Α-Glucosidase Explained

α-Glucosidase
Ec Number:3.2.1.20
Cas Number:9001-42-7

α-Glucosidase ((systematic name α-D-glucoside glucohydrolase) is a glucosidase located in the brush border of the small intestine that acts upon α(1→4) bonds:[1] [2] [3] [4] [5]

Hydrolysis of terminal, non-reducing (1→4)-linked α-D-glucose residues with release of D-glucose

This is in contrast to β-glucosidase.

Terminology

GO:0090599, the broad sense

The Gene Ontology entry GO:0090599 represents the broad sense of "alpha-glucosidase". It is defined as "catalysis of the hydrolysis of terminal, non-reducing alpha-linked alpha-D-glucose residue with release of alpha-D-glucose." In this sense, "alpha-glucosidase" can encompass a wide range of enzyme activitiess, differing by the linkage of their terminal (1→3, 1→4, or 1→6), the specific identity of their substrate (sucrose, maltose, or starch), among other aspects.[6]

EC 3.2.1.20, the narrow sense

The definition associated with Enzyme Commission number 3.2.1.20 is narrower. It requires the linkage to be 1→4, and the preferred substrate to be smaller oligosaccharides (as opposed to larger polysaccharides like starch: alpha-amylase would otherwise be included). Human genes that produce enzymes with activities specified by this EC number include:[7]

Synonyms mentioned by the Commission include maltase, glucoinvertase, glucosidosucrase, maltase-glucoamylase, α-glucopyranosidase, glucosidoinvertase, α-D-glucosidase, α-glucoside hydrolase, α-1,4-glucosidase, α-D-glucoside glucohydrolase.[8] These names are not recommended because they may only refer to a specific activity of the enzyme, or a specific protein having this acvitity.

Mechanism

α-Glucosidase hydrolyzes terminal non-reducing (1→4)-linked α-glucose residues to release a single α-glucose molecule. α-Glucosidase is a carbohydrate-hydrolase that releases α-glucose as opposed to β-glucose. β-Glucose residues can be released by glucoamylase, a functionally similar enzyme. The substrate selectivity of α-glucosidase is due to subsite affinities of the enzyme's active site. Two proposed mechanisms include a nucleophilic displacement and an oxocarbenium ion intermediate.

Structure

α-Glucosidases can be divided, according to primary structure, into two families.The gene coding for human lysosomal α-glucosidase is about 20 kb long and its structure has been cloned and confirmed.

Disease relevance

See also

Some other glucosidases:

Notes and References

  1. Further kinetic and structural characterization of the lysosomal α-D-glucoside glucohydrolase from cattle liver . Bruni, C.B. . Sica, V. . Auricchio, F. . Covelli, I. . Biochim. Biophys. Acta . 1970 . 212 . 470–477 . 5466143 . 3 . 10.1016/0005-2744(70)90253-6.
  2. Purification of rat intestinal maltase/glucoamylase and its anomalous dissociation either by heat or by low pH . Flanagan, P.R. . Forstner, G.G. . Biochem. J. . 1978 . 173 . 553–563 . 29602 . 2 . 1185809. 10.1042/bj1730553 .
  3. Book: Other glucosidases . The Enzymes . Larner, J. . 1960 . 4 . 369–378 . Boyer, P.D. . Lardy, H. . Myrback, K. . 2nd . Academic Press . New York .
  4. Purification of rabbit intestinal glucoamylase by affinity chromatography on Sephadex G-200 . Sivikami, S. . Radhakrishnan, A.N. . Indian J. Biochem. Biophys. . 1973 . 10 . 283–284 . 4792946 . 4.
  5. Amphiphilic pig intestinal microvillus maltase/glucoamylase. Structure and specificity . Sørensen, S.H. . Norén, O. . Sjöström, H. . Danielsen, E.M. . Eur. J. Biochem. . 1982 . 126 . 3 . 559–568 . 6814909 . 10.1111/j.1432-1033.1982.tb06817.x.
  6. Web site: alpha-glucosidase activity Gene Ontology Term (GO:0090599) . www.informatics.jax.org. See: Definition, GO Tree View.
  7. Web site: ENZYME - 3.2.1.20 alpha-glucosidase . enzyme.expasy.org . Group of enzymes whose specificity is directed mainly toward the exohydrolysis of 1,4-alpha-glucosidic linkages, and that hydrolyze oligosaccharides rapidly, relative to polysaccharides, which are hydrolyzed relatively slowly, or not at all..
  8. Web site: ExplorEnz: EC 3.2.1.20 . www.enzyme-database.org.