PICS: Probabilistic Inference for ChIP‐seq

Summary ChIP‐seq combines chromatin immunoprecipitation with massively parallel short‐read sequencing. While it can profile genome‐wide in vivo transcription factor‐DNA association with higher sensitivity, specificity, and spatial resolution than ChIP‐chip, it poses new challenges for statistical analysis that derive from the complexity of the biological systems characterized and from variability and biases in its sequence data. We propose a method called PICS (Probabilistic Inference for ChIP‐seq) for identifying regions bound by transcription factors from aligned reads. PICS identifies binding event locations by modeling local concentrations of directional reads, and uses DNA fragment length prior information to discriminate closely adjacent binding events via a Bayesian hierarchical t‐mixture model. It uses precalculated, whole‐genome read mappability profiles and a truncated t‐distribution to adjust binding event models for reads that are missing due to local genome repetitiveness. It estimates uncertainties in model parameters that can be used to define confidence regions on binding event locations and to filter estimates. Finally, PICS calculates a per‐event enrichment score relative to a control sample, and can use a control sample to estimate a false discovery rate. Using published GABP and FOXA1 data from human cell lines, we show that PICS' predicted binding sites were more consistent with computationally predicted binding motifs than the alternative methods MACS, QuEST, CisGenome, and USeq. We then use a simulation study to confirm that PICS compares favorably to these methods and is robust to model misspecification.

• Publication year

  2009

• Venue

  Biometrics

• Publication date

  2009-03-18

• Fields of study

  Biology, Medicine, Computer Science

• Identifiers
  DOI 10.1111/j.1541-0420.2010.01441.xarXiv 0903.3206PMID 20528864
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar, PubMed

• No claims are published for this paper.

• No concepts are published for this paper.

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