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| Field | Value |
|---|---|
| Gene ID | LotjaGi2g1v0265100 |
| Transcript ID | LotjaGi2g1v0265100.1 |
| Related isoforms 4 | |
| Lotus japonicus genome version | Gifu v1.2 |
| Description | Alpha-1,4 glucan phosphorylase; TAIR: AT3G29320.1 Glycosyl transferase, family 35; Swiss-Prot: sp|P53536|PHSL_VICFA Alpha-1,4 glucan phosphorylase L isozyme, chloroplastic/amyloplastic; TrEMBL-Plants: tr|A0A151T017|A0A151T017_CAJCA Alpha-1,4 glucan phosphorylase; Found in the gene: LotjaGi2g1v0265100 |
| Working Lj name | n.a. |
Genomic sequence (LjG1.1_chr2:73452017..73467863) extracted from Lotus japonicus Gifu genome v1.2.
GCTTTAAGTAAAAATTCGTATTACCTATATATATACATATATATATATATTTCTCAATTCTCATAGCTTCATTAGTACAA GAATTTTCAATGCCCCAAGAATATGACACAAACATAGCAAGAAAGAAAATAGAACACAGTTATACGAGTTTTATAATTGA TAATAATTTTTGGATTAATAATCGGGTATTTATAAAATAAAATATCTTCAGGATGGAACACAGCTATACGAATTTTATAA TATAATAATAATTTTTGGGCTAATAATCGGGTATTTATAAAATTAAATATTTTCAAGTTCCTCCAATCGACGATCAGGTA TTTATAATAATTTTAGGACCAATCCTAATATAGGCGCAGAAAAGAGCATATTACCTTTCCTCTCATAGTTATAGTTATTC ACCATGAAAAAAATAATTAACTTCAGAAGTTCTGAAATATAGTTGATGCCAACCTGTTTTAGCAAATCCTTTGGACGGAA TTCATATTTCTCAGGATCTTTCAGACTAAGCGATTTTCTTTGGGGACCCACCAATTGCAGCAGAAAGTAATTCAGCATAC TAGCCACTCTTTCCACCTTGAAAAAGTGGACAAATAAGATTAAACTCATGGAGAATAAAAAAACTACAGAGGAACATTTA AGTTAGCCACTATAACTGTTTCATGTGAAGACAGGATGAATGACATGCTACGGTTGGAAGGAGAGAGATATTACCATCTC AGGAAGTAGGAATGGAACAGTAATCTGTTCTGAAGTAAATGCAAGCATACTAACTTCTTCATTTGCCAACTTCATATCTA TTCGAATAATCTACAAAATTATCATTGTATGTTTTATTAGATAAATGTAAACACAAATGCAGATACATAATTACATGAGA CCAAAATGTCAGACAGACATTTTCTTGAGAATGGAATAACCGGGTCCTCTCCTGCCTCTCCTGAACTGGCCGTCTTTCCC ACTCAGCTGTATTTGACATCTCAGCTTCCAATTCTTTTAGCTCAAGAATTTTGTTCAGACTTTCATCAAGAAGATATATA CTATCATTAATCAGAAAGTTCAAGAAATTCAAATAGACACCCTTTTCCTCCTCTTTAGCGATCTGGAAAAAAATCAAGTT TAGCATAATTTAGATAAAGTTAAATATGGTGTGAGATATAAAAAAATAATAATAATTGAGTGATTTTGATAAATTACCTG TCTCCAAGCATTACGATGACTAGGGACCTTCCATAGGTATTCATCAGCAACAATGTGATTGATGCCCTTCTCTGCATCTT ACTCATCATCTGCATAAGAAACCTTACACAATCTGCTAATCCTTTCAAAAGAATCCATGAAATTATAAATGCAATTGACA GCTTGCATTTTAAATACATGTATCACTTCTAACCGAAGCATCATTTTTGCTTTACAATGAAATATATTATTACAGTGCTG CATTGGAGAAAAGAAAAAGCAATCTGACAGTGGAACAAATTCAATAGGAGAGAAGATAAATAAATTAATACACTGCTGCA TTGCAGAAATTAAAGTCTATTATTGTTAAAGCAATACATCCTTAATCACTTTGTCCAAGTTCATGTATGAACAACCACCA GGCCCAGTGTCCTCCTTCGCCTTCTTCTTCAACTCCATGGTTTTCTGCCTCATCCTCTTTCCTTTCTCTTCCACCATCAA TTCATTGATCAGCTTCTCCACCTCCTCTCTCTTCCCATTGGTATCAATTTCAATCCCAATATCCCATTCTTTGCAAATAC ATCTACAATTTGTTGGTTGATCAGCAAAAAATGGCCAGCACAGCATTGGCACTCCTGCAGAGATGCTTTCAAGGGTTGAG TTCCATCCACAATGAGTCAAGAAACCACCAATTGAAGGGTGGTTCAGCACCTGCTCTTGTGGACACCAGCTTGCTATTAG GCCTCTATCTGAAATGTTGTCGACAAACTCCGGTGACAAAATCACGGAGCCACCGATGACAAGGTCAGGCCTAATTATCC ATAAAAAGGGTTTCTTGCTGTTGGCCAAACCCCAAGCAAACTCCAAGAGTTGCTCCGGTGACATAACAGTAATGCTGCCA