAAGATAAATTGCATCCGCAAAGA ATCGATCTCTAGACCTCCCCTACCCAACCATTTATTTCATTTGAGAGATACATAGTTTTTTTTAACTCAAATATGATATT TCATTAGCCATAAAAAAATATGATATTCATTAAATAGTTTCTTAAATATTTTTAGTCCAACTTTTAAAGAGAAATCTAAT TAGTTTTCTATAAAAAAAATCTTTAGCAATTGGTTCCTTATAAAAATTGTTTGCAATAGGTCCAATTTAAGTTTCTCAGA TTATGTATCACCAATTTTGATCAATGTATATGTGTCATTTCACTTATCATACTTGGATTTTATTTATCCTTGTGTTATTT GGTTAGATAATATTAGTAAATTAGTTTATTCACTAGAATTTGAACCCTTGCTCCTTCATCATTCATTTCTTTTGTCCCGT AGCTCTAACCACTAGAGCTAACTCTTGAACCCGTGTTGATTTTGCATAGAGATAATGACGATTAAGTGATCCACTCAAAG GATTGCAAGTTTTTATCTTGACAGAAAAATAGATATAAGTAATGCATGTAAGGAAAACAATTTTTTTCATCTCGAATATG AGTGGAATAAGCCAAGCGGTCTGTCAGGGGCCTACAGCCTGGCACGTCAGACCCTTGACCTGACTTGACTTGTTTATTAA AAAAGCTAGATCTAGACCTTTTAAAATGCTTTTTTTTTTGGTCAAAGATGAATGGAATATAACCCAAAGGATTGCCTCAC GGCACTTACAGCATGCGAGAAATAATCTCTAAGAGTGATACAGCAATGCACAAACCCAAGGAAAATGAAGAACAAGCACG CACACTCAACTGATACAACAGCTAAAACATGAAGTAAAATCCATAGGGACCTACAGAAACCCTAAAACCCCAAAATAACA GAGAGCCGCTTGACTTCTGAGCGAAGAAGATCTTCATACACTTTTTAACCAGCGCTCCCTTTATACAACACATCGGCTCT GCCGGAGTTGCAGTGCGTCAACAGGGGAACCAGCGGAGTGGCTTCGGAGGCACAAAAAGGGGTCAAACTAGCAGCTCTGA GAGCAATAGGGAAGAGGAGATCTGTAACTTCCAAACATACAGCAGCAAAAGCTGTCAAAGGTGCGATGGAGCGGCGGATG AGGCGAAAGAAGGGGAACCAAAAGGGGACTGGGAGGCGGTGGAGCCGGCAAAGACAGTGTGGAAACAAAGCCAACAACCA AAGCTTTCATCAATAAAGATCAGCACTCAGCAATGGACCCAAACCCACTATTTCTCCAAGTAAAAACCAGCCAAAGCTCT TACCTATCAACCCAAAGCTTTCACCTTACGACCCAGACTCTGTCAGAAAAAAAGGCAAGGAGGATGACCTCGGATCTGAG TTGCAACAGTGGCCTGAGATGCGGTGGTGCTTACTGAAACCATGGCGTTGAGGTGAAGGTCGTAGCTTCACAACACTGGA TCTGCACCCAGCGGGACTCCCGGTGGCAGATGAGATGGAAGAGGCGGCCATGGTGGAGGAAGGGGCGGCAGTGGAGGAGG ACCATGGTGGCCGAACAAAAGACCCACTTATTTGGGTAAATGATCCACCTAATGTGGAGAAACACCCACCTATTGTGGGA AGAAACCTACCTAAAGCAGGAAAAGGAGCCTCCCTAGAGGAGGAGAAACCCCCAAAGGGGGAGGAGCCCCCAAAGGGGGA AAACGGCACTCAAGTCACAAAAACCCTAGCAGAGCAAGTTTCTTCCTTTCAGTGCTTCTTAAACACAATTTCCTGTGACC TTTTAAAATGCTTGATTAAGTAAAAAGGTAAGGCTCAAGCTATAAAAAAAGACTTGTAGGTTAGGCCCATACCTTATAAT AGGCTAAGTCAAGCCTTAAAATTCTTGAAATGCCACATGTCAGACTTGGGCTATAAAAAGAGAATGCAGGTCAGGTTTGG GTCACGCAAAACCTAGCTTGACTTGACTTATTTCCACCCCTAATCTCGATGATCAAAGGAGGGCATAATTCAATTTCTGG