Ying Luo, Xiujie Zhang, Jiahong Xu, Yao Zheng, Shouqin Pu, Zhizhen Duan, Zhihao Li, Guodao Liu, Jinhui Chen, Zhiyong Wang
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Here, to provide a theoretical basis for further conservation, utilization, and classification of S. secundatum germplasm resources, we used phenotypic and molecular markers (single-nucleotide polymorphisms, SNPs; sequence-related amplified polymorphism, SRAP; inter-simple sequence repeat, ISSR) to analyze the genetic diversity of 49 S. secundatum accessions.</p><p><strong>Results: </strong>Based on seven types of phenotypic data, the 49 S. secundatum accessions could be divided into three classes with great variation. We identified 1,280,873 SNPs in the 49 accessions, among which 66.22% were transition SNPs and 33.78% were transversion SNPs. Among these, C/T was the most common (19.12%) and G/C the least common (3.68%). Using 28 SRAP primers, 267 polymorphic bands were detected from the 273 bands amplified. In addition, 27 ISSR markers generated 527 amplification bands, all of which were polymorphic. Both marker types revealed a high level of genetic diversity, with ISSR markers showing a higher percentage of polymorphic loci (100%) than SRAP markers (97.8%). The genetic diversity of the accessions based on SRAP markers (h = 0.47, I = 0.66) and ISSR markers (h = 0.45, I = 0.64) supports the notion that the S. secundatum accessions are highly diverse. S. secundatum could be divided into three classes based on the evaluated molecular markers.</p><p><strong>Conclusions: </strong>Phenotypic and molecular marker analysis using SNP, SRAP, and ISSR markers revealed great genetic variation among S. secundatum accessions, which were consistently divided into three classes. Our findings provide a theoretical basis for the genetic diversity and classification of S. secundatum. Our results indicate that SNP, SRAP and ISSR markers are reliable and effective for analyzing genetic diversity in S. secundatum. 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In addition, 27 ISSR markers generated 527 amplification bands, all of which were polymorphic. Both marker types revealed a high level of genetic diversity, with ISSR markers showing a higher percentage of polymorphic loci (100%) than SRAP markers (97.8%). The genetic diversity of the accessions based on SRAP markers (h = 0.47, I = 0.66) and ISSR markers (h = 0.45, I = 0.64) supports the notion that the S. secundatum accessions are highly diverse. S. secundatum could be divided into three classes based on the evaluated molecular markers.</p><p><strong>Conclusions: </strong>Phenotypic and molecular marker analysis using SNP, SRAP, and ISSR markers revealed great genetic variation among S. secundatum accessions, which were consistently divided into three classes. Our findings provide a theoretical basis for the genetic diversity and classification of S. secundatum. Our results indicate that SNP, SRAP and ISSR markers are reliable and effective for analyzing genetic diversity in S. secundatum. 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引用次数: 0
摘要
背景:Stenotaphrum secundatum 是一种重要的禾本科植物,其品种繁多,极有潜力发展成为一种具有经济价值的作物。然而,人们对 S. secundatum 的遗传多样性知之甚少,限制了其作为作物的应用和发展。在此,我们利用表型标记和分子标记(单核苷酸多态性,SNPs;序列相关扩增多态性,SRAP;简单序列间重复,ISSR)分析了 49 份 S. secundatum 种质资源的遗传多样性,为进一步保护、利用和分类 S. secundatum 种质资源提供理论依据:结果:根据七种表型数据,49 个 S. secundatum 接种品系可分为三类,且差异很大。我们在 49 个序列中鉴定出 1 280 873 个 SNPs,其中 66.22% 为过渡 SNPs,33.78% 为反转 SNPs。其中,C/T 最常见(19.12%),G/C 最不常见(3.68%)。使用 28 个 SRAP 引物,从扩增出的 273 个条带中检测出 267 个多态性条带。此外,27 个 ISSR 标记产生了 527 个扩增条带,所有这些条带都是多态的。两种标记类型都显示出较高的遗传多样性,其中 ISSR 标记的多态性位点百分比(100%)高于 SRAP 标记(97.8%)。基于 SRAP 标记(h = 0.47,I = 0.66)和 ISSR 标记(h = 0.45,I = 0.64)的基因多样性支持了 S. secundatum 基因具有高度多样性的观点。根据评估的分子标记,可将 S. secundatum 分成三类:使用 SNP、SRAP 和 ISSR 标记进行表型和分子标记分析,发现 S. secundatum 的遗传变异很大,可一致分为三类。我们的研究结果为 S. secundatum 的遗传多样性和分类提供了理论依据。我们的研究结果表明,SNP、SRAP 和 ISSR 标记对分析 S. secundatum 的遗传多样性是可靠和有效的。本研究鉴定出的 SNPs 可用于区分 S. secundatum 加入品系。
Phenotypic and molecular marker analysis uncovers the genetic diversity of the grass Stenotaphrum secundatum.
Background: Stenotaphrum secundatum is an important grass with a rich variety of accessions and great potential for development as an economically valuable crop. However, little is known about the genetic diversity of S. secundatum, limiting its application and development as a crop. Here, to provide a theoretical basis for further conservation, utilization, and classification of S. secundatum germplasm resources, we used phenotypic and molecular markers (single-nucleotide polymorphisms, SNPs; sequence-related amplified polymorphism, SRAP; inter-simple sequence repeat, ISSR) to analyze the genetic diversity of 49 S. secundatum accessions.
Results: Based on seven types of phenotypic data, the 49 S. secundatum accessions could be divided into three classes with great variation. We identified 1,280,873 SNPs in the 49 accessions, among which 66.22% were transition SNPs and 33.78% were transversion SNPs. Among these, C/T was the most common (19.12%) and G/C the least common (3.68%). Using 28 SRAP primers, 267 polymorphic bands were detected from the 273 bands amplified. In addition, 27 ISSR markers generated 527 amplification bands, all of which were polymorphic. Both marker types revealed a high level of genetic diversity, with ISSR markers showing a higher percentage of polymorphic loci (100%) than SRAP markers (97.8%). The genetic diversity of the accessions based on SRAP markers (h = 0.47, I = 0.66) and ISSR markers (h = 0.45, I = 0.64) supports the notion that the S. secundatum accessions are highly diverse. S. secundatum could be divided into three classes based on the evaluated molecular markers.
Conclusions: Phenotypic and molecular marker analysis using SNP, SRAP, and ISSR markers revealed great genetic variation among S. secundatum accessions, which were consistently divided into three classes. Our findings provide a theoretical basis for the genetic diversity and classification of S. secundatum. Our results indicate that SNP, SRAP and ISSR markers are reliable and effective for analyzing genetic diversity in S. secundatum. The SNPs identified in this study could be used to distinguish S. secundatum accessions.
期刊介绍:
BMC Genetics is an open access, peer-reviewed journal that considers articles on all aspects of inheritance and variation in individuals and among populations.
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