多数量性状位点定位的收缩估计方法

ZHANG Yuan-Ming
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引用次数: 1

摘要

本文综述了多标记分析和多数量性状位点(QTL)定位的收缩估计方法。对于多标记分析,Xu (Genetics, 2003,163:789-801)开发了一种贝叶斯收缩估计(BSE)方法。该方法成功的关键是允许每个标记效应都有自己的方差参数,而方差参数又有自己的先验分布,从而可以从数据中估计方差。在这个层次模型下,可以处理大量的标记,尽管其中大多数的影响可以忽略不计。但在上位遗传模型下,运行时间很长。为了克服这一问题,提出了一种将上述思想纳入最大似然的新方法,即惩罚似然法。模拟研究表明,该方法可以处理比样本量大10倍的多效应模型。针对多QTL分析,介绍了两种改进的BSE方法:固定区间法和变区间法。前者处理中等密度的标记,后者可以处理极高密度的标记以及具有上位效应的模型。对于上位效应的检测,可以采用惩罚似然法和BSE方法的变区间方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Shrinkage Estimation Method for Mapping Multiple Quantitative Trait Loci

In this article, shrinkage estimation method for multiple-marker analysis and for mapping multiple quantitative trait loci (QTL) was reviewed. For multiple-marker analysis, Xu (Genetics, 2003, 163:789-801) developed a Bayesian shrinkage estimation (BSE) method. The key to the success of this method is to allow each marker effect have its own variance parameter, which in turn has its own prior distribution so that the variance can be estimated from the data. Under this hierarchical model, a large number of markers can be handled although most of them may have negligible effects. Under epistatic genetic model, however, the running time is very long. To overcome this problem, a novel method of incorporating the idea described above into maximum likelihood, known as penalized likelihood method, was proposed. A simulated study showed that this method can handle a model with multiple effects, which are ten times larger than the sample size. For multiple QTL analysis, two modified versions for the BSE method were introduced: one is the fixed-interval method and another is the variable-interval method. The former deals with markers with intermediate density, and the latter can handle markers with extremely high density as well as model with epistatic effects. For the detection of epistatic effects, penalized likelihood method and the variable-interval approach of the BSE method are available.

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