GAGAACAATTTACACTTTTTACGAGTGATAATGTATTCATTCCACTCATCATATATGGTCGCACAAAGCGGTAAACAATG GATCATGAAATATTTTTAATTCCTATATGCGGTTAAAAAAAAGTTTGTATTTGAGTAATGATTTTTTTATCTTTACTTAA TTTTACACTCTTTATAATGTTTTTAAGTCAGTTATTACAACCCAATTTAATTTTAATTATTTTGAAAAGCACCTTTATTG AATAACAATAGGGGATTTTAATAGGAAAAGAATGCATAAAAAATTTGAAATAATTAAGTAAATTTTAGAAAAAATAATTT AATGCCTTTTTTGTAAAAAAAATGAATAGTTTATAATATATAGAAGTACAATTTAATAAGGTAAATTATAAAAAAAAATC TATTTTTTTTGTCACAATTAAAAATCCAATTCAAAACCCGTTTGGTGGTCATGTAATGATATGATAGGATATCGTGAACA AGATAGCAACATGAGCATGATAAACTCTTATCATATTATGTATTTGAATAAAAAGTACATTTAAAAATTGATCATTCTAT TAAATTTAATTTTTTATACTCTTTCATGAATGAGCCTATATTTTAAAATAACTAAAATTAATTTAAATTTTATTAATTAG CCTATTTTATTGTTTTGAAGATAACCTATATTTTTTAAATAAAATTATGCAAATAACCAATTGGTTTTCACTTAGTTGTG ACACGTGATAATTAAAAATAAAAGTTAACTAAATTAAGAATATTATTATTTCAAAAGTACTTTATATTTAAATTATAAAT TATTATATAAGTAGATAAATAATTTTAAATAATAGGAGATGAAAATAGAAAATTAGCCTATTACAATTAAAAAATCAATA TTTGTAACCAATTGATTTTCACACACGTGATAAATAGGGAAAATTAACTAAATTAAAAATATTATTATTTCAAAAGCAAT TTATATTTAAATTATTATATAAGTAGATAAATAATTTTTAAATAATAGGAGAGGAAATATTAAGTTAGTCTATTACTATT AATAAATCAATATTTTTAAGTGAGTAGTCTATTTTACTATTTATGAATAATAATTTTATTTATTTTTTATTTTATTTGAA TAAATATTTTTATATTTATTAATTAATATTATAAATTATATAATATTAAAATAAATTAATTTAGAGTTAGGATACAGAAA AAAAATATATAACTGATATTCTATCATGTTCTATCCTAACTCACTCCTCAAGATAACTTTTACACATAATGGACATGAAA GGATAGGAGACATGATAGTATTACTGCTGATGCAACAAACAATAGATAACAGCAGGATATGATTACTTAGTATCCTATCA TATTTTATCTTGTCCTTTCGATAAAGTTAAAACGTATATGAGAAAATGGTGTGATTCTTTTGTTCTGAAATTCTGAAGCA ACTTCAACTTGAATGTGGCCTCCTCTCATCGGAATATTTCTGCGAGCGACGACACTCACCAACAGAGCAATCCCATAAAG GTGCAACCTCAGAATGCATATCACGTTTCCATCTCAATTTATATCATATGTTCTCTTCCAGTGAGCTGAAAGATTTTTAT CATATGTTCTCTTCCACTTGCATGATTAATTTCAATTTCAATCTCAATTTATATCATATGTTCTCTGAGTTGCTGACTTG CTGCATTTGAGATTTTTACTGATAAAAAAATCTAAACTTGAAACAAGGGTAATGAGTTCTGTAGTGGTTAAATATTTTAT TGAATTAACATTGCTCATAGTTTCTTTTTTGGTGCAACATTGCTGATAGTTAAATAAAGGTTTGTTTTTTCTTTACTTTT TCAAAGGGGAGAGGGTGAATTCATGAAATTTTGCTTGCCCATGATTAGGGTTTTTTTGTTTGTTTTTTATTGAACTTTTT ATTTTTCTTTCAAATGCTGGTTCCAGTGTTGTTCTTGTCTGAAGTTGAATATGACTGGATTTTGGGTGCATGGTGCCTTT AGTTCCTCCTTTCATGATTAAGTTGTGGTTTGGAAGCTTGTTTAGTAGTAAAATGTAATTTGGGATTGCTTTCACAAAAT