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Field | Value |
---|---|
Gene ID | LotjaGi1g1v0060000 |
Transcript ID | LotjaGi1g1v0060000.2 |
Related isoforms 3 | |
Lotus japonicus genome version | Gifu v1.2 |
Description | Aldehyde oxidase; TAIR: AT2G27150.1 abscisic aldehyde oxidase 3; Swiss-Prot: sp|Q7G9P4|ALDO3_ARATH Abscisic-aldehyde oxidase; TrEMBL-Plants: tr|K7KB27|K7KB27_SOYBN Uncharacterized protein; Found in the gene: LotjaGi1g1v0060000 |
Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr1:8360608..8369978) extracted from Lotus japonicus Gifu genome v1.2.
GCTACGTCAAGTGATGGTTGCGGCTTCAAACTTATTCGGAAAGACACAACTACTCCTTTACTGACCGAGGCACTAGCCTT CCGGAGGTCTTTATCTATGAATTCAAGGAATTGCACTTTGAAACAGACCGCTTGCAACTCTACGAAGCATGACACATGTC CATGTAAGGATTGCCTTACTTTGCTATTCTCCATGATTATAGATACTTAGTTAGATCTTTTGCTTTTTTTCATTTTTCCT TTATTAAAACACTTACACAATTCTTTAGCCCGCTAATCGCTCGGCCAAAACTCTTCTCATTTTCCCAACTCGGTTCAGGT TGAAGAGGTTTCGCAAAATCTTATTCTCTTGTTTGGACTGATGTAATTGCCTCTATAACCACTGGATTGAAAACCATCAC TGATTGAGGCGGCGGAAGGACAAAAGCAAATATCTCAGGCTTATTCTTTACGCACAAATTGGCATATATGACTTCCACTA TGCAAACAAAGAACCGCCAGAAAGCGATTTTTCCTATCGAATAAACTGATCCAAACACAGAATAAGCTAACCTTAACACA CAATATAAACTACCCATTTTGAATAGAGTGACGTTAACAGAGTTCGAAGTTGTTGGAGTTGTCTGAAAAAACAGAACACT TGTTTGCAGCTGAACTATGGAGGATGTGAAGGGGAACAGTGGGAGTGAAACACCGACAACAACTTTGGTTTTTGCTGTGA ATGGTGAGAAGTTTGAGCTCTCCAACGTTGACCCATCAACCACTTTGCTTGAGTTCTTGCGGATTCAAACTCGATTCAAG AGTGTCAAGCTTGGTTGTGGTGAAGGTTTGTTCATTCACTTGGTTGTTCAATTTGTTAGTTATTGGCTGAATCATCTTTT CTTTCTGTTTGGATTTCTTTTGTTATTGAAGTTTCAATCATTTTAATATATTGATGATAAGAAATCATATTTTCTTTCTG TTTCAATGAGAATATTCTTAAACTTCTATGATTCTTAATGTTAACTAGGTGAAATCGTGAATGAGTTTTCATGGTCTTGG AATTATTTTGCAGTCCCTGATCATAGTTGGCCTATAAGTGTTTAGTACACTTTTCTGTGTTACTGGTTACTTTGTTGTCT ACTACACTGTTTCTTATGGTCCTAAGAAGCAGATGTGATAGAGTAGATGAGTAACATACAGAAACTTGGATTACTCTGAT CATATTATAGAGCTATTAATTTTTCATTTTCATGTTTTAAGAACAAAAAGAAGCAATATTTTAACTACAAGATTTGAGGG GTGGGGATATTTCCTCTTATTTTTTCATGGTTTTGCTAGGAAAATGAGGGTGGAGAAGGTTTTGCTTTTAATCATCCTCA ATTTTTTTTTTTCAACTTGGTATTTCAGGCTTTGACATGGTTGGTTTCAGGTGGTTGTGGTGCTTGCGTAGTTTTGATCT CCAAATATGATCCTGTGCTTGACAAAGTTGAGGATTTTACAGCAAATTCTTGTCTCACACTACTTTGCAGCGTACATGGG TGTTCAATAACAACTAGTGAAGGCATTGGAAATAGTAAAAAAGGACTCCACCCAATCCATGAAAGATTTGCTGGATTCCA TGCTACTCAATGTGGCTTTTGTACTCCTGGAATGTGTGTTTCACTCTTTGGGACTCTTGTCAATGCTGAGAAGACAGATC GTCCGGAGCCGCCATCTGGGTTCTCAAAACTCACTGTTAGTGAGGCCGAAAAGGCTATTGCAGGGAACCTTTGTCGCTGT