Improved prediction of malt fermentability by measurement of the diastatic power enzymes beta-amylase, alpha-amylase, and limit dextrinase: II. Impact of barley genetics, growing environment, and gibberellin on levels of alpha-amylase
Date
2009
Authors
Evans, D.
Li, C.
Harasymow, S.
Roumeliotis, S.
Eglinton, J.
Editors
Advisors
Journal Title
Journal ISSN
Volume Title
Type:
Journal article
Citation
Journal of the American Society of Brewing Chemists, 2009; 67(1):14-22
Statement of Responsibility
D. Evan Evans, Chengdao Li, Stefan Harasymow, Sophia Roumeliotis and Jason K. Eglinton
Conference Name
Abstract
The determination of the levels of the diastatic power enzymes (DPEs) beta-amylase, limit dextrinase, and alpha-amylase has previously been shown to predict barley malt fermentability. Using micromalted samples of barley from different genotypes and growing environments, it was demonstrated that both these factors were important in determining the level of DPEs in malt. In terms of genotypic effects, a trial of breeders’ lines and varieties showed substantial variation in the levels of total beta-amylase (means 455–914 U/g), total limit dextrinase (means 268–603 U/kg), and alpha-amylase (means 154–316 U/g). The application of gibberellin (GA) during malting resulted in substantial increases in the levels of total limit dextrinase and alpha-amylase and the extent of modification (KI). However, the level of total beta-amylase was relatively unchanged. It was also observed that the levels of total limit dextrinase and alpha-amylase and extent of KI generally were highly correlated (r » 0.6–0.7), which was attributed to the sensitivity of each of these malt quality factors to GA. The results are discussed in terms of their practical importance to barley breeders and maltsters seeking to supply malt that satisfies the malt fermentability requirements of their brewing customers.