GGTTGACTTTTGAGTAAAAAGAGAATTCTGATTCATGCTTACACATACAAGTTCTATATATACTGCATCTCCTAGAGTAC ATACTACTTATGTGGTTTGTATATAAGCTGCAATCACAATAACTGACTAAGTGTACATAACCACCTAATTAATTGACATA TGTAGCTTAGAGGAGTTTGAGAAGTTGGAGGAGACTCGTCACTATCGGTAAAGTTGTCATGGCATATTCCTTGTGCTAAT CACTATATTTTTTCACTTGAGTTGTATTGTTTTGTTTATGCTGTAATAATTGTGATATAACCTATGTTGTGTGGAGTATT ATGATTAAGTCTATGCTAGTGTTTGCCATTTAGCTACAAGTTTCAGATCATGTACTTATTTAGTTGATTTTGTTGCTTAC TGAATTACACAAACTGTTCCTTAGGTATTCAATAATCCTTGTTCCTTGAAGCAAACTGAGAAAGGCACATAAATGGAGTC TCTAGTTCTTCAACTCCATGAAATCTCAGCTCTCAAATTCGGCAACTTTAAGCTTAAATCAGGCATCTCCTCACCAATCT ACATAGACCTTCGCCTAATTGTATCTTACCCATCTGTCCTGCGGCAAATTTCTCAAACTATGATCTCCTCTGTCTCCTCC ACTTCATTTGACCTTGTCTGTGGTGTTCCTTACACTGCTCTGCCCATTGCTACTTGTGCCTCTGTCACTCACAACATCCC GATGGTCATGCGCCGCAAGGAAATCAAAGAGTATGGCACATCTAAAGCCATTGAAGGTGATTTCAAGCATGGCCAAAGTT GCTTGATAATTGAGGATCTAGTTACTAGCGGCACGTCGGTTTTGGAAACTGCTGCGCCGCTGCGTGCTACGGGGTTGAAG GTCAGTGATGCTGTTGTTTTGATTGATAGAGAGCAAGGTGGGAGAGAGAATTTGGAGAGTAATGGAATCAAGCTGCATGC TATTCTTAAGTTGACTGAAATGGTGAAGATTTTGAAGGAAAAAGGAAAGCTTGATCAAGAGATGGTAGGGGTTGTTATGA GATTCTTAGAGGAAAATCAGAAGGTTGCTGCTTTGGCAATTAAAGCTAAGGTCAAGGCATTGCCATATTTGAAGAGGGCT AATTTGTCCAAGAATCCAACAGGAAAGAGGTTGTTTGAGATAATGGCTGAGAAGGAAAGTAATCTGTGTTTGGCTGCAGA TGTTGGAACTGCAGCTGAATTGCTTGAAATTGCTGACATGGTGAGAATTTGGAATTCATACAAAGTAGGAAGAAATTTAC TTATGACATTTTGTTTGATCTCTCATTTATGGTGGAAATGTTAGAGACGGTTCTTAATATAAAAAATTGGTTGAAAATTT AAAGAGTCCTGTTCTCTGGATTATTATCAATGAGGTTATAATTAAAAGCTTGATCCCAATGAAGAAATTATCTAAACTAA TGTGTTTGTTCTTCTGTGTCAGGTTGGGCCTGAGATATGCTTGCTGAAAACTCATGTGGATATTCTTCCAGATTTTACTC CTGATTTTGGTTCTAAGCTTCGCAAGGTAGAATGCTAAAAGAAGTCATTTTTTCCTTTCAGTATACAGATCACTGGACAA ATTTTTGCATCATGATATAGTTAGCATATGTACACTGGAGTAGTTTTGCTAGTATTTATTGAAAATATTATGCCGATTTC ATGACTTTGACTTGTACATGAGTTTTATGGGGTTACGAGTCACTGAGATTGTAGGACTAGACCTAATAATTGCTATATTC TGCTGAAGATTGCAGAAAAACACAACTTTTTAATCTTTGAGGACCGTAAATTTGCTGACATTGGTAACACAGTGACCATG CAGTATGAAGGGTTAGACTTTGCTTGTAAATTTTGGATTCTTTTTCTGTTTCCCTTCATCATTGTCTGCTTTTAATATGA CATCATTTTGTTCTGTTATTTCAACAGAGGGATCTATCATATATTGGATTGGGCTGATATAGTGAATGCTCATATAATCT