https://www.sciencedirect.com/science/article/pii/S2095311922001198?via%3Dihub
Journal of Integrative Agriculture,Volume 22, Issue 6, June 2023, Pages 1609-1617
Wang Yan*,Guo Zhenru*,Chen Qing, LiYang, Zhao Kan,Wan Yong-fang, Malcolm J. Hawkesford, Jiang Yunfeng, Kong Li, Pu Zhien, Deng Mei, Jiang Qiantao, Lan Xiujin,Wang Jirui,Chen Guoyue, Ma Jian, Zheng You-liang#,Wei Yuming, Qi Pengfei#
Abstract
High-molecular-weight glutenin subunits (HMW-GSs) are the most critical grain storage proteins that determine the unique processing qualities of wheat. Although it is a part of the superior HMW-GS pair (Dx5+Dy10), the contribution of the Dy10 subunit to wheat processing quality remains unclear. In this study, we elucidated the effect of Dy10 on wheat processing quality by generating and analyzing a deletion mutant (with theDy10-nullallele), and by elucidating the changes to wheat flour following the incorporation of purified Dy10. TheDy10-nullallele was transcribed normally, but the Dy10 subunit was lacking. These findings implied that theDy10-nullallele reduced the glutenin:gliadin ratio and negatively affected dough strength (i.e., Zeleny sedimentation value, gluten index, and dough development and stability times) and the bread-making quality; however, it positively affected the biscuit-making quality. The incorporation of various amounts of purified Dy10 into wheat flour had a detrimental effect on biscuit-making quality. The results of this study demonstrate that the Dy10 subunit is essential for maintaining wheat dough strength. Furthermore, theDy10-nullallele may be exploited by soft wheat breeding programs.