将背景选择预测与人类常染色体上的核苷酸变异和分化水平进行拟合。

Fitting background-selection predictions to levels of nucleotide variation and divergence along the human autosomes.

作者信息

Reed Floyd A, Akey Joshua M, Aquadro Charles F

机构信息

Department of Molecular Biology and Genetics, Cornell University, Ithaca, New York 14853, USA.

出版信息

Genome Res. 2005 Sep;15(9):1211-21. doi: 10.1101/gr.3413205.

DOI:10.1101/gr.3413205

PMID:16140989

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1199535/

Abstract

The roles of positive directional selection (selective sweeps) and negative selection (background selection) in shaping the genome-wide distribution of genetic variation in humans remain largely unknown. Here, we optimize the parameter values of a model of the removal of deleterious mutations (background selection) to observed levels of human polymorphism, controlling for mutation rate heterogeneity by using interspecific divergence. A point of "best fit" was found between background-selection predictions and estimates of human effective population sizes, with reasonable parameter estimates whose uncertainty was assessed by bootstrapping. The results suggest that the purging of deleterious alleles has had some influence on shaping levels of human variation, although the effects may be subtle over the majority of the human genome. A significant relationship was found between background-selection predictions and measures of skew in the allele frequency distribution. The genome-wide action of selection (positive and/or negative) is required to explain this observation.

摘要

正向定向选择（选择性清除）和负向选择（背景选择）在塑造人类遗传变异的全基因组分布中所起的作用在很大程度上仍不为人知。在此，我们将有害突变清除模型（背景选择）的参数值优化至人类多态性的观测水平，通过种间分歧控制突变率的异质性。在背景选择预测与人类有效种群大小估计之间发现了一个“最佳拟合点”，其参数估计合理，且通过自展法评估了其不确定性。结果表明，有害等位基因的清除对塑造人类变异水平有一定影响，尽管在人类基因组的大部分区域这些影响可能很细微。在背景选择预测与等位基因频率分布的偏度测量之间发现了显著关系。需要全基因组范围的选择作用（正向和/或负向）来解释这一观察结果。

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