全基因组关联研究和基因组选择在普通小麦穗相关性状上的应用。

Genome-wide association study and genomic selection of spike-related traits in bread wheat.

机构信息

College of Agriculture, Key Laboratory of Molecular Module-Based Breeding of High Yield and Abiotic Resistant Plants in Universities of Shandong, Ludong University, Yantai, Shandong, China.

Crop Research Institute, Shandong Academy of Agricultural Sciences/National Engineering Research Center of Wheat and Maize/Key Laboratory of Wheat Biology and Genetics and Breeding in Northern Huang-Huai River Plain, Ministry of Agriculture and Rural Affairs/Shandong Technology Innovation Center of Wheat/Jinan Key Laboratory of Wheat Genetic Improvement, Jinan, Shandong, China.

出版信息

Theor Appl Genet. 2024 May 15;137(6):131. doi: 10.1007/s00122-024-04640-x.

DOI:10.1007/s00122-024-04640-x

PMID:38748046

Abstract

Identification of 337 stable MTAs for wheat spike-related traits improved model accuracy, and favorable alleles of MTA259 and MTA64 increased grain weight and yield per plant. Wheat (Triticum aestivum L.) is one of the three primary global, staple crops. Improving spike-related traits in wheat is crucial for optimizing spike and plant morphology, ultimately leading to increased grain yield. Here, we performed a genome-wide association study using a dataset of 24,889 high-quality unique single-nucleotide polymorphisms (SNPs) and phenotypic data from 314 wheat accessions across eight diverse environments. In total, 337 stable and significant marker-trait associations (MTAs) related to spike-related traits were identified. MTA259 and MTA64 were consistently detected in seven and six environments, respectively. The presence of favorable alleles associated with MTA259 and MTA64 significantly reduced wheat spike exsertion length and spike length, while enhancing thousand kernel weight and yield per plant. Combined gene expression and network analyses identified TraesCS6D03G0692300 and TraesCS6D03G0692700 as candidate genes for MTA259 and TraesCS2D03G0111700 and TraesCS2D03G0112500 for MTA64. The identified MTAs significantly improved the prediction accuracy of each model compared with using all the SNPs, and the random forest model was optimal for genome selection. Additionally, the eight stable and major MTAs, including MTA259, MTA64, MTA66, MTA94, MTA110, MTA165, MTA180, and MTA164, were converted into cost-effective and efficient detection markers. This study provided valuable genetic resources and reliable molecular markers for wheat breeding programs.

摘要

鉴定出 337 个与小麦穗相关性状相关的稳定 MTAs，提高了模型准确性，MTA259 和 MTA64 的有利等位基因增加了粒重和单株产量。小麦（Triticum aestivum L.）是全球三大主要粮食作物之一。提高小麦穗相关性状对于优化穗和植物形态至关重要，最终可提高粮食产量。在这里，我们使用来自 8 个不同环境的 314 个小麦品系的 24889 个高质量独特单核苷酸多态性（SNP）数据集和表型数据进行了全基因组关联研究。总共鉴定出 337 个与穗相关性状相关的稳定且显著的标记-性状关联（MTA）。MTA259 和 MTA64 分别在 7 个和 6 个环境中一致检测到。与 MTA259 和 MTA64 相关的有利等位基因的存在显著降低了小麦穗伸出长度和穗长，同时增加了千粒重和单株产量。结合基因表达和网络分析，确定 TraesCS6D03G0692300 和 TraesCS6D03G0692700 为 MTA259 的候选基因，TraesCS2D03G0111700 和 TraesCS2D03G0112500 为 MTA64 的候选基因。与使用所有 SNP 相比，鉴定出的 MTAs 显著提高了每个模型的预测准确性，随机森林模型是基因组选择的最佳模型。此外，包括 MTA259、MTA64、MTA66、MTA94、MTA110、MTA165、MTA180 和 MTA164 在内的 8 个稳定且主要的 MTAs 被转化为具有成本效益和高效的检测标记。本研究为小麦育种计划提供了有价值的遗传资源和可靠的分子标记。

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全基因组关联研究和基因组选择在普通小麦穗相关性状上的应用。

Genome-wide association study and genomic selection of spike-related traits in bread wheat.

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