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Determining the Role of Starch in Flour Tortilla Staling Using α-Amylase

May 2008 Volume 85 Number 3
Pages 391 — 396
J. Novie Alviola1,2 and Ralph D. Waniska1

Cereal Quality Laboratory, Department of Soil & Crop Sciences, Texas A&M University, College Station, TX 77843-2474. Corresponding author. Phone: 979-845-2925. Fax: 979-845-0456. E-mail address: jnalviola@neo.tamu.edu


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Accepted November 20, 2007.
ABSTRACT

Effects of α-amylase modification on dough and tortilla properties were determined to establish the role of starch in tortilla staling and elucidate the antistaling mechanism of this enzyme. Control and amylase-treated tortillas were prepared using a standard bake test procedure, stored at 22°C, and evaluated over four weeks. Amylase improved shelf-stability of tortillas. The enzyme also produced a significant amount of dextrins and sugars, decreased loss of amylose solubility, and weakened starch granules. Amylopectin crystallinity increased with time, but was similar for the control and treated tortillas. Staling of tortillas appears to mainly involve the starch in the amorphous phase. As such, amylase activity does not significantly interfere with amylopectin crystallization. It is proposed that amylase partially hydrolyzed the dispersed starch (i.e., mostly amylose), starch bridging the crystalline region, and protruding amylopectin branches. Starch hydrolysis decreases the rigid structure and plasticized polymers during storage. The flexibility of tortillas results from the combined functionalities of the amylose gel and amylopectin solidifying the starch granules during storage. Protein functionality may also be involved in tortilla staling, but this needs further research.



© 2008 AACC International, Inc.