Transcript — View — Lotus Base

Overview

Field	Value
Gene ID	LotjaGi3g1v0320200
Transcript ID	LotjaGi3g1v0320200.1
Related isoforms 4	LotjaGi3g1v0320200.2 LotjaGi3g1v0320200.3 LotjaGi3g1v0320200.4 LotjaGi3g1v0320200.5
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_chr3:67969747..67988419) extracted from Lotus japonicus Gifu genome v1.2.

AAATTAGAAGTTTCCACCCTTTCTTTTTTCCTAGTCAATATTAGAAAATAGGGACCCGGATTTCCTGCAGTTGGTAGTCC TGCCTTCGCTGCAGTCTAGAACTCTCAACTGTGGGATCAAGATTCAATGGTTAAAATTTAAGGAGTTTTTTTTTGGTAAA TAGGAAAATTAAACAACGAAACTACAAGCTAATTGAAACGATCCGCTTTATATAAAAAAAATTCATCAAGAAAGAATAAA AGAAAAAAAAAGGAAAAGGAAAAAAAAATTAATTAACAAACTTAAAAAGAAAAAAAACACTAAAACAGAAAAATTAAAAA TCGTATCCCTCACACTCTCTCACTCTGTTCATGTTCTTCTCTTTACGGCTGGAAACCCTAACACTTCCAATCTCCTCCCT CCGCCCTTCATCTTCTTCATTAGGAGCAACCAAAGTGTTTTCCTTCCAGTAAACCGCTCCAAACTTCACTCTTCCTTCGT TGTTCACCAACGCATTGAGAAGGTTGTCGGGAGCGTAGCGCCCTAACGTGACGGAGAAGGTGCGTTGTGTCACACCGAAG AGAAACTTCCCCTGGCTTAAAGTAGTGGAAAAATGGAGGAAAGGTATTGCTTGGCACAAGAGGATGATTAAGGTTTGCCA CCCTTTTACTATTCCGTAGTATACATCTAAGTTCAAATCCTTTCGATATCTCATTGAATTTCCAATTAATTCAGTAAGCA ATTGAACGTGAGTGGAGTTTCCTATGATTGGTGTGGGACCATGGCTCTTTGGAATGGCTAGTTGGCAACTTGAATATGTG CTGCCCAAAACGTGTTCTCACAGGGAAAGAAACCAAGTCAGGTGCATTACATAGTTGTGTTTGCATCTTAATGATTATTT GGCCATGATTCTTTTTCATGGTGTATTGCTCATACTCATGAACCAAAAGTGAAATCTGTGTCTCATTATGTTTAGCTATA GATGATTCACAAGGGAGATGCAAGATGGATTGATTTGGTTTTAGTCGTCCAAGGATTTGCTAGCTACTAGCCCTTCGAGT ATCTTGGAGACATTGGAAGCAATCATTAATCATTCTAACTCCTTATAGTGTGAGTGGTTTTCAATTACTGTGGCATAATT TTATTTCTCTATAACTGTTAAGTTAAATTATTTTGATATATTACCTATTCATTTGAAAATTGGGGAAACATGCTTTTAAA GTTCTTGAGTTCTTTCAAAGTGAGTTTTATTAAGTCGATTTTGAGAATGCTTTATGAAGTTATATGAACTGAGAATTTAC ATTGATTTGATTTTGGAATAATGTGAAATTAAGAATGCTATTTGAATAGCATTGATGAGTATTGGAAAGTGAATTTTGAG ATTGTTGATGAGACTTGTGTTGGTTTGAGAAAATGGTTTTGGGGGATCCTTGATAGAACCCCGTAGCCGTTAACGGAGGT AACGGCCTAGGTGCACCTAGCTAGATTGATTCCGGGAGAAGAGGGCTATCCGTTAGATGGAGCCACCAGTGCACGGAGAG GGCTATCAACGAGATGTAGCTTCCCCCGATGAGATACGATACGATATATGATATGAAAGAGGAAAGGGCTATCCGTTATA TGGAGCCGCCCCTATCGGAGAGGCTATCCCTTAGGAGGAGAGGGCTATCAACGAGATGGAGCCGCCTCACGGTTCTACAT GTGTGACCCTATTAAATTATATTTCTGATTTTGAAATGCTTTCATATGATTGACATGATTTTTATTCAGTTTCATTGAAA TTGTTATTTATAAACTTGACAGTTTGATCATCTCTTATTTAAAATGATTCTTATTAACTTGGTTAATATTATATATATTA CACACTCTGAACTGACTGTGAAAAACTCGTGTTTCATATGTTTCCCCTTCCTGTTCATGGTGGTTGTTGACTCCTCACTA AGTCTTTGTGACTTACCCCATTCCTTATTTCCATCCACAGGAAACTGAGTAGCAGACTGTTGTCAGATTCAGGTCGTTCG GCTTATTTCGTTTATAGGCCTCATTGGAAGGTTGTCATTTAATTGTGTCTGTTGTCGGTCTTTGTCATTCTGCAGCTATA GGGGAGTCTTTGAGGGGATTCAGTCTAACTTGTTATTTATTGTTTAAATTTAAGATTTAGCACATTAGTGCTGGATTTGA AATTTATGTATTCTTGGAATTCTAGTTATGATAAATCTCAATTGTTAGATTTTATTATTTTGGAGATATTGATATTACAG GAAAGGTTCTTTTGGATTTATATAAATTACAGAAAACATGTATAGTTTTGGAAAATTGTTTCGGGAAATGGCTTGGGTTA ATTAGGCTTGCCAGGCTAAGGTGATAGTCTGTGCGCCGGTCACGGCTTGGGATTTTGGGTCGTGACAAAGTTGGTATCAG