AAATTCACATAAACAACTGATTCGGGTTCCTTGGATTCAAGCCATTGGAGACACTTGGTATCTTCTTTCCAAAGATTGGA ACCTAAAGATGCCAAGTGACTCTGCGGAGTTTGTTTTAAAAATGAAGGGAAAGGGCCAATGGGGTAAACAGAAGGGAACT TAGAGGAGAGAGCAGTTAGTACATCTCTCTCAAGTTCATAAAAAGTATTAATAAACATAGCAGATGCCCTCTTAGCTATA TCTGCCGCTTCAATGAAGAATTCTACCATGAAATCATTTGGATTTGTTGTCCTGATAAAGTCAGGCAGATCCTTGAGTCG AAAGTTTTGCAGACATGAAATCCAATCTACTTTAGTGTCCAAATATCCATTGGTCAGATAACTCTCATCTGCATATCATA ATTATTACAAAGTCAAGAAGTTGAAGCCTGATATATGTTTTGTATGTTGCACTGATACGGGTACAATGTCGCTACCGATA CAGGTATGAGGTACGGGTAGGATTGTATAATCTGTAAACATACATATATGAACACGACTATATTTTCAACAAATTAGCAA ACCACCTAGACACTAAAAAACACTACGATTTAAATTTTTGTAAGAATAAAGAAACTAAACATTTCGGGAAAATAGAAATA TGTGCACAATGCAAGAAAGGAAATATGAATTTTGGTAATTTTTCTACCATCAACTAATGCAAGGAAAGCATCAACTGAAA AAGAATGAGATAATGAAGTACTGAAGAGTGCCCAACGAGTACCAGCAAAATTGAAGTATCCATGCTTCATAGTATGTTTA TATATATTATATTTATCTATATGGAGTGCAAGTCAATAACCTGATACCTTTGAGTGGTATGAGACCTTTATCAAGCAGAG TCTGAAAGTGCAAAACAGTCATGAATGAAGTTGCACTGGCTGGAAAAAAGAGAACTGAAGGGAGTGCAAGTTCTTGAGCA GCTTGAATAGAAAAGGTCATGCAAAAATCAGAAATTAAGCAAGTAACTGGGGGGATAAGACCAGCAGTGGCAGAGTTGTT AAGTCTTGCAAGAAGTTCACGAAAAGGATGAAGGAAGTTCTTTCTGATTGATTCACAGAGAGAGGGTATGTCTTGACTAA CATTACCATCACCTTCAATGGATGGAAGACCATCTGGGATGGTCTCAAAGGCAAAGTCAGGGAGACCATCAAGGGCATTA GGACCTCTTGACTTGAGCAAGCGTTTGTGGTTATACTCAGTGTGGACAAAGGTTATGTGAAAGCCTCTAAGGTGAAGAAG CTTTGCTAGTTTGAACAATGGATTGATATGGCCTTGTACTGGATATGGAGTCAACACAGCATGTGGCTTTCCCTCTCCAA AATTACTCATATTTTCTCTGTGTGTGTGTTTTTAGTGTGTAAGATAAGGTTGGCATACAAGGGATAAGGTTTAATAGATG GAAAAAGCTCTTCAGCCTTTTATAGGTAAAAATACAAAGGAAAAAAAAACTAGTTAGGAAACAATCAGTACCTAGTACCT ACATCTACCTTTCTTTTAGCTGGAGGATAAACAAGAGTTGGATGGAGGGAGGTGCCTAAGTGCGGACATTTAATGTGATA GTTGGAGGCTGCTATTTGATGCATGAAAAATATGTTTTGAGGATAAATTATGGAGGGAAATTTTAGTTTGGTGATGATGT TCTCAGTTTAGCTCAATGCACTGTCCAGCCCATCACTATGTTTTCAGAAATACATAAAAAGGGATATAAGATGTGTTTAG AAGTTATAGTGAATGGACCAGCAGACTGGTGGAGTTTATCACTATGTGATAAGTAGTTGTTGTGACTTTTAACTTAGGAT CTAACCCCAAAATAGTTTGTAATCGTTTTATACCAAAATCTTAAACAATATTTTTTGTGAATAGATCTAGTTATGATTGT TAAAGTATAGAATATGATCTCCATGCATCCCACGGGTGTTACTGTATGATGGAGATGAACAAGTTTTGGTTCGTTGAAAC TTGAACCAATGAAACGAAGATGCTGCGTCCTAGGTGGCAAGCGGAGAGAGCGCCAACGAAGCAGTTACAGACGGTAGATA GAGAGAGAGAGAGAGAGAGAGAAACCGAAAAAAGTTTGAAGAAGAAACGACGAACAAGTGAAAATCTCGTGATTCCATGA ATCATATTTCGTTTTCTTCCTTCCACACTTCTAGACAGACTACTACAGTCTAGTCCACTGAACTGATCAATCTCTCTCTC TCTCGATCGATAATGGCTTCTTCGACAATGCGGTTCCCTGTGAATTCCACCACCACGGAGGCGTTTCCTCGCTGCAATTC CATCTCCGGATTCATCGGCACCGCTTCCAGATCCTCCTCTTTCTCCAAGCTGCTCTTCATCCGAAGAACTGCCAACTCTC ACGCTCTCAATCTCACTAGAACAACAAGCTCTTTCTCCGTCAACTGTGTCTCTCTGCAGGATCCTGATCCTCAACTGAAG CAAGGTCTCAATCACTTCTCTCTCTGCATTTTATTTTCTTCACCATATTTATTTACTGTTCAATTTTGATGCTTAGCTTA GGTTTTTAATTTTTTTTTTATTTGGATTCAGCTTAATTTACTCACTTCAATCTAGTTCAATTTTGGAAACCTTTCATCTT TGCTATTTAATTTCACCATTTTCATAAGCTCAACTGTCTCGCTTCTGATTTAGCTTCTGAAAAACATGTAATTCTAGCTT CTGTTTATTATTTATTTCTTGATTTTTTTTTTATCAAAATTAGCTGTTGGGTTTAAGAAAATAATTTCTATTTTCGCTAA