A Bayesian mixture model for chromatin interaction data.

Pub Date : 2015-02-01 DOI:10.1515/sagmb-2014-0029
Liang Niu, Shili Lin
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引用次数: 6

Abstract

Chromatin interactions mediated by a particular protein are of interest for studying gene regulation, especially the regulation of genes that are associated with, or known to be causative of, a disease. A recent molecular technique, Chromatin interaction analysis by paired-end tag sequencing (ChIA-PET), that uses chromatin immunoprecipitation (ChIP) and high throughput paired-end sequencing, is able to detect such chromatin interactions genomewide. However, ChIA-PET may generate noise (i.e., pairings of DNA fragments by random chance) in addition to true signal (i.e., pairings of DNA fragments by interactions). In this paper, we propose MC_DIST based on a mixture modeling framework to identify true chromatin interactions from ChIA-PET count data (counts of DNA fragment pairs). The model is cast into a Bayesian framework to take into account the dependency among the data and the available information on protein binding sites and gene promoters to reduce false positives. A simulation study showed that MC_DIST outperforms the previously proposed hypergeometric model in terms of both power and type I error rate. A real data study showed that MC_DIST may identify potential chromatin interactions between protein binding sites and gene promoters that may be missed by the hypergeometric model. An R package implementing the MC_DIST model is available at http://www.stat.osu.edu/~statgen/SOFTWARE/MDM.

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染色质相互作用数据的贝叶斯混合模型。
由特定蛋白质介导的染色质相互作用是研究基因调控,特别是与疾病相关或已知导致疾病的基因调控的兴趣所在。最近的一项分子技术,染色质相互作用分析通过配对末端标记测序(ChIA-PET),使用染色质免疫沉淀(ChIP)和高通量配对末端测序,能够检测全基因组范围内的染色质相互作用。然而,除了真信号(即DNA片段通过相互作用配对)外,ChIA-PET还可能产生噪声(即随机配对的DNA片段)。在本文中,我们提出了基于混合建模框架的MC_DIST,以从china - pet计数数据(DNA片段对计数)中识别真正的染色质相互作用。该模型被转换为贝叶斯框架,以考虑数据之间的依赖性以及蛋白质结合位点和基因启动子的可用信息,以减少误报。仿真研究表明,MC_DIST在功率和I型错误率方面都优于先前提出的超几何模型。一项实际数据研究表明,MC_DIST可以识别蛋白质结合位点和基因启动子之间可能被超几何模型遗漏的潜在染色质相互作用。实现MC_DIST模型的R包可从http://www.stat.osu.edu/~statgen/SOFTWARE/MDM获得。
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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