利用 RFLPs 图谱定位水稻种子活力的数量性状基因座。

Mapping quantitative trait loci for seedling vigor in rice using RFLPs.

机构信息

Department of Agronomy and Range Science, University of California, 95616, Davis, CA, USA.

出版信息

Theor Appl Genet. 1996 Mar;92(3-4):395-402. doi: 10.1007/BF00223685.

Abstract

Improving seedling vigor is an important objective of modern rice (Oryza saliva L.) breeding programs. The purpose of this study was to identify and map quantitative trait loci (QTL) underlying seedling vigor-related traits using restriction fragment length polymorphisms (RFLPs). An F2 population of 204 plants was developed from a cross between a low-vigor japonica cultivar 'Labelle' (LBL) and a high-vigor indica cultivar 'Black Gora' (BG). A linkage map was constructed of 117 markers spanning 1496 Haldane cM and encompassing the 12 rice chromosomes with an average marker spacing of 14 cM. The length of the shoots, roots, coleoptile and mesocotyl were measured on F3 families in slantboard tests conducted at two temperatures (18° and 25°C). By means of interval analysis, 13 QTLs, each accounting for 7% to 38% of the phenotypic variance, were identified and mapped in the two temperature regimes at a log-likelihood (LOD) threshold of 2.5. Four QTLs controlled shoot length, 2 each controlled root and coleoptile lengths and 5 influenced mesocotyl length. Single-point analysis confirmed the presence of these QTLs and detected additional loci for shoot, root and coleoptile lengths, these latter usually accounting for less than 5% of the phenotypic variation. Only 3 QTLs detected both by interval and singlepoint analyses were expressed under both temperature regimes. Additive, dominant and overdominant modes of gene action were observed. Contrary to what was predicted from parental phenotype, the low-vigor LBL contributed 46% of the positive alleles for shoot, root and coleoptile lengths. Positive alleles from the high-vigor parent BG were identified for increased root, coleoptile and mesocotyl lengths. However, BG contributed alleles with only minor effects for shoot length, the most important determinant of seedling vigor in water-seeded rice, suggesting that it would not be an ideal donor parent for introducing faster shoot growth alleles into temperate japonica cultivars.

摘要

提高秧苗活力是现代水稻（Oryza saliva L.）育种计划的重要目标。本研究旨在利用限制性片段长度多态性（RFLP）鉴定和定位与秧苗活力相关性状的数量性状位点（QTL）。利用低活力粳稻品种“Labelle”（LBL）和高活力籼稻品种“Black Gora”（BG）杂交产生的 204 株 F2 群体，构建了一个包含 12 条水稻染色体的连锁图谱，该图谱包含 117 个标记，覆盖了 1496 Haldane cM，平均标记间距为 14 cM。在 18°C 和 25°C 的斜板试验中，对 F3 家系的苗高、根长、鞘长和中胚轴长进行了测量。通过区间分析，在 LOD 阈值为 2.5 的两个温度条件下，共鉴定和定位了 13 个 QTL，每个 QTL 解释了 7%至 38%的表型方差。4 个 QTL 控制苗高，2 个 QTL 分别控制根长和鞘长，5 个 QTL 影响中胚轴长。单点分析证实了这些 QTL 的存在，并检测到了苗高、根长和鞘长的额外位点，这些位点通常只占表型变异的 5%以下。仅在区间和单点分析中都检测到的 3 个 QTL 在两个温度条件下均有表达。检测到了加性、显性和超显性基因作用模式。与亲本表型预测的相反，低活力 LBL 为苗高、根长和鞘长提供了 46%的正等位基因。高活力亲本 BG 的正等位基因被鉴定为增加根长、鞘长和中胚轴长。然而，BG 只贡献了对苗高影响较小的等位基因，苗高是水播稻秧苗活力的最重要决定因素，这表明它不太可能成为引入快速生长等位基因到温带粳稻品种的理想供体亲本。

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利用 RFLPs 图谱定位水稻种子活力的数量性状基因座。

Mapping quantitative trait loci for seedling vigor in rice using RFLPs.

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