Introgression of an expressed HMW 1Ay glutenin subunit allele into bread wheat cv. Lincoln increases grain protein content and breadmaking quality without yield penalty

Key message An expressed HMW glutenin subunit Glu-Ay showed positive impacts on a range of wheat processing quality and yield traits. The grain protein compositions are significantly optimised for baking, resulting in a better breadmaking quality. The unique breadmaking properties of wheat flour are...

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Bibliographic Details
Published in:Theoretical and applied genetics 2020-02, Vol.133 (2), p.517-528
Main Authors: Roy, Nandita, Islam, Shahidul, Yu, Zitong, Lu, Meiqin, Lafiandra, Domenico, Zhao, Yun, Anwar, Masood, Mayer, Jorge E., Ma, Wujun
Format: Article
Language:English
Subjects:
Agriculture
Alleles
Baking
Biochemistry
Biomedical and Life Sciences
Biotechnology
Bread - analysis
Chromatography, High Pressure Liquid
Crop yields
Cultivars
Edible Grain - genetics
Edible Grain - metabolism
Flour - analysis
Gene expression
Genetic Introgression
Glutenin
Glutens - genetics
Glutens - metabolism
Grain Proteins - chemistry
Grain Proteins - metabolism
Life Sciences
Mass Spectrometry
Molecular weight
Original Article
Phenotyping
Plant Biochemistry
Plant Breeding/Biotechnology
Plant Genetics and Genomics
Plant Proteins - genetics
Plants, Genetically Modified - genetics
Protein composition
Proteins
Quality
Seeds - metabolism
Spectroscopy, Near-Infrared
Triticum - genetics
Triticum - metabolism
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Summary:Key message An expressed HMW glutenin subunit Glu-Ay showed positive impacts on a range of wheat processing quality and yield traits. The grain protein compositions are significantly optimised for baking, resulting in a better breadmaking quality. The unique breadmaking properties of wheat flour are related to the quality and quantity of high-molecular weight glutenin subunits (HMW-GSs) present in the grain. In the current study, the silent 1Ay HMW-GS allele, present in most bread wheat cultivars, was replaced by the expressed 1Ay21* allele, which was introgressed into Australian bread wheat cultivar Lincoln by a backcrossing and selfing scheme. Stability of gene expression and the effect of the introgressed 1Ay21* subunit on protein composition, agronomic traits, flour functionality, and breadmaking quality were studied using BC4F5 grain grown in glasshouse and field. Field phenotyping and grain quality testing showed that the 1Ay21* gene conferred significant improvements to a range of traits, including an increase in grain protein content by up to 9%, UPP% by up to 24%, bread volume by up to 28%. The glasshouse experiment and one of the field trials showed positive 1Ay21* effects on yield, while one field trial showed one significant effects. This indicates that expression of the 1Ay21 * gene has the potential of simultaneously increasing protein content and grain yield under certain environment. The qualitative improvements of the grain also led to a reduction of the energy required during the baking process in addition to the significant positive effects on bread quality.
ISSN:0040-5752
1432-2242
DOI:10.1007/s00122-019-03483-1