AGCTTTGGCTGTAGGTCCTATTAGCTGCAGACATGAGGTAGTGATAGAATCTTTCTAGTAAATTGTGAACCGCGGCACAA GTTACTTTAAAGATGCTATTAACGCCTCATGAGAGTCCTAAAGTTGTTTCCAAGTGTGATTTGAGTTCGTTCCTCATTCA CTGTATTCCGAGTCATGTCATATATTTCATGAATATTCTTTGTTCAGTGGTGATGCCACCTAAATTAGGATTTTCATCAT ATGATGAGTTAACTTATTAGGACCCTCTTTTAGGAGGTCGTGGTCGACGTTTTGGTTTAGGCCAAGGACCGTTGCCGGTA GGCGCTGGTTGCTCATTTTTGTAGCCAATATTAACGTGCTTATATTGAGGTAATGAAATACAAGGATGTCAGAGCTTACA TTTGGTACGAAGGAATTTTAACATGATTTGAAATAATGTGTTGAACTGGTTGTTGGGCAGAAACAAGGGAACCCACATAA GAAAATTTATGAGCGTCAACTAGAGGCTAGATAGAGGAAAGTACCAACAAGTAGGTGCCACTAGACAGATTGAGGTTATA TTAACTAGTCACATACATATTAAATCTCCTAATTTTCTAGTACTAGTGCAAGGTAGAATCCACAAAGGTTTATTAATGCT CTGGAGAAGCTATAGAGAGCATTAAGATGCTCACACTTAAGGGCGGTAGAGTTAATGTCATCCAGTTGGAGGATTGTAGC TCATGATTGATCTAATGACTTTATGGTACGTGAGCGATTGGATCGCCTCTGATAACGTGAACGAATTTTCCTAGAAACTC ATAAATCTTTTTCTTCTAAATTGTTTGATATGACTTGGTTTATAAGTTTGAACTGCTGGAGAAAATTGATTATAGTAGAT AATCTTAAAACTTTATGTAGAGTCATAGACTAGATTTAAGGGGTCCTTACGATCCATTTTTCCTCAAATGCATTTTTGCA TGAGATCTACACCTTGTCTTGCTTGTCAAATGATCATCATGTAGCTTTCTTTGGAGATAGTAGGGTGTGATATTGGCGCA GTCAGAAAAGTAATATTATGGAGGATTGTTTTGTGATTGTGGTGCAACTTCCTCTAGTCGTGGATAAGCCTTAGTAGGAG CGTCTTTAGCACTTTCTCTGACCCTTACAACACTTAGTGGCAGTTGGCCTTAGGAATTGGTTGTGACGAGAATGATGCTT TGGGCATTCATAATCTTCGGGAATATAATCAAGAGAAGTTCTGTAACCAGGTTAGTCAAATTTGAATTGGCTTTGAAACT TCAATTGAAGGAAGATGGTGAGTTTATAAAAAATGGGAGTTTGGATGTGTGGTGTAAGATCATTGTTACAATTTTTGTCG GATCAGTTGGCATAAAGTTGTCTTGTCTCTTATAGAAAACGTAATTACCTTGGATTAGTTTCAGCATGTTAGTGAAATTG ACTCTTGGCTTAGTACTTCTATCGCGCTGTTTTGGGGAATATTGAGAAAGACATGTGCTGTTTAATATACACACAAAAAA CACATTGGTATTATTGTTTTAAGGTTTTAATATTACTTAATACTTATTATTAATCTTGTTATTATACCCTTTAGTTGCTT TGAAGGAAATGTGATGAGAAGGTCATGAAGTATCTTAGAAGAGCAGTAAAGTATTTGGTGGTTAAGGTCAAGGACAAAGT AGTGAAGTTTGAATTACCTAGAGAGTCATATTTCTCATTTAGAGAGAGTGAAGTTAGGAACAATGCAATCTAATTTCAGC GGCGAAGTTAGAAGGTTATTAAGGAAAGGTTGTCATGGATACTTGACTTTGGGTAAAAGGATACTCAAGCAGCTGGAAAG AAAAAATAGAAGAAATTCTTGTAGCGTGCGACTTTGTGATGAATTTCTTGATGTACTAATCAATAGACAATAGGCGAATA GATTGCATGAGCTCAATAGTTAGAAAAGGAAATAGGACTTGTGATCTAGGTACCATCAAAGGAATTTCAAGAAGGATAGA ATTTAATAGAAAACTTTCAGAATATGTTGTGACCATAATGAGATATTAGTCATGTTTTTAGATTTAGTGATGCCACTGTT GTTATATGGATTTAATGAGCTACATCTTTAAATCATTCTTGAAATATTTAGTGATTGTAATTATTGATTATTCTTGTATA TTCCTAAGGATAAGGAATAACACTAGAAGCTTGTTGATAATAGAGTTTGGTTTGGGTTGCTTGTTTCAACTCATTGTTGG CTCATCTAAAAAATTCATTCTATTTTGGTTGATGATGTTGAATATGATCAAGGTCAAGATTCGTAGGAGATGAAGGTGGT AGAGGATTTCTAAGGTGAAAAGGTTCCACGTTTAAAGGTAGACTCTCGATGACATTTTATGACTTTGATGTTGGTTGTGT TGTGTGAGCCTAATACTAGTATGAGGAGGAAAATAATAGAGGATGCTTATCATTATTTTTGAATCATACATCCGGGTTTT AATAAAATGCATTAGGATATGAAGAAATTTTATTTATGGGAAAGAATGAAGAAAGACATAGAAAATTGATTTATGAATGT TTAGCATGTTAGCAAGTGAAGGTTGAGCATTAAAGCGAGTTATGTTGCTTCAGTCTATTAAGATACCATAGGGAAAGAGA GAAGGTGTTGTTACGAACTTGGTGAGAGGTTTGCTTTGGAATATAATGAGTTATGATTTTGTATCAGTGATTATGGATTA