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控制水稻低温发芽性的主数量性状位点 qLTG3-1 中功能核苷酸多态性的起源。

Origins of functional nucleotide polymorphisms in a major quantitative trait locus, qLTG3-1, controlling low-temperature germinability in rice.

机构信息

Agricultural Research Institute, HOKUREN Federation of Agricultural Cooperatives, Naganuma, 0691317, Hokkaido, Japan.

出版信息

Plant Mol Biol. 2011 Jan;75(1-2):1-10. doi: 10.1007/s11103-010-9697-1. Epub 2010 Oct 20.

DOI:10.1007/s11103-010-9697-1
PMID:20960223
Abstract

qLTG3-1 is a major quantitative trait locus (QTL) controlling tolerance to low-temperature at the seed germination stage (termed low-temperature germinability) in rice using a population derived from the cross between Italica Livorno from Italy and Hayamasari from Japan. Map-based cloning identified that qLTG3-1 encodes a protein of unknown function. The molecular identification of this major QTL could make it possible to identify allelic variation and favorable alleles for rice breeding programs. The present study examined the identification of qLTG3-1 alleles and their distribution among 62 landraces of Asian cultivated rice (Oryza sativa L.) collected from 19 different countries, termed the rice core collection. In the coding region, a single non-synonymous substitution and 3 in-frame insertion/deletion polymorphisms (indels) were detected. The almost completely conserved protein alignment of qLTG3-1 was also identified among 5 Oryza species, suggesting that the function of qLTG3-1 is critical for seed germination or for rice growth by pleiotropic effects of the gene. The functional nucleotide polymorphisms (FNPs), a 71-bp deletion found in Hayamasari and an amino acid substitution found in Nipponbare, was identified in varieties from Japan. These alleles with FNPs might be adapted to rice cultivation in specific local conditions. The present results may contribute to the utilization of favorable alleles of qLTG3-1 for the improvement of low-temperature germinability in rice breeding programs.

摘要

qLTG3-1 是一个主要的数量性状基因座(QTL),控制水稻种子发芽阶段(称为低温发芽率)对低温的耐受性,该基因座是使用意大利的 Italica Livorno 和日本的 Hayamasari 杂交产生的群体进行研究的。基于图谱的克隆鉴定表明,qLTG3-1 编码一个未知功能的蛋白质。该主要 QTL 的分子鉴定可以识别等位基因变异和水稻育种计划中的有利等位基因。本研究检测了 62 份来自 19 个不同国家的亚洲栽培稻(Oryza sativa L.)地方品种中 qLTG3-1 等位基因的鉴定及其分布,这些品种被称为水稻核心收集。在编码区,检测到单个非同义替换和 3 个框内插入/缺失多态性(indels)。在 5 个 Oryza 种中也鉴定到了 qLTG3-1 的几乎完全保守的蛋白质序列,这表明 qLTG3-1 的功能对于种子发芽或通过基因的多效性对水稻生长至关重要。在日本品种中发现了功能核苷酸多态性(FNPs),即 Hayamasari 中的 71-bp 缺失和 Nipponbare 中的氨基酸取代。这些具有 FNPs 的等位基因可能适应了特定地区的水稻种植条件。本研究结果可能有助于利用 qLTG3-1 的有利等位基因来改善水稻育种计划中的低温发芽率。

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