涉及发芽评分及春小麦其他两个相关性状的收获前发芽耐受性的全基因组关联研究和基因组预测

GWAS and genomic prediction for pre-harvest sprouting tolerance involving sprouting score and two other related traits in spring wheat.

作者信息

Kumar Manoj, Kumar Sachin, Sandhu Karansher Singh, Kumar Neeraj, Saripalli Gautam, Prakash Ram, Nambardar Akash, Sharma Hemant, Gautam Tinku, Balyan Harindra Singh, Gupta Pushpendra Kumar

机构信息

Department of Genetics and Plant Breeding, Chaudhary Charan Singh University, Meerut, UP India.

Bayer Crop Sciences, Chesterfield, MO 63017 USA.

出版信息

Mol Breed. 2023 Feb 20;43(3):14. doi: 10.1007/s11032-023-01357-5. eCollection 2023 Mar.

DOI:10.1007/s11032-023-01357-5

PMID:37313293

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC10248620/

Abstract

UNLABELLED

In wheat, a genome-wide association study (GWAS) and genomic prediction (GP) analysis were conducted for pre-harvest sprouting (PHS) tolerance and two of its related traits. For this purpose, an association panel of 190 accessions was phenotyped for PHS (using sprouting score), falling number, and grain color over two years and genotyped with 9904 DArTseq based SNP markers. GWAS for main-effect quantitative trait nucleotides (M-QTNs) using three different models (CMLM, SUPER, and FarmCPU) and epistatic QTNs (E-QTNs) using PLINK were performed. A total of 171 M-QTNs (CMLM, 47; SUPER, 70; FarmCPU, 54) for all three traits, and 15 E-QTNs involved in 20 first-order epistatic interactions were identified. Some of the above QTNs overlapped the previously reported QTLs, MTAs, and cloned genes, allowing delineating 26 PHS-responsive genomic regions that spread over 16 wheat chromosomes. As many as 20 definitive and stable QTNs were considered important for use in marker-assisted recurrent selection (MARS). The gene, , for PHS tolerance (PHST) associated with one of the QTNs was also validated using the KASP assay. Some of the M-QTNs were shown to have a key role in the abscisic acid pathway involved in PHST. Genomic prediction accuracies (based on the cross-validation approach) using three different models ranged from 0.41 to 0.55, which are comparable to the results of previous studies. In summary, the results of the present study improved our understanding of the genetic architecture of PHST and its related traits in wheat and provided novel genomic resources for wheat breeding based on MARS and GP.

SUPPLEMENTARY INFORMATION

The online version contains supplementary material available at 10.1007/s11032-023-01357-5.

摘要

未标注

在小麦中，针对收获前发芽（PHS）耐受性及其两个相关性状进行了全基因组关联研究（GWAS）和基因组预测（GP）分析。为此，对一个由190份材料组成的关联群体进行了两年的PHS（使用发芽评分）、降落数值和籽粒颜色表型鉴定，并用基于9904个DArTseq的SNP标记进行了基因分型。使用三种不同模型（CMLM、SUPER和FarmCPU）进行主效数量性状核苷酸（M-QTNs）的GWAS分析，并使用PLINK进行上位性QTNs（E-QTNs）分析。共鉴定出所有三个性状的171个M-QTNs（CMLM模型47个、SUPER模型70个、FarmCPU模型54个）以及参与20个一级上位性互作的15个E-QTNs。上述一些QTNs与先前报道的QTLs、MTAs和克隆基因重叠，从而确定了分布在16条小麦染色体上的26个PHS响应基因组区域。多达20个确定且稳定的QTNs被认为对标记辅助轮回选择（MARS）很重要。与其中一个QTNs相关的PHS耐受性（PHST）基因也通过KASP分析进行了验证。一些M-QTNs在参与PHST的脱落酸途径中显示出关键作用。使用三种不同模型基于交叉验证方法的基因组预测准确性范围为0.41至0.55，与先前研究结果相当。总之，本研究结果增进了我们对小麦中PHST及其相关性状遗传结构的理解，并为基于MARS和GP的小麦育种提供了新的基因组资源。

补充信息

在线版本包含可在10.1007/s11032-023-01357-5获取的补充材料。

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