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- Title
HMM-Fisher: identifying differential methylation using a hidden Markov model and Fisher's exact test.
- Authors
Sun, Shuying; Yu, Xiaoqing
- Abstract
DNA methylation is an epigenetic event that plays an important role in regulating gene expression. It is important to study DNA methylation, especially differential methylation patterns between two groups of samples (e.g. patients vs. normal individuals). With next generation sequencing technologies, it is now possible to identify differential methylation patterns by considering methylation at the single CG site level in an entire genome. However, it is challenging to analyze large and complex NGS data. In order to address this difficult question, we have developed a new statistical method using a hidden Markov model and Fisher's exact test (HMM-Fisher) to identify differentially methylated cytosines and regions. We first use a hidden Markov chain to model the methylation signals to infer the methylation state as Not methylated (N), Partly methylated (P), and Fully methylated (F) for each individual sample. We then use Fisher's exact test to identify differentially methylated CG sites. We show the HMM-Fisher method and compare it with commonly cited methods using both simulated data and real sequencing data. The results show that HMM-Fisher outperforms the current available methods to which we have compared. HMM-Fisher is efficient and robust in identifying heterogeneous DM regions.
- Subjects
HIDDEN Markov models; DNA methylation; EPIGENETICS; GENE expression; MARKOV chain Monte Carlo; MATHEMATICAL models
- Publication
Statistical Applications in Genetics & Molecular Biology, 2016, Vol 15, Issue 1, p55
- ISSN
1544-6115
- Publication type
Article
- DOI
10.1515/sagmb-2015-0076