Identification of full-sibling families from natural single-tree ash progenies based on SSR markers and genome-wide SNPs

IF 2.1 4区 农林科学 Q2 AGRICULTURE, MULTIDISCIPLINARY Journal of Plant Diseases and Protection Pub Date : 2024-09-11 DOI:10.1007/s41348-024-00966-2
Melina Krautwurst, Franziska Past, Birgit Kersten, Ben Bubner, Niels A. Müller
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Abstract

Common ash, Fraxinus excelsior, is threatened by the invasive pathogen Hymenoscyphus fraxineus, which causes ash dieback. The pathogen is rapidly spreading throughout Europe with severe ecological and economic consequences. Multiple studies have presented evidence for the existence of a small fraction of genotypes with low susceptibility. Such genotypes can be targets for natural and artificial selection to conserve F. excelsior and associated ecosystems. To resolve the genetic architecture of variation in susceptibility it is necessary to analyze segregating populations. Here we employed about 1000 individuals of each of four single-tree progenies from potentially tolerant mother trees to identify full-sibling (full-sib) families. To this end, we first genotyped all 4000 individuals and the four mothers with eight SSR markers. We then used the program COLONY to predict full-sibs without knowledge of the paternal genotypes. For each single-tree progeny, COLONY predicted dozens of full-sib families, ranging from 3–166 individuals. In the next step, 910 individuals assigned to full-sib families with more than 28 individuals were subjected to high-resolution genotyping using over one million genome-wide SNPs which were identified with Illumina low-coverage resequencing. Using these SNP genotyping data in principal component analyses we were able to assign individuals to full-sib families with high confidence. Together the analyses revealed five large families with 73–212 individuals. These can be used to generate genetic linkage maps and to perform quantitative trait locus analyses for ash dieback susceptibility. The elucidation of the genetic basis of natural variation in ash may support breeding and conservation efforts and may contribute to more robust forest ecosystems.

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基于 SSR 标记和全基因组 SNP,从天然单树白蜡后代中鉴定全同胞家族
普通白蜡树(Fraxinus excelsior)正受到入侵病原体 Hymenoscyphus fraxineus 的威胁,这种病原体会导致白蜡树枯死。这种病原体正在欧洲迅速蔓延,造成了严重的生态和经济后果。多项研究表明,有一小部分基因型对该病原体的易感性较低。这些基因型可以成为自然选择和人工选择的目标,以保护杉木和相关生态系统。要解决易感性变异的遗传结构问题,必须对分离种群进行分析。在这里,我们从可能具有抗逆性的母树中选取了四株单株后代中的每一株约 1000 个个体,以确定全同胞(全同胞)家系。为此,我们首先用 8 个 SSR 标记对所有 4000 个个体和 4 个母本进行了基因分型。然后,我们使用 COLONY 程序在不知道父本基因型的情况下预测全同源后代。对于每个单树后代,COLONY 都能预测出几十个全同父异母家族,范围在 3-166 个个体之间。下一步,对分配到 28 个以上全兄弟家族的 910 个个体进行了高分辨率基因分型,使用了通过 Illumina 低覆盖率重测序鉴定的 100 多万个全基因组 SNP。在主成分分析中使用这些 SNP 基因分型数据,我们能够以较高的置信度将个体归入全兄弟家族。分析结果显示,共有 5 个大家族,成员人数为 73-212 人。这些数据可用于生成遗传连锁图谱,并对白蜡枯死易感性进行定量性状位点分析。阐明白蜡自然变异的遗传基础可支持育种和保护工作,并有助于建立更稳健的森林生态系统。
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来源期刊
Journal of Plant Diseases and Protection
Journal of Plant Diseases and Protection 农林科学-农业综合
CiteScore
4.30
自引率
5.00%
发文量
124
审稿时长
3 months
期刊介绍: The Journal of Plant Diseases and Protection (JPDP) is an international scientific journal that publishes original research articles, reviews, short communications, position and opinion papers dealing with applied scientific aspects of plant pathology, plant health, plant protection and findings on newly occurring diseases and pests. "Special Issues" on coherent themes often arising from International Conferences are offered.
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