驯化事件中强烈人工选择后的多态性模式。

Pattern of polymorphism after strong artificial selection in a domestication event.

作者信息

Innan Hideki, Kim Yuseob

机构信息

Human Genetics Center, School of Public Health, University of Texas Health Science Center, Houston, TX 77030, USA.

出版信息

Proc Natl Acad Sci U S A. 2004 Jul 20;101(29):10667-72. doi: 10.1073/pnas.0401720101. Epub 2004 Jul 12.

DOI:10.1073/pnas.0401720101

PMID:15249682

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC489992/

Abstract

The process of strong artificial selection during a domestication event is modeled, and its effect on the pattern of DNA polymorphism is investigated. The model also considers population bottleneck during domestication. Artificial selection during domestication is different from a regular selective sweep because artificial selection acts on alleles that may have been neutral variants before domestication. Therefore, the fixation of such a beneficial allele does not always wipe out DNA variation in the surrounding region. The amount by which variation is reduced largely depends on the initial frequency of the beneficial allele, p. As a consequence, p has a strong effect on the likelihood of detecting the signature of selection during domestication from patterns of polymorphism. These theoretical results are discussed in light of data collected from maize. Although the main focus of this article is on domestication, this model can also be generalized to describe selective sweeps from standing genetic variation.

摘要

对驯化过程中强烈的人工选择过程进行建模，并研究其对DNA多态性模式的影响。该模型还考虑了驯化过程中的种群瓶颈。驯化过程中的人工选择不同于常规的选择性清除，因为人工选择作用于驯化前可能是中性变异的等位基因。因此，这种有益等位基因的固定并不总是消除周围区域的DNA变异。变异减少的程度很大程度上取决于有益等位基因的初始频率p。因此，p对从多态性模式中检测驯化过程中选择特征的可能性有很大影响。根据从玉米收集的数据对这些理论结果进行了讨论。尽管本文的主要重点是驯化，但该模型也可以推广到描述来自现有遗传变异的选择性清除。

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