CTGGTCCTGGAATTGTGGATGGACTAAAATTGAAGGTTTATCCTCTATGATACTAGTCATAGCATTATATTGACTGGAGC CTGCCCGAAAATGCTAGTTTAACGCGTCTCTTGAACCATGCTCAGGGTTTGCCTCGCGGAAGGGGTCTGTTGCTGCTCGC TGAAATGAGTTCAGCTGGTAACCTTGCCAAGGGAGATTACACCAATGCTGCAGTGAAAATTGCTGAGGATCACTCTGACT TTGTTATTGGCTTTATCTCAGTCAATCCAGCATCATGGCCCGGGGCACCCATAAATTCCTGTTTCATCCATGCCACTCCT GGAGTTCAAATGGTGACTGGTGGTGATGCTTTAGGGCAGCAATATAATACTCCATATTCTGTAAGTTTAGGCTTAAATAA GTTTTTCGTCCCTAACCTTTCCATAATACCTGGTTTTCGTCCCTCGCCGGAGCAAAGGTGGGCTTAGTCCCTAACCTTTG CCAAAACATTTGGTTTTCATCCCTCCGGAGCTCTGGGTCAACGCCGGAACTCCGGTGGCCCATGTGGCATTGCCACATGG GATTAATGAGGCCAGGTGTTAATTATTATTATTTTTTAAATTAATAACAAATTAACTCACTAATTAAAAACACTTAACTC ACTAATTAAAAACCTCAAAGAAACTAAACACACTTTCTTCATTAGATCTGGAAAAATCTCTTCATCTTCATATGCCCATT CATCCTTAATCCTCCCCCTTCATCCATTTTCTCTGATAACTCTAAATTAAATAATAAAACCCCACCTTCAAACCCCAATT TCAATCTGTTCATCTTCAAACCCCATTTCATCACATGTTTTGGGTCAATTTTTTCAACCAAAGGGAAAAGCTTCAAGTAT CCACCGTCTTCACCATCAACACAGTCCTCCTCCATCTTTTTCATTCTGATCCCAAATGCTTTGAAGGTCACACCTTTCCT CTTCAACCCTTCAAATCCCAACTCAAATGCATCCAAACCCATCAAACCCTTCTAAGCCATCGTTTCCCCGGAGCTCGCCT CACCAAATCCATAAACAACCAAAGGCCAGATCGTCCCCACCGTGACTCTAACAGATCAAGAACCAGGACGAAGAAATCGA GCAGATCGAGAGCCTGGTTCTCTATTTTCTCTTCTCTGTTCGATTTTCTGGGTTTTTGGTGAAGCTCGATGGTCATGGTT GTGGAACAAGGTGGCTTTAGTGAGAAAGGGGTGACTTTCTGACGGAGGAGGCGTTATGTTGGTGAAGTCGCGTACTGGAG GGCTGGTGGTTTTGATGTGCGTTTGTAAAAACGCATAAACACAGATCTGTAGCAAAACTTGCGTTCCAGCGAAAGCGATA AATTTGAGCGGTGGGTGTTGGGCGTTGGCGTTTGCACACATCTGTTCGCATACCTCTGTGTAGCTTTTCGTATGATTTGG GGTGGCAAATTCATTATTGTTCTGTTGAGAATTGTAGGAGAGGGGCCTCTCTTCACGTGGATTTATTTTTCATCTTGATT CAGTCTGTTTCAATTCAGTTCGCTTGATTCAATTCAGTTCTAGCACATTTTCCATGTATCATGCTTGATTCAATTATGTT TCAATTGGATTTGGTTGAAGGAAAGGGAAAAATTGGTTTTTGTTTCTTTTTGTTTTTGGATTTCTTGATGCTTCTTTATT TGTTTCCAGATTTTGTGTTGTTGATTAATTGGAGATTAATATGAAGGAGGATTAGATATTAATGATTTAATAAAATTAAG ATAAATAAGTTAATATTTTTTTATTTTTAGACTTTAAACAATTTTTTTTTTAAAAATTAATTAGTTTTTTTTAATTTAAA TGAAAAAACAAATTACACATCAGCTTATTAATCCCATGTGGTAATGTCACATGGGCCACCGGAGCTCCGGCGTTGACCCT GAGCTCCGGAGGGATGAAAACCAAACGTTTTGGTAAAGGTTAGGGACTAAAGCCCACCTTTGCTCCGGCGAGGGACGAAA