CCATTATATAAATGCCACCTTATTACCATTTCGTAGATGTTTAAAAGCAAAATAATTAAGTGTAATTTTTTTTATTTTTT TGAAACAATTAAGTGTAATTAAGGTGACATTATTTGTTTTTTTTTTTTTTTGAAAGATGACATTATTTGTTATAATTGAG AAAAATAGAAAGCATTTCCTTAAACCATGTAGGCCCTTGTTTCTTGAGTTTTCTATCCTTACTATAAAAAAATTAATTAT ATGTATATTTATCAAAAAGCTGATCATTACTCCTCCGGTCCCTAATTATAAGACACTAATTTTTTTTTGTTGATGTTCCA TAGTATAAGATCCCTTTCTTTTCCATATTTACCCCTTGCATTTATTAAAAAGATAGTGAGATACAATTAATGTAATGATG AAAGAGTTTTATTTTAAATTAGCGTAAATATGGAAGGTTGTATAATTTTTTTAAAACCAATGTTTTAATTAGCCTCATTA CATGTTTCTTAAAAAAAGTGTAATTGTCTGAAGGATGCCTTATAATTAGGGGCTAAGAGAGTAATATGTCTTTTTGGCAT GTCACTGACAATTATCTTGTGTCCAACTTCACTGCAATCTGATTAATCATTGCTTTTTATTTTTTGTTTTAGAAGCTACA ACCTCTCTGAGCTCATTCGCTCCAGATGCTTCATCTATCGCGTCGAGTATTAAGTACCATGCAGAGTTCACCCCTTTGTT TTCTCCAGAGAATTTTCATCTTCCACAAGCTTTCTTTGCAACTGCACAGAGTGTTCGCGATACTCTCCTAATAAACTGGA ATGCTACTTATGATTACTATGAGAAGCTGAATGTTAAGCAGGCATATTACCTTTCAATGGAATTTTTGCAGGTTGGGTGC TATCATATTGATTTGAACAGCTTCACCATTTCAGGCATCTAATATTTTTCTTCATCTATCATTCAATGTTTCAGGGTAGA GCATTATTAAATGCAATTGGCAACCTAGAGCTAAATGGTCCCTATGCAGAGGCTTTGAGCAAGCTCGGGCATAAATTAGA AGATGTGGCAGGCCAGGTGTGACATTCTCAGCTGTATCTCTTTTACCTATTTTTTAATTTATAAAATGTTGCTTGTTTTA CTGCTATCATGAGTTACTGTTTATCTAATCATAAGACAAGCTGATGTGGTTTTTGAATTGAATATTATAATGAAAGAGAA CTTATTTTTTAAATAGCATATTTACTATAAGTTCAACAGTTGAGAGAGTCAAGCAAGTGTTGTATTTGGGATTGTTATCT AATTCCTTTTTCTAAATATTTTTGTCAAAATTTTACAAGCTTACAAACCATTTTTTTATATACTCTCACTTGGAGTTGTG GTAATTCATTTTGGTTGGACAATAATAGGAGCCAGATGCTGCACTTGGAAATGGGGGTCTTGGGCGTCTTGCTTCATGTT TCTTGGACTCTTTGGCAACCTTGAATTATCCAGCATGGGGTTATGGATTGAGATATAAGTATGGCTTATTTAAACAGCTC ATAACCAAGGATGGGCAGGAGGAAGTTGCTGAAGATTGGCTTGAGGTATGTTTTATTGTACATTCACAAGTGCCCATGGC ATGTACTTAAAAGGTCTGCATTTGGTTTTTCAGTTCTATTAATGTTCTTTCTTTGTCTGTGACCTCTTCTAACAGATGGG CAGCCCCTGGGAGATTATTAGAAATGACGTCTCATATCCTGTAAAGTTCTATGGGAAGGTTATTTCAGGGTCAGATGGAA AAAAACATTGGACTGGAGGAGAAGATATTAAAGCCATTGCACATGATGTTCCCATACCAGGATATAAAACTAAAACCACA ATCAACTTGAGACTTTGGTCTACGAAAGCTGCATCAGAAGATTTTGATTTATATGCTTTTAATTCTGGAAAGCACACTGA AGCCAACGAGGCTCTTGCAAATGCTGAAAAGGTTTGGATGATATGGCTAGAGTAAACTCTTTCAAAAAATAGTAAAATCC TTATAAGTATAGGAGAATTGGACTGATTGGATAATTATGTTGGAACAAACAAGTACTAAAGAATTTATCCTCTCCAGAAT TTTGACTTTAATGTGTCTTTTATAGTTTTGTCTTTTAGTGTCTTTTTCTAACGATCTATGTCTGTTTGGTGTCTATTTCC TGTGCAGATGTTGTGGAAAATATTTGAGTGACTTCTAATAACATGGAGTTTTTCTAGTTAACTTGAATTTCACGACAATG TGAATGCAAGTTAAGAATAGGACATTTTATATGGTGTTTTCTTTCAAATGCAGATTTGCTACATACTCTATCCTGGGGAT GAATCAACAGAAGGGAAGATCCTTCGCCTGAAGCAACAATATACTTTATGTTCTGCTTCTCTTCAAGATATCATTGCTCG TTTTGAGAGAAGATCAGGAGCAAGCGTGAATTGGGAAGAGTTTCCTGAAAAGGTTGCAGTGCAGATGAATGATACTCACC CAACCTTATGCATCCCAGAGCTTATGAGAATACTAATAGATGTGAAGGGTTTGAGCTGGAAGGATGCTTGGAATATCACT CAACGGTATCTAGTTTTTTTTATGTTTTGTTTTTGTGTGGAGGAGGGGAGTCCAGTCAACTCATGTGAACGCTTGATTTG AGTTTTCTGATTGAATATGATATATCTGATACTGTGATCTAGGACTGTAGCATACACAAACCATACTGTTCTTCCTGAGG