ACTGGGTATCGACCCATTGCTGATGCCTGCAAAAGTTTTGCAGCTGATGTTGACATGGAGGACTTGGGATGCAACTCTTT CTGGAGAAAGGGAGAGAGCAAGGACTTAAATCTTTGTAGGTTGCCTCAATATGACAGCCATCACAAGAAAATTGGATTTC CTATGTTTTTGAAGGAAATCAAGCACGATGTGTTCATGGCTTCTAAGAAACACAGTTGGCACAGACCTGCTAGTGTAGAG GAGCTTCAGAGATTATTGGGATTAAACCAAGCCAATGGAACCCGGACAAAACTTGTTGTTGGTAATACTGGTATGGGATA TTACAAAGATACAGGAGGCTATGATAAGTATATTGATCTAAGAGGGGTTTCTGAGCTCTCAAAAATCAGAAAGGATCAAA ATGGGATTGAAATTGGAGCAGCAGTCACAATAACTAATGCTATTGAAGCACTGAAGGAAGAGAGCACAAGTGGCTTTCTC TCAGATTTTGTAATGATACTTGAAAAGATTGCTGACCATATGGGCAAAGTTGCATCAGGGTTTATTAGAAACACAGCCAC TGTTGGTGGCAATATAGTTATGGCACAAAAGAACAATTTCCCCTCGGATATTGCTACAATACTTCTTGCTGTGGATTCAA TGGTTCACATAATGACCGGTACACATTTTGAGTGGCTGGCCTTTGAGGAATTTCTGGAAAGACCACCATTAAGCTTTGGA AATGTACTTTTAAGCATTAAAATTCCAAGTTTGGAAATAAATAAAGGTGAATCTTCAGAGCACAGAAATAGATTCCTCTT TGAAACTTACCGAGCTTCTCCTCGACCCCTTGGAAATGCCCTTCCCTACTTAAATGCTGCTTTCCTTGTTGAGGTGTTTC TATGCAAGGATTCTGGTGGAACTTTGATAGGCAATTGTAGGCTGTCTTTTGGTGCTTACAGAAAGCATGCAATGAGAGCA AAAATTGTTGAGGAATTTTTAGCAGGAAAGCTGTTAAGTATTAGCATTCTCTATGAAGCTGTCAACTTGCTTGCAGCCAC TATATCACCTAATGATGAAAACTCAAAAACGGCTTACCATTCAAGTTTGGCAGCTGGTTTTATTTTCCAGTTCTTTAACC CTCTGATTGAAAGACCTTCCAGAATAACCAATGGATATTCTAATCTGCCTTTTGCGAAGGATTTTGAATTAAAAGAGAAT CATAAGCAGGTTCACCATGACAAAATTCCAACTTTGCTGTCATCTGGGCAGCAAGTCCTCGAAGCCGGAAATGATAATCA TCCTGTTGGTGAGCCAGTTGTGAAATCAGGAGCTGCACTACAAGCTTCAGGTTTGTGTTGTATACTTGTATCATCAAGTT CTGAATTAATTTACTGTCTGCTTTCGTTTTTCTCCCCTTTCTATCGACATTTCAAAGCAGTAAGCTTAAATAATTACATG ACAGAAGCTGGTATTTTATTCATATTAAATTCCGTTTACTCGGGATGACCTTTCCAAAATAGTAAGGTCGTAAGCTTGTG ACCCGGTGGTCAAATGTTCCAGTCACAGAAACAGCTTTTCTATATCTGTGGCCTCTACGTCCATGTCAGTTCAAAATGAA TGTTTCTCTCTCTCCTTAGAAGCTTGTAGGAAGAAAACATGAGAAGGAATTTCCTTCTCTAAAAGCTTCCCCCTGTGCTC TTCATGTTCTCCTGCTTTGTAGAAGTCTTTTATTAATTCAGTGGCATCTTATAACTGATTACTACACAGCTGAAGTAAAT ACCACTATGTTTAAGAAAACTGGTTCCCCATTCTCTTGGTTTAAATCAACTGTGTATCTAGTACATCTGGTTATCATCTA ACTATTGTCAAGACAACTATGCTACAAAGTCCACTTTCCAGGCATGTAACTAGTTTTTGTGAGTAATACATAATAACACT ATTTTATCCTTTTTGTGCCTGTCAGTTATGATTATTCATGATAATTGTTTTAATTTCTGTGTAGTTACAACTAACAAAGA CAAAATTATAATTAAATCTTGTATAGGTGAGGCTGTTTATGTGGATGACATTCCTTCACCACCAAATTGCCTACATGGAG CATTTATTTATAGTTCGAAACCTTTAGCAAGGGTAAGGAGTATAAAAAGCCCTGAATTGCAGTGGGATGGAGTGAAGTAT GTAGTTTCAAGTAAAGACATTCCCAATGGTGGGGAAAACATTGGATCTAAGACTATATTTGGTATAGAACCTTTATTTGC