Bivariate Poisson models with varying offsets: an application to the paired mitochondrial DNA dataset.

IF 0.8 4区数学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY Statistical Applications in Genetics and Molecular Biology Pub Date : 2017-03-01 DOI:10.1515/sagmb-2016-0040

Pei-Fang Su, Yu-Lin Mau, Yan Guo, Chung-I Li, Qi Liu, John D Boice, Yu Shyr

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引用次数: 1

Abstract

To assess the effect of chemotherapy on mitochondrial genome mutations in cancer survivors and their offspring, a study sequenced the full mitochondrial genome and determined the mitochondrial DNA heteroplasmic (mtDNA) mutation rate. To build a model for counts of heteroplasmic mutations in mothers and their offspring, bivariate Poisson regression was used to examine the relationship between mutation count and clinical information while accounting for the paired correlation. However, if the sequencing depth is not adequate, a limited fraction of the mtDNA will be available for variant calling. The classical bivariate Poisson regression model treats the offset term as equal within pairs; thus, it cannot be applied directly. In this research, we propose an extended bivariate Poisson regression model that has a more general offset term to adjust the length of the accessible genome for each observation. We evaluate the performance of the proposed method with comprehensive simulations, and the results show that the regression model provides unbiased parameter estimations. The use of the model is also demonstrated using the paired mtDNA dataset.

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具有不同偏移量的双变量泊松模型:对配对线粒体DNA数据集的应用。

为了评估化疗对癌症幸存者及其后代线粒体基因组突变的影响，一项研究对全线粒体基因组进行了测序，并确定了线粒体DNA异质(mtDNA)突变率。为了建立母亲及其后代的异质突变计数模型，使用双变量泊松回归来检验突变计数与临床信息之间的关系，同时考虑配对相关性。然而，如果测序深度不够，mtDNA的有限部分将可用于变体调用。经典的二元泊松回归模型在对内将偏移项视为相等;因此，它不能直接应用。在这项研究中，我们提出了一个扩展的双变量泊松回归模型，该模型具有更一般的偏移项来调整每次观察的可访问基因组的长度。通过综合仿真对该方法的性能进行了评价，结果表明该回归模型能够提供无偏的参数估计。使用配对的mtDNA数据集也演示了该模型的使用。

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来源期刊

Statistical Applications in Genetics and Molecular Biology BIOCHEMISTRY & MOLECULAR BIOLOGY-MATHEMATICAL & COMPUTATIONAL BIOLOGY

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期刊介绍： Statistical Applications in Genetics and Molecular Biology seeks to publish significant research on the application of statistical ideas to problems arising from computational biology. The focus of the papers should be on the relevant statistical issues but should contain a succinct description of the relevant biological problem being considered. The range of topics is wide and will include topics such as linkage mapping, association studies, gene finding and sequence alignment, protein structure prediction, design and analysis of microarray data, molecular evolution and phylogenetic trees, DNA topology, and data base search strategies. Both original research and review articles will be warmly received.