CATTAGAGAAATGGAGCTTGGAGCTTATGCAGAAACTGCTTCCACGTCATGTTGAGATTATAGAAATGATTGATGAGGAG GTAATACCAAAATATTTGCATAAGCTCTTTTTTTTTTTCAAGGTACAGGCACTAAGTTGTTGCTGACATTCATGCTTTAC AGCTTATTCGGACCATAATCGCAGAATATGGCACAGAAGATTCAGAGTTACTGGGAAAAAAGTTGAAGGAAATGAGAATA CTAGATAATGTTGAATTGCCTGCAGAATTCGCGGGTATACTGGTTAAGGAGGCCATTGACATTCCTAGTGAGGAGCTGCA AAATTCTGAACAAGAAGTGGACGAAGAAAATCATGATGAAGAAGTGGAAGAAACAATAGCTAAACAGGATGGGAAAGATA AAATTTCCATTGAGGATAAGAAAGAAGAGTTGCCTGAGCCAGTACCAGAACCACCTAAAGTGGTTCGTATGGCCAATCTC TGTGTTGTGGGTGGTCATGCAGTGAATGGGGTTGCAGAGATACACAGTGAAATTGTAAAGGATGAAGTGTTCAACGCATT TTATAAGGTAAATATTTCAGTAATTCCTCTTTCCTTTTTTTTTGCTTTAGATCTATGACAAGATCAACGAAAATTGTTTG CATCAATGACTTCTGTGCCATGTTTCTTGCAGTTGTGGCCTGAGAAATTCCAAAACAAAACAAATGGTGTGACACCAAGG AGATGGATCAAGTTCTGTAATCCAGATTTGAGTAAAATAATAACCGAGTGGATAGGCACTGAGGATTGGGTCCTAAATAC TGAAAGGCTGTCTGAACTACGAAAGGTAGTTTCCATTATTTAATTTGTTGTTTTTGTTTTTCTTTCACAAATTCTTAATT TATAAAATTGAAGAAGGATTTACGTTTTTTTTTTTCATTTGATCCCTTTTTCCTTTTCACGAATGTTAGGTTTCGCAGCA CCAATCATACAAGTAGGTTTCGCAGCACCAATCTTCTGAGCAAATGATCACCAATTTTGGAATTTTATAATTCTTTATAC AAATTTGCTTAAATAACCGAATATAAATAAAAAATATAATCGCTTCTACTTAACCTAAAAAGTGTAACTATTTTGCATTT ACTGATCTCCTTTAACATAAGATTTCTGAACAAGAAAATTGGGTCTGGTGATGTACTATTCAGCAAGTAATTGAACATCT GGTATGTTGAATTTGAATCTGAATGCTCATCGATTCCAGGATTAGCTCAATATCATGAAGCCTTCTTAGATACATCAACA TCAACAACAAAAGCCTTTTCCCATTAGGTAGACCTTAAAATACATATTAAATGAAATTCTAAACTTAGTATACTTCCGCT TCTTGATATTTAAGGAATCAATATAATATATTGATTATGATTTGTGGGAATGTTCTGAAATTAATTGATTGGAATTAAGC ATATTTTGGGCCATGTTGTTTCCATTATTTTCCACTTGGATCTCTCAATAATATTAGTCTCAGCTTGATTGCCATGTCTC TGTAATTAAAGCTGACCATACTAGTATTATTTATTAATAGTTTGCAGATAATGAGGATCTACAAATGCAATGGAGGGAAG CAAAGAGGAATAACAAGATTAAAGTTGCAGCATTCCTGAGAGAAAAAACAGGATATTCCGTCAGTCCTGATGCAATGTTT GACATCCAGGTAAAATGATGCCTTGGAGTTTTTTTTACTGCCAATTTGGACTTGGCTAAGTTTTAAGCATGGAATGGAAG TTGGAAAACTTTTTTAGGTCAAAGGAAAAGTCTGGTACTTGAATGCAATATATTATACTTTTGCACTTCAGAATCCAAGG CATGAACGTTTATAGCTTAAATTTTAGGTGTCTTGGTAGACTAAGGTTAGGTCAATTTATGAGTATGGGAGATTTAGGCT AAGCTATGCTAGACTTTTCCTTAACTAGGTCAGGCCTGTTTTGCCAAATACTGGCCATGGTGTTGGCTGGGTCTTCCCCT AAGTTGTTTGATCAGTCAGTGAATACTCATTATCCAATTCCATAGTCCAATCCGTGCTCACATGAACTGTTTCAACCCAT AAAGAGATTGATGTTGGTGATATACCTGTCCAGACTCCCCTTGAGCAGCAACAAAACTAGTAGTATGCTTCCTCGGTAAT CTCATAGGCAAAAAGGAAATCTTAATATCAAGCTGAAAGAGAGGCCAATGACTCATAGCAGCCATGAGAAGTGGAAGCCA AATTGAAGCAATCTTGGGTAAGGGTGAGAATACCACCCTGGATGGGATAGTGCTCACTCGTAGACTTAGACAGTTAGACT GAGGAATAAAAACTGAGGAAAAGGAGGTAACTAAAGCAAAATATGGGGAAGAAAAATGACGATTCTAAATACCCTGTGAA TTAGTCATTCAGTCAGTGAAAATATAAGGCTCTGAGATCTTATTTACATTACCGAGTAGTATGGTACCATAAGGTAAAGT ACAATATACAGTAAGGAAATAACGAAAATACACCATCTGTACATGCTTTTTTTAGGTTTAGGCTGGATTGAAAGCTTGGG CTTACATTGCTTACACAGCTATACCCAGTGACCAGGAAAGTGCAATGTCGTAGTGGCAGAACTGTATAGCATCCTCATTA GCATTCAACTGGTTTGGAGACTAGTTTTTAGGCCAGGTCAACATAGGCCGAAAGTAGGCTTGGTTATAGGCTAATAGGCT TCCTAGCCAATTCCCACCCCTACTTATGAGTCATTACCATCAAATTCTCTACTTTGAAGCTAGTTTTCTTTCTTATAATA