基于关联分析的水稻发芽期和孕穗期耐寒性遗传分析

Genetic analysis of cold tolerance at the germination and booting stages in rice by association mapping.

作者信息

Pan Yinghua, Zhang Hongliang, Zhang Dongling, Li Jinjie, Xiong Haiyan, Yu Jianping, Li Jilong, Rashid Muhammad Abdul Rehman, Li Gangling, Ma Xiaoding, Cao Guilan, Han Longzhi, Li Zichao

机构信息

Key Laboratory of Crop Heterosis and Utilization, Ministry of Education, Beijing Key Laboratory of Crop Genetic Improvement, China Agricultural University, Beijing, 100193, China; Rice Research Institute, Guangxi Academy of Agricultural Sciences, Nanning, Guangxi, 530005, China.

Key Laboratory of Crop Heterosis and Utilization, Ministry of Education, Beijing Key Laboratory of Crop Genetic Improvement, China Agricultural University, Beijing, 100193, China.

出版信息

PLoS One. 2015 Mar 19;10(3):e0120590. doi: 10.1371/journal.pone.0120590. eCollection 2015.

DOI:10.1371/journal.pone.0120590

PMID:25790128

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4366098/

Abstract

Low temperature affects the rice plants at all stages of growth. It can cause severe seedling injury and male sterility resulting in severe yield losses. Using a mini core collection of 174 Chinese rice accessions and 273 SSR markers we investigated cold tolerance at the germination and booting stages, as well as the underlying genetic bases, by association mapping. Two distinct populations, corresponding to subspecies indica and japonica showed evident differences in cold tolerance and its genetic basis. Both subspecies were sensitive to cold stress at both growth stages. However, japonica was more tolerant than indica at all stages as measured by seedling survival and seed setting. There was a low correlation in cold tolerance between the germination and booting stages. Fifty one quantitative trait loci (QTLs) for cold tolerance were dispersed across all 12 chromosomes; 22 detected at the germination stage and 33 at the booting stage. Eight QTLs were identified by at least two of four measures. About 46% of the QTLs represented new loci. The only QTL shared between indica and japonica for the same measure was qLTSSvR6-2 for SSvR. This implied a complicated mechanism of old tolerance between the two subspecies. According to the relative genotypic effect (RGE) of each genotype for each QTL, we detected 18 positive genotypes and 21 negative genotypes in indica, and 19 positive genotypes and 24 negative genotypes in japonica. In general, the negative effects were much stronger than the positive effects in both subspecies. Markers for QTL with positive effects in one subspecies were shown to be effective for selection of cold tolerance in that subspecies, but not in the other subspecies. QTL with strong negative effects on cold tolerance should be avoided during MAS breeding so as to not cancel the effect of favorable QTL at other loci.

摘要

低温影响水稻生长的各个阶段。它会导致严重的幼苗损伤和雄性不育，从而造成严重的产量损失。我们利用包含174份中国水稻品种的微型核心种质库和273个SSR标记，通过关联分析研究了发芽期和孕穗期的耐冷性及其潜在的遗传基础。对应籼稻和粳稻两个不同亚种的群体在耐冷性及其遗传基础上表现出明显差异。两个亚种在两个生长阶段对冷胁迫均敏感。然而，以幼苗存活率和结实率衡量，粳稻在各个阶段都比籼稻更耐冷。发芽期和孕穗期的耐冷性之间相关性较低。51个耐冷性数量性状位点（QTL）分布在所有12条染色体上；发芽期检测到22个，孕穗期检测到33个。通过四种测量方法中的至少两种鉴定出8个QTL。约46%的QTL代表新位点。籼稻和粳稻在相同测量方法下唯一共享的QTL是用于SSvR的qLTSSvR6-2。这意味着两个亚种之间耐冷性的机制复杂。根据每个QTL各基因型的相对基因型效应（RGE），我们在籼稻中检测到18个正向基因型和21个负向基因型，在粳稻中检测到19个正向基因型和24个负向基因型。总体而言，两个亚种中负向效应都比正向效应强得多。在一个亚种中对耐冷性有正向效应的QTL标记对该亚种的耐冷性选择有效，但对另一个亚种无效。在分子标记辅助选择（MAS）育种过程中应避免对耐冷性有强烈负向效应的QTL，以免抵消其他位点有利QTL的效应。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/4dc0/4366098/c9a3fd7b3731/pone.0120590.g001.jpg

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基于关联分析的水稻发芽期和孕穗期耐寒性遗传分析

Genetic analysis of cold tolerance at the germination and booting stages in rice by association mapping.

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