ACTGGTTGAGCATGAACACTTTCGTCTATAAAAGTACTTACACTACAACATTGTATAGTTTACCTTGGTTGAGATTGTTT GTTTGAATGGTGTAAGCTTGTTTATAATTTGAGATCAAGGAGCTTAATTGAATGCATTGTTTTAGAAGACTTTCAAAGTT GTTGTGGGGTCCCATTTGAATTTGGGTACAACTTTCTATCCTTAAATTGATGGCTGATTTAAGAGGATTATTCAGATCTC GGAAGATATGTTTTGTGCTCGTGTTTTTAGACTTTAGAAGGAGTTGAGAGCATAATTTGTCTTTAATGAAGTTGGCTTAT AATAGCAACTATTAGCCTGGCATTAATATTGTACAATTTGAGGCTTTGTATGGTAGGGGATGTAGCAATCGATAGATTGG TTGAATATGGAGAAACTAAACTTGTATGTCCATACCCTATCCAAGATGCAATAGAGAAAGTTAGACTAGTTTAGGTCATT TGGGTACAGGTCAAGGTAAACAAAAGTATTATGTTGATTGGAGGCGAAGTCCTTTAGAGAAGAAGTTGGTGATCATGTGT TCTTACGCGTCTCTTTAATGAAAGAGGTATTATGTTTTGGTAAAAATGGGAAGCTGAGACCAAGATTCATTGGACCATTG AGGTCTTAAAGAGGGATGGCCCTATGGCTTATCGATTGACACTTCTTCCAAATCTTTCTACAGTTCATACAGTTTCATGT TTACATGATTCGGAAATGCTTTTATGATCCTTCCCTCGTTGTTTGTAATGAGAATGTATTGTTAGATGAACCTTTATCTT AGATGGAGTTTGTGGTAGGAATAGTGGATAGAAAGGGTGAGATGCCTACATTCTACGGACATTGGTTTAATGATAGTACC CTGACAATGAACATTTGGAGAAGAGATGACTTTGAAACCAATGCACAAGACTTAAAATTCGAGGGCGAATTTTCTTAAGG GGGGAAGATTGAAACGATCCGCTTTATATAAAAAAAAAATTCATCAAGAAAGAATAAAAGAAAAAAAAAGGAAAAGGAAA AAAAAATTAATTAACAAACTTAAAAAGGAAAAAAACACTAAAACAGAAAAATTAAAAATCGTATCCCTCACACTCTCTCA CTCTGTTCATGTTCTTCTCTTTACGGCTGGAAACCCTAACACTTCCAATCTCCTCCCTCCGCCCTTCATCTTCTTCATTA GGAGCAACCAAAGTGTTTTCCTTCCAGTAAACCGCTCCAAACTTCACTCTTCCTTCGTTGTTCACCAACGCATTGAGAAG GTTGTCGGGAGCGTAGCGCCCTAACGTGACGGAGAAGGTGCGTTGTGTCACACCGAAGAGAAACTTCCCCTGGCTTAAAG TAGTGGAAAAATGGAGGAAAGGTATTGCTTGGCACAAGAGGATGATTAAGGTTTGCCACCCTTTCACTATTCCGTAGTAT ACATCTAAGTTCAAATCCTTTCGATATCTCATTGAATTTCCAATTAATTCAGTAAGCAATTGAACGTGAGTGGAGTTTCC TATGATTGGTGTGGGACCATGGCTCTTTGGAATGGCTAGTTGGCAACTTGAATATGTGCTGCCCAAAACGTGTTCTCACA GGGAAAGAAACCAAGTCAGGTGCATTACATAGTTGTGTTTGCATCTTAATGATTATTTGGCCATGATTCTTTTTCATGGT GTATTGCTCATACTCATGAACCAAAAGTGAAATCTGTGTCTCATTATGTTTAGCTATAGATGATTCACAAGGGAGATGCA AGATGGATTGATTTGGTTTTAGTCGTCCAAGGATTTGCTAGCTACTAGCCCTTCGAGTATCTTGGAGACATTGGAAGCAA TCATTAATCATTCTAACTCCTTATAGTGTGAGTGGTTTTCAATTACTGTGGCATAATTTTATTTCTCTATAACTGTTAAG TTAAATTATTTTGATATATTACCTATTCATTTGAAAATTGGGGAAACATGCTTTTAAAGTTCTTGAGTTCTTTCAAAGTG AGTTTTATTAAGTCGATTTTGAGAATGCTTTATGAAGTTATATGAACTGAGAATTTACATTGATTTGATTTTGGAATAAT GTGAAATTAAGAATGCTATTTGAATAGCATTGATGAGTATTGGAAAGTGAATTTTGAGATTGTTGATGAGACTTGTGTTG GTTTGAGAAAATGGTTTTGGGGGATCCTTGATAGAACCCCGTAGCCGTTAACGGAGGTAACGGCCTAGGTGCACCTAGCT AGATTGATTCCGGGAGAAGAGGGCTATCCGTTAGATGGAGCCACCAGTGCACGGAGAGGGCTATCAACGAGATGTAGCTT CCCCCGATGAGATACAATACGATATATGATATGAAAGAGGAAAGGGCTATCCGTTATATGGAGCCGCCCCTATCGGAGAG GCTATCCCTTAGGAGGAGAGGGCTATCAACGAGATGGAGCCGCCTCACGGTTCTACATGTGTGACCCTATTAAATTATAT TTCTGATTTTGAAATGCTTTCATATGATTGACATGATTTTTATTCAGTTTCATTGAAATTGTTATTTATAAACTTGACAG TTTGATCATCTCTTATTTAAAATGATTCTTATTAACTTGGTTAATATTATATATATTACACACTCTGAACTGACTGTGAA AAACTCGTGTTTCATATGTTTCCCCTTCCTGTTCATGGTGGTTGTTGACTCCTCACTAAGTCTTTGTGACTTACCCCATT