AGAAGAGATAGCCAGATGTGTTGGTGATCGTCTGGCCTTTGTGGTGAGTTCTTAAATCCCTCGTTCTGCTGATCTAACAA TGTATTAGATTCTTTCTCATTTGACATATTTCCATTTTGGTAACGGAAGAGCTTCTTTAGGTTGCAGATACTCAGAAACA TGCAGATATGGCTGCAAACACTGCTGTTGTTGCTTATGACGTTGAAAATCTTGAACCACCTATTCTATCTGTTGAAGATG CTGTTGAAAGATCTAGTTTTTTTGAAGTTCCTCCTTTTCTCAACCCAAAATGTATTGGTGATGTATCGAAAGGAATGGCT GAAGCAGATCACAAGATTCTCTCTGCTAAGGTACATGGAATATATATATATATATATATATATATATTATTCTCCTTTGT TTCCCTTCTTCCTGTCATTTCACACCCTTGAGGTCATCTACCTTGGTTCTGATGTGATGTGATGTTTAAGTTTTCTGCTG AATTAATGCTGAAATAGTTATATTGATCTAACATATTCATTGTCATCGTTTGAATTCCATGGAAAATCCAGATGAATCTT GGGTCTCAATACTATTTCTACATGGAGACACAAACTGCACTTGCTGTACCAGATGAAGACAATTGCATTACAGTTTACAG TTCAAGCCAATGCCCGGAGTTTACACATTCTACTATAGCAAGATGCCTAGGCATTCCTGAAAATAGTGTTCGTGTCATTA CAAGAAGGGTTGGGGGAGGTTTTGGAGGAAAGGCCATAAAAGCCATAGCTGTAAGTATTAAGTTGTATATTAATTTTGAA AAACTTTACAATTTATTTTTCAAACTCTTTCTCTTCTTTATTGTAACTAATGACAAAAACTGTAGTGTGTAGACATGAAC CTTTGAATTTTATGTAGTTTCGGCGAAATCACTAATAATCCTTAAAAAAAAGGTCTGACTGTCAGTTTATTTAATTATTT GTAGTGTTAAGAATTCTAAAAAAATTGGTTTTTGTTCTAACTTTAGTATGAAACCCCACAACATCTTTCTGCTGCCCACC AAATATGGCAAACAACTTAGCCAAAACCTGCCTAGTAGCCCATCTATGCTTAAAGAGATAATTGGCATTCTATGAATTAT TTCAACACATTATATAAAGAAGTAGATTCAAGATTTATGTGGCTTAGGCAGTTCATTTTTACTAATCCTATCAACTATTA TTGTCCAAAGAAAAACCGTATCCCTGGATGGAGCTTTTGACCTTTCAATATCAGGCTGCACGGGCAGGATTATGAGTCCA AGGTTTCCCACATTAAAAGTTGATTACACACGAACATCCTAGAGAATCTATAATCCACATGTGCAGATCAGGGAAAACAG AAAAGGTAAAAAATAAAGTATAACTAGGCTGGAAATCAAACCAGAAGCTGAATGCTCATTAAGATTCCTCAATAAGAGAA TTTTCCCATATAATGGAGAACCTTGAGCAGAAAAAGAAAACTAAGGAACTGAGAGAAAGTAGAACAACCAAACTAAGAGC TTTATACTAGGTATAGCAACTATACATGTATTGGAAGAAAACCAAGAGGCAGAAATATGTTTAAATTGACCATAGCTTTG AAGTGGTATAGAAATGACTCTTGTGCAAATAATAAAGGAAAAGTCATCATCGGAAAGGCCTGAAAGAATCTCTACGACCA TTTCGGGAGCCTGAGTATATATAAATCCCGGGTTTGTAATTTGCTACATGAGAACTAACGCCTTGAGTAATTGAAATCTG TGGTAGCACATGTACTTGCAACATAATTTAAATATACTTTATCGGATGTTCCAACTGCAGGATATTATCACATTATTACC ATAGACAAATATTATTTGCGCTCTTATTTTTGTGGGCTAATTTCTGAATATATAAAGTTTCCTTCCTGTTTCAAAATATT ATGTGCTTTAGCCTCTCCTTTTTTCTACCCAATCCTGTGAGATGGGCAGAAAAAATTTGAGTACTAAACACACATCTCGC ATACTGACAACCAGATCTTGCAGGTTGCTGCATCATGCGCACTTGCAGCGCACAAATTGTGCCGCCCCGTCAGGAGTTAT CTGAATCGAAAGACAGATATGATAATGGCTGGAGGAAGGCATCCCATGAAGATAACATATAGTGTTGGATTTAAGAATGA TGGGAAGATTACTGCTTTAGAACTTCAGATATTGATCAATGCAGGGATATATGTGGATATAAGTGCAGTGATGCCGCATA ACATAGTTGGAGCTCTTAAGAAGTATGACTGGGGTGCACTATCTTTTGATATGAAGGTATGCAGAACAAATCATCCCAGT