Source :
© 2001 American Association of Cereal Chemists, Inc.
Abstract :
The effect of genetic substitution of two to four glutenin and gliadin
subunits from a Canada Prairie Spring (CPS) cv. Biggar BSR into Alpha 16,
another CPS wheat line, was studied for rheological and baking quality.
Results from double substitution showed that the presence of a gliadin
component from Biggar BSR (BGGL) and low molecular weight glutenin
subunit 45 (LMW 45) contributed to improved dough strength
characteristics. Presence of BGGL in combination with high molecular
weight glutenin subunit 1 (HMW 1) or 17+18 (HMW 17+18) also showed
improved dough strength over control Alpha lines. When three or four
protein subunits were substituted, even though improved quality performance
was observed, it was associated with the negative effect of lowered flour
water absorptions in spite of similar protein contents. The study confirms
that LMW glutenins, as well as gliadins, play an important role along with
HMW glutenins in wheat flour quality. CPS wheat lines with improved
dough strength properties can be selected from the double substitution
lines with the combination of BGGL/LMW 45 and BGGL/HMW 1.
Title of Article :
Effect of Multiple Substitution of Glutenin and Gliadin Proteins on Flour Quality of Canada Prairie Spring Wheat
Author/Authors :
A. S. Wesley , O. M. Lukow , R. I. H. McKenzie , N. Ames , D. Brown
Author/Authors - جزئيات :
