QTL Mapping for Agronomic Important Traits in Well-Adapted Wheat Cultivars

Agronomy Pub Date : 2024-04-30 DOI:10.3390/agronomy14050940
Jingxian Liu, Danfeng Wang, Mingyu Liu, Meijin Jin, Xuecheng Sun, Yunlong Pang, Qiang Yan, Cunzhen Liu, Shubing Liu
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Abstract

Wheat (Triticum aestivum L.) is one of the most important food crops worldwide and provides the staple food for 40% of the world’s population. Increasing wheat production has become an important goal to ensure global food security. The grain yield of wheat is a complex trait that is usually influenced by multiple agronomically important traits. Thus, the genetic dissection and discovery of quantitative trait loci (QTL) of wheat-yield-related traits are very important to develop high-yield cultivars to improve wheat production. To analyze the genetic basis and discover genes controlling important agronomic traits in wheat, a recombinant inbred lines (RILs) population consisting of 180 RILs derived from a cross between Xinong822 (XN822) and Yannong999 (YN999), two well-adapted cultivars, was used to map QTL for plant height (PH), spike number per spike (SNS), spike length (SL), grain number per spike (GNS), spike number per plant (SN), 1000- grain weight (TGW), grain length (GL), grain width (GW), length/width of grain (GL/GW), perimeter of grain (Peri), and surface area of grains (Sur) in three environments. A total of 64 QTL were detected and distributed on all wheat chromosomes except 3A and 5A. The identified QTL individually explained 2.24–38.24% of the phenotypic variation, with LOD scores ranging from 2.5 to 29. Nine of these QTL were detected in multiple environments, and seven QTL were associated with more than one trait. Additionally, Kompetitive Allele Specific PCR (KASP) assays for five major QTL QSns-1A.2 (PVE = 6.82), QPh-2D.1 (PVE = 37.81), QSl-2D (PVE = 38.24), QTgw-4B (PVE = 8.78), and QGns-4D (PVE = 13.54) were developed and validated in the population. The identified QTL and linked markers are highly valuable in improving wheat yield through marker-assisted breeding, and the large-effect QTL can be fine-mapped for further QTL cloning of yield-related traits in wheat.
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适应性良好的小麦品种中重要农艺性状的 QTL 图谱
小麦(Triticum aestivum L.)是全球最重要的粮食作物之一,为全球 40% 的人口提供主食。提高小麦产量已成为确保全球粮食安全的重要目标。小麦的粮食产量是一个复杂的性状,通常受多个重要农艺性状的影响。因此,对小麦产量相关性状的遗传分析和数量性状位点(QTL)的发现对于培育高产栽培品种以提高小麦产量非常重要。为了分析小麦重要农艺性状的遗传基础并发现控制这些性状的基因,研究人员利用由新农822(XN822)和烟农999(YN999)两个适应性良好的栽培品种杂交产生的180个RILs组成的重组近交系(RILs)群体绘制了植株高度(PH)的QTL图、每穗数(SNS)、穗长(SL)、每穗粒数(GNS)、每株穗数(SN)、千粒重(TGW)、粒长(GL)、粒宽(GW)、粒长/粒宽(GL/GW)、粒周长(Peri)和粒表面积(Sur)的 QTL 图谱。共检测到 64 个 QTL,它们分布在除 3A 和 5A 外的所有小麦染色体上。鉴定出的 QTL 分别解释了 2.24%-38.24% 的表型变异,LOD 分数从 2.5 到 29 不等。其中 9 个 QTL 在多个环境中被检测到,7 个 QTL 与一个以上的性状相关。此外,针对五个主要 QTL QSns-1A.2(PVE = 6.82)、QPh-2D.1(PVE = 37.81)、QSl-2D(PVE = 38.24)、QTgw-4B(PVE = 8.78)和 QGns-4D(PVE = 13.54)开发了竞争性等位基因特异性 PCR(KASP)检测方法,并在群体中进行了验证。所鉴定的 QTL 和连锁标记在通过标记辅助育种提高小麦产量方面具有很高的价值,大效应 QTL 可用于小麦产量相关性状的进一步 QTL 克隆。
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