AGATCTGCAATGAGGGGCCCTGGGGAACTGCAAGGATCATTTATTGCTGAAGCTGTAATAGAAAATGTTGCGGCTACACT TTCGGTGGATGTAGATTCCGTTAGAACCATTAATCTTCACACATACAAAAGTCTTCAGTCATCCTATGAGCATTGTTGTG GTCAGTCTTTTGAGTATACTTTACCTTCAATATGGAGTCAGTTAGATGTTGCTGCAAACTATAACCAGAGAACCAAAATA GTGACAGAGTTTAACAGAATTAGCACTTGGAAGAAAAGGGGAATTTCTCGAGTACCAGTTATATTTCAACTGAGTTTAAG ACCAACTCCTGGAAAAGTAAGTATTTTCAAAGATGGGTCTATTGTTGTTGAAGTTGGAGGAATTGAATTAGGTCAAGGTC TCTGGACAAAGGTGAAACAGATGGCTGCATTTGCTCTCAGTGCTATTCAATGTGATGGAACTGGAGCGCTCTTGGACAAA GTGCGTGTTGTACAATCTGATACCGTGAGCTTGATTCAAGGAGGGTTCACTGCTGGGAGCACTACATCAGAGTCAAGCTG CGAAGCAGTGAGGCTTAGCTGCAATATCTTGGTTGAGAGATTAAGGCCTCTTAAGGAAAAGCTGCAGGAGGAAATGGGCC CCATCAAGTGGGAGATGCTTATTCTTCAGGTAGCTATTAAGAGTTCAATTTTAAACACTAGTAGATATTCCTCTTGAGGA GATAATTCTTAGAAGATCAAACCATTTTGTCTTAATCATGCAAGTAACATGAAGGAAGTGGTATTTTAACTATCTTTATT TATGATCCATATGGGTAAACTGTTTTCACTTCTGATCATGAAAAGGTTTAGAAACTTGTGTTTTTTATTGCAAATTGATG CATGTATCTTAGTATTTATAATTGCGCATGAGATATACTGCCTTAAGATTTTCCTGTCCACTTGCCAAATATTTAACTAC CGTGTCGCTAACAATTTATCAACATACAGGCATACATGCAATCTGTGAACTTGTCAGCATCTTCATTTTATGTAGCCAGT AATGAATCCGCGAATTACCTTAATTACGGTGCTGCTGTAAGTGAGGTAAGGTTTTTTTCCTGTGCATATTTCAAGTCAAA ATGGTATAAGTTCATTGAAAGTTATTTCTCTTGATAACTCTGCCAAGTTATCATGTACTTTTGTTATTCTAAATAGAGGG AAATATTTTTCAGGTGGAAATAGATCTTCTGACTGGAGAAACCAGATTTCTTCAAACAGATATTATCTATGATTGTGGAC AGAGTCTCAATCCTGCCGTGGATTTAGGACAGGTAAGCTGACTTTTCATTTGCTGCACAAGCTCAATGCTAATCAAGGAC TAACTCAAAAGATGAGTTCTTAAAACAATATGATTGCACCCTGCAGATTGAAGGAGCTTTTGTTCAGGGATTAGGATTTT TCATGCTTGAAGAATATGAAACAAATCTTGATGGTTTGGTCTTGGCAGACGGGACATGGAATTACAAAATACCCACAATA GATACTATTCCTCTACAGTTTAATGTTCAAATCCTCAATAGTGGGCATCACCAGCATCGTGTTCTCTCTTCAAAGGGTAT GATTAAGGAGTTCTCAATTGTCTACATGTTGAATTATATCTGCATACTGGTTTTTTTTTGTAGTTTATTCTCTAAAAATG CGTAGCACTTATACTTGAAACAGGGGACCCTAGTTGTTAGTCTTGATTAGTTAGTTGCTAGTGGTACACATTTTTGTACC GCTAGCATTAATCAATTCAATTGTCTAAATAATAGTTTGGAAAAATATATTGGCATGTCGCAGTGTTTCTGACTGTTATT TTAGACGGTTAATAAGATTGAGAAAGGTTCTCCAAATGAAAAAAAATAATAATTTGTTGCTGCAGCTTCTGGTGAGCCAC CTCTACTTTTAGCAGCTTCTGTTCACTGTGCCACAAGAGCAGCTATCAAAGAAGCAAGGAAACAGCTTCTGTCATGGAGC AACTTAGATGGACCAGATTCAACATTTCAGTTGGAGGTCCCTGCAACCATGCCGGTGGTAAAAGAACTCATTGGACTGGA CATTGTAGAAAGATACTTGAAATGGAAAATGGGCATGGCGTAAAGGTCCATATTATCCTAGAAATTTGAGAAGTGTTTTT TATTTATTTATTCATATTTTAATCCTGACATTGTAGAAAGATACTTGAAATGGAAAATGGGCATGGCGTAAAGGTCCATA TTATCCTAGAAATTTGAGAAGTGTTTTTTATTTATTTATTCATATTTTAATCCTGCTTGTAGAAATAAGTGGTTTTTTTA