ACCAGGTATTATGTAAAGGTTAGGGACGAAAAATTTAAGCCGTAAGTTTATGCATATTGTGATTTAACTTCAAGTCACAT GCAAACAATAACCATATGCATTGTCAATCACAAATTCTACCTGAAGTTGTAAGCTATTAGGTAAGGATCATAAATGATTT AATATCTAACACACTCTATCTTGCAATTGGCCTTTGGGAATGACAATGATCGAATTCTTGATACTAGATCATCTACACTC TGATTACATGTCAATTACAATCTCTCCCAAAAGATTAAGACACTAAGTAAAGGCTTGTCAATAGTTTTATATCTATAATA TACAAAGTACTGTACTCTTAATTTAGTTGATCTACTATTCTTTCTTAGGTTGAAAAGAAACTAACTCATATCTTCAGATT TCATATGAACCTTTAATTATAGTGAAACTAACTCGTATTCTTCGGATTTTCTGGGACTAATGCCTAAATTTTACCATTAC GATTGCCCGTGGCATGCTAACTTGTTTCTCTAGTCAACAACAACAAACCCGTTACCCAACTAAGTTTTGGATTCTTTTCT TTGGACTAACTTGTATCTCTGCATTTCAAACCATGTGTTCCTAAACAATAGTATCATCATTTATTTTAAGTTGATTTTTC TGGCATCTTTATCTTTTGGATAACTTACATAGTTGAGTTAATTGCTCTTCACAATTTACCAAATGGTTTTTCAGGTAATC CATGAAAAGGGCAGTGACATAATCATAGTGGGTCGCGGCATCATCAAGGCAGAAAATCCGGCTGAGGCAGCCCGCAAATA TCGTCTTCAAGGATGGAGTTCATATATAGCCAAGTGCAGCTAACACCTGTATTCCTAGAATAAACAGATGACTAGGAAAT GACTGTATTTTTTTTTTCTTGGCGAAGGGGATTTTATTTCCGGGCTCATAATTAACAATCAAATGTGAAAGCAGACCTGG AATTTTCTATTTCTTTTGTCCTTAGCGTGTAATGTATTGAATGATGCATATCATGTTATTTTGTAAACTGAATTATCCCT GAAAATTTAGGGGCCGTCAATTTAGTCCCTCAACTCTAGAAATAGACAAATGGGTCATCAGAAAATAAAAATGTTCAATT TAGTCATTTCATGAACTAAAGTTGATTATTTTTTAAAGAAAAATTAATTTCCTTTCATTTTTTAAGGACTAATGTGGC
CDS sequence (LotjaGi3g1v0320200.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGAGTCTCTAGTTCTTCAACTCCATGAAATCTCAGCTCTCAAATTCGGCAACTTTAAGCTTAAATCAGGCATCTCCTC ACCAATCTACATAGACCTTCGCCTAATTGTATCTTACCCATCTGTCCTGCGGCAAATTTCTCAAACTATGATCTCCTCTG TCTCCTCCACTTCATTTGACCTTGTCTGTGGTGTTCCTTACACTGCTCTGCCCATTGCTACTTGTGCCTCTGTCACTCAC AACATCCCGATGGTCATGCGCCGCAAGGAAATCAAAGAGTATGGCACATCTAAAGCCATTGAAGGTGATTTCAAGCATGG CCAAAGTTGCTTGATAATTGAGGATCTAGTTACTAGCGGCACGTCGGTTTTGGAAACTGCTGCGCCGCTGCGTGCTACGG GGTTGAAGGTCAGTGATGCTGTTGTTTTGATTGATAGAGAGCAAGGTGGGAGAGAGAATTTGGAGAGTAATGGAATCAAG CTGCATGCTATTCTTAAGTTGACTGAAATGGTGAAGATTTTGAAGGAAAAAGGAAAGCTTGATCAAGAGATGGTAGGGGT TGTTATGAGATTCTTAGAGGAAAATCAGAAGGTTGCTGCTTTGGCAATTAAAGCTAAGGTCAAGGCATTGCCATATTTGA AGAGGGCTAATTTGTCCAAGAATCCAACAGGAAAGAGGTTGTTTGAGATAATGGCTGAGAAGGAAAGTAATCTGTGTTTG GCTGCAGATGTTGGAACTGCAGCTGAATTGCTTGAAATTGCTGACATGGTTGGGCCTGAGATATGCTTGCTGAAAACTCA