ATACCGTTAGTTACGAATTCAGTTTCTACCCGACCCATTAGTTTTCATTACATATTTTTGGTAAACTATTGCTTAATTAT TTTTTATTCAGGTGAAGAGAATCCATGAATATAAGCGGCAATTAATGAATATTTTGGGAATTGTTTATCGCTACAAGAAG ATGAAAGAAATGAGTGCTGCAGAAAGGAAAGAAAAATTTGTTCCAAGAGTTTGCATATTTGGGGGAAAAGCATTTGCTAC TTATGTGCAAGCCAAGAGAATTGTGAAATTTATAACAGATGTTGGGGCTACTGTAAATCATGATCCTGAAATAGGAGATC TTCTTAAGGTACCTATGACTCTGTTTTGCATGCATTCTTTTTCTTTTATTGGTTTTTGTTTTGTCCAAGAATTCTAAGGC ATAACATTGCTAAAGGTATGTGAAGTGATAATTATTTTAAAATTAACATTGATGTGTGAAATGTGAATAAAGAAATGTTT AATGTGAAAATATCATTTAATAGAATTTAATTTTTTTGAACTCTCAGTGTAAAACTCCTTTACACAGATGCAATCGTTTC ATGTCACATCAGATTGCATGCTTAAGGATAGTTACGTGTTTTTTAAATAAATTAAATTAAAAATTTACTTTTTGACATGG CAAAAAACTACTGGATTATTAAATCCATATAAATTTGTCTTTTTATATCATTTTATATATTTTTTCTGCTAGTTTAACAG TTAGTTTTACCAAAAACTCCTTATTCAATCAGTTACCTTTACACCTTTAAGCTAACTGCTAGAAGCTAGCTTTTCAACTT CTAGTTAGCTTATCAACTCGTTTTGATGAACAGCCAAAGTCCATGTGCAATTTTATATGGAAAAGATTCTGTGTAATTTA ACATGTACATCACACACTACAACATTCTACTATGCAAATCTAAAGGAAAAGTGTGATATGTACACAAAGAAAGATGGTTT TGAAAATATTATATGCATATGAGCATATCATTCCAGGAAAAAAATCAAACTTTATTCATGGAATTGTTCTGCTGGCTACT GCATTAATCAATTTATCAGTCTGATTTAAGTTTAATGTAGGTCCAATTTCATGGTTGATGGAATCCTCATATACATTTCT ATTAGTAGATAATTTGGACTTGATGAATAAAGAAGAAAACAATTTGAGATGCTAAATTAACTTCTTTGTCCAATTTGACC ACAAGAATTTTGGAGATGCAATCGGGATATGTTTTTCATTGTAGATCCCCATGTTGCTCTGTAGCAGAGACGTGTAGAAA ATATTATTTAATCTTTGTCCACTTTTGTGGAAACTTTATCTAGGGTATCAATTTTGTGATGCACTAAATGTAGAGATGAA ACTGCTCTATTTCATCATGAAATTAATAAAAACATTTAATCATTTCTGAGGAGAGAAATTCAAAATAATGCTTTATCAAC TCTCTTGGAAAACCAGATTCTTAGTTCTTTATCATTCTCTTTTCTTCCTAGGCGGAACATTTAGAATTTTTTGAATAGTT TGATTATTTCCTGCCCAGGTTTTTTCATTTGAATTGCAACCAACTATTTATTTATTGTTTATTTCATATTTTATCAGGTT ATTTTTGTCCCTGATTACAATGTCAGTGTTGCGGAGATGCTTATTCCAGCTAGTGAATTGTCACAGCATATCAGGTAGCT CTATTTCTTGTAGTTAATTTGCTTTATACCTTGTGTTGCATGATTTTACTCATGTAAGTGGTGCTATACATTTACTAATT CAGCTGATATATTAAAATAATTAACGTAATATTATCTTCTATACTAATCATCAGCTGTTCAAATTTTGACATGAGTAGCT TGAAATATAAATTTTTTTTAATTACATGAAATTGTTTAATATTCATACACAGATCAATATGTTGCTCGTAAAAACAACTG CTGTTAAATATTTTGAGCATGGAAAATTGAAAAACTTTTGTTGAAGATAAGTATTTAGAAATTTTCAAAGGTGTTTCAGT AATGTGTTCAGACATATTACAAATGCATCCCAGGTTTGTCGAGAAAGTACTGAGAGAAGTTTCTGGTATTTGGCCATTTT ATCCTGACATGCAAGTCCTCTCCCAATAAGATTGTAATATGCTGAGTGTCAGAATCTGATAAGCAACAAAGCATCCCTTG AAATACTGGTGTTTCATAGGAACATGCTGTTGGAGCCATGGTTATTTCCTGGATTGCCTGTGTAGATTGGGATCAGTTTC AAAGAATCCCAGAAAACAGAACCAAGGTTTCTCCGAAAGAGAACAAGATTTCAAAATTGAGAACATAAGCCTGTTTAATG TTGCTAGTCTTCTAAATAAAATCAACCCATATGCTCAGATTTAGTTTACTGGGCTGAATGATGTGTATATACCAAAAATA TTGACACTTGACAACTATTAACGGATTTACTGATATGGACAAATCATTTTTCTGTACATAAAGCAGAGGGTATGACTCAG GTTCAATTGTGAAGAATATGTTTATAGATTAGGGGAAAAAAATTAATCTTGAAGAATTCAGTCAATTACTGTTAGAGTTG CATTTAACAAGTCAAGATTTTAGGATGATTGGTTCTTGAAATATGAAATGCAATTAAAGCCTCTGACCTAATGGTCAACA ATATGATTCTCAGCACTCCAATTTCATTCAATTAATTTGTCAGCACAAGTTGTCATTTGCAATGCATTGTCAGCTTACCA ACTCCAAAGGGATGCATGATTTGGGGGTGGTAGGAGGTTTTGACAAATGGCAATAACAAATCAGTTCTAACCTCAGAATA