TTTCACATAATGATCATGCTTGTGGATTGAAATTATTTAAGGTAGTTTTTGAAACAAGGAAAAGGACTAGCTGGACAGTA GCTATGCATATAATTATTGACAAAACCTATGAAAATTTCAGGTTTTTTGTACTTATTTAATTCAACAATTCAGTTCAGTT GATTGTAGTTTTCAGGCCACTTTTCCAAACACATTCTTCTTAAAATACTCTTCTGACTGCTTAAATATCCACTATAATAC TCACTTCGATATGTTCTATGTCACTAAGGAAAAAACCATGATAGCAACAGTCAGAATTTTATAGAACCAAATTTAAATTC CAAAATTAAAACATGTTTTCCTCCAATACAAGGTCCAAAAGCCATAGCCTCTTAACTCTAAGATGCACATAACTCCTTTC TCTGTATGTATCTGATGGCTTCAATTAAATCCTCTCTATCAAAGGGCTTAACTAAATGAAAGTCCATTCCAGTCTCTGTC GTTATTTTGTCAGCAGATAATGCAATAATCGGAATGTGAACACTATAGGTCTTCTCCATCTCTCGTATCTGTCTTGTTGC CTCAAACCCATCCATCACTGGCATCTGTTGAATTCATTATATAGAAAATTAAATCACATATTATATTGATCGAAAATTCA ATTATTTCTTTTAAAATCTGTATTATCAATATATTCTATGGTGACTTGTAGTCAGGTTATGAATTATTATTGACAGAGTT ATATTTCATAG
CDS sequence (LotjaGi1g1v0060000.2) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGTGAGAAGTTTGAGCTCTCCAACGTTGACCCATCAACCACTTTGCTTGAGTTCTTGCGGATTCAAACTCGATTCAAG AGTGTCAAGCTTGGTTGTGGTGAAGGCTTTGACATGGTTGGTTTCAGGTGGTTGTGGTGCTTGCGTAGTTTTGATCTCCA AATATGATCCTGTGCTTGACAAAGTTGAGGATTTTACAGCAAATTCTTGTCTCACACTACTTTGCAGCGTACATGGGTGT TCAATAACAACTAGTGAAGGCATTGGAAATAGTAAAAAAGGACTCCACCCAATCCATGAAAGATTTGCTGGATTCCATGC TACTCAATGTGGCTTTTGTACTCCTGGAATGTGTGTTTCACTCTTTGGGACTCTTGTCAATGCTGAGAAGACAGATCGTC CGGAGCCGCCATCTGGGTTCTCAAAACTCACTGTTAGTGAGGCCGAAAAGGCTATTGCAGGGAACCTTTGTCGCTGTACT GGGTATCGACCCATTGCTGATGCCTGCAAAAGTTTTGCAGCTGATGTTGACATGGAGGACTTGGGATGCAACTCTTTCTG GAGAAAGGGAGAGAGCAAGGACTTAAATCTTTGTAGGTTGCCTCAATATGACAGCCATCACAAGAAAATTGGATTTCCTA TGTTTTTGAAGGAAATCAAGCACGATGTGTTCATGGCTTCTAAGAAACACAGTTGGCACAGACCTGCTAGTGTAGAGGAG CTTCAGAGATTATTGGGATTAAACCAAGCCAATGGAACCCGGACAAAACTTGTTGTTGGTAATACTGGTATGGGATATTA CAAAGATACAGGAGGCTATGATAAGTATATTGATCTAAGAGGGGTTTCTGAGCTCTCAAAAATCAGAAAGGATCAAAATG GGATTGAAATTGGAGCAGCAGTCACAATAACTAATGCTATTGAAGCACTGAAGGAAGAGAGCACAAGTGGCTTTCTCTCA GATTTTGTAATGATACTTGAAAAGATTGCTGACCATATGGGCAAAGTTGCATCAGGGTTTATTAGAAACACAGCCACTGT TGGTGGCAATATAGTTATGGCACAAAAGAACAATTTCCCCTCGGATATTGCTACAATACTTCTTGCTGTGGATTCAATGG TTCACATAATGACCGGTACACATTTTGAGTGGCTGGCCTTTGAGGAATTTCTGGAAAGACCACCATTAAGCTTTGGAAAT GTACTTTTAAGCATTAAAATTCCAAGTTTGGAAATAAATAAAGGTGAATCTTCAGAGCACAGAAATAGATTCCTCTTTGA AACTTACCGAGCTTCTCCTCGACCCCTTGGAAATGCCCTTCCCTACTTAAATGCTGCTTTCCTTGTTGAGGTGTTTCTAT GCAAGGATTCTGGTGGAACTTTGATAGGCAATTGTAGGCTGTCTTTTGGTGCTTACAGAAAGCATGCAATGAGAGCAAAA ATTGTTGAGGAATTTTTAGCAGGAAAGCTGTTAAGTATTAGCATTCTCTATGAAGCTGTCAACTTGCTTGCAGCCACTAT