Maltogenic alpha-amylase
Details
- Name
- Maltogenic alpha-amylase
- Synonyms
- 3.2.1.133
- Glucan 1,4-alpha-maltohydrolase
- Gene Name
- amyM
- Organism
- Geobacillus stearothermophilus
- Amino acid sequence
>lcl|BSEQ0011167|Maltogenic alpha-amylase MKKKTLSLFVGLMLLIGLLFSGSLPYNPNAAEASSSASVKGDVIYQIIIDRFYDGDTTNN NPAKSYGLYDPTKSKWKMYWGGDLEGVRQKLPYLKQLGVTTIWLSPVLDNLDTLAGTDNT GYHGYWTRDFKQIEEHFGNWTTFDTLVNDAHQNGIKVIVDFVPNHSTPFKANDSTFAEGG ALYNNGTYMGNYFDDATKGYFHHNGDISNWDDRYEAQWKNFTDPAGFSLADLSQENGTIA QYLTDAAVQLVAHGADGLRIDAVKHFNSGFSKSLADKLYQKKDIFLVGEWYGDDPGTANH LEKVRYANNSGVNVLDFDLNTVIRNVFGTFTQTMYDLNNMVNQTGNEYKYKENLITFIDN HDMSRFLSVNSNKANLHQALAFILTSRGTPSIYYGTEQYMAGGNDPYNRGMMPAFDTTTT AFKEVSTLAGLRRNNAAIQYGTTTQRWINNDVYIYERKFFNDVVLVAINRNTQSSYSISG LQTALPNGSYADYLSGLLGGNGISVSNGSVASFTLAPGAVSVWQYSTSASAPQIGSVAPN MGIPGNVVTIDGKGFGTTQGTVTFGGVTATVKSWTSNRIEVYVPNMAAGLTDVKVTAGGV SSNLYSYNILSGTQTSVVFTVKSAPPTNLGDKIYLTGNIPELGNWSTDTSGAVNNAQGPL LAPNYPDWFYVFSVPAGKTIQFKFFIKRADGTIQWENGSNHVATTPTGATGNITVTWQN
- Number of residues
- 719
- Molecular Weight
- 78675.13
- Theoretical pI
- 5.95
- GO Classification
- Functionsglucan 1,4-alpha-maltohydrolase activity / metal ion binding / starch bindingProcessescarbohydrate metabolic process
- General Function
- Starch binding
- Specific Function
- Converts starch into maltose.
- Pfam Domain Function
- Transmembrane Regions
- Not Available
- Cellular Location
- Cytoplasmic
- Gene sequence
>lcl|BSEQ0003250|2154 bp ATGAAAAAGAAAACGCTTTCTTTATTTGTGGGACTGATGCTCCTCATCGGTCTTCTGTTC AGCGGTTCTCTTCCGTACAATCCAAACGCCGCTGAAGCCAGCAGTTCCGCAAGCGTCAAA GGGGACGTGATTTACCAGATTATCATTGACCGGTTTTACGATGGGGACACGACGAACAAC AATCCTGCCAAAAGTTATGGACTTTACGATCCTACCAAATCGAAGTGGAAAATGTATTGG GGCGGGGATCTGGAGGGGGTTCGTCAAAAACTTCCTTATCTTAAACAGCTGGGCGTAACG ACAATCTGGTTGTCCCCGGTTTTGAACAATCTGGATACACTGGCGGGCACCGATAACACG GGCTATCACGGATACTGGACGCGCGATTTTAAACAGATTGAGGAACATTTCGGGAATTGG ACCACATTTGACACGTTGGTCAATGATGCTCACCAAAACGGAATCAAGGTGATTGTCGAC TTTGTGCCCAATCATTCGACTCCTTTTAAGGCAAACGATTCCACCTTTGCGGAAGGCGGC GCCCTCTACAACAATGGAACCTATATGGGCAATTATTTTGATGACGCAACAAAAGGGTAC