CCTTATTTCCATCCACAGGAAACTGAGTAGCAGACTGTTGTCAGATTCAGGTCGTTCGGCTTATTTCGTTTATAGGCCTC ATTGGAAGGTTGTCATTTAATTGTGTCTGTTGTCGGTCTTTGTCATTCTGCAGCTATAGGGGAGTCTTTGAGGGGATTCA GTCTAACTTGTTATTTATTGTTTAAATTTAAGATTTAGCACATTAGTGCTGGATTTGAAATTTATGTATTCTTGGAATTC TAGTTATGATAAATCTCAATTGTTAGATTTTATTATTTTGGAGATATTGATATTACAGGAAAGGTTCTTTTGGATTTATA TAAATTACAGAAAACATGTATAGTTTTGGAAAATTGTTTCGGGAAATGGCTTGGGTTAATTAGGCTTGCCAGGCTAAGGT GATAGTCTGTGCGCCGGTCACGGCTTGGGATTTTGGGTCGTGACAAAGTTGGTATCAGAGCTTTGGCTGTAGGTCCTATT AGCTGCAGACATGAGGTAGTGATAGAATCTTTCTAGTAAATTGTGAACCGCGGCACAAGTTACTTTAAAGATGCGGCAAC AACTCCGCCGGAGGAGATACTAAATCAGTCGCCACACATTGCAATCTCGCCCCAAGACCTGCTAGCCAATCTGCTGGTGC ATTCCCTTCACGAGTAACATGATAAATCTTCACCTCCCAACTTCGCGAAAGCAAGAGATGAATATATATCCATCAACAAA CTACCATACTGATGAAAGTCATAGTGTCCTTTCCCCACAGCTCGAACCAACTCTTCGCAATCAACTCCAAAAATAACCTT CTTCCAATTGTGACGCCAGAGAAACTTCAAACCCAACAACATAGCTTGGATTTCCGCATAAAAAGGATCCCCACCATCAG CACCCGCATAAAAACCTCCAAGCCAGGTCCCTGTGGAATCACGAACGACACCCCCCATTCCCATATGAAGCTGAACATGA TTGAAAGCCCCATCCACCATACACAAAACAAACCAAACCCACTTGGAGGCGGCTTCCATCTAGCCCGAGTCCGCAACTCT GGGATCTGCAGCACCTCACAACCCAGCCATCGATCATTCTCCACCAAGTCTTTTCTTATTTCATCACACACGTAAGAAAC TGTCCAGCGGCCATCCACAATGACCATTTCGTTTCGCCACTGCCATTGTCTCCATTCTCCAAAGCACGGCAAGGAACAAC GCTGCATGAGATCCACGAAGCAGCATCTGTGTCCAACTCTGCACTGTCGTCGCAAAGAACCGGAGCCAAGTCTGAGCATT AACTATAACTTAAAACAATGTGATTAAATCAAAATCCTGTGATTTGATCTAAGGGTTATATATGTCCTTTTCTTATCCTG AAGTAAATTTGAATTTTAATGCACATTTGTCAATGGCTATTAAGACTTTTTTTTTAAAGCAATGGCTATTAAGACTTGAA CTCATATTATAGTTTTTTTTTTAAATTATTTGATTTTAAGACTTTAACTCAAGTTTAACAGATTTATTACAATTTTTTTT TTTTACATCAGGAAGATAAATTGCATCCGCAAAGAATCGATCTCTAGACCTCCCCTACCCAACCATTTATTTCATTTGAG AGATACATAGTTTTTTTTAACTCAAATATGATATTTCATTAGCCATAAAAAAATATGATATTCATTAAATAGTTTCTTAA ATATTTTTAGTCCAACTTTTAAAGAGAAATCTAATTAGTTTTCTATAAAAAAAATCTTTAGCAATTGGTTCCTTATAAAA ATTGTTTGCAATAGGTCCAATTTAAGTTTCTCAGATTATGTATCACCAATTTTGATCAATGTATATGTGTCATTTCACTT ATCATACTTGGATTTTATTTATCCTTGTGTTATTTGGTTAGATAATATTAGTAAATTAGTTTATTCACTAGAATTTGAAC CCTTGCTCCTTCATCATTCATTTCTTTTGTCCCGTAGCTCTAACCACTAGAGCTAACTCTTGAACCCGTGTTGATTTTGC ATAGAGATAATGACGATTAAGTGATCCACTCAAAGGATTGCAAGTTTTTATCTTGACAGAAAAATAGATATAAGTAATGC ATGTAAGGAAAACAATTTTTTTCATCTCGAATATGAGTGGAATAAGCCAAGCGGTCTGTCAGGGGCCTACAGCCTGGCAC GTCAGACCCTTGACCTGACTTGACTTGTTTATTAAAAAAGCTAGATCTAGACCTTTTAAAATGCTTTTTTTTTTGGTCAA AGATGAATGGAATATAACCCAAAGGATTGCCTCACGGCACTTACAGCATGCGAGAAATAATCTCTAAGAGTGATACAGCA ATGCACAAACCCAAGGAAAATGAAGAACAAGCACGCACACTCAACTGATACAACAGCTAAAACATGAAGTAAAATCCATA GGGACCTACAGAAACCCTAAAACCCCAAAATAACAGAGAGCCGCTTGACTTCTGAGCGAAGAAGATCTTCATACACTTTT TAACCAGCGCTCCCTTTATACAACACATCGGCTCTGCCGGAGTTGCAGTGCGTCAACAGGGGAACCAGCGGAGTGGCTTC GGAGGCACAAAAAGGGGTCAAACTAGCAGCTCTGAGAGCAATAGGGAAGAGGAGATCTGTAACTTCCAAACATACAGCAG CAAAAGCTGTCAAAGGTGCGATGGAGCGGCGGATGAGGCGAAAGAAGGGGAACCAAAAGGGGACTGGGAGGCGGTGGAGC