ATCACCTAATGATGAAAACTCAAAAACGGCTTACCATTCAAGTTTGGCAGCTGGTTTTATTTTCCAGTTCTTTAACCCTC TGATTGAAAGACCTTCCAGAATAACCAATGGATATTCTAATCTGCCTTTTGCGAAGGATTTTGAATTAAAAGAGAATCAT AAGCAGGTTCACCATGACAAAATTCCAACTTTGCTGTCATCTGGGCAGCAAGTCCTCGAAGCCGGAAATGATAATCATCC TGTTGGTGAGCCAGTTGTGAAATCAGGAGCTGCACTACAAGCTTCAGGTGAGGCTGTTTATGTGGATGACATTCCTTCAC CACCAAATTGCCTACATGGAGCATTTATTTATAGTTCGAAACCTTTAGCAAGGGTAAGGAGTATAAAAAGCCCTGAATTG CAGTGGGATGGAGTGAAGTATGTAGTTTCAAGTAAAGACATTCCCAATGGTGGGGAAAACATTGGATCTAAGACTATATT TGGTATAGAACCTTTATTTGCAGAAGAGATAGCCAGATGTGTTGGTGATCGTCTGGCCTTTGTGGTTGCAGATACTCAGA AACATGCAGATATGGCTGCAAACACTGCTGTTGTTGCTTATGACGTTGAAAATCTTGAACCACCTATTCTATCTGTTGAA GATGCTGTTGAAAGATCTAGTTTTTTTGAAGTTCCTCCTTTTCTCAACCCAAAATGTATTGGTGATGTATCGAAAGGAAT GGCTGAAGCAGATCACAAGATTCTCTCTGCTAAGATGAATCTTGGGTCTCAATACTATTTCTACATGGAGACACAAACTG CACTTGCTGTACCAGATGAAGACAATTGCATTACAGTTTACAGTTCAAGCCAATGCCCGGAGTTTACACATTCTACTATA GCAAGATGCCTAGGCATTCCTGAAAATAGTGTTCGTGTCATTACAAGAAGGGTTGGGGGAGGTTTTGGAGGAAAGGCCAT AAAAGCCATAGCTGTTGCTGCATCATGCGCACTTGCAGCGCACAAATTGTGCCGCCCCGTCAGGAGTTATCTGAATCGAA AGACAGATATGATAATGGCTGGAGGAAGGCATCCCATGAAGATAACATATAGTGTTGGATTTAAGAATGATGGGAAGATT ACTGCTTTAGAACTTCAGATATTGATCAATGCAGGGATATATGTGGATATAAGTGCAGTGATGCCGCATAACATAGTTGG AGCTCTTAAGAAGTATGACTGGGGTGCACTATCTTTTGATATGAAGGTATGCAGAACAAATCATCCCAGTAGATCTGCAA TGAGGGGCCCTGGGGAACTGCAAGGATCATTTATTGCTGAAGCTGTAATAGAAAATGTTGCGGCTACACTTTCGGTGGAT GTAGATTCCGTTAGAACCATTAATCTTCACACATACAAAAGTCTTCAGTCATCCTATGAGCATTGTTGTGGTCAGTCTTT TGAGTATACTTTACCTTCAATATGGAGTCAGTTAGATGTTGCTGCAAACTATAACCAGAGAACCAAAATAGTGACAGAGT TTAACAGAATTAGCACTTGGAAGAAAAGGGGAATTTCTCGAGTACCAGTTATATTTCAACTGAGTTTAAGACCAACTCCT GGAAAAGTAAGTATTTTCAAAGATGGGTCTATTGTTGTTGAAGTTGGAGGAATTGAATTAGGTCAAGGTCTCTGGACAAA GGTGAAACAGATGGCTGCATTTGCTCTCAGTGCTATTCAATGTGATGGAACTGGAGCGCTCTTGGACAAAGTGCGTGTTG TACAATCTGATACCGTGAGCTTGATTCAAGGAGGGTTCACTGCTGGGAGCACTACATCAGAGTCAAGCTGCGAAGCAGTG AGGCTTAGCTGCAATATCTTGGTTGAGAGATTAAGGCCTCTTAAGGAAAAGCTGCAGGAGGAAATGGGCCCCATCAAGTG GGAGATGCTTATTCTTCAGGCATACATGCAATCTGTGAACTTGTCAGCATCTTCATTTTATGTAGCCAGTAATGAATCCG CGAATTACCTTAATTACGGTGCTGCTGTAAGTGAGGTGGAAATAGATCTTCTGACTGGAGAAACCAGATTTCTTCAAACA GATATTATCTATGATTGTGGACAGAGTCTCAATCCTGCCGTGGATTTAGGACAGATTGAAGGAGCTTTTGTTCAGGGATT AGGATTTTTCATGCTTGAAGAATATGAAACAAATCTTGATGGTTTGGTCTTGGCAGACGGGACATGGAATTACAAAATAC CCACAATAGATACTATTCCTCTACAGTTTAATGTTCAAATCCTCAATAGTGGGCATCACCAGCATCGTGTTCTCTCTTCA AAGGCTTCTGGTGAGCCACCTCTACTTTTAGCAGCTTCTGTTCACTGTGCCACAAGAGCAGCTATCAAAGAAGCAAGGAA ACAGCTTCTGTCATGGAGCAACTTAGATGGACCAGATTCAACATTTCAGTTGGAGGTCCCTGCAACCATGCCGGTGGTAA AAGAACTCATTGGACTGGACATTGTAGAAAGATACTTGAAATGGAAAATGGGCATGGCGTAA