TTCCACCATAATGGGGACATCAGCAACTGGGACGACCGGTACGAGGCGCAATGGAAAAAC TTCACGGATCCAGCCGGTTTCTCGCTTGCCGATTTGTCGCAGGAAAATGGCACGATTGCT CAATACCTGACCGATGCGGCGGTTCAATTGGTAGCACATGGTTTGCGGATTGATGCGGTG AAGCATTTTAATTCGGGGTTCTCCAAATCGTTGGCCGATAAACTGTACCAAAAGAAAGAC ATTTTCCTGGTGGGGGAATGGTACGGAGATGACCCCGGAACAGCCAATCATCTGGAAAAG GTCCGGTACGCCAACAACAGCGGTGTCAATGTGCTGGATTTTGATCTCAACACGGTGATT CGAAATGTGTTCGGCACATTTACGCAAACGATGTACGATCTTAACAATATGGTGAACCAA ACGGGGAACGAGTACAAATACAAAGAAAATCTAATCACATTTATCGATAACCATGATATG TCAAGATTTCTTTCGGTAAATTCGAAGAACAAGGCGAATTTGCACCAGCGCTTGCTTTCA TTCTCACTTCGCGGGGTACGCCCTCCCATCTATTATGGAACCGAACAATACATGGCAGGC GGCAATGACCCGTACAACCGGGGGATGATGCCGGCGTTTGATACGACAACCACCGCCTTT AAAGAGGTGTCAACTCTGGCGGGGTTGCGCAGGAACAATGCGGCGATCCAGTACGGCACC ACCACCCAGCGCTGGATCAACAATGATGTTTACATTTATGAACGGAAATTTTTCAACGAT GTCGTGTTGGTGGCCATCAATCGAAACACGCAATCCTCCTATTCGATTTCCGGTTTGCAG ACGGCCTTGCCAAATGGCAGCTATGCGGATTATCTGTCAGGGCTGTTGGGGGGGAACGGG ATTTCCGTTTCCAATGGAAGTGTCGCTTCGTTCACGCTTGCGCCTGGAGCCGTGTCTGTT TGGCAGTACAGCACATCCGCTTCAGCGCCGCAAATCGGATCGGTTGCTCCAAATATGGGG ATTCCGGGTAATGTGGTCACGATCGACGGGAAAGGTTTTGGGACGACGCAGGGAACCGTG ACATTTGGCGGAGTGACAGCGACTGTGAAATCCTGGACATCCAATCGGATTGAAGTGTAC GTTCCCAACATGGCCGCCGGGCTGACCGATGTGAAAGTCACCGCGGGTGGAGTTTCCAGC AATCTGTATTCTTACAATATTTTGAGTGGAACGCAGACATCGGTTGTGTTTACTGTGAAA AGTGCGCCTCCGACCAACCTAGGGGATAAGATTTACCTGACGGGCAACATACCGGAATTG GGGAATTGGAGCACGGATACGAGCGGAGCCGTTAACAATGCGCAAGGGCCCCTGCTCGCG CCCAATTATCCGGATTGGTTTTATGTATTCAGCGTTCCAGCAGGAAAGACGATTCAATTC AAGTTCTTCATCAAGCGTGCGGATGGAACGATTCAATGGGAGAATGGTTCGAACCACGTG GCCACAACTCCCACGGGTGCAACCGGTAACATTACTGTTACGTGGCAAAACTAG
- Chromosome Location
- Not Available
- Locus
- Not Available
- External Identifiers
Resource Link UniProtKB ID P19531 UniProtKB Entry Name AMYM_GEOSE GenBank Protein ID 142501 GenBank Gene ID M36539 - General References
- Dauter Z, Dauter M, Brzozowski AM, Christensen S, Borchert TV, Beier L, Wilson KS, Davies GJ: X-ray structure of Novamyl, the five-domain "maltogenic" alpha-amylase from Bacillus stearothermophilus: maltose and acarbose complexes at 1.7A resolution. Biochemistry. 1999 Jun 29;38(26):8385-92. [Article]