Assessing genome-wide significance for the detection of differentially methylated regions.

IF 0.8 4区数学 Q4 BIOCHEMISTRY & MOLECULAR BIOLOGY

Statistical Applications in Genetics and Molecular Biology Pub Date : 2018-09-19 DOI:10.1515/sagmb-2017-0050

Christian M Page, Linda Vos, Trine B Rounge, Hanne F Harbo, Bettina K Andreassen

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引用次数: 4

Abstract

DNA methylation plays an important role in human health and disease, and methods for the identification of differently methylated regions are of increasing interest. There is currently a lack of statistical methods which properly address multiple testing, i.e. control genome-wide significance for differentially methylated regions. We introduce a scan statistic (DMRScan), which overcomes these limitations. We benchmark DMRScan against two well established methods (bumphunter, DMRcate), using a simulation study based on real methylation data. An implementation of DMRScan is available from Bioconductor. Our method has higher power than alternative methods across different simulation scenarios, particularly for small effect sizes. DMRScan exhibits greater flexibility in statistical modeling and can be used with more complex designs than current methods. DMRScan is the first dynamic approach which properly addresses the multiple-testing challenges for the identification of differently methylated regions. DMRScan outperformed alternative methods in terms of power, while keeping the false discovery rate controlled.

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评估检测差异甲基化区域的全基因组意义。

DNA甲基化在人类健康和疾病中起着重要作用，鉴定不同甲基化区域的方法越来越引起人们的兴趣。目前缺乏适当处理多重检测的统计方法，即控制差异甲基化区域的全基因组显著性。我们引入了扫描统计量(DMRScan)，它克服了这些限制。我们使用基于真实甲基化数据的模拟研究，将DMRScan与两种成熟的方法(bumphunter, DMRcate)进行基准测试。DMRScan的实现可以从Bioconductor获得。我们的方法在不同的模拟场景中比其他方法具有更高的功率，特别是对于小的效应大小。DMRScan在统计建模方面表现出更大的灵活性，可以使用比当前方法更复杂的设计。DMRScan是第一个动态方法，它正确地解决了识别不同甲基化区域的多重测试挑战。DMRScan在功率方面优于其他方法，同时保持了错误发现率的控制。

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

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

自引率

11.10%

发文量

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.