小麦 TaGL3-5A 新等位基因的分子特征及其与粒长的关系。

Molecular characterization of a novel TaGL3-5A allele and its association with grain length in wheat (Triticum aestivum L.).

机构信息

National Laboratory of Wheat Engineering, Key Laboratory of Wheat Biology and Genetic Breeding in Central Huang-Huai Region, Ministry of Agriculture, Institute of Wheat, Henan Academy of Agricultural Sciences, Zhengzhou, 450002, Henan, China.

State Key Laboratory of Plant Cell and Chromosome Engineering, Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing, 100101, China.

出版信息

Theor Appl Genet. 2019 Jun;132(6):1799-1814. doi: 10.1007/s00122-019-03316-1. Epub 2019 Mar 1.

DOI:10.1007/s00122-019-03316-1

PMID:30824973

Abstract

We isolated a novel allele associated with grain length and grain weight in wheat, TaGL3-5A-G. The TaGL3-5A-G allele frequency is low in wheat, so it has potential for breeding. Selection of large-grain wheat showing big grain sink potential and strong sink activity is becoming an important objective in breeding programs. Here, we cloned a wheat TaGL3-5A gene that was orthologous to rice GL3 and was phylogenetically clustered with both monocot PPKL1 and its expression pattern was similar to grain size change at early and middle stages of seed development. The isolated TaGL3-5A genomic sequence was 10,227 bp long and included 21 exons and 20 introns. Alignment of the TaGL3-5A sequences in Beinong 6 and Yanda 1817 showed a G/A substitution in the 11th exon (position 5946) that would lead to an amino acid change (Met/Ile). Subsequently, a KASP marker was designed based on this SNP. Genotyping of RILs showed that TaGL3-5A was located on the wheat 5AL chromosome and was colocated with a significant grain length QTL in three independent environments and mean value. Association analysis revealed that the TaGL3-5A-G allele was significantly correlated with longer grains and higher thousand-kernel weight. Haplotype association analysis indicated that TaGL3-5A-G could enhance grain traits in combination with TaGS5-3A and TaGW2-6B. The frequency of TaGL3-5A-G was higher in modern cultivars than in landraces but was still low in major Chinese wheat production areas. Additionally, the frequency of the TaGL3-5A-G allele in hexaploid wheat was slightly lower than in Triticum dicoccoides and much lower than in Triticum turgidum. Hence, T. dicoccoides and T. turgidum represent valuable resources for transferring the TaGL3-5A-G allele into common wheat, which should lead to longer grain length.

摘要

我们在小麦中分离出一个与粒长和粒重相关的新等位基因 TaGL3-5A-G。TaGL3-5A-G 等位基因在小麦中的频率较低，因此具有一定的育种潜力。选育大粒小麦，使其具有较大的籽粒库潜力和较强的库活性，已成为育种计划的重要目标。在这里，我们克隆了一个与水稻 GL3 同源的小麦 TaGL3-5A 基因，它与单子叶植物 PPKL1 聚类，并与籽粒大小在种子发育早期和中期的变化表现出相似的表达模式。分离的 TaGL3-5A 基因组序列长 10227bp，包含 21 个外显子和 20 个内含子。在 Beinong 6 和 Yanda 1817 中 TaGL3-5A 序列的比对显示，第 11 个外显子（位置 5946）的 G/A 替换导致了一个氨基酸的变化（Met/Ile）。随后，根据这个 SNP 设计了一个 KASP 标记。RILs 的基因型分析表明，TaGL3-5A 位于小麦 5AL 染色体上，与三个独立环境和平均值中的一个显著粒长 QTL 共定位。关联分析表明，TaGL3-5A-G 等位基因与更长的粒长和更高的千粒重显著相关。单倍型关联分析表明，TaGL3-5A-G 与 TaGS5-3A 和 TaGW2-6B 结合可以增强粒型性状。现代品种中 TaGL3-5A-G 的频率高于地方品种，但在中国主要小麦产区仍较低。此外，六倍体小麦中 TaGL3-5A-G 等位基因的频率略低于二粒小麦，远低于节节麦。因此，二粒小麦和节节麦是将 TaGL3-5A-G 等位基因转移到普通小麦中的有价值的资源，这将导致更长的粒长。

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小麦 TaGL3-5A 新等位基因的分子特征及其与粒长的关系。

Molecular characterization of a novel TaGL3-5A allele and its association with grain length in wheat (Triticum aestivum L.).

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