Dissecting the Superior Drivers for the Simultaneous Improvement of Fiber Quality and Yield Under Drought Stress Via Genome-Wide Artificial Introgressions of Gossypium barbadense into Gossypium hirsutum.

IF 14.3 1区材料科学 Q1 CHEMISTRY, MULTIDISCIPLINARY Advanced Science Pub Date : 2024-07-10 DOI:10.1002/advs.202400445

Bei Han, Wenhao Zhang, Fengjiao Wang, Pengkai Yue, Zhilin Liu, Dandan Yue, Bing Zhang, Yizan Ma, Zhongxu Lin, Yu Yu, Yanqin Wang, Xianlong Zhang, Xiyan Yang

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Abstract

Global water scarcity and extreme weather intensify drought stress, significantly reducing cotton yield and quality worldwide. Drought treatments are conducted using a population of chromosome segment substitution lines generated from E22 (G. hirsutum) and 3-79 (G. barbadense) as parental lines either show superior yields or fiber quality under both control and drought conditions. Fourteen datasets, covering 4 yields and 4 quality traits, are compiled and assessed for drought resistance using the drought resistance coefficient (DRC) and membership function value of drought resistance (MFVD). Genome-wide association studies, linkage analysis, and bulked segregant analysis are combined to analyze the DR-related QTL. A total of 121 significant QTL are identified by DRC and MFVD of the 8 traits. CRISPR/Cas9 and virus-induced gene silencing techniques verified DRR1 and DRT1 as pivotal genes in regulating drought resistant of cotton, with hap^3-79 exhibiting greater drought resistance than hap^E22 concerning DRR1 and DRT1. Moreover, 14 markers with superior yield and fiber quality are selected for drought treatment. This study offers valuable insights into yield and fiber quality variations between G. hirsutum and G. barbadense amid drought, providing crucial theoretical and technological backing for developing cotton varieties resilient to drought, with high yield and superior fiber quality.

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通过将 Gossypium barbadense 的全基因组人工引入 Gossypium hirsutum，剖析在干旱胁迫下同时提高纤维质量和产量的卓越驱动力。

全球缺水和极端天气加剧了干旱胁迫，显著降低了全球棉花的产量和质量。干旱处理使用的是由 E22（G. hirsutum）和 3-79（G. barbadense）染色体片段置换品系群体，这些亲本品系在对照和干旱条件下均表现出优异的产量或纤维质量。该研究汇编了 14 个数据集，涵盖 4 个产量和 4 个质量性状，并使用抗旱性系数（DRC）和抗旱性成员函数值（MFVD）对抗旱性进行了评估。结合全基因组关联研究、连锁分析和大量分离分析，分析了与 DR 相关的 QTL。在 8 个性状中，通过 DRC 和 MFVD 共鉴定出 121 个显著 QTL。CRISPR/Cas9和病毒诱导基因沉默技术验证了DRR1和DRT1是调控棉花抗旱性的关键基因，其中关于DRR1和DRT1，happ3-79比hapE22表现出更强的抗旱性。此外，14 个标记在抗旱处理中被筛选出具有优异的产量和纤维质量。该研究为了解 G. hirsutum 和 G. barbadense 在干旱条件下的产量和纤维品质差异提供了宝贵的见解，为培育抗旱、高产、纤维品质优良的棉花品种提供了重要的理论和技术支撑。

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来源期刊

Advanced Science CHEMISTRY, MULTIDISCIPLINARYNANOSCIENCE &-NANOSCIENCE & NANOTECHNOLOGY

CiteScore

18.90

自引率

2.60%

发文量

1602

审稿时长

1.9 months

期刊介绍： Advanced Science is a prestigious open access journal that focuses on interdisciplinary research in materials science, physics, chemistry, medical and life sciences, and engineering. The journal aims to promote cutting-edge research by employing a rigorous and impartial review process. It is committed to presenting research articles with the highest quality production standards, ensuring maximum accessibility of top scientific findings. With its vibrant and innovative publication platform, Advanced Science seeks to revolutionize the dissemination and organization of scientific knowledge.