TTGTTCTCCAAATTTCTTATTTCTTTTTAAAAAAATATCATTATTTTGTTTTTCCTATGAAATTTTGAGTATTTGTGCAC TGCCTAATTAATATGTTCTGTTTATTTCCTGTAGTACTGCTGGAATGGAGGCGAGTGGAACTAGCAACATGAAATTTGCA ATGAATGGATGCATACTGATTGGAACTTTAGATGGTGCCAATGTTGAAATAAGGGAAGAGGTTGGTGCAGACAACTTCTT CCTCTTTGGTGCCAAGGCTCATGAAATTGCTGGGCTGAGGAAAGAAAGAGCCGAGGGAAAGGTTTGTCTTAATACCAATT TGTGCATTTTAATTACCATGGAATATAATGTCATCCTGGTTGTAGCATACCAGCATCGAACTAAAATTCCACAGTTGAAG TTTCAAATATCGATAATATTTCAATTTTCAAAAGTAATTCAAGTTATTATTCCTGACAAAGGAGTTCCTAACATAATCTC GTTCAAGTCGTTCAAGTTAATGATTCCTGCCAATGTTGGTTCTTAAATTTAGTTTGTCCCTGATCCACAATTCGAAGAAG TTAAAGAATTCGTCAGAAGTGGTGTTTTTGGATCTTACAACTATGATGAAATGATTGGATCCTTAGAAGGAAATGAAGGT TTTGGTCGAGCAGATTACTTTCTTGTGGGGAAGGACTTCCCCAGCTACATAGAATGCCAAGAGAAGGTTGATGAAGCTTA TAGGGACCAAAAAGTAAGTTTATTGACTGTTTTCAAATTTCACATGCTAGCCAATTGTAGAAGCATGCAAGCAATTTATG AATTCTATTTACTTGTCATATAGTTTAATAGTCCAGGATTGTTCCTTCATGCAACTTAATGCCATGATAATTTTAGTATT AAGTATTAACTACACAAATGGCGTTATTGCCCGCATTTAAAGTCCCTCATGCATCAACTTTCTGTACGAGTTGATCAAGC ATAAACCATACAAGAAGCTAGTTTCTTTTATGTTATCTTTGGCATTAAAATTTTTAAATCATGTGTGGGTGCAGCTATGG ACGAGAATGTCAATATTGAATACAGCAGGCTCACCCAAGTTTAGCAGCGACCGCACCATTCATGAGTATGCCAGGGATAT ATGGAACATTGAGCCAGTAAAATTGCCGTAGAGGAGAGTTATTCTACTAGCAGAGAATTGGTGCCATGTGGTAATGTGAT CACAGTTTAAGCTAAGTTATTACTTGTACCAAAAAATAAATAGAAGTTCTTGCGAAAAAAGGCGCTTGGTGGCCGAAATA AGCCTGCATTTCTGTAGTGCAATGTACCCACCAAAATAAGCCTGCATTTCTGTAATATAATGTACTGTGTTTATCAAGTT CGACTGTTGCCCAAATGACATGGCAAATGCAAGGTAAACTTGGGACCGAGTAGGATGTATTTGGATTCAAGTTGAGATTG ACTTAAACACACATTCAAGCCAAGGGAAAAAGAGGTTCCTTTCACATTTGCATTTACTCCATTGGAATTTATGTTTTTCT GCTGAGATTGTCTCTTAACGTGTGTGAACGGCATACTAAACACAGTAAAACAGGTCAATGAATTCGGTATCAGATTATTT TAAGTCGACCCTCATGGTCCTTTAACTGTCTCCCGCTTCATTTCTTAAGCCCTGCCTTAGGTTTGATTGTCCTAGACCAT GTAATATAATAATCTATGTGCAGATGATTATGCAGACAGTTTGGTTTATTTACCTTAAGTAGTTGTTTTTTACAAGACCT GAATTACTAATAGCAAATTAAGAAGAAAAGAGTTACATGTTCTAAGTACAAGCCGAAGAAATTTACCTTGTTTTGCCAAT AATGAAGATTTTCTGTGCATTTTTCATGTCTTTAAGCATCAAATCAAGTCTTTTTGGTATATGACATGTCCATTTATTCT ATATATACACCAGAGAGGATCTACAATTACAAAATTTATAGTGTGTGCCATGATCTCTGTATTCATGACAGTGCCCCCAT GCAATGGAATATAAAAGCACTAAATAACTGCCATTTCCATCACATTTTGATAAATCTGAGATTCACATAGAAGACTACAC CTACAAGCTCCATAAAATTCAAATTCTAATAATGACAAAAGAAGAACATACAAGAGTGAGTCTTTGTTACTTGTCTTGTA AATTAGAGGTGTTATAATGCTATTGACATTGTTACGTCAATCCAAAATCGTAAGTGCAAATAAAGCTGAATCCTTCAAAA AACTAATAAATGAAATGATTTAAAAAAATCATCCTTCAATGACCAGAGGAGCTTCTACGATAAAATTTCACAATATCCTA ACCTAAATAGTGTTATTAAGTAGACTCTCCCAAAAACTTTGTTGCCTCTGCATCTCGTCAGCTCTAGCATTCTGTACAGG ATCAGCAACACCACTTGTGGCAGAAAATTCACCAGAACCAGAGGAGCAAAACTTCAAACTTTTGTCAACAAGTTGATCAT CGTTAACCTCACTCAATGGAGACAAATTTTCAGAAAAACTAGATAAGTGAGTTGCATTTGAGGTTTTATTTGCAGACTGG ATTGGCTGGACGAATGGATAAGAACCACTACTTCCTCCCATGTTCAAACTAGCCGGATTAGGTGAATTTTTGAGACTCAG TTTAAAT
CDS sequence (LotjaGi2g1v0265100.1) extracted from Lotus japonicus Gifu v1.2 CDS.
