Viral Genome Conformