Publication no. C-2000-0209-07R |  VIEW ARTICLE

Morphological Changes of Granules of Different Starches by Surface Gelatinization with Calcium Chloride.

Kristine Koch (1,2) and Jay-Lin Jane (3). (1) Department of Food Science, Swedish University of Agricultural Sciences, Box 7051, 750 07 Uppsala, Sweden. (2) Corresponding author. Phone: 46 18 67 20 48. Fax: +46 18 67 29 95. E-mail: <Kristine.Koch@lmv.slu.se> (3) Department Food Science and Human Nutrition, Iowa State University, Ames, IA 50011. Cereal Chem. 77(2):115-120. Accepted December 10, 1999. Copyright 2000 American Association of Cereal Chemists, Inc.

Native starch granules of 11 selected cultivars (potato, waxy potato, sweet potato, normal maize, high-amylose maize, waxy maize, wheat, normal barley, high-amylose barley, waxy barley, and rice) were treated with a calcium chloride solution (4M) for surface gelatinization. The surface-gelatinized starch granules were investigated using light microscopy and scanning electron microscopy (SEM) and differential scanning calorimetry (DSC). In general, those starches with larger granule sizes required longer treatment time to complete the gelatinization. The salt solution treatment of starch was monitored by light microscopy and stopped when the outer layer of the granule was gelatinized. The surface gelatinized starch granules were studied using scanning electron microscopy. On the basis of the gelatinization pattern from calcium chloride treatments, the starches could be divided into three groups: 1) starches with evenly gelatinized granule surface, such as normal potato, waxy potato, sweet potato, maize, and high-amylose maize; 2) starches with salt gelatinization concentrated on specific sites of the granule (i.e., equatorial groove), such as wheat, barley, and high-amylose barley; and 3) starches that, after surface gelatinization, can no longer be separated to individual granules for SEM studies, such as waxy barley, waxy maize, and normal rice. The morphology of the surface gelatinized starch resembled that of enzyme-hydrolyzed starch granules.