State Key Laboratory of Crop Biology, College of Agronomy, Shandong Agricultural University, Tai'an 271018, China.
Hard Winter Wheat Genetics Research Unit, Manhattan, KS, 66506, USA.
Theor Appl Genet. 2021 Sep;134(9):2857-2873. doi: 10.1007/s00122-021-03863-6. Epub 2021 Jun 1.
High-resolution genome-wide association study (GWAS) facilitated QTL fine mapping and candidate gene identification, and the GWAS based genomic prediction models were highly predictive and valuable in wheat genomic breeding. Wheat is a major staple food crop and provides more than one-fifth of the daily calories and dietary proteins for humans. Genome-wide association study (GWAS) and genomic selection (GS) for wheat stress resistance and tolerance related traits are critical to understanding their genetic architecture for improvement of breeding selection efficiency. However, the insufficient marker density in previous studies limited the utility of GWAS and GS in wheat genomic breeding. Here, we conducted a high-resolution GWAS for wheat leaf rust (LR), yellow rust (YR), powdery mildew (PM), and cold tolerance (CT) by genotyping a panel of 768 wheat cultivars using genotyping-by-sequencing. Among 153 quantitative trait loci (QTLs) identified, 81 QTLs were delimited to ≤ 1.0 Mb intervals with three validated using bi-parental populations. Furthermore, 837 stress resistance-related genes were identified in the QTL regions with 12 showing induced expression by YR and PM pathogens. Genomic prediction using 2608, 4064, 3907, and 2136 pre-selected SNPs based on GWAS and genotypic correlations between the SNPs showed high prediction accuracies of 0.76, 0.73, and 0.78 for resistance to LR, YR, and PM, respectively, and 0.83 for resistance to cold damage. Our study laid a solid foundation for large-scale QTL fine mapping, candidate gene validation and GS in wheat.
高分辨率全基因组关联研究(GWAS)促进了 QTL 的精细定位和候选基因的鉴定,基于 GWAS 的基因组预测模型在小麦基因组育种中具有高度的预测性和价值。小麦是主要的主食作物,为人类提供了超过五分之一的日常卡路里和膳食蛋白质。对小麦抗逆性和耐逆性相关性状进行全基因组关联研究(GWAS)和基因组选择(GS),对于理解其遗传结构,提高育种选择效率至关重要。然而,先前研究中标记密度不足限制了 GWAS 和 GS 在小麦基因组育种中的应用。在这里,我们通过对 768 个小麦品种进行测序基因型分析,进行了一次针对小麦叶锈病(LR)、条锈病(YR)、白粉病(PM)和耐冷性(CT)的高分辨率 GWAS。在鉴定的 153 个数量性状位点(QTL)中,81 个 QTL 被限定在≤1.0 Mb 区间内,其中 3 个通过双亲群体得到验证。此外,在 QTL 区域内鉴定出 837 个与抗逆性相关的基因,其中 12 个基因在 YR 和 PM 病原体的诱导下表达。使用基于 GWAS 和 SNP 间基因型相关性筛选出的 2608、4064、3907 和 2136 个 SNP 进行基因组预测,对 LR、YR 和 PM 的抗性分别显示出 0.76、0.73 和 0.78 的高预测准确性,对冷害的抗性则为 0.83。我们的研究为小麦的大规模 QTL 精细定位、候选基因验证和 GS 奠定了坚实的基础。
