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'Amylase' is the name given to glycoside hydrolase enzymes that break down starch into glucose molecules. Although the amylases are designated by different Greek letters, they all act on α-1,4-glycosidic bonds. Under the original name of ''diastase'', amylase was the first enzyme to be found and isolated (by Anselme Payen in 1833).

Contents

Classification

α-Amylase

β-Amylase

γ-Amylase

Uses

References

External links

Classification

α-Amylase

:''See main article at alpha-Amylase''
() (CAS# 9014-71-5) (alternate names: 1,4-α-D-glucan glucanohydrolase; glycogenase)
The α-amylases are calcium metalloenzymes, completely unable to function in the absence of calcium. By acting at random locations along the starch chain, α-amylase breaks down long-chain carbohydrates, ultimately yielding maltotriose and maltose from amylose, or maltose, glucose and "limit dextrin" from amylopectin. Because it can act anywhere on the substrate, α-amylase tends to be faster acting than β-amylase. In animals, it is a major digestive enzyme.
In human physiology, both the salivary and pancreatic amylases are α-Amylases. They are discussed in much more detail at alpha-Amylase.

β-Amylase

() (alternate names: 1,4-α-D-glucan maltohydrolase; glycogenase; saccharogen amylase)
Another form of amylase, β-amylase is also synthesized by bacteria, fungi and plants. Working from the non-reducing end, β-amylase catalyzes the hydrolysis of the second α-1,4 glycosidic bond, cleaving off two glucose units (maltose) at a time. During the ripening of fruit, β-amylase breaks starch into sugar, resulting in the sweet flavor of ripe fruit. Both are present in seeds; β-amylase is present prior to germination whereas α-amylase and proteases appear once germination has begun. Cereal grain amylase is key to the production of malt. Many microbes also produce amylase to degrade extracellular starches. Animal tissues do not contain β-amylase, although it may be present in microrganisms contained within the digestive tract.

γ-Amylase

() (alternative names: Glucan 1,4-α-glucosidase; amyloglucosidase; Exo-1,4-α-glucosidase; glucoamylase; lysosomal α-glucosidase; 1,4-α-D-glucan glucohydrolase)
In addition to cleaving the last α(1-4)glycosidic linkages at the nonreducing end of amylose and amylopectin, yielding glucose, γ-amylase will cleave α(1-6) glycosidic linkages.

Uses

Amylase enzymes are used extensively in bread making to break down complex sugars such as starch (found in flour) into simple sugars. Yeast then feeds on these simple sugars and converts it into the waste products of alcohol and CO₂. This imparts flavour and causes the bread to rise. While Amylase enzymes are found naturally in yeast cells, it takes time for the yeast to produce enough of these enzymes to break down significant quantities of starch in the bread. This is the reason for long fermented doughs such as sour dough. Modern bread making techniques have included amyalse enzymes into bread improver thereby making the bread making process faster and more practical for commercial use.
Bacilliary amylase is also used in detergents to dissolve starches from fabrics.
Workers in factories that work with amylase for any of the above uses are at increased risk of occupational asthma. 5-9% of bakers have a positive skin test, and a fourth to a third of bakers with breathing problems are hypersensitive to amylase. ^[1]
An inhibitor of alpha-amylase called Phaseolamin has been tested as a potential diet aid. ^[2]

References

1. Mapp CE. Agents, old and new, causing occupational asthma. ''Occup Environ Med'' 2001;58:354-60. PMID 11303086.
2. Blocking carbohydrate absorption and weight loss: a clinical trial using Phase 2 brand proprietary fractionated white bean extract., Udani J, Hardy M, Madsen DC., , , Alternative medicine review,

Tietz Textbook of Clinical Chemistry, 3rd ed., , Carl A., Burtis, W. B. Saunders Company, , ISBN 0-7216-5610-2

External links

★ Molecule of the month February 2006 at the Protein Data Bank.

★ Nutrition Sciences 101 at University of Arizona.