CGGCAAAGACAGTGTGGAAACAAAGCCAACAACCAAAGCTTTCATCAATAAAGATCAGCACTCAGCAATGGACCCAAACC CACTATTTCTCCAAGTAAAAACCAGCCAAAGCTCTTACCTATCAACCCAAAGCTTTCACCTTACGACCCAGACTCTGTCA GAAAAAAAGGCAAGGAGGATGACCTCGGATCTGAGTTGCAACAGTGGCCTGAGATGCGGTGGTGCTTACTGAAACCATGG CGTTGAGGTGAAGGTCGTAGCTTCACAACACTGGATCTGCACCCAGCGGGACTCCCGGTGGCAGATGAGATGGAAGAGGC GGCCATGGTGGAGGAAGGGGCGGCAGTGGAGGAGGACCATGGTGGCCGAACAAAAGACCCACTTATTTGGGTAAATGATC CACCTAATGTGGAGAAACACCCACCTATTGTGGGAAGAAACCTACCTAAAGCAGGAAAAGGAGCCTCCCTAGAGGAGGAG AAACCCCCAAAGGGGGAGGAGCCCCCAAAGGGGGAAAACGGCACTCAAGTCACAAAAACCCTAGCAGAGCAAGTTTCTTC CTTTCAGTGCTTCTTAAACACAATTTCCTGTGACCTTTTAAAATGCTTGATTAAGTAAAAAGGTAAGGCTCAAGCTATAA AAAAAGACTTGTAGGTTAGGCCCATACCTTATAATAGGCTAAGTCAAGCCTTAAAATTCTTGAAATGCCACATGTCAGAC TTGGGCTATAAAAAGAGAATGCAGGTCAGGTTTGGGTCACGCAAAACCTAGCTTGACTTGACTTATTTCCACCCCTAATC TCGATGATCAAAGGAGGGCATAATTCAATTTCTGGGAGAACAATTTACACTTTTTACGAGTGATAATGTATTCATTCCAC TCATCATATATGGTCGCACAAAGCGGTAAACAATGGATCATGAAATATTTTTAATTCCTATATGCGGTTAAAAAAAAGTT TGTATTTGAGTAATGATTTTTTTATCTTTACTTAATTTTACACTCTTTATAATGTTTTTAAGTCAGTTATTACAACCCAA TTTAATTTTAATTATTTTGAAAAGCACCTTTATTGAATAACAATAGGGGATTTTAATAGGAAAAGAATGCATAAAAAATT TGAAATAATTAAGTAAATTTTAGAAAAAATAATTTAATGCCTTTTTTGTAAAAAAAATGAATAGTTTATAATATATAGAA GTACAATTTAATAAGGTAAATTATAAAAAAAAATCTATTTTTTTTGTCACAATTAAAAATCCAATTCAAAACCCGTTTGG TGGTCATGTAATGATATGATAGGATATCGTGAACAAGATAGCAACATGAGCATGATAAACTCTTATCATATTATGTATTT GAATAAAAAGTACATTTAAAAATTGATCATTCTATTAAATTTAATTTTTTATACTCTTTCATGAATGAGCCTATATTTTA AAATAACTAAAATTAATTTAAATTTTATTAATTAGCCTATTTTATTGTTTTGAAGATAACCTATATTTTTTAAATAAAAT TATGCAAATAACCAATTGGTTTTCACTTAGTTGTGACACGTGATAATTAAAAATAAAAGTTAACTAAATTAAGAATATTA TTATTTCAAAAGTACTTTATATTTAAATTATAAATTATTATATAAGTAGATAAATAATTTTAAATAATAGGAGATGAAAA TAGAAAATTAGCCTATTACAATTAAAAAATCAATATTTGTAACCAATTGATTTTCACACACGTGATAAATAGGGAAAATT AACTAAATTAAAAATATTATTATTTCAAAAGCAATTTATATTTAAATTATTATATAAGTAGATAAATAATTTTTAAATAA TAGGAGAGGAAATATTAAGTTAGTCTATTACTATTAATAAATCAATATTTTTAAGTGAGTAGTCTATTTTACTATTTATG AATAATAATTTTATTTATTTTTTATTTTATTTGAATAAATATTTTTATATTTATTAATTAATATTATAAATTATATAATA TTAAAATAAATTAATTTAGAGTTAGGATACAGAAAAAAAATATATAACTGATATTCTATCATGTTCTATCCTAACTCACT CCTCAAGATAACTTTTACACATAATGGACATGAAAGGATAGGAGACATGATAGTATTACTGCTGATGCAACAAACAATAG ATAACAGCAGGATATGATTACTTAGTATCCTATCATATTTTATCTTGTCCTTTCGATAAAGTTAAAACGTATATGAGAAA ATGGTGTGATTCTTTTGTTCTGAAATTCTGAAGCAACTTCAACTTGAATGTGGCCTCCTCTCATCGGAATATTTCTGCGA GCGACGACACTCACCAACAGAGCAATCCCATAAAGGTGCAACCTCAGAATGCATATCACGTTTCCATCTCAATTTATATC ATATGTTCTCTTCCAGTGAGCTGAAAGATTTTTATCATATGTTCTCTTCCACTTGCATGATTAATTTCAATTTCAATCTC AATTTATATCATATGTTCTCTGAGTTGCTGACTTGCTGCATTTGAGATTTTTACTGATAAAAAAATCTAAACTTGAAACA AGGGTAATGAGTTCTGTAGTGGTTAAATATTTTATTGAATTAACATTGCTCATAGTTTCTTTTTTGGTGCAACATTGCTG ATAGTTAAATAAAGGTTTGTTTTTTCTTTACTTTTTCAAAGGGGAGAGGGTGAATTCATGAAATTTTGCTTGCCCATGAT