DNA多态性的统计分析。

Idengaku zasshi Pub Date : 1993-12-01 DOI:10.1266/jjg.68.567
F Tajima
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引用次数: 76

摘要

在自然种群中可以保持大量的遗传变异。为了了解维持遗传变异的机制,我们必须首先估计遗传变异的数量。估计DNA多态性的数量有两种方法,即一对核苷酸差异的平均数量和DNA序列样本中分离位点的数量。利用这两个度量,我们可以检验中性突变-随机漂移假说(中性理论)。DNA多态性的预期量已经在几种模型下进行了研究,包括群体细分、群体大小变化和自然选择。当一个群体被细分时,如果亚群体之间的迁移率很小,则群体中可以保持大量的DNA多态性。在这种情况下,低迁移率亚群体的DNA多态性量预计小于高迁移率亚群体的DNA多态性量。当种群大小发生变化时,分离位点的数量变化比核苷酸差异的平均数量变化要快得多。当纯化选择操作时,有害突变体的存在对分离位点数量的影响比核苷酸差异的平均数量更大。另一方面,在进行平衡选择时,选择对核苷酸平均差异数的影响大于对分离位点数的影响。自然选择下的突变会影响连锁位点上DNA多态性的数量(搭便车效应)。DNA序列不是随机序列,可能存在保守区和可变区。提出了一种确定窗口大小和查找序列中非随机区域的统计方法。
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Statistical analysis of DNA polymorphism.

A large amount of genetic variation can be maintained in natural populations. In order to understand the mechanism maintaining genetic variation, we must first estimate the amount of genetic variation. There are two measures for estimating the amount of DNA polymorphism, i.e., the average number of pairwise nucleotide differences and the number of segregating sites among a sample of DNA sequences. Using these two measures, we can test the neutral mutation-random drift hypothesis (the neutral theory). The expectation of the amount of DNA polymorphism has been studied under several models, including population subdivision, change in population size, and natural selection. When a population is subdivided, a large amount of DNA polymorphism can be maintained in the population if the migration rates among subpopulations are small. In this case the amount of DNA polymorphism in the subpopulation with lower migration rate is expected to be smaller than that of higher migration rate. When the population size changes, the number of segregating sites changes more rapidly than does the average number of nucleotide differences. When purifying selection is operating, the number of segregating sites is more strongly affected by the existence of deleterious mutants than is the average number of nucleotide differences. On the other hand, when balancing selection is operating, the effect of the selection on the average number of nucleotide differences is larger than that on the number of segregating sites. A mutant under natural selection affects the amount of DNA polymorphism at linked sites (hitchhiking effect). DNA sequences are not random sequences and there may be conservative and variable regions in them. A statistical method for determining the window size and for finding nonrandom regions in the sequence is also presented.

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