September
1997
Volume
74
Number
5
Pages
511
—
518
Authors
Mark R.
Jacobson
,
2
,
3
Mohamed
Obanni
,
2
,
4
and
James N.
Bemiller
2
,
5
Affiliations
Journal paper 15345 of Agricultural Research Programs, Purdue University.
Whistler Center for Carbohydrate Research, 1160 Smith Hall, Purdue University, West Lafayette, IN 47907-1160.
Present address: Nestlé Research and Development Center-Connecticut, 201 Housatonic Ave., New Milford, CT 06776-5528.
Present address: Research and Development, California Natural Products, P.O. Box 1219, Lathrop, CA 95330.
Corresponding author. E-mail: bemiller@foodsci.purdue.edu.
Go to Article:
RelatedArticle
Accepted June 20, 1997.
Abstract
Retrogradation in 2% pastes prepared from unmodified commercial starches by cooking at 98–100°C under low shear, then held at 4°C for 56 days, was examined by turbidometric analysis and light microscopy. Turbidometric analysis revealed that retrogradation rates followed the order of wheat, common corn > rice, tapioca, potato >> waxy maize. Microstructures of stored pastes were examined both before and after centrifugation. Granule remnant morphologies and fresh and stored paste microstructures were unique to each starch examined. Fresh pastes from amylose-containing starches were dominated by networked amylose that condensed into higher density aggregates upon storage. Unique phenomena seen in some stored pastes included interactions of granular remnants with aggregated amylose, composite networks of co-associated amylopectin and amylose, and slight birefringence regained by granule remnants. Microstructural changes in stored pastes could be related to changes in turbidity and to the results of other methods used to quantitate retrogradation.
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ArticleCopyright
© 1997 by the American Association of Cereal Chemists, Inc.
