ACID-TREATED STARCHES
- 20 July 2000
- journal article
- Published by Taylor & Francis in Food Reviews International
- Vol. 16 (3) , 369-392
- https://doi.org/10.1081/fri-100100292
Abstract
Acids such as HCl and H2SO4 cause scission of the glucosidic linkages, thereby altering the structure and properties of the native starch. The amorphous regions of the starch granule are more susceptible to acid hydrolysis than the crystalline regions. This review summarizes the current knowledge on: (1) the extent of acid hydrolysis of starches from different botanical origins; (2) the changes in molar mass, crystallinity, viscosity, gel rigidity and gelatinization transition temperatures on acid hydrolysis; (3) the effect of annealing, heat–moisture treatment, high pressure, and amylose-complexed lipids on the rate and extent of acid hydrolysis and; (4) the mechanism of acid hydrolysis in an alcoholic media.Keywords
This publication has 24 references indexed in Scilit:
- Gelation of Waxy Barley Starch HydrolysatesJournal of Cereal Science, 1997
- Branch-structure difference in starches of A- and B-type X-ray patterns revealed by their Naegeli dextrinsCarbohydrate Research, 1997
- THE EFFECT OF ANNEALING ON THE PHYSICOCHEMICAL PROPERTIES OF WHEAT, OAT, POTATO AND LENTIL STARCHESJournal of Food Biochemistry, 1993
- Studies on the physicochemical properties of native, defatted, and heat-moisture treated pigeon pea (Cajanus cajan L) starchCarbohydrate Research, 1993
- The structure of four waxy starches related to gelatinization and retrogradationCarbohydrate Research, 1992
- The effect of lintnerisation on wheat and potato starch granulesCarbohydrate Polymers, 1984
- Structural features of naegeli amylodextrin as indicated by enzymic degradationCarbohydrate Research, 1980
- Nägeli amylodextrin and its relationship to starch granule structure. I. Preparation and properties of amylodextrins from various starch typesBiopolymers, 1971
- Studien über DiastaseJournal für Praktische Chemie, 1886
- Beiträge zur näheren Kenntniss der StärkegruppeEuropean Journal of Organic Chemistry, 1874