|Chandra, S - KANSAS STATE UNIV|
|Ohm, J-B - KANSAS STATE UNIV|
|Stearns, M - INTERSTATE BRANDS|
|Piland, S - INTERSTATE BRANDS|
Submitted to: Meeting Abstract
Publication Type: Abstract Only
Publication Acceptance Date: June 12, 2002
Publication Date: October 13, 2002
Citation: Lookhart, G.L., Bean, S., Lyne, R.K., Chung, O.K., Chandra, S., Ohm, J., Stearns, M., Piland, S. 2002. Relationship of insoluble polymeric proteins to mixing requirements for flours from commercial mills and individual cultivars. Abstract No. 227 in: 2002 AACC Annual Meeting Program Book. p. 118. Meeting Abstract. Interpretive Summary: Abstract for AACC Annual Meeting to be held October 13-17, 2002 in Montreal, Canada.
Technical Abstract: This project was designed to examine the potential of predicting the mixing properties of commercial flours (CF). Mixing properties of individual cultivars are related to the amount of insoluble polymeric protein (IPP). The IPP of each sample was determined by extracting the soluble proteins and combusting the dried remaining sample for protein content. The CF samples were obtained from 3 commercial mills on a weekly basis for 3 years. The individual cultivars were hard winter wheats from the 95- 98 Wheat Quality Council (WQC). The mixing properties of the CF were evaluated by the Labtron, whereas those of the individual cultivars (WQC samples) were evaluated by the Mixograph. The average % IPP for the two sets were the same, 0.40, with a sd of 0.03. The % IPP of the WQC samples correlated with the mixing time with r values ranging from 0.60 to 0.85 over 4 crop years. In the CF, the % IPP versus Labtron mixing time r values were nearly zero. The range of % IPP values in the CF was narrower than the WQC samples; 0.35 to 0.47 for the CF versus 0.28 to 0.55 for the WQC samples. The lack of variation in the CF supports the conclusion that the three CF mills selected and blended their wheats to produce consistent flours.