PLoS Computational Biology (Aug 2016)

metagene Profiles Analyses Reveal Regulatory Element's Factor-Specific Recruitment Patterns.

  • Charles Joly Beauparlant,
  • Fabien C Lamaze,
  • Astrid Deschênes,
  • Rawane Samb,
  • Audrey Lemaçon,
  • Pascal Belleau,
  • Steve Bilodeau,
  • Arnaud Droit

DOI
https://doi.org/10.1371/journal.pcbi.1004751
Journal volume & issue
Vol. 12, no. 8
p. e1004751

Abstract

Read online

ChIP-Sequencing (ChIP-Seq) provides a vast amount of information regarding the localization of proteins across the genome. The aggregation of ChIP-Seq enrichment signal in a metagene plot is an approach commonly used to summarize data complexity and to obtain a high level visual representation of the general occupancy pattern of a protein. Here we present the R package metagene, the graphical interface Imetagene and the companion package similaRpeak. Together, they provide a framework to integrate, summarize and compare the ChIP-Seq enrichment signal from complex experimental designs. Those packages identify and quantify similarities or dissimilarities in patterns between large numbers of ChIP-Seq profiles. We used metagene to investigate the differential occupancy of regulatory factors at noncoding regulatory regions (promoters and enhancers) in relation to transcriptional activity in GM12878 B-lymphocytes. The relationships between occupancy patterns and transcriptional activity suggest two different mechanisms of action for transcriptional control: i) a "gradient effect" where the regulatory factor occupancy levels follow transcription and ii) a "threshold effect" where the regulatory factor occupancy levels max out prior to reaching maximal transcription. metagene, Imetagene and similaRpeak are implemented in R under the Artistic license 2.0 and are available on Bioconductor.