May
2010
Volume
87
Number
3
Pages
190
—
193
Authors
Kim A. Rohlfing,1
Linda M. Pollak,2 and
Pamela J. White1,3
Affiliations
Graduate student and professor, respectively, E262 Lagomarcino, College of Human Sciences and Department of Food Science and Human Nutrition, Iowa State University, Ames, IA 50011.
Research geneticist, USDA-ARS, Corn Insects and Crop Genetics Research Unit, Department of Agronomy, Iowa State University, Ames, IA 50011.
Corresponding author. Phone: 515-294-5380. Fax: 515-294-7802. E-mail: pjwhite@iastate.edu
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RelatedArticle
Accepted March 17, 2010.
Abstract
AbstractTen parent corn lines, including four mutants (dull sugary2, amylose-extender sugary2, amylose-extender dull, and an amylose-extender with introgressed Guatemalen germplasm [GUAT ae]) and six lines with introgressed exotic germplasm backgrounds, were crossed with each other to create 20 progeny crosses to increase resistant starch (RS) as a dietary fiber in corn starch and to provide materials for thermal evaluation. The resistant starch 2 (RS2) values from the 10 parent lines were 18.3–52.2% and the values from the 20 progeny crosses were 16.6–34.0%. The %RS2 of parents was not additive in the offspring but greater RS2 in parents was correlated to greater RS2 in the progeny crosses (r = 0.63). Differential scanning calorimetry (DSC) measured starch thermal characteristics, revealing positive correlations of peak gelatinization temperature and change in enthalpy with %RS2 (r = 0.65 and r = 0.67, P ≤ 0.05); however, % retrogradation (a measure of RS3) and retrogradation parameters did not correlate with %RS2. The %RS2 and onset temperature increased with the addition of the ae gene, likely because RS delays gelatinization.
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© 2010 AACC International, Inc.