TAGGGTTTTTTTGTTTGTTTTTTATTGAACTTTTTATTTTTCTTTCAAATGCTGGTTCCAGTGTTGTTCTTGTCTGAAGT TGAATATGACTGGATTTTGGGTGCATGGTGCCTTTAGTTCCTCCTTTCATGATTAAGTTGTGGTTTGGAAGCTTGTTTAG TAGTAAAATGTAATTTGGGATTGCTTTCACAAAATGGTTGACTTTTGAGTAAAAAGAGAATTCTGATTCATGCTTACACA TACAAGTTCTATATATACTGCATCTCCTAGAGTACATACTACTTATGTGGTTTGTATATAAGCTGCAATCACAATAACTG ACTAAGTGTACATAACCACCTAATTAATTGACATATGTAGCTTAGAGGAGTTTGAGAAGTTGGAGGAGACTCGTCACTAT CGGTAAAGTTGTCATGGCATATTCCTTGTGCTAATCACTATATTTTTTCACTTGAGTTGTATTGTTTTGTTTATGCTGTA ATAATTGTGATATAACCTATGTTGTGTGGAGTATTATGATTAAGTCTATGCTAGTGTTTGCCATTTAGCTACAAGTTTCA GATCATGTACTTATTTAGTTGATTTTGTTGCTTACTGAATTACACAAACTGTTCCTTAGGTATTCAATAATCCTTGTTCC TTGAAGCAAACTGAGAAAGGCACATAAATGGAGTCTCTAGTTCTTCAACTCCATGAAATCTCAGCTCTCAAATTCGGCAA CTTTAAGCTTAAATCAGGCATCTCCTCACCAATCTACATAGACCTTCGCCTAATTGTATCTTACCCATCTGTCCTGCGGC AAATTTCTCAAACTATGATCTCCTCTGTCTCCTCCACTTCATTTGACCTTGTCTGTGGTGTTCCTTACACTGCTCTGCCC ATTGCTACTTGTGCCTCTGTCACTCACAACATCCCGATGGTCATGCGCCGCAAGGAAATCAAAGAGTATGGCACATCTAA AGCCATTGAAGGTGATTTCAAGCATGGCCAAAGTTGCTTGATAATTGAGGATCTAGTTACTAGCGGCACGTCGGTTTTGG AAACTGCTGCGCCGCTGCGTGCTACGGGGTTGAAGGTCAGTGATGCTGTTGTTTTGATTGATAGAGAGCAAGGTGGGAGA GAGAATTTGGAGAGTAATGGAATCAAGCTGCATGCTATTCTTAAGTTGACTGAAATGGTGAAGATTTTGAAGGAAAAAGG AAAGCTTGATCAAGAGATGGTAGGGGTTGTTATGAGATTCTTAGAGGAAAATCAGAAGGTTGCTGCTTTGGCAATTAAAG CTAAGGTCAAGGCATTGCCATATTTGAAGAGGGCTAATTTGTCCAAGAATCCAACAGGAAAGAGGTTGTTTGAGATAATG GCTGAGAAGGAAAGTAATCTGTGTTTGGCTGCAGATGTTGGAACTGCAGCTGAATTGCTTGAAATTGCTGACATGGTGAG AATTTGGAATTCATACAAAGTAGGAAGAAATTTACTTATGACATTTTGTTTGATCTCTCATTTATGGTGGAAATGTTAGA GACGGTTCTTAATATAAAAAATTGGTTGAAAATTTAAAGAGTCCTGTTCTCTGGATTATTATCAATGAGGTTATAATTAA AAGCTTGATCCCAATGAAGAAATTATCTAAACTAATGTGTTTGTTCTTCTGTGTCAGGTTGGGCCTGAGATATGCTTGCT GAAAACTCATGTGGATATTCTTCCAGATTTTACTCCTGATTTTGGTTCTAAGCTTCGCAAGGTAGAATGCTAAAAGAAGT CATTTTTTCCTTTCAGTATACAGATCACTGGACAAATTTTTGCATCATGATATAGTTAGCATATGTACACTGGAGTAGTT TTGCTAGTATTTATTGAAAATATTATGCCGATTTCATGACTTTGACTTGTACATGAGTTTTATGGGGTTACGAGTCACTG AGATTGTAGGACTAGACCTAATAATTGCTATATTCTGCTGAAGATTGCAGAAAAACACAACTTTTTAATCTTTGAGGACC GTAAATTTGCTGACATTGGTAACACAGTGACCATGCAGTATGAAGGGTTAGACTTTGCTTGTAAATTTTGGATTCTTTTT CTGTTTCCCTTCATCATTGTCTGCTTTTAATATGACATCATTTTGTTCTGTTATTTCAACAGAGGGATCTATCATATATT GGATTGGGCTGATATAGTGAATGCTCATATAATCTCTGGTCCTGGAATTGTGGATGGACTAAAATTGAAGGTTTATCCTC TATGATACTAGTCATAGCATTATATTGACTGGAGCCTGCCCGAAAATGCTAGTTTAACGCGTCTCTTGAACCATGCTCAG GGTTTGCCTCGCGGAAGGGGTCTGTTGCTGCTCGCTGAAATGAGTTCAGCTGGTAACCTTGCCAAGGGAGATTACACCAA TGCTGCAGTGAAAATTGCTGAGGATCACTCTGACTTTGTTATTGGCTTTATCTCAGTCAATCCAGCATCATGGCCCGGGG CACCCATAAATTCCTGTTTCATCCATGCCACTCCTGGAGTTCAAATGGTGACTGGTGGTGATGCTTTAGGGCAGCAATAT AATACTCCATATTCTGTAAGTTTAGGCTTAAATAAGTTTTTCGTCCCTAACCTTTCCATAATACCTGGTTTTCGTCCCTC