Protein sequence (LotjaGi1g1v0060000.2) extracted from Lotus japonicus Gifu v1.2 Proteins.
MVRSLSSPTLTHQPLCLSSCGFKLDSRVSSLVVVKALTWLVSGGCGACVVLISKYDPVLDKVEDFTANSCLTLLCSVHGC SITTSEGIGNSKKGLHPIHERFAGFHATQCGFCTPGMCVSLFGTLVNAEKTDRPEPPSGFSKLTVSEAEKAIAGNLCRCT GYRPIADACKSFAADVDMEDLGCNSFWRKGESKDLNLCRLPQYDSHHKKIGFPMFLKEIKHDVFMASKKHSWHRPASVEE LQRLLGLNQANGTRTKLVVGNTGMGYYKDTGGYDKYIDLRGVSELSKIRKDQNGIEIGAAVTITNAIEALKEESTSGFLS DFVMILEKIADHMGKVASGFIRNTATVGGNIVMAQKNNFPSDIATILLAVDSMVHIMTGTHFEWLAFEEFLERPPLSFGN VLLSIKIPSLEINKGESSEHRNRFLFETYRASPRPLGNALPYLNAAFLVEVFLCKDSGGTLIGNCRLSFGAYRKHAMRAK IVEEFLAGKLLSISILYEAVNLLAATISPNDENSKTAYHSSLAAGFIFQFFNPLIERPSRITNGYSNLPFAKDFELKENH KQVHHDKIPTLLSSGQQVLEAGNDNHPVGEPVVKSGAALQASGEAVYVDDIPSPPNCLHGAFIYSSKPLARVRSIKSPEL QWDGVKYVVSSKDIPNGGENIGSKTIFGIEPLFAEEIARCVGDRLAFVVADTQKHADMAANTAVVAYDVENLEPPILSVE DAVERSSFFEVPPFLNPKCIGDVSKGMAEADHKILSAKMNLGSQYYFYMETQTALAVPDEDNCITVYSSSQCPEFTHSTI ARCLGIPENSVRVITRRVGGGFGGKAIKAIAVAASCALAAHKLCRPVRSYLNRKTDMIMAGGRHPMKITYSVGFKNDGKI TALELQILINAGIYVDISAVMPHNIVGALKKYDWGALSFDMKVCRTNHPSRSAMRGPGELQGSFIAEAVIENVAATLSVD VDSVRTINLHTYKSLQSSYEHCCGQSFEYTLPSIWSQLDVAANYNQRTKIVTEFNRISTWKKRGISRVPVIFQLSLRPTP GKVSIFKDGSIVVEVGGIELGQGLWTKVKQMAAFALSAIQCDGTGALLDKVRVVQSDTVSLIQGGFTAGSTTSESSCEAV RLSCNILVERLRPLKEKLQEEMGPIKWEMLILQAYMQSVNLSASSFYVASNESANYLNYGAAVSEVEIDLLTGETRFLQT DIIYDCGQSLNPAVDLGQIEGAFVQGLGFFMLEEYETNLDGLVLADGTWNYKIPTIDTIPLQFNVQILNSGHHQHRVLSS KASGEPPLLLAASVHCATRAAIKEARKQLLSWSNLDGPDSTFQLEVPATMPVVKELIGLDIVERYLKWKMGMA
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 |
---|---|---|---|---|---|---|
PIRSF | 39 | 1353 | 1315 | 0.0 | ||
Gene3D | 41 | 1351 | 1311 | 0.0 | – | |
SUPERFAMILY | 42 | 88 | 47 | 2.02E-8 | ||
PANTHER | 42 | 1351 | 1310 | 0.0 | – | |
PANTHER | 42 | 1351 | 1310 | 0.0 | – | |
Pfam | 84 | 169 | 86 | 1.5E-23 | ||
SUPERFAMILY | 96 | 213 | 118 | 4.32E-29 | ||
SUPERFAMILY | 196 | 408 | 213 | 1.87E-37 | ||
ProSiteProfiles | 225 | 412 | 188 | 21.19 | ||
Pfam | 230 | 409 | 180 | 3.1E-40 | ||
SUPERFAMILY | 425 | 534 | 110 | 1.83E-12 | ||
SMART | 427 | 534 | 108 | 0.0016 | ||
