ACL_RS02650
| Uniprot: A9NFL6
Description: glycogen phosphorylase EC number: 2.4.1.1 Annotation score: 2 out of 5 Miscellaneous [CC]: Protein existence: Inferred from homology Catalytic activity: CATALYTIC ACTIVITY: ((1->4)-alpha-D-glucosyl)(n) + phosphate = ((1->4)-alpha-D-glucosyl)(n-1) + alpha-D-glucose 1-phosphate. {ECO:0000256|RuleBase:RU000587}. Cofactor: COFACTOR: Name=pyridoxal 5'-phosphate; Xref=ChEBI:CHEBI:597326; Evidence={ECO:0000256|RuleBase:RU000587}; Enzyme regulation: Function [CC]: FUNCTION: Phosphorylase is an important allosteric enzyme in carbohydrate metabolism. Enzymes from different sources differ in their regulatory mechanisms and in their natural substrates. However, all known phosphorylases share catalytic and structural properties. {ECO:0000256|RuleBase:RU000587}. Pathway: Active site: Binding site: Calcium binding: DNA binding: Metal binding: Nucleotide binding: Site: Gene names (primary): glgP Gene names (synonym): Mass: 91,863 Subunit structure [CC]: Gene ontology (GO): glycogen phosphorylase activity [GO:0008184]; pyridoxal phosphate binding [GO:0030170]; carbohydrate metabolic process [GO:0005975] Gene ontology IDs: GO:0005975; GO:0008184; GO:0030170 Chain: Signal peptide: Domain [CC]: Sequence similarities: SIMILARITY: Belongs to the glycogen phosphorylase family. {ECO:0000256|RuleBase:RU004179}. Protein families: Glycogen phosphorylase family Coiled coil: Domain [FT]: Motif: Region: EMBL: CP000896 ProteinModelPortal: A9NFL6 MEROPS: EnsemblBacteria KO: ABX81146 UniPathway: K00688 CDD: Gene3D: HAMAP: InterPro: PANTHER: IPR011833;IPR000811 PIRSF: PTHR11468 PRINTS: PIRSF000460 PROSITE: Pfam: PS00102 ProDom: PF00343 SMART: SUPFAM: TIGRFAMs: |
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558850-561229(+) >nucleotide sequence AATCTATTCAATAAAAGAATAGAAACAGCAACATTATATGAAAAGTATGCAGCATTAGCT TCATTACTTGATAAACAACTAGAGAATGACTACGAAGCAACTACGGAATATGTAGAGAAA AACAATCTAAAGAAAACTATTTATTTTTCAATGGAGTTCTTAATGGGTCGTTTGATCACA TCTAACCTCATGAACTCAGGTTATGCGGATGTTGTAAAAGCAGCATTTGATGATTTTGGA TATGATTTAAATGAAATTGAACTTGCAGAAACAGATGCAGGACTTGGTAATGGAGGATTA GGTCGATTAGCGGCTTGTTTCCTTGATTCAGCAGCATCATTATCATTACCTTTTTATGGT AATTCACTAAGATATAAAAAAGGATTCTTTGTTCAAAGATTCGAAAACGACAAACAAAGA GAATATCCAGACCCTTGGTTAGATAAACCATTTTATTGGGAAGAAAGAAAAGAACAAGAA GCTATCCACATTCCATATTTTGGTTATGTAAAAGATACTAAATTAATTGATCCTGTATGG GTTAAAGCTGTACCTTATGATGTTAAAGTTGTTGGTGCTGGTAATGGTGTAATTACGCAT CTTAGATTATGGTCAGCTGAAAAGAGTGAATTACATCCATATCATGATGAAGAATATCTA