May
2003
Volume
80
Number
3
Pages
304
—
309
Authors
Byung-Kee
Baik
1
,
2
and
Mee-Ryung
Lee
1
Affiliations
Assistant professor and graduate research assistant, respectively, Department of Food Science and Human Nutrition, Washington State University, Pullman, WA 99164-6376.
Corresponding author. Phone: (509) 335-8230. E-mail: bbaik@wsu.edu. Fax: (509) 335-4815.
Go to Article:
RelatedArticle
Accepted December 10, 2002.
Abstract
ABSTRACT
White salted noodles were prepared through reconstitution of fractionated flour components with blends of waxy and regular wheat starches to determine the effects of amylose content on textural properties of white salted noodles without interference of protein variation. As the proportion of waxy wheat starch increased from 0 to 52% in starch blends, there were increases in peak viscosity from 210 to 640 BU and decreases in peak temperature from 95.5 to 70.0°C. Water retention capacity of waxy wheat starches (80–81%) was much higher than that of regular wheat starch (55–62%). As the waxy wheat starch ratio increased in the starch blends, there were consistent decreases in hardness of cooked noodles prepared from reconstituted flours, no changes in springiness and increases in cohesiveness. White salted noodles produced from blends of regular and waxy wheat flours became softer as the proportion of waxy wheat flour increased, even when protein content of flour blends increased. Amylose content of starch correlated positively with hardness and negatively with cohesiveness of cooked white salted noodles. Protein content of flour blends correlated negatively with hardness of cooked noodles, which were prepared from blends of regular (10.5% protein) and waxy wheat flours (> 16.4% protein).
JnArticleKeywords
ArticleCopyright
© 2003 American Association of Cereal Chemists, Inc.