小麦 Rht-1 位点的新型天然等位基因变异。

Novel natural allelic variations at the Rht-1 loci in wheat.

机构信息

The State Key Laboratory of Plant Cell and Chromosome Engineering, National Center for Plant Gene Research (Beijing), Institute of Genetics and Developmental Biology, the Chinese Academy of Sciences, Beijing, 100101, China.

出版信息

J Integr Plant Biol. 2013 Nov;55(11):1026-37. doi: 10.1111/jipb.12103.

DOI:10.1111/jipb.12103

PMID:23992198

Abstract

Plant height is an important agronomic trait. Dramatic increase in wheat yield during the "green revolution" is mainly due to the widespread utilization of the Reduced height (Rht)-1 gene. We analyzed the natural allelic variations of three homoeologous loci Rht-A1, Rht-B1, and Rht-D1 in Chinese wheat (Triticum aestivum L.) micro-core collections and the Rht-B1/D1 genotypes in over 1,500 bred cultivars and germplasms using a modified EcoTILLING. We identified six new Rht-A1 allelic variations (Rht-A1b-g), eight new Rht-B1 allelic variations (Rht-B1h-o), and six new Rht-D1 allelic variations (Rht-D1e-j). These allelic variations contain single nucleotide polymorphisms (SNPs) or small insertions and deletions in the coding or uncoding regions, involving two frame-shift mutations and 15 missenses. Of which, Rht-D1e and Rht-D1h resulted in the loss of interactions of GID1-DELLA-GID2, Rht-B1i could increase plant height. We found that the Rht-B1h contains the same SNPs and 197 bp fragment insertion as reported in Rht-B1c. Further detection of Rht-B1h in Tibet wheat germplasms and wheat relatives indicated that Rht-B1c may originate from Rht-B1h. These results suggest rich genetic diversity at the Rht-1 loci and provide new resources for wheat breeding.

摘要

株高是一个重要的农艺性状。“绿色革命”期间小麦产量的大幅提高主要归因于 Reduced height (Rht)-1 基因的广泛利用。我们利用改良的 EcoTILLING 分析了中国小麦（Triticum aestivum L.）微核心群体中三个同源基因座 Rht-A1、Rht-B1 和 Rht-D1 的自然等位基因变异，以及 1500 多个育成品种和种质资源中的 Rht-B1/D1 基因型。我们鉴定了六个新的 Rht-A1 等位基因变异（Rht-A1b-g）、八个新的 Rht-B1 等位基因变异（Rht-B1h-o）和六个新的 Rht-D1 等位基因变异（Rht-D1e-j）。这些等位基因变异包含编码区或非编码区的单核苷酸多态性（SNPs）或小插入和缺失，涉及两个移码突变和 15 个错义突变。其中，Rht-D1e 和 Rht-D1h 导致 GID1-DELLA-GID2 的相互作用丧失，Rht-B1i 可以增加株高。我们发现 Rht-B1h 与报道的 Rht-B1c 具有相同的 SNPs 和 197bp 片段插入。进一步检测西藏小麦种质资源和小麦近缘种中的 Rht-B1h 表明，Rht-B1c 可能起源于 Rht-B1h。这些结果表明 Rht-1 基因座具有丰富的遗传多样性，为小麦育种提供了新的资源。

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小麦 Rht-1 位点的新型天然等位基因变异。

Novel natural allelic variations at the Rht-1 loci in wheat.

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