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PCSF: An R-package for network-based interpretation of high-throughput data

Author

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  • Murodzhon Akhmedov
  • Amanda Kedaigle
  • Renan Escalante Chong
  • Roberto Montemanni
  • Francesco Bertoni
  • Ernest Fraenkel
  • Ivo Kwee

Abstract

With the recent technological developments a vast amount of high-throughput data has been profiled to understand the mechanism of complex diseases. The current bioinformatics challenge is to interpret the data and underlying biology, where efficient algorithms for analyzing heterogeneous high-throughput data using biological networks are becoming increasingly valuable. In this paper, we propose a software package based on the Prize-collecting Steiner Forest graph optimization approach. The PCSF package performs fast and user-friendly network analysis of high-throughput data by mapping the data onto a biological networks such as protein-protein interaction, gene-gene interaction or any other correlation or coexpression based networks. Using the interaction networks as a template, it determines high-confidence subnetworks relevant to the data, which potentially leads to predictions of functional units. It also interactively visualizes the resulting subnetwork with functional enrichment analysis.

Suggested Citation

  • Murodzhon Akhmedov & Amanda Kedaigle & Renan Escalante Chong & Roberto Montemanni & Francesco Bertoni & Ernest Fraenkel & Ivo Kwee, 2017. "PCSF: An R-package for network-based interpretation of high-throughput data," PLOS Computational Biology, Public Library of Science, vol. 13(7), pages 1-7, July.
    • Handle: RePEc:plo:pcbi00:1005694
    DOI: 10.1371/journal.pcbi.1005694
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    1. Indranil Paul & Dante Bolzan & Ahmed Youssef & Keith A. Gagnon & Heather Hook & Gopal Karemore & Michael U. J. Oliphant & Weiwei Lin & Qian Liu & Sadhna Phanse & Carl White & Dzmitry Padhorny & Sergei, 2023. "Parallelized multidimensional analytic framework applied to mammary epithelial cells uncovers regulatory principles in EMT," Nature Communications, Nature, vol. 14(1), pages 1-23, December.

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