Performance and limitations of linkage-disequilibrium-based methods for inferring the genomic landscape of recombination and detecting hotspots: a simulation study

Marie Raynaud, Pierre-Alexandre Gagnaire, Nicolas Galtier
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Abstract

Knowledge of recombination rate variation along the genome provides important insights into genome and phenotypic evolution. Population genomic approaches offer an attractive way to infer the population-scaled recombination rate ρ=4Ner using the linkage disequilibrium information contained in DNA sequence polymorphism data. Such methods have been used in a broad range of plant and animal species to build genome-wide recombination maps. However, the reliability of these inferences has only been assessed under a restrictive set of conditions. Here, we evaluate the ability of one of the most widely used coalescent-based programs, LDhelmet, to infer a genomic landscape of recombination with the biological characteristics of a human-like landscape including hotspots. Using simulations, we specifically assessed the impact of methodological (sample size, phasing errors, block penalty) and evolutionary parameters (effective population size (Ne), demographic history, mutation to recombination rate ratio) on inferred map quality. We report reasonably good correlations between simulated and inferred landscapes, but point to limitations when it comes to detecting recombination hotspots. False positive and false negative hotspots considerably confound fine-scale patterns of inferred recombination under a wide range of conditions, particularly when Ne is small and the mutation/recombination rate ratio is low, to the extent that maps inferred from populations sharing the same recombination landscape appear uncorrelated. We thus address a message of caution for the users of these approaches, at least for genomes with complex recombination landscapes such as in humans.
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基于链接不平衡推断重组基因组景观和检测热点的方法的性能和局限性:模拟研究
基因组重组率变异的知识为基因组和表型进化提供了重要的见解。群体基因组方法提供了一种有吸引力的方法,可以利用DNA序列多态性数据中包含的连锁不平衡信息来推断群体规模的重组率ρ=4Ner。这种方法已广泛用于植物和动物物种,以建立全基因组重组图谱。然而,这些推断的可靠性仅在一组限制性条件下进行了评估。在这里,我们评估了最广泛使用的基于聚结的程序之一LDhelmet的能力,以推断重组的基因组景观与包括热点在内的类人景观的生物学特征。通过模拟,我们特别评估了方法(样本量、相位误差、块罚)和进化参数(有效种群规模(Ne)、人口统计学历史、突变与重组率比)对推断地图质量的影响。我们报告了模拟和推断景观之间相当好的相关性,但指出了检测重组热点时的局限性。假阳性和假阴性热点在很大程度上混淆了在各种条件下推断出的精细重组模式,特别是当Ne较小且突变/重组率比较低时,以至于从共享相同重组景观的种群中推断出的地图显得不相关。因此,我们对这些方法的使用者提出了一个谨慎的信息,至少对于具有复杂重组景观的基因组,如人类。
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