GCCGGAGCAAAGGTGGGCTTAGTCCCTAACCTTTGCCAAAACATTTGGTTTTCATCCCTCCGGAGCTCTGGGTCAACGCC GGAACTCCGGTGGCCCATGTGGCATTGCCACATGGGATTAATGAGGCCAGGTGTTAATTATTATTATTTTTTAAATTAAT AACAAATTAACTCACTAATTAAAAACACTTAACTCACTAATTAAAAACCTCAAAGAAACTAAACACACTTTCTTCATTAG ATCTGGAAAAATCTCTTCATCTTCATATGCCCATTCATCCTTAATCCTCCCCCTTCATCCATTTTCTCTGATAACTCTAA ATTAAATAATAAAACCCCACCTTCAAACCCCAATTTCAATCTGTTCATCTTCAAACCCCATTTCATCACATGTTTTGGGT CAATTTTTTCAACCAAAGGGAAAAGCTTCAAGTATCCACCGTCTTCACCATCAACACAGTCCTCCTCCATCTTTTTCATT CTGATCCCAAATGCTTTGAAGGTCACACCTTTCCTCTTCAACCCTTCAAATCCCAACTCAAATGCATCCAAACCCATCAA ACCCTTCTAAGCCATCGTTTCCCCGGAGCTCGCCTCACCAAATCCATAAACAACCAAAGGCCAGATCGTCCCCACCGTGA CTCTAACAGATCAAGAACCAGGACGAAGAAATCGAGCAGATCGAGAGCCTGGTTCTCTATTTTCTCTTCTCTGTTCGATT TTCTGGGTTTTTGGTGAAGCTCGATGGTCATGGTTGTGGAACAAGGTGGCTTTAGTGAGAAAGGGGTGACTTTCTGACGG AGGAGGCGTTATGTTGGTGAAGTCGCGTACTGGAGGGCTGGTGGTTTTGATGTGCGTTTGTAAAAACGCATAAACACAGA TCTGTAGCAAAACTTGCGTTCCAGCGAAAGCGATAAATTTGAGCGGTGGGTGTTGGGCGTTGGCGTTTGCACACATCTGT TCGCATACCTCTGTGTAGCTTTTCGTATGATTTGGGGTGGCAAATTCATTATTGTTCTGTTGAGAATTGTAGGAGAGGGG CCTCTCTTCACGTGGATTTATTTTTCATCTTGATTCAGTCTGTTTCAATTCAGTTCGCTTGATTCAATTCAGTTCTAGCA CATTTTCCATGTATCATGCTTGATTCAATTATGTTTCAATTGGATTTGGTTGAAGGAAAGGGAAAAATTGGTTTTTGTTT CTTTTTGTTTTTGGATTTCTTGATGCTTCTTTATTTGTTTCCAGATTTTGTGTTGTTGATTAATTGGAGATTAATATGAA GGAGGATTAGATATTAATGATTTAATAAAATTAAGATAAATAAGTTAATATTTTTTTATTTTTAGACTTTAAACAATTTT TTTTTTAAAAATTAATTAGTTTTTTTTAATTTAAATGAAAAAACAAATTACACATCAGCTTATTAATCCCATGTGGTAAT GTCACATGGGCCACCGGAGCTCCGGCGTTGACCCTGAGCTCCGGAGGGATGAAAACCAAACGTTTTGGTAAAGGTTAGGG ACTAAAGCCCACCTTTGCTCCGGCGAGGGACGAAAACCAGGTATTATGTAAAGGTTAGGGACGAAAAATTTAAGCCGTAA GTTTATGCATATTGTGATTTAACTTCAAGTCACATGCAAACAATAACCATATGCATTGTCAATCACAAATTCTACCTGAA GTTGTAAGCTATTAGGTAAGGATCATAAATGATTTAATATCTAACACACTCTATCTTGCAATTGGCCTTTGGGAATGACA ATGATCGAATTCTTGATACTAGATCATCTACACTCTGATTACATGTCAATTACAATCTCTCCCAAAAGATTAAGACACTA AGTAAAGGCTTGTCAATAGTTTTATATCTATAATATACAAAGTACTGTACTCTTAATTTAGTTGATCTACTATTCTTTCT TAGGTTGAAAAGAAACTAACTCATATCTTCAGATTTCATATGAACCTTTAATTATAGTGAAACTAACTCGTATTCTTCGG ATTTTCTGGGACTAATGCCTAAATTTTACCATTACGATTGCCCGTGGCATGCTAACTTGTTTCTCTAGTCAACAACAACA AACCCGTTACCCAACTAAGTTTTGGATTCTTTTCTTTGGACTAACTTGTATCTCTGCATTTCAAACCATGTGTTCCTAAA CAATAGTATCATCATTTATTTTAAGTTGATTTTTCTGGCATCTTTATCTTTTGGATAACTTACATAGTTGAGTTAATTGC TCTTCACAATTTACCAAATGGTTTTTCAGGTAATCCATGAAAAGGGCAGTGACATAATCATAGTGGGTCGCGGCATCATC AAGGCAGAAAATCCGGCTGAGGCAGCCCGCAAATATCGTCTTCAAGGATGGAGTTCATATATAGCCAAGTGCAGCTAACA CCTGTATTCCTAGAATAAACAGATGACTAGGAAATGACTGTATTTTTTTTTTCTTGGCGAAGGGGATTTTATTTCCGGGC TCATAATTAACAATCAAATGTGAAAGCAGACCTGGAATTTTCTATTTCTTTTGTCCTTAGCGTGTAATGTATTGAATGAT GCATATCATGTTATTTTGTAAACTGAATTATCCCTGAAAATTTAGGGGCCGTCAATTTAGTCCCTCAACTCTAGAAATAG ACAAATGGGTCATCAGAAAATAAAAATGTTCAATTTAGTCATTTCATGAACTAAAGTTGATTATTTTTTAAAGAAAAATT AATTTCCTTTCATTTTTTAAGGACTAATGTGGC