TGTGGATATTCTTCCAGATTTTACTCCTGATTTTGGTTCTAAGCTTCGCAAGATTGCAGAAAAACACAACTTTTTAATCT TTGAGGACCGTAAATTTGCTGACATTGGTAACACAGTGACCATGCAGTATGAAGGAGGGATCTATCATATATTGGATTGG GCTGATATAGTGAATGCTCATATAATCTCTGGTCCTGGAATTGTGGATGGACTAAAATTGAAGGGTTTGCCTCGCGGAAG GGGTCTGTTGCTGCTCGCTGAAATGAGTTCAGCTGGTAACCTTGCCAAGGGAGATTACACCAATGCTGCAGTGAAAATTG CTGAGGATCACTCTGACTTTGTTATTGGCTTTATCTCAGTCAATCCAGCATCATGGCCCGGGGCACCCATAAATTCCTGT TTCATCCATGCCACTCCTGGAGTTCAAATGGTGACTGGTGGTGATGCTTTAGGGCAGCAATATAATACTCCATATTCTGT AATCCATGAAAAGGGCAGTGACATAATCATAGTGGGTCGCGGCATCATCAAGGCAGAAAATCCGGCTGAGGCAGCCCGCA AATATCGTCTTCAAGGATGGAGTTCATATATAGCCAAGTGCAGCTAA
Protein sequence (LotjaGi3g1v0320200.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MESLVLQLHEISALKFGNFKLKSGISSPIYIDLRLIVSYPSVLRQISQTMISSVSSTSFDLVCGVPYTALPIATCASVTH NIPMVMRRKEIKEYGTSKAIEGDFKHGQSCLIIEDLVTSGTSVLETAAPLRATGLKVSDAVVLIDREQGGRENLESNGIK LHAILKLTEMVKILKEKGKLDQEMVGVVMRFLEENQKVAALAIKAKVKALPYLKRANLSKNPTGKRLFEIMAEKESNLCL AADVGTAAELLEIADMVGPEICLLKTHVDILPDFTPDFGSKLRKIAEKHNFLIFEDRKFADIGNTVTMQYEGGIYHILDW ADIVNAHIISGPGIVDGLKLKGLPRGRGLLLLAEMSSAGNLAKGDYTNAAVKIAEDHSDFVIGFISVNPASWPGAPINSC FIHATPGVQMVTGGDALGQQYNTPYSVIHEKGSDIIIVGRGIIKAENPAEAARKYRLQGWSSYIAKCS
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 | 1 | 468 | 468 | 0.0 | – | |
Hamap | 1 | 224 | 224 | 21.328 | ||
Gene3D | 1 | 206 | 206 | 1.8E-64 | ||
PANTHER | 1 | 468 | 468 | 0.0 | – | |
SUPERFAMILY | 3 | 191 | 189 | 1.42E-42 | ||
TIGRFAM | 8 | 169 | 162 | 1.5E-42 | ||
Pfam | 49 | 152 | 104 | 6.6E-9 | ||
CDD | 59 | 166 | 108 | 1.0952E-17 | ||
Gene3D | 207 | 468 | 262 | 7.4E-94 | ||
SUPERFAMILY | 210 | 463 | 254 | 4.71E-56 | ||
Pfam | 236 | 455 | 220 | 6.0E-74 | ||
SMART | 237 | 455 | 219 | 9.9E-35 | ||
CDD | 238 | 455 | 218 | 2.01894E-50 | – | |
TIGRFAM | 238 | 456 | 219 | 3.0E-55 | ||
ProSitePatterns | 293 | 306 | 14 | - |