ATGGCTTCTTCGACAATGCGGTTCCCTGTGAATTCCACCACCACGGAGGCGTTTCCTCGCTGCAATTCCATCTCCGGATT CATCGGCACCGCTTCCAGATCCTCCTCTTTCTCCAAGCTGCTCTTCATCCGAAGAACTGCCAACTCTCACGCTCTCAATC TCACTAGAACAACAAGCTCTTTCTCCGTCAACTGTGTCTCTCTGCAGGATCCTGATCCTCAACTGAAGCAAGAAGCTACA ACCTCTCTGAGCTCATTCGCTCCAGATGCTTCATCTATCGCGTCGAGTATTAAGTACCATGCAGAGTTCACCCCTTTGTT TTCTCCAGAGAATTTTCATCTTCCACAAGCTTTCTTTGCAACTGCACAGAGTGTTCGCGATACTCTCCTAATAAACTGGA ATGCTACTTATGATTACTATGAGAAGCTGAATGTTAAGCAGGCATATTACCTTTCAATGGAATTTTTGCAGGGTAGAGCA TTATTAAATGCAATTGGCAACCTAGAGCTAAATGGTCCCTATGCAGAGGCTTTGAGCAAGCTCGGGCATAAATTAGAAGA TGTGGCAGGCCAGGAGCCAGATGCTGCACTTGGAAATGGGGGTCTTGGGCGTCTTGCTTCATGTTTCTTGGACTCTTTGG CAACCTTGAATTATCCAGCATGGGGTTATGGATTGAGATATAAGTATGGCTTATTTAAACAGCTCATAACCAAGGATGGG CAGGAGGAAGTTGCTGAAGATTGGCTTGAGATGGGCAGCCCCTGGGAGATTATTAGAAATGACGTCTCATATCCTGTAAA GTTCTATGGGAAGGTTATTTCAGGGTCAGATGGAAAAAAACATTGGACTGGAGGAGAAGATATTAAAGCCATTGCACATG ATGTTCCCATACCAGGATATAAAACTAAAACCACAATCAACTTGAGACTTTGGTCTACGAAAGCTGCATCAGAAGATTTT GATTTATATGCTTTTAATTCTGGAAAGCACACTGAAGCCAACGAGGCTCTTGCAAATGCTGAAAAGATTTGCTACATACT CTATCCTGGGGATGAATCAACAGAAGGGAAGATCCTTCGCCTGAAGCAACAATATACTTTATGTTCTGCTTCTCTTCAAG ATATCATTGCTCGTTTTGAGAGAAGATCAGGAGCAAGCGTGAATTGGGAAGAGTTTCCTGAAAAGGTTGCAGTGCAGATG AATGATACTCACCCAACCTTATGCATCCCAGAGCTTATGAGAATACTAATAGATGTGAAGGGTTTGAGCTGGAAGGATGC TTGGAATATCACTCAACGGACTGTAGCATACACAAACCATACTGTTCTTCCTGAGGCATTAGAGAAATGGAGCTTGGAGC TTATGCAGAAACTGCTTCCACGTCATGTTGAGATTATAGAAATGATTGATGAGGAGCTTATTCGGACCATAATCGCAGAA TATGGCACAGAAGATTCAGAGTTACTGGGAAAAAAGTTGAAGGAAATGAGAATACTAGATAATGTTGAATTGCCTGCAGA ATTCGCGGGTATACTGGTTAAGGAGGCCATTGACATTCCTAGTGAGGAGCTGCAAAATTCTGAACAAGAAGTGGACGAAG AAAATCATGATGAAGAAGTGGAAGAAACAATAGCTAAACAGGATGGGAAAGATAAAATTTCCATTGAGGATAAGAAAGAA GAGTTGCCTGAGCCAGTACCAGAACCACCTAAAGTGGTTCGTATGGCCAATCTCTGTGTTGTGGGTGGTCATGCAGTGAA TGGGGTTGCAGAGATACACAGTGAAATTGTAAAGGATGAAGTGTTCAACGCATTTTATAAGTTGTGGCCTGAGAAATTCC AAAACAAAACAAATGGTGTGACACCAAGGAGATGGATCAAGTTCTGTAATCCAGATTTGAGTAAAATAATAACCGAGTGG ATAGGCACTGAGGATTGGGTCCTAAATACTGAAAGGCTGTCTGAACTACGAAAGTTTGCAGATAATGAGGATCTACAAAT GCAATGGAGGGAAGCAAAGAGGAATAACAAGATTAAAGTTGCAGCATTCCTGAGAGAAAAAACAGGATATTCCGTCAGTC CTGATGCAATGTTTGACATCCAGGTGAAGAGAATCCATGAATATAAGCGGCAATTAATGAATATTTTGGGAATTGTTTAT CGCTACAAGAAGATGAAAGAAATGAGTGCTGCAGAAAGGAAAGAAAAATTTGTTCCAAGAGTTTGCATATTTGGGGGAAA AGCATTTGCTACTTATGTGCAAGCCAAGAGAATTGTGAAATTTATAACAGATGTTGGGGCTACTGTAAATCATGATCCTG AAATAGGAGATCTTCTTAAGGTTATTTTTGTCCCTGATTACAATGTCAGTGTTGCGGAGATGCTTATTCCAGCTAGTGAA TTGTCACAGCATATCAGTACTGCTGGAATGGAGGCGAGTGGAACTAGCAACATGAAATTTGCAATGAATGGATGCATACT GATTGGAACTTTAGATGGTGCCAATGTTGAAATAAGGGAAGAGGTTGGTGCAGACAACTTCTTCCTCTTTGGTGCCAAGG CTCATGAAATTGCTGGGCTGAGGAAAGAAAGAGCCGAGGGAAAGTTTGTCCCTGATCCACAATTCGAAGAAGTTAAAGAA TTCGTCAGAAGTGGTGTTTTTGGATCTTACAACTATGATGAAATGATTGGATCCTTAGAAGGAAATGAAGGTTTTGGTCG AGCAGATTACTTTCTTGTGGGGAAGGACTTCCCCAGCTACATAGAATGCCAAGAGAAGGTTGATGAAGCTTATAGGGACC AAAAACTATGGACGAGAATGTCAATATTGAATACAGCAGGCTCACCCAAGTTTAGCAGCGACCGCACCATTCATGAGTAT GCCAGGGATATATGGAACATTGAGCCAGTAAAATTGCCGTAG
Protein sequence (LotjaGi2g1v0265100.1) extracted from Lotus japonicus Gifu v1.2 Proteins.