Download Genomic Sequence

CDS sequence (LotjaGi3g1v0320200.1) 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

Download CDS Sequence

Protein sequence (LotjaGi3g1v0320200.1) extracted from Lotus japonicus Gifu v1.2 Proteins.

MESLVLQLHEISALKFGNFKLKSGISSPIYIDLRLIVSYPSVLRQISQTMISSVSSTSFDLVCGVPYTALPIATCASVTH NIPMVMRRKEIKEYGTSKAIEGDFKHGQSCLIIEDLVTSGTSVLETAAPLRATGLKVSDAVVLIDREQGGRENLESNGIK LHAILKLTEMVKILKEKGKLDQEMVGVVMRFLEENQKVAALAIKAKVKALPYLKRANLSKNPTGKRLFEIMAEKESNLCL AADVGTAAELLEIADMVGPEICLLKTHVDILPDFTPDFGSKLRKIAEKHNFLIFEDRKFADIGNTVTMQYEGGIYHILDW ADIVNAHIISGPGIVDGLKLKGLPRGRGLLLLAEMSSAGNLAKGDYTNAAVKIAEDHSDFVIGFISVNPASWPGAPINSC FIHATPGVQMVTGGDALGQQYNTPYSVIHEKGSDIIIVGRGIIKAENPAEAARKYRLQGWSSYIAKCS

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	PTHR19278 View details on PTHR19278 Search for proteins/transripts with this domain View external data on PTHR19278	1	468	468	0.0	–
Hamap	MF_01208 View details on MF_01208 Search for proteins/transripts with this domain View external data on MF_01208	1	224	224	21.328	IPR023031 Show description in modal box View details on IPR023031 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.40.50.2020 View details on G3DSA:3.40.50.2020 Search for proteins/transripts with this domain View external data on G3DSA:3.40.50.2020	1	206	206	1.8E-64	IPR029057 Show description in modal box View details on IPR029057 Search for proteins/transripts with this domain View on EBI InterPro Service
PANTHER	PTHR19278:SF42 View details on PTHR19278:SF42 Search for proteins/transripts with this domain View external data on PTHR19278:SF42	1	468	468	0.0	–
SUPERFAMILY	SSF53271 View details on SSF53271 Search for proteins/transripts with this domain View external data on SSF53271	3	191	189	1.42E-42	IPR029057 Show description in modal box View details on IPR029057 Search for proteins/transripts with this domain View on EBI InterPro Service
TIGRFAM	TIGR00336 View details on TIGR00336 Search for proteins/transripts with this domain View external data on TIGR00336	8	169	162	1.5E-42	IPR004467 Show description in modal box View details on IPR004467 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00156 View details on PF00156 Search for proteins/transripts with this domain View external data on PF00156	49	152	104	6.6E-9	IPR000836 Show description in modal box View details on IPR000836 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd06223 View details on cd06223 Search for proteins/transripts with this domain View external data on cd06223	59	166	108	1.0952E-17	IPR000836 Show description in modal box View details on IPR000836 Search for proteins/transripts with this domain View on EBI InterPro Service
Gene3D	G3DSA:3.20.20.70 View details on G3DSA:3.20.20.70 Search for proteins/transripts with this domain View external data on G3DSA:3.20.20.70	207	468	262	7.4E-94	IPR013785 Show description in modal box View details on IPR013785 Search for proteins/transripts with this domain View on EBI InterPro Service
SUPERFAMILY	SSF51366 View details on SSF51366 Search for proteins/transripts with this domain View external data on SSF51366	210	463	254	4.71E-56	IPR011060 Show description in modal box View details on IPR011060 Search for proteins/transripts with this domain View on EBI InterPro Service
Pfam	PF00215 View details on PF00215 Search for proteins/transripts with this domain View external data on PF00215	236	455	220	6.0E-74	IPR001754 Show description in modal box View details on IPR001754 Search for proteins/transripts with this domain View on EBI InterPro Service
SMART	SM00934 View details on SM00934 Search for proteins/transripts with this domain View external data on SM00934	237	455	219	9.9E-35	IPR001754 Show description in modal box View details on IPR001754 Search for proteins/transripts with this domain View on EBI InterPro Service
CDD	cd04725 View details on cd04725 Search for proteins/transripts with this domain View external data on cd04725	238	455	218	2.01894E-50	–
TIGRFAM	TIGR01740 View details on TIGR01740 Search for proteins/transripts with this domain View external data on TIGR01740	238	456	219	3.0E-55	IPR014732 Show description in modal box View details on IPR014732 Search for proteins/transripts with this domain View on EBI InterPro Service
ProSitePatterns	PS00156 View details on PS00156 Search for proteins/transripts with this domain View external data on PS00156	293	306	14	-	IPR018089 Show description in modal box View details on IPR018089 Search for proteins/transripts with this domain View on EBI InterPro Service

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:0003824 View details of GO:0003824 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0003674
GO:0004588 View details of GO:0004588 AmiGO InterPro QuickGO	Molecular function	Orotate phosphoribosyltransferase activity	Catalysis of the reaction: orotidine 5'-phosphate + diphosphate = orotate + 5-phospho-alpha-D-ribose 1-diphosphate.	Subterm of View details of GO:0016763
GO:0004590 View details of GO:0004590 AmiGO InterPro QuickGO	Molecular function	Orotidine-5'-phosphate decarboxylase activity	Catalysis of the reaction: H(+) + orotidine 5'-phosphate = CO(2) + UMP.	Subterm of View details of GO:0016831
GO:0006207 View details of GO:0006207 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0019856
GO:0006221 View details of GO:0006221 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0006220 View details of GO:0009165 View details of GO:0072528
GO:0009116 View details of GO:0009116 AmiGO InterPro QuickGO	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).	Subterm of View details of GO:0055086 View details of GO:1901564 View details of GO:1901657
GO:0044205 View details of GO:0044205 AmiGO InterPro QuickGO	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.	Subterm of View details of GO:0006222

Genome browser

Expression data

Expression pattern

Expression pattern of LotjaGi3g1v0320200.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.

Loading expression data from ljgea-geneid. Please wait…

LotjaGi3g1v0320200.1