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Wheat Proteins Extracted from Flour and Batter with Aqueous Ethanol at Subambient Temperatures

September 2007 Volume 84 Number 5
Pages 497 — 501
George H. Robertson,1,2 Trung K. Cao,1 and William J. Orts1

United States Department of Agriculture, Pacific West Area, Western Regional Research Center, 800 Buchanan Street, Albany, CA 94710. Corresponding author. E-mail: grobertson@pw.usda.gov


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Accepted May 25, 2007.
ABSTRACT

Contact of wheat flour with aqueous ethanol may enrich protein by starch displacement or deplete protein by extraction depending on 1) extraction conditions and 2) the form of the substrate. Extraction at subambient temperatures has not been described for specific gliadins for either dry flour with the protein in native configurations or for wet, developed batter or dough. This limits the ability to interpret technologies such as the cold-ethanol method. Here, we describe specific albumin and gliadin composition of flour extracts by capillary zone electrophoresis CZE in 0–100% (v/v) ethanol from –12 to 22°C. Extraction was reduced for albumin and gliadin protein as the temperature was reduced and the concentration range for extraction narrowed. Extraction dropped precipitously between 0 and –7°C for both albumins and gliadins. Electrophoretically defined gliadins extracted in constant proportion at 22°C and 30–80%(v/v) ethanol, but at lower temperature, the α-gliadins were enriched and β-gliadins depleted in the 30–55% (v/v) range. For extracts from wheat flour batter, depletion of α and β and enrichment of γ relative to the dry flour contact suggested that the electrophoretically slow migrating γ- and ω-proteins are less well incorporated to the dough matrix than electrophoretically fast migrating α and β types.



This article is in the public domain and not copyrightable. It may be freely reprinted with customary crediting of the source. AACC International, Inc., 2007.