Genome-wide scanning to identify and validate single nucleotide polymorphism markers associated with drought tolerance in spring wheat seedlings.

IF 3.9 2区 生物学 Q1 GENETICS & HEREDITY Plant Genome Pub Date : 2024-06-01 Epub Date: 2024-03-13 DOI:10.1002/tpg2.20444
Ahmed Sallam, Mona F A Dawood, Diego Jarquín, Elsayed A Mohamed, Mohamed Y Hussein, Andreas Börner, Asmaa A M Ahmed
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Abstract

Unlike other growth stages of wheat, very few studies on drought tolerance have been done at the seedling stage, and this is due to the complexity and sensitivity of this stage to drought stress resulting from climate change. As a result, the drought tolerance of wheat seedlings is poorly understood and very few genes associated with drought tolerance at this stage were identified. To address this challenge, a set of 172 spring wheat genotypes representing 20 different countries was evaluated under drought stress at the seedling stage. Drought stress was applied on all tested genotypes by water withholding for 13 days. Two types of traits, namely morphological and physiological traits were scored on the leaves of all tested genotypes. Genome-wide association study (GWAS) is one of the effective genetic analysis methods that was used to identify target single nucleotide polymorphism (SNP) markers and candidate genes for later use in marker-assisted selection. The tested plant materials were genotyped using 25k Infinium iSelect array (25K) (herein after it will be identified as 25K) (for 172 genotypes) and genotyping-by-sequencing (GBS) (for 103 genotypes), respectively. The results of genotyping revealed 21,093 25K and 11,362 GBS-SNPs, which were used to perform GWAS analysis for all scored traits. The results of GWAS revealed that 131 and 55 significant SNPs were controlling morphological and physiological traits, respectively. Moreover, a total of eight and seven SNP markers were found to be associated with more than one morphological and physiological trait under drought stress, respectively. Remarkably, 10 significant SNPs found in this study were previously reported for their association with drought tolerance in wheat. Out of the 10 validated SNP markers, four SNPs were associated with drought at the seedling stage, while the remaining six SNPs were associated with drought stress at the reproductive stage. Moreover, the results of gene enrichment revealed 18 and six pathways as highly significant biological and molecular pathways, respectively. The selection based on drought-tolerant alleles revealed 15 genotypes with the highest number of different drought-tolerant alleles. These genotypes can be used as candidate parents in future breeding programs to produce highly drought-tolerant genotypes with high genetic diversity. Our findings in this study provide novel markers and useful information on the genetic basis of drought tolerance at early growth stages.

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通过全基因组扫描,识别并验证与春小麦幼苗耐旱性相关的单核苷酸多态性标记。
与小麦的其他生长阶段不同,有关幼苗期耐旱性的研究很少,这是因为幼苗期的复杂性和对气候变化造成的干旱胁迫的敏感性。因此,人们对小麦幼苗的耐旱性知之甚少,与这一阶段耐旱性相关的基因也很少被发现。为了应对这一挑战,我们对代表 20 个不同国家的 172 个春小麦基因型进行了苗期干旱胁迫评估。所有受试基因型都受到了持续 13 天的干旱胁迫。对所有受试基因型的叶片进行了形态和生理两类性状评分。全基因组关联研究(GWAS)是一种有效的遗传分析方法,用于确定目标单核苷酸多态性(SNP)标记和候选基因,以用于标记辅助选择。测试植物材料分别使用 25K Infinium iSelect 阵列(以下简称 25K)(172 个基因型)和基因分型测序(GBS)(103 个基因型)进行基因分型。基因分型结果显示了 21,093 个 25K 和 11,362 个 GBS-SNPs,这些结果被用于对所有得分性状进行 GWAS 分析。GWAS 分析结果显示,分别有 131 个和 55 个显著的 SNPs 控制着形态和生理性状。此外,在干旱胁迫下,分别有 8 个和 7 个 SNP 标记与一个以上的形态和生理性状相关。值得注意的是,本研究中发现的 10 个显著的 SNP 与小麦的抗旱性相关。在这 10 个已验证的 SNP 标记中,4 个 SNP 与苗期干旱有关,其余 6 个 SNP 与生育期干旱胁迫有关。此外,基因富集的结果显示,分别有 18 条和 6 条通路具有高度重要的生物通路和分子通路。基于耐旱等位基因的筛选结果显示,有 15 个基因型具有最多的不同耐旱等位基因。这些基因型可作为未来育种计划的候选亲本,以培育出遗传多样性高的高耐旱基因型。我们的研究结果为早期生长阶段耐旱性的遗传基础提供了新的标记和有用的信息。
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来源期刊
Plant Genome
Plant Genome PLANT SCIENCES-GENETICS & HEREDITY
CiteScore
6.00
自引率
4.80%
发文量
93
审稿时长
>12 weeks
期刊介绍: The Plant Genome publishes original research investigating all aspects of plant genomics. Technical breakthroughs reporting improvements in the efficiency and speed of acquiring and interpreting plant genomics data are welcome. The editorial board gives preference to novel reports that use innovative genomic applications that advance our understanding of plant biology that may have applications to crop improvement. The journal also publishes invited review articles and perspectives that offer insight and commentary on recent advances in genomics and their potential for agronomic improvement.
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