Variational Inference for Coupled Hidden Markov Models Applied to the Joint Detection of Copy Number Variations.

IF 1.2 4区数学 Q4 MATHEMATICAL & COMPUTATIONAL BIOLOGY

International Journal of Biostatistics Pub Date : 2019-02-19 DOI:10.1515/ijb-2018-0023

Xiaoqiang Wang, Emilie Lebarbier, Julie Aubert, Stéphane Robin

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引用次数: 11

Abstract

Hidden Markov models provide a natural statistical framework for the detection of the copy number variations (CNV) in genomics. In this context, we define a hidden Markov process that underlies all individuals jointly in order to detect and to classify genomics regions in different states (typically, deletion, normal or amplification). Structural variations from different individuals may be dependent. It is the case in agronomy where varietal selection program exists and species share a common phylogenetic past. We propose to take into account these dependencies inthe HMM model. When dealing with a large number of series, maximum likelihood inference (performed classically using the EM algorithm) becomes intractable. We thus propose an approximate inference algorithm based on a variational approach (VEM), implemented in the CHMM R package. A simulation study is performed to assess the performance of the proposed method and an application to the detection of structural variations in plant genomes is presented.

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耦合隐马尔可夫模型的变分推理在拷贝数变化联合检测中的应用。

隐马尔可夫模型为基因组学中拷贝数变异(CNV)的检测提供了一个自然的统计框架。在这种情况下，我们定义了一个隐藏的马尔可夫过程，它是所有个体共同的基础，以检测和分类不同状态的基因组区域(通常是缺失、正常或扩增)。不同个体的结构变化可能是依赖的。在农学中，品种选择程序是存在的，物种具有共同的系统发育历史。我们建议在HMM模型中考虑这些依赖关系。当处理大量序列时，极大似然推理(通常使用EM算法进行)变得难以处理。因此，我们提出了一种基于变分方法(VEM)的近似推理算法，并在CHMM R包中实现。模拟研究进行了评估所提出的方法的性能和应用，以检测结构变异的植物基因组提出。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

International Journal of Biostatistics MATHEMATICAL & COMPUTATIONAL BIOLOGY-STATISTICS & PROBABILITY

CiteScore

2.10

自引率

8.30%

发文量

审稿时长

>12 weeks

期刊介绍： The International Journal of Biostatistics (IJB) seeks to publish new biostatistical models and methods, new statistical theory, as well as original applications of statistical methods, for important practical problems arising from the biological, medical, public health, and agricultural sciences with an emphasis on semiparametric methods. Given many alternatives to publish exist within biostatistics, IJB offers a place to publish for research in biostatistics focusing on modern methods, often based on machine-learning and other data-adaptive methodologies, as well as providing a unique reading experience that compels the author to be explicit about the statistical inference problem addressed by the paper. IJB is intended that the journal cover the entire range of biostatistics, from theoretical advances to relevant and sensible translations of a practical problem into a statistical framework. Electronic publication also allows for data and software code to be appended, and opens the door for reproducible research allowing readers to easily replicate analyses described in a paper. Both original research and review articles will be warmly received, as will articles applying sound statistical methods to practical problems.