Molecular breeding for improving heat stress tolerance in wheat.

Molecular breeding in wheat, maize and sorghum: strategies for improving abiotic stress tolerance and yield Pub Date : 1900-01-01 DOI:10.1079/9781789245431.0005
Kuohai Yu, Huiru Peng, Z. Ni, Ying-yin Yao, Zhaorong Hu, Mingming Xin, Qixin Sun
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Abstract

Abstract This paper discusses wheat responses to heat stress (including morphological and growth, cellular structure and physiological responses) and the molecular-genetic bases of heat response in wheat (including topics on mapping quantitative trait loci related to heat tolerance and the role of functional genes in response to heat stress). The improvement of heat tolerance of wheat by comprehensive strategies is also described. It is believed that with the emphasis on genetic resource exploration and with better understanding of the molecular basis, heat tolerance will be improved during wheat breeding programmes in the future.
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提高小麦耐热性的分子育种。
摘要本文讨论了小麦对热胁迫的反应(包括形态和生长、细胞结构和生理反应)以及小麦热响应的分子遗传学基础(包括与耐热性相关的数量性状位点定位和功能基因在热胁迫响应中的作用)。介绍了小麦耐热性的综合改良策略。相信随着对遗传资源开发的重视和对分子基础的深入了解,在今后的小麦育种中,耐热性将得到进一步提高。
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Molecular breeding in wheat, maize and sorghum: strategies for improving abiotic stress tolerance and yield
Molecular breeding in wheat, maize and sorghum: strategies for improving abiotic stress tolerance and yield
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The genetic architecture and breeding towards cold tolerance in maize: review. Molecular breeding for increasing micronutrient content in sorghum. CRISPR-mediated gene editing in wheat for abiotic stress tolerance. Recent advancement of molecular breeding for improving salinity tolerance in wheat. Recent understanding on molecular mechanisms of plant abiotic stress response and tolerance.
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