Meiotic recombination in the offspring of Microbotryum hybrids and its impact on pathogenicity.

IF 3.4 Q1 Agricultural and Biological Sciences BMC Evolutionary Biology Pub Date : 2020-09-17 DOI:10.1186/s12862-020-01689-2
Britta Bueker, Marco Alexandre Guerreiro, Michael E Hood, Andreas Brachmann, Sven Rahmann, Dominik Begerow
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Abstract

Background: Hybridization is a central mechanism in evolution, producing new species or introducing important genetic variation into existing species. In plant-pathogenic fungi, adaptation and specialization to exploit a host species are key determinants of evolutionary success. Here, we performed experimental crosses between the two pathogenic Microbotryum species, M. lychnidis-dioicae and M. silenes-acaulis that are specialized to different hosts. The resulting offspring were analyzed on phenotypic and genomic levels to describe genomic characteristics of hybrid offspring and genetic factors likely involved in host-specialization.

Results: Genomic analyses of interspecific fungal hybrids revealed that individuals were most viable if the majority of loci were inherited from one species. Interestingly, species-specific loci were strictly controlled by the species' origin of the mating type locus. Moreover we detected signs of crossing over and chromosome duplications in the genomes of the analyzed hybrids. In Microbotryum, mitochondrial DNA was found to be uniparentally inherited from the a2 mating type. Genome comparison revealed that most gene families are shared and the majority of genes are conserved between the two species, indicating very similar biological features, including infection and pathogenicity processes. Moreover, we detected 211 candidate genes that were retained under host-driven selection of backcrossed lines. These genes and might therefore either play a crucial role in host specialization or be linked to genes that are essential for specialization.

Conclusion: The combination of genome analyses with experimental selection and hybridization is a promising way to investigate host-pathogen interactions. This study manifests genetic factors of host specialization that are required for successful biotrophic infection of the post-zygotic stage, but also demonstrates the strong influence of intra-genomic conflicts or instabilities on the viability of hybrids in the haploid host-independent stage.

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微生物杂交后代的减数分裂重组及其对致病性的影响。
背景:杂交是生物进化的核心机制,可产生新物种或为现有物种引入重要的遗传变异。在植物病原真菌中,利用宿主物种的适应性和专一性是决定进化成功与否的关键因素。在这里,我们进行了两种致病性微囊菌(M. lychnidis-dioicae和M. silenes-acaulis)之间的杂交实验,这两种致病性微囊菌专门利用不同的寄主。对杂交后代的表型和基因组水平进行了分析,以描述杂交后代的基因组特征以及可能参与寄主专化的遗传因素:结果:对种间真菌杂交种的基因组分析表明,如果大多数基因位点都遗传自一个物种,那么个体的生存能力最强。有趣的是,物种特异性基因座受到交配型基因座的物种起源的严格控制。此外,我们还在分析的杂交种基因组中发现了杂交和染色体重复的迹象。在微囊藻中,我们发现线粒体 DNA 是由 a2 交配型单亲遗传的。基因组比较显示,两个物种之间共享大多数基因家族,而且大多数基因是保守的,这表明两个物种的生物学特征非常相似,包括感染和致病过程。此外,我们还发现了 211 个候选基因,这些基因在宿主驱动的回交系选择中被保留下来。因此,这些基因可能在宿主特化过程中发挥了关键作用,或者与特化所必需的基因有关:结论:将基因组分析与实验选择和杂交结合起来,是研究宿主与病原体相互作用的一种很有前途的方法。这项研究表明,宿主特化的遗传因素是后合子阶段成功的生物营养感染所必需的,同时也证明了基因组内的冲突或不稳定对单倍体宿主独立阶段杂交种的生存能力有很大影响。
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来源期刊
BMC Evolutionary Biology
BMC Evolutionary Biology 生物-进化生物学
CiteScore
5.80
自引率
0.00%
发文量
0
审稿时长
6 months
期刊介绍: BMC Evolutionary Biology is an open access, peer-reviewed journal that considers articles on all aspects of molecular and non-molecular evolution of all organisms, as well as phylogenetics and palaeontology.
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