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Paper detail

Scanning a Poisson Random Field for Local Signals

The detection of local genomic signals using high-throughput DNA sequencing data can be cast as a problem of scanning a Poisson random field for local changes in the rate of the process. We propose a likelihood-based framework for for such scans, and derive formulas for false positive rate control and power calculations. The framework can also accommodate mixtures of Poisson processes to deal with over-dispersion. As a specific, detailed example, we consider the detection of insertions and deletions by paired-end DNA-sequencing. We propose several statistics for this problem, compare their power under current experimental designs, and illustrate their application on an Illumina Platinum Genomes data set.

preprint2014arXivOpen access
Nancy R. ZhangBenjamin YakirCharlie L. XiaDavid Siegmund
MethodologyGenomicsApplications
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Nancy R. ZhangBenjamin YakirCharlie L. XiaDavid Siegmund

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