添加节节麦 1Ug 染色体通过改变面筋的组成和微观结构来改善面团流变学特性。

Addition of Aegilops geniculata 1Ug chromosome improves the dough rheological properties by changing the composition and micro-structure of gluten.

机构信息

State Key Laboratory of Crop Stress Biology in Arid Areas and College of Agronomy, Northwest A&F University, Yangling, Shaanxi 712100, China.

Institute of Crop Sciences/National Wheat Improvement Center, Chinese Academy of Agricultural Sciences, Beijing 100081, China.

出版信息

Food Chem. 2021 Oct 1;358:129850. doi: 10.1016/j.foodchem.2021.129850. Epub 2021 Apr 20.

DOI:10.1016/j.foodchem.2021.129850

PMID:33940291

Abstract

Aegilops geniculata, a relative of common wheat, has many useful traits for the improvements of wheat varieties. The wheat-Ae. geniculata disomic addition lines (DALs) carrying prior traits need to be characterized for wheat varieties improvement. We currently found that CS-1Ug (Chinese Spring-Ae. geniculata 1Ug DAL) possessed improved dough rheological properties than CS (Chinese Spring) did, and investigated the reasons of those rheological changes in dough. The results showed that CS-1Ug carries a novel high-molecular-weight glutenin subunit (HMW-GS), a substitute for Dx2 from CS, which led to the changes in the relative proportion of individual HMW-GS in total HMW-GSs. Changes in gluten composition improved the stability and elasticity of dough by promoting the accumulation of unextractable polymeric protein, and optimizing the micro-structure of the gluten. The current study provides basic information on CS-1Ug used as a potential resource for future wheat quality breeding.

摘要

节节麦是普通小麦的近缘物种，具有许多对小麦品种改良有用的特性。携带先前特性的小麦-节节麦二体附加系（DAL）需要进行特征描述，以用于小麦品种改良。我们目前发现 CS-1Ug（普通小麦-节节麦 1UgDAL）与 CS（普通小麦）相比，面团流变学特性得到了改善，并研究了面团流变学变化的原因。结果表明，CS-1Ug 携带一种新型高分子量谷蛋白亚基（HMW-GS），替代了 CS 中的 Dx2，导致了总 HMW-GS 中各个 HMW-GS 的相对比例发生变化。谷朊组成的变化通过促进不可提取的聚合蛋白的积累以及优化谷朊的微观结构，改善了面团的稳定性和弹性。本研究为 CS-1Ug 作为未来小麦品质育种的潜在资源提供了基础信息。

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添加节节麦 1Ug 染色体通过改变面筋的组成和微观结构来改善面团流变学特性。

Addition of Aegilops geniculata 1Ug chromosome improves the dough rheological properties by changing the composition and micro-structure of gluten.

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