亚硫酸氢盐测序实验中甲基化谱的建模、模拟和分析。

Pub Date : 2013-12-01 DOI:10.1515/sagmb-2013-0027
Michelle R Lacey, Carl Baribault, Melanie Ehrlich
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引用次数: 25

摘要

ENCODE项目资助了使用减少亚硫酸氢盐测序(RRBS)技术生成多样化甲基化谱的收集,从而能够在单位点分辨率的基因组尺度上分析表观遗传变异。RRBS实验的一个标准应用是在两组样品之间的差异甲基化区域(DMRs)的位置。尽管有许多出版物报道了从RRBS数据集中确定的dmr,但尚未对实验和生物因素对现有或新开发的分析方法性能的影响进行正式分析。这些因素包括不同的读取覆盖率,不同基因组区域的组样本量,CpG二核苷酸位点之间的不均匀间距,以及邻近位点之间甲基化水平的相关性。为了更好地理解RRBS甲基化谱分析中技术变量和生物变量之间的相互作用,我们开发了一种生成实验真实RRBS数据集的算法。应用我们的模拟研究得出的见解,我们提出了一种新的程序,可以识别跨越三个CpG位点的dmr,具有高灵敏度和特异性。以肌肉与非肌肉细胞培养的RRBS数据为例,我们证明我们的方法比以前的方法揭示了更多可能具有生物学意义的DMRs。
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Modeling, simulation and analysis of methylation profiles from reduced representation bisulfite sequencing experiments.

The ENCODE project has funded the generation of a diverse collection of methylation profiles using reduced representation bisulfite sequencing (RRBS) technology, enabling the analysis of epigenetic variation on a genomic scale at single-site resolution. A standard application of RRBS experiments is in the location of differentially methylated regions (DMRs) between two sets of samples. Despite numerous publications reporting DMRs identified from RRBS datasets, there have been no formal analyses of the effects of experimental and biological factors on the performance of existing or newly developed analytical methods. These factors include variable read coverage, differing group sample sizes across genomic regions, uneven spacing between CpG dinucleotide sites, and correlation in methylation levels among sites in close proximity. To better understand the interplay among technical and biological variables in the analysis of RRBS methylation profiles, we have developed an algorithm for the generation of experimentally realistic RRBS datasets. Applying insights derived from our simulation studies, we present a novel procedure that can identify DMRs spanning as few as three CpG sites with both high sensitivity and specificity. Using RRBS data from muscle vs. non-muscle cell cultures as an example, we demonstrate that our method reveals many more DMRs that are likely to be of biological significance than previous methods.

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