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水稻生殖阶段抗旱性的遗传基础:耐旱性与避旱性的分离。

Genetic basis of drought resistance at reproductive stage in rice: separation of drought tolerance from drought avoidance.

作者信息

Yue Bing, Xue Weiya, Xiong Lizhong, Yu Xinqiao, Luo Lijun, Cui Kehui, Jin Deming, Xing Yongzhong, Zhang Qifa

机构信息

National Key Laboratory of Crop Genetic Improvement and National Center of Plant Gene Research (Wuhan), Huazhong Agricultural University, Wuhan, China.

出版信息

Genetics. 2006 Feb;172(2):1213-28. doi: 10.1534/genetics.105.045062. Epub 2005 Nov 4.

DOI:10.1534/genetics.105.045062
PMID:16272419
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1456219/
Abstract

Drought tolerance (DT) and drought avoidance (DA) are two major mechanisms in drought resistance of higher plants. In this study, the genetic bases of DT and DA at reproductive stage in rice were analyzed using a recombinant inbred line population from a cross between an indica lowland and a tropical japonica upland cultivar. The plants were grown individually in PVC pipes and two cycles of drought stress were applied to individual plants with unstressed plants as the control. A total of 21 traits measuring fitness, yield, and the root system were investigated. Little correlation of relative yield traits with potential yield, plant size, and root traits was detected, suggesting that DT and DA were well separated in the experiment. A genetic linkage map consisting of 245 SSR markers was constructed for mapping QTL for these traits. A total of 27 QTL were resolved for 7 traits of relative performance of fitness and yield, 36 QTL for 5 root traits under control, and 38 for 7 root traits under drought stress conditions, suggesting the complexity of the genetic bases of both DT and DA. Only a small portion of QTL for fitness- and yield-related traits overlapped with QTL for root traits, indicating that DT and DA had distinct genetic bases.

摘要

耐旱性(DT)和避旱性(DA)是高等植物抗旱的两种主要机制。在本研究中,利用籼稻低地品种和热带粳稻高地品种杂交产生的重组自交系群体,分析了水稻生殖阶段DT和DA的遗传基础。将植株单独种植在PVC管中,对单株施加两个周期的干旱胁迫,以未受胁迫的植株作为对照。共调查了21个衡量适合度、产量和根系的性状。未检测到相对产量性状与潜在产量、植株大小和根系性状之间的相关性,这表明在该实验中DT和DA得到了很好的区分。构建了一个由245个SSR标记组成的遗传连锁图谱,用于定位这些性状的QTL。共解析出27个与适合度和产量相对表现的7个性状相关的QTL、36个与对照下5个根系性状相关的QTL以及38个与干旱胁迫条件下7个根系性状相关的QTL,这表明DT和DA的遗传基础都很复杂。与适合度和产量相关性状的QTL中只有一小部分与根系性状的QTL重叠,这表明DT和DA具有不同的遗传基础。

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