Integrated, High-Throughput, Multiomics Platform Enables Data-Driven Construction of Cellular Responses and Reveals Global Drug Mechanisms of Action

Document Details

Document Type
Pub Defense Publication
Publication Date
Feb 09, 2017
Source ID
10.1021/acs.jproteome.6b01004

Entities

People

  • Alex L. R. Lubbock
  • Ashley Jordan
  • Boone M Prentice
  • Carlos F. López
  • Carrie Romer
  • D. Borden Lacy
  • Danielle B Gutierrez
  • Eric P. Skaar
  • James C. Pino
  • James C. Poland
  • Jamie L. Allen
  • Jeffrey M. Spraggins
  • Jeremy L. Norris
  • John A. McLean
  • John P. Wikswo, Jr.
  • Kristie L. Rose
  • Lauren D. Palmer
  • M. Lisa Manier
  • M. Ray Keller
  • Melissa A. Farrow
  • Nathaniel M Braman
  • Nichole Lobdell
  • Nicole Muszynski
  • Raf Van de Plas
  • Richard M. Caprioli
  • Salisha Hill
  • Stacey A. Rutherford
  • Stacy D. Sherrod
  • Tina Tsui
  • William Burns
  • Yuan-wei Nei

Organizations

  • Army Research Office
  • Defense Threat Reduction Agency
  • Delft University of Technology
  • Division of Molecular & Cellular Biosciences
  • Vanderbilt University
  • Vanderbilt-Ingram Cancer Center