AAAATGGTTTCTAAAATCACTGAATCATTATACCCAGATGACTCTACTGAAGCGGGGAAA ACATTAAGATTACAACAACAATACCTATTCTCAGCAGCAGGTATTAAATCAGTTATTTTA GAGCATAAACGTTTAGGTCGTGATATTAAAGACTTACATAAATATTATGTATTCCAAGTA AATGACACCCACCCAACATTAATTATTCCTGAATTAATGCGTATCTTAATGGATGAAGAA AACTTAGGTTATGATGAATCATGGGATATTGTGACACAATCAGTAGCATATACAAACCAT ACAATTTTATCTGAAGCATTAGAAAAATGGAATATTAAGATCTTTAGAAACTTATTACCT AGAGCATTTGAGATCGTTCAAGAAATGAACCGTCGTTTCAAAATTGTTTTAGAAGAAGCT AAAGTACCACAAGAAAAAATATATCAAATGCAATTAATTGGTGCTAACAATGTACGTATG GCAAATATTTGTATCTACGGATCGTTTTCAGTGAACGGTGTTGCTGCATTACATACTGAT ATTTTAAAGAACATTGAACTTAATGACTTCTATAAATTATATCCATCTAAATTTAATAAT AAGACTAACGGCATTACCCACCGTAGATGGTTATTACATATCAACCATGAATTAACTGAT ATACTTGATAACTTATTAGGCAGCAAAGCATGGCATAAAGACTTAAGTTTAATTAAAGGA CTAGAACAATTTAAAGATGATCTAAAAGTCCAAAAAATGATTAAAGACATGAAGTTATCT AAGAAACGTGCACTCATTCAAAAGATCAAAAAAGATACAGGTATACTTCTTGATGAAAAT GCTATTTTTGACATTCAAATCAAACGTCTACACGAGTATAAACGTCAATTACTAAATATC TTGAATATTATTTATACATATCAAAGACTAAAAACAGACATGGAATTCAAAAAGAATTTC CATCCACAAAACTTTATCTTTGGTGCTAAAGCAGCACCTTCATATGTGATGGCTAAAGGT ATTATTGAATTAATTAATAAAACGAGCCATGTCATAAATAATGATACCGATACAAACAAG TTACTTAAAGTTGTCTTTGTAGAAAACTATAATGTAACTTATGCTGAATACTTATTTCCA GCTGCAGATTTATCTGAACAAATTTCTACTGCATCTAAAGAAGCAAGTGGAACAGGTAAT ATGAAGTTCATGCTAAATGGTGCTGTAACCATTGGTACAATGGACGGTGCAAACGTAGAA ATTGTTAAAGAAGCAGGTATGGAAAATAACATCATCTTTGGTTTATCCTCAGATGAGGTA AATAGCATCTATAAAAACAACGGATACAAACCTAGACAAATTTATGATGAGGATCCAAGA TTACAATCTATATTTGATTTTATTAGAGGATTAACGATTAATCCGACACACTTTGACTTT ATCTTACAAAACCTATTAACATCTGACTACTTCCTAGTATTAAAGGATTTTGATAGTTAC GTTAAAGCACAAGAAAGAGCAAATCAATTATATAAAGACCAAAAACAATGGTGGCATATG GTTATCATGAATATTGCAAATGCTGGCTTCTTTACATCTGATCGTACGATTGCACAATAC AATCAAGACATCTGGCAACTAGAAGAAATCAAAAAATAA >protein sequence NNLKKTIYFSMEFLMGRLITSNLMNSGYADVVKAAFDDFGYDLNEIELAETDAGLGNGGL GRLAACFLDSAASLSLPFYGNSLRYKKGFFVQRFENDKQREYPDPWLDKPFYWEERKEQE AIHIPYFGYVKDTKLIDPVWVKAVPYDVKVVGAGNGVITHLRLWSAEKSELHPYHDEEYL KMVSKITESLYPDDSTEAGKTLRLQQQYLFSAAGIKSVILEHKRLGRDIKDLHKYYVFQV NDTHPTLIIPELMRILMDEENLGYDESWDIVTQSVAYTNHTILSEALEKWNIKIFRNLLP RAFEIVQEMNRRFKIVLEEAKVPQEKIYQMQLIGANNVRMANICIYGSFSVNGVAALHTD ILKNIELNDFYKLYPSKFNNKTNGITHRRWLLHINHELTDILDNLLGSKAWHKDLSLIKG LEQFKDDLKVQKMIKDMKLSKKRALIQKIKKDTGILLDENAIFDIQIKRLHEYKRQLLNI LNIIYTYQRLKTDMEFKKNFHPQNFIFGAKAAPSYVMAKGIIELINKTSHVINNDTDTNK LLKVVFVENYNVTYAEYLFPAADLSEQISTASKEASGTGNMKFMLNGAVTIGTMDGANVE IVKEAGMENNIIFGLSSDEVNSIYKNNGYKPRQIYDEDPRLQSIFDFIRGLTINPTHFDF ILQNLLTSDYFLVLKDFDSYVKAQERANQLYKDQKQWWHMVIMNIANAGFFTSDRTIAQY NQDIWQLEEIKK |
© Fisunov Lab of Proteomics, 2016.