在鉴定差异表达基因时,修改SAMseq以解释效应大小分布的不对称性。

Pub Date : 2017-11-27 DOI:10.1515/sagmb-2016-0037
Ekua Kotoka, Megan Orr
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引用次数: 1

摘要

RNA-Seq是一种通过直接测序样品中的mRNA分子来生成基因表达数据的新兴技术。RNA-Seq数据包括记录到特定基因的读取计数,通常用于识别差异表达(DE)基因。用于分析RNA-Seq数据的常用统计方法是强调RNA-Seq数据的微阵列显著性分析(SAMseq)。SAMseq是一种非参数方法,在鉴定DE基因时使用重采样技术来解释测序深度的差异。我们建议对这种方法进行修改,通过考虑检验统计量的符号来考虑效应大小分布的不对称性。通过仿真研究,我们表明,与传统的SAMseqmethod和其他现有方法相比,所提出的方法在大多数不对称存在的情况下,能够更好地识别真正的DE基因或更充分地控制FDR。我们通过分析包含C57BL/6J (B6)和DBA/2J (D2)小鼠品系样本的RNA-Seq数据集来说明该方法的使用。
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Modifying SAMseq to account for asymmetry in the distribution of effect sizes when identifying differentially expressed genes.

RNA-Seq is a developing technology for generating gene expression data by directly sequencing mRNA molecules in a sample. RNA-Seq data consist of counts of reads recorded to a particular gene that are often used to identify differentially expressed (DE) genes. A common statistical method used to analyze RNA-Seq data is Significance Analysis of Microarray with emphasis on RNA-Seq data (SAMseq). SAMseq is a nonparametric method that uses a resampling technique to account for differences in sequencing depths when identifying DE genes. We propose a modification of this method that takes into account asymmetry in the distribution of the effect sizes by taking into account the sign of the test statistics. Through simulation studies, we showthat the proposed method, comparedwith the traditional SAMseqmethod and other existing methods provides better power for identifying truly DE genes or more sufficiently controls FDR in most settings where asymmetry is present. We illustrate the use of the proposed method by analyzing an RNA-Seq data set containing C57BL/6J (B6) and DBA/2J (D2) mouse strains samples.

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