MASSTMRFPVNSTTTEAFPRCNSISGFIGTASRSSSFSKLLFIRRTANSHALNLTRTTSSFSVNCVSLQDPDPQLKQEAT TSLSSFAPDASSIASSIKYHAEFTPLFSPENFHLPQAFFATAQSVRDTLLINWNATYDYYEKLNVKQAYYLSMEFLQGRA LLNAIGNLELNGPYAEALSKLGHKLEDVAGQEPDAALGNGGLGRLASCFLDSLATLNYPAWGYGLRYKYGLFKQLITKDG QEEVAEDWLEMGSPWEIIRNDVSYPVKFYGKVISGSDGKKHWTGGEDIKAIAHDVPIPGYKTKTTINLRLWSTKAASEDF DLYAFNSGKHTEANEALANAEKICYILYPGDESTEGKILRLKQQYTLCSASLQDIIARFERRSGASVNWEEFPEKVAVQM NDTHPTLCIPELMRILIDVKGLSWKDAWNITQRTVAYTNHTVLPEALEKWSLELMQKLLPRHVEIIEMIDEELIRTIIAE YGTEDSELLGKKLKEMRILDNVELPAEFAGILVKEAIDIPSEELQNSEQEVDEENHDEEVEETIAKQDGKDKISIEDKKE ELPEPVPEPPKVVRMANLCVVGGHAVNGVAEIHSEIVKDEVFNAFYKLWPEKFQNKTNGVTPRRWIKFCNPDLSKIITEW IGTEDWVLNTERLSELRKFADNEDLQMQWREAKRNNKIKVAAFLREKTGYSVSPDAMFDIQVKRIHEYKRQLMNILGIVY RYKKMKEMSAAERKEKFVPRVCIFGGKAFATYVQAKRIVKFITDVGATVNHDPEIGDLLKVIFVPDYNVSVAEMLIPASE LSQHISTAGMEASGTSNMKFAMNGCILIGTLDGANVEIREEVGADNFFLFGAKAHEIAGLRKERAEGKFVPDPQFEEVKE FVRSGVFGSYNYDEMIGSLEGNEGFGRADYFLVGKDFPSYIECQEKVDEAYRDQKLWTRMSILNTAGSPKFSSDRTIHEY ARDIWNIEPVKLP
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 | 20 | 973 | 954 | 0.0 | ||
| PANTHER | 20 | 973 | 954 | 0.0 | – | |
| Gene3D | 79 | 514 | 436 | 5.4E-187 | – | |
| SUPERFAMILY | 84 | 972 | 889 | 1.21E-286 | – | |
| PIRSF | 89 | 973 | 885 | 7.7E-205 | ||
| CDD | 96 | 967 | 872 | 0.0 | – | |
| Pfam | 178 | 500 | 323 | 1.6E-128 | ||
| Coils | 521 | 541 | 21 | - | – | |
| Gene3D | 526 | 622 | 97 | 9.2E-22 | – | |
| Pfam | 538 | 967 | 430 | 4.2E-169 | ||
| MobiDBLite | 546 | 567 | 22 | - | – | |
| MobiDBLite | 546 | 568 | 23 | - | – | |
| TIGRFAM | 564 | 967 | 404 | 8.4E-169 | ||
| Gene3D | 623 | 952 | 330 | 4.9E-147 | – | |
| ProSitePatterns | 811 | 823 | 13 | - |
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 | Phosphorylase activity | Catalysis of the reaction: 1,4-alpha-D-glucosyl(n) + phosphate = 1,4-alpha-D-glucosyl(n-1) + alpha-D-glucose 1-phosphate. The name should be qualified in each instance by adding the name of the natural substrate, e.g. maltodextrin phosphorylase, starch phosphorylase, glycogen phosphorylase. | ||
| Biological process | Carbohydrate metabolic process | The chemical reactions and pathways involving carbohydrates, any of a group of organic compounds based of the general formula Cx(H2O)y. Includes the formation of carbohydrate derivatives by the addition of a carbohydrate residue to another molecule. | ||
| Molecular function | Glycogen phosphorylase activity | Catalysis of the reaction: glycogen + phosphate = maltodextrin + alpha-D-glucose 1-phosphate. | ||
| Molecular function | Pyridoxal phosphate binding | Interacting selectively and non-covalently with pyridoxal 5' phosphate, 3-hydroxy-5-(hydroxymethyl)-2-methyl4-pyridine carboxaldehyde 5' phosphate, the biologically active form of vitamin B6. |
Expression pattern of LotjaGi2g1v0265100.1, powered by ExpAt. For advanced configuration, data transformation and export options, view expression data in the ExpAt application.
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