Pfam | 428 | 532 | 105 | 3.8E-18 | ||
SUPERFAMILY | 562 | 709 | 148 | 1.03E-31 | ||
SMART | 602 | 711 | 110 | 1.1E-27 | ||
Pfam | 602 | 710 | 109 | 7.3E-26 | ||
SUPERFAMILY | 714 | 1338 | 625 | 3.14E-157 | ||
Pfam | 740 | 1260 | 521 | 7.2E-163 |
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 | Iron ion binding | Interacting selectively and non-covalently with iron (Fe) ions. | ||
Molecular function | Electron transfer activity | Any molecular entity that serves as an electron acceptor and electron donor in an electron transport chain. An electron transport chain is a process in which a series of electron carriers operate together to transfer electrons from donors to any of several different terminal electron acceptors to generate a transmembrane electrochemical gradient. | ||
Molecular function | Oxidoreductase activity | Catalysis of an oxidation-reduction (redox) reaction, a reversible chemical reaction in which the oxidation state of an atom or atoms within a molecule is altered. One substrate acts as a hydrogen or electron donor and becomes oxidized, while the other acts as hydrogen or electron acceptor and becomes reduced. | ||
Molecular function | Metal ion binding | Interacting selectively and non-covalently with any metal ion. | ||
Molecular function | Flavin adenine dinucleotide binding | Interacting selectively and non-covalently with FAD, flavin-adenine dinucleotide, the coenzyme or the prosthetic group of various flavoprotein oxidoreductase enzymes, in either the oxidized form, FAD, or the reduced form, FADH2. | ||
Molecular function | Iron-sulfur cluster binding | Interacting selectively and non-covalently with an iron-sulfur cluster, a combination of iron and sulfur atoms. | ||
Biological process | Oxidation-reduction process | A metabolic process that results in the removal or addition of one or more electrons to or from a substance, with or without the concomitant removal or addition of a proton or protons. | ||
Molecular function | FAD binding | Interacting selectively and non-covalently with the oxidized form, FAD, of flavin-adenine dinucleotide, the coenzyme or the prosthetic group of various flavoprotein oxidoreductase enzymes. |
Expression pattern of LotjaGi1g1v0060000.2, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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