ACL_RS03330
| Uniprot: A9NG03
Description: alpha-amylase EC number: 3.2.1.1 Annotation score: 2 out of 5 Miscellaneous [CC]: Protein existence: Inferred from homology Catalytic activity: CATALYTIC ACTIVITY: Endohydrolysis of (1->4)-alpha-D-glucosidic linkages in polysaccharides containing three or more (1->4)-alpha-linked D-glucose units. {ECO:0000256|RuleBase:RU361134}. Cofactor: Enzyme regulation: Function [CC]: Pathway: Active site: Binding site: Calcium binding: DNA binding: Metal binding: Nucleotide binding: Site: Gene names (primary): amyA1 Gene names (synonym): Mass: 58,640 Subunit structure [CC]: Gene ontology (GO): alpha-amylase activity [GO:0004556]; cation binding [GO:0043169]; carbohydrate metabolic process [GO:0005975] Gene ontology IDs: GO:0004556; GO:0005975; GO:0043169 Chain: CHAIN 26 520 Alpha-amylase. {ECO:0000256|SAM:SignalP}. /FTId=PRO_5002738736. Signal peptide: SIGNAL 1 25 {ECO:0000256|SAM:SignalP}. Domain [CC]: Sequence similarities: SIMILARITY: Belongs to the glycosyl hydrolase 13 family. {ECO:0000256|RuleBase:RU361134}. Protein families: Glycosyl hydrolase 13 family Coiled coil: Domain [FT]: DOMAIN 45 435 Aamy. {ECO:0000259|SMART:SM00642}. Motif: Region: EMBL: CP000896 ProteinModelPortal: A9NG03 MEROPS: EnsemblBacteria KO: ABX81283 UniPathway: CDD: Gene3D: HAMAP: 3.20.20.80 InterPro: PANTHER: IPR006046;IPR015902;IPR006047;IPR013781;IPR017853 PIRSF: PTHR10357 PRINTS: PROSITE: PR00110 Pfam: ProDom: PF00128 SMART: SUPFAM: SM00642 TIGRFAMs: SSF51445 |
|
|
699407-700970(-) >nucleotide sequence AGGTAACTCTAAGTTGCCATAAAGTAGTTTTACGTAGTCAACATCAACTGTTTTAGTAGT AGAAGTCATATTATGTATCACTAGTACTGTTTGTCCTTCACCTTCAAATTCATAGTGTCT TACATAGCCTTGTAGAGAAGAGGTATTTTCATTCCAAGCTTTTAAGAAGTTACCATACAT TAATCCCGGATTATCTTTTCTTAAGTTCGCTAGTGCTTTATAGTGGTTTAATAAGGAGTT TGGGTTTTCAAGTTGTGTAGCAACACTAGGCGCACTATTACTTCCATTATAAGGGTTTAA CCAAGTAGTAGTTTTAGATGCATCACCCCAAATAAATGGTGCTCTTCTATATTGATCATA AACTGTACCTTGTCCAACATCTATACCTTCGTATCTTGTACCTGTCATACCTAATTCTTC ACCGTAATAAATGTGAGGTGAACCAGGTAGTGTTAATGTTACACTTGCTGCTAATTTTAA TTTTTCTAATCCCATTGGACCGCTAAATTGACCGAATGATGCAATACGATCTAAATCGTG ATTACTAATAAATATTCCAGGTGCATAATTTGCATTATATGGTCTATAGGTATTGAATGC ACGTTCAATATTAGATACAAAGAGTCTAGAGTCTGTACCATGACCTACTTTACCCCAAAT TTCATTTGCTACATAGAAATCAAATAATGAATCTAGACCGATATAGTAATTTTGTACTGC ACTGTATTCATAATCAAATACTTCACCTAAGAATAAAACACCCGGATCATTTTGTCTTGC ATGTGTTTGTAAGCTTCTTAAGAACTCATGTGTTTTAGATGCCATAACAGCAGGATTTGT GCCCGGATCACCAATAAACAAGTGTTTAGCTGCATCAAATCTAAATCCAGTAATACCTTT ATCTTGCCAAAATGTAATAATGTTTTTAACTTCTTCTACAACTTCTTCATTTTGAAGATT TAAATCTTTCATACCACCCGCAAATGATTCAAAAGCAGTAGAAGGAGTTTGCCAAATATA CCAATCTCTATAAGGAGATGTGGATGCGTTATCTTGAGCATCTACAAACCAAGGGTGTGT ATCAGAGGTATGATTTATGACCAAGTCCATCATAACGCGCATTTTGCGTGTTTTTGCCTC ACTTATAAGGTTTTCTAAGTCATCCATCGTGCCATACTCAGTATTGACGTCATAATAGTC TGTAATTCGGTATCCATGATGTGAACCAAAATCTAGATCAGTTTCATTAAATGGCATCAT CCAAATTGCAGTAACACCTAAATCTTCTAAATAATCAAGATTTTGTGTTACACCATTAAA GTCACCAATACCATCGCCATCACTATCCGCAAAAGAACGTATAAATATCTCATAATAGAT ATCATTTCTTGGGTTTTCTGCTCTTAAATCAACTTTGTTATCACCTTCACCATTACTTGG TGTACAAGCAATGAGTAGGCCTACCATCGCTAATAAAGTAAATAGACTCAATATTTTTTT CAT >protein sequence DFNGVTQNLDYLEDLGVTAIWMMPFNETDLDFGSHHGYRITDYYDVNTEYGTMDDLENLI SEAKTRKMRVMMDLVINHTSDTHPWFVDAQDNASTSPYRDWYIWQTPSTAFESFAGGMKD LNLQNEEVVEEVKNIITFWQDKGITGFRFDAAKHLFIGDPGTNPAVMASKTHEFLRSLQT HARQNDPGVLFLGEVFDYEYSAVQNYYIGLDSLFDFYVANEIWGKVGHGTDSRLFVSNIE RAFNTYRPYNANYAPGIFISNHDLDRIASFGQFSGPMGLEKLKLAASVTLTLPGSPHIYY GEELGMTGTRYEGIDVGQGTVYDQYRRAPFIWGDASKTTTWLNPYNGSNSAPSVATQLEN PNSLLNHYKALANLRKDNPGLMYGNFLKAWNENTSSLQGYVRHYEFEGEGQTVLVIHNMT STTKTVDVDYVKLLYGNLELPAYGTIVLEIDSAKINDYIS |
© Fisunov Lab of Proteomics, 2016.