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United States Department of Agriculture

Agricultural Research Service

Project Type: Appropriated

Start Date: Oct 01, 2009
End Date: Jun 30, 2010

Determine roles and interactions of the major biochemical components of cereals (starch, non-starch carbohydrates, storage proteins and enzymes) as they relate to food quality and functionality, while defining the environmental impact upon functional properties of biochemical components that affect end-use properties, then applying that information generated to the development and improvement of methods to rapidly predict grain quality.

Isolate large quantities of starch, separate into size fractions for baking and chemical testing. Continue testing the correction model for starch size distributions on the LDS. Initiate bake studies using reconstituted gluten and starch fractions. Begin testing, amylose /amylopectin ratios, pasting profiles, DSC temperatures and lipids of A, B, and C-type starch fractions. Complete chemical analysis of the starch fractions. Correlation analysis comparing bake data, starch size distributions and chemical analysis. Identify wheat of different oxidation requirements and determine effect of oxidative enzymes and transglutaminase upon quality characteristics. Begin biochemical analysis on the effect of enzymes on protein interactions. Characterize enzyme effects on protein interactions between glutenin and albumins. Characterize effect of HMW-GS contribution of wheat on enzyme mediated crosslinking. Identify and begin to collect wheat samples to represent various growing environments. Begin isolating starch for analysis. Use LDS and our correction model to detect environmental differences in starch ratios. Isolate the starch fractions from different environments for chemical analysis. Compare starch size distributions and chemical analysis to different environments. Characterize by RP-HPLC and SEC-HPLC, the protein fractions of the various near- isogenic lines that are produced in year 1 study by our collaborators. Relate the period of formation and amount of particular glutenin (polymeric) and gliadin (monomeric) proteins to the HMW-GS in the various near-isogenic lines. Correlate information obtained in this year 1and 2 study with the data on bread or tortilla quality characteristics, provided by the HWWQL. Characterize the protein fractions of the various near-isogenic lines that were produced by our collaborators. Determine the sizes of the polymeric fractions and the MW distributions of the polymeric proteins. Relate polymer sizes and molecular weight distributions to quality characteristics, provided by the HWWQL. Determine if particular proteins are markers for quality traits. Develop inexpensive lab-on-a-chip technology to extract and separate wheat gliadins in less than 1 min. Develop lab-on-a-chip system to extract, separate and identify wheat varieties in seconds. Develop a portable lab-on-a-chip system to extract, separate wheat proteins, and identify wheat varieties and/or the quality of wheat varieties or mixtures in seconds.

Last Modified: 5/30/2015
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