Protein interactions and consensus clustering analysis uncover insights into herpesvirus virion structure and function relationships

This study presents our efforts to unravel the complexity of the inter actome of herpes simplex virus type 1 (HSV1), the prototypical herpesvirus species. Inspired by our previous work, we present an improved and more integrative computational pipeline for the protein–protein interaction (PPI) network reconstruction in HSV1, together with a newly developed consensus clustering framework, which allowed us to extend the analysis beyond binary physical interactions and revealed a system-level layout of higher-order functional associations in the virion proteome. Additionally, the analysis provided new functional annotation for the currently undercharacterised prot ein in unique short region 10 (pUS10). In-depth bioinformatics sequence analysis unravelled structural features in pUS10 reminiscent of those observed in some capsid-associated proteins in tailed bacteriophages, with which herpesviruses are believed to share a common ancestry. Using immunoaffinity p urification (IP)–mass spectrometry (MS), we obtained additional support for our bioinformatically predicted interaction between pUS10 and the inner tegument protein in unique long region 37 (pUL37), which binds cytosolic capsids, contributing to initial tegumentation and eventually virion maturati on. In summary, this study unveils new, to our knowledge, insights at both the system and molecular levels that can help us better understand the complexity behind herpesvirus infections.
Source: PLoS Biology: Archived Table of Contents - Category: Biology Authors: Source Type: research