Multi-locus data distinguishes between population growth and multiple merger coalescents.

Pub Date : 2018-06-13 DOI:10.1515/sagmb-2017-0011
Jere Koskela
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引用次数: 17

Abstract

We introduce a low dimensional function of the site frequency spectrum that is tailor-made for distinguishing coalescent models with multiple mergers from Kingman coalescent models with population growth, and use this function to construct a hypothesis test between these model classes. The null and alternative sampling distributions of the statistic are intractable, but its low dimensionality renders them amenable to Monte Carlo estimation. We construct kernel density estimates of the sampling distributions based on simulated data, and show that the resulting hypothesis test dramatically improves on the statistical power of a current state-of-the-art method. A key reason for this improvement is the use of multi-locus data, in particular averaging observed site frequency spectra across unlinked loci to reduce sampling variance. We also demonstrate the robustness of our method to nuisance and tuning parameters. Finally we show that the same kernel density estimates can be used to conduct parameter estimation, and argue that our method is readily generalisable for applications in model selection, parameter inference and experimental design.

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多位点数据区分了人口增长和多重合并凝聚。
我们引入了一个专门用于区分具有多个合并的聚结模型和具有人口增长的Kingman聚结模型的低维站点频谱函数,并使用该函数构建了这些模型类别之间的假设检验。统计量的零抽样和备选抽样分布是难以处理的,但它的低维性使它们适合蒙特卡罗估计。我们基于模拟数据构建抽样分布的核密度估计,并表明由此产生的假设检验显着提高了当前最先进方法的统计能力。这种改进的一个关键原因是使用了多位点数据,特别是在非连锁位点上平均观察到的位点频谱以减少采样方差。我们还证明了我们的方法对干扰和调优参数的鲁棒性。最后,我们证明了同样的核密度估计可以用来进行参数估计,并认为我们的方法很容易推广到模型选择,参数推理和实验设计的应用。
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