Characterization of flag leaf morphology identifies a major genomic region controlling flag leaf angle in the US winter wheat (Triticum aestivum L.).

IF 4.4 1区 农林科学 Q1 AGRONOMY
Pradeep Kumar, Harsimardeep S Gill, Mandeep Singh, Karanjot Kaur, Dante Koupal, Shyamal Talukder, Amy Bernardo, Paul St Amand, Guihua Bai, Sunish K Sehgal
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Abstract

Key message: Multi-environmental characterization of flag leaf morphology traits in the US winter wheat revealed nine stable genomic regions for different flag leaf-related traits including a major region governing flag leaf angle. Flag leaf in wheat is the primary contributor to accumulating photosynthetic assimilates. Flag leaf morphology (FLM) traits determine the overall canopy structure and capacity to intercept the light, thus influencing photosynthetic efficiency. Hence, understanding the genetic control of these traits could be useful for breeding desirable ideotypes in wheat. We used a panel of 272 accessions from the hard winter wheat (HWW) region of the USA to investigate the genetic architecture of five FLM traits including flag leaf length (FLL), width (FLW), angle (FLANG), length-width ratio, and area using multilocation field experiments. Multi-environment GWAS using 14,537 single-nucleotide polymorphisms identified 36 marker-trait associations for different traits, with nine being stable across environments. A novel and major stable region for FLANG (qFLANG.1A) was identified on chromosome 1A accounting for 9-13% variation. Analysis of spatial distribution for qFLANG.1A in a set of 2354 breeding lines from the HWW region showed a higher frequency of allele associated with narrow leaf angle. A KASP assay was developed for allelic discrimination of qFLANG.1A and was used for its independent validation in a diverse set of spring wheat accessions. Furthermore, candidate gene analysis for two regions associated with FLANG identified seven putative genes of interest for each of the two regions. The present study enhances our understanding of the genetic control of FLM in wheat, particularly FLANG, and these results will be useful for dissecting the genes underlying canopy architecture in wheat facilitating the development of climate-resilient wheat varieties.

Abstract Image

旗叶形态特征确定了控制美国冬小麦(Triticum aestivum L.)旗叶角度的主要基因组区域。
关键信息:美国冬小麦旗叶形态性状的多环境表征揭示了不同旗叶相关性状的九个稳定基因组区域,包括一个支配旗叶角度的主要区域。小麦的旗叶是光合同化物积累的主要贡献者。旗叶形态(FLM)性状决定了整体冠层结构和截光能力,从而影响光合效率。因此,了解这些性状的遗传控制有助于培育理想的小麦表意型。我们利用来自美国硬冬小麦(HWW)地区的 272 个加入品系,通过多地点田间试验研究了五个 FLM 性状的遗传结构,包括旗叶长度(FLL)、宽度(FLW)、角度(FLANG)、长宽比和面积。利用 14,537 个单核苷酸多态性进行的多环境 GWAS 发现了 36 个不同性状的标记-性状关联,其中 9 个在不同环境中是稳定的。在 1A 染色体上发现了一个新的 FLANG 主要稳定区(qFLANG.1A),其变异率为 9-13%。在一组来自 HWW 地区的 2354 个育种品系中对 qFLANG.1A 的空间分布分析表明,与窄叶角相关的等位基因频率较高。为区分 qFLANG.1A 的等位基因开发了一种 KASP 检测方法,并在一组不同的春小麦品种中进行了独立验证。此外,还对与 FLANG 相关的两个区域进行了候选基因分析,在这两个区域中分别发现了七个潜在的相关基因。本研究加深了我们对小麦 FLM(尤其是 FLANG)遗传控制的了解,这些结果将有助于剖析小麦冠层结构的基础基因,从而促进具有气候适应性的小麦品种的开发。
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来源期刊
CiteScore
9.60
自引率
7.40%
发文量
241
审稿时长
2.3 months
期刊介绍: Theoretical and Applied Genetics publishes original research and review articles in all key areas of modern plant genetics, plant genomics and plant biotechnology. All work needs to have a clear genetic component and significant impact on plant breeding. Theoretical considerations are only accepted in combination with new experimental data and/or if they indicate a relevant application in plant genetics or breeding. Emphasizing the practical, the journal focuses on research into leading crop plants and articles presenting innovative approaches.
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