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Predictive Modeling of Viral Pathogenesis


EMSL Project ID
49251

Abstract

The interactions between a host and a pathogen are complex, representing a molecular interplay that results in either health or disease as an outcome. Understanding the nuances of these interactions on a molecular level is critical to preventing and/or treating infection. The objective of this project is to analyze the molecular components involved in host-viral interactions, in order to model the dynamics of viral infection. The potential impact of this investigation is wide reaching, including application in fundamental biology through the increased understanding of viral infection using unique viral systems, as well as application in identifying cellular targets for the development of therapeutics that would interfere with critical infection processes. Utilization of EMSL resources, specifically the Q-Exactive HF instrument purchased under this project, will be essential for generation of high quality data for use in downstream applications.

Project Details

Start Date
2016-03-28
End Date
2016-09-30
Status
Closed

Team

Principal Investigator

Joshua Adkins
Institution
Pacific Northwest National Laboratory

Team Members

Richard White
Institution
Washington State University

Brooke Kaiser
Institution
Pacific Northwest National Laboratory

Young-Mo Kim
Institution
Pacific Northwest National Laboratory

Thomas Metz
Institution
Pacific Northwest National Laboratory

Related Publications

Johnston G.P., B. Bradel-Tretheway, P.D. Piehowski, H.M. Brewer, B. Lee, N.T. Usher, and J.L. Zamora, et al. 2019. "Nipah virus-like particle egress is modulated by both cytoskeletal and vesicular trafficking pathways: a validated particle proteomics analysis." mSystems 4, no. 5:Article Number e00194-19. PNNL-SA-142825. doi:10.1128/mSystems.00194-19