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 | Catalytic activity | Catalysis of a biochemical reaction at physiological temperatures. In biologically catalyzed reactions, the reactants are known as substrates, and the catalysts are naturally occurring macromolecular substances known as enzymes. Enzymes possess specific binding sites for substrates, and are usually composed wholly or largely of protein, but RNA that has catalytic activity (ribozyme) is often also regarded as enzymatic. | ||
Molecular function | Orotate phosphoribosyltransferase activity | Catalysis of the reaction: orotidine 5'-phosphate + diphosphate = orotate + 5-phospho-alpha-D-ribose 1-diphosphate. | ||
Molecular function | Orotidine-5'-phosphate decarboxylase activity | Catalysis of the reaction: H(+) + orotidine 5'-phosphate = CO(2) + UMP. | ||
Biological process | 'de novo' pyrimidine nucleobase biosynthetic process | The chemical reactions and pathways resulting in the formation of pyrimidine nucleobases, 1,3-diazine, organic nitrogenous bases, beginning with the synthesis of a pyrimidine ring from simpler precursors. | ||
Biological process | Pyrimidine nucleotide biosynthetic process | The chemical reactions and pathways resulting in the formation of a pyrimidine nucleotide, a compound consisting of nucleoside (a pyrimidine base linked to a deoxyribose or ribose sugar) esterified with a phosphate group at either the 3' or 5'-hydroxyl group of the sugar. | ||
Biological process | Nucleoside metabolic process | The chemical reactions and pathways involving a nucleoside, a nucleobase linked to either beta-D-ribofuranose (a ribonucleoside) or 2-deoxy-beta-D-ribofuranose, (a deoxyribonucleoside), e.g. adenosine, guanosine, inosine, cytidine, uridine and deoxyadenosine, deoxyguanosine, deoxycytidine and thymidine (= deoxythymidine). | ||
Biological process | 'de novo' UMP biosynthetic process | The chemical reactions and pathways resulting in the formation of UMP, uridine monophosphate, starting with the synthesis of (S)-dihydroorotate from bicarbonate; UMP biosynthesis may either occur via reduction by quinone, NAD(+) or oxygen. |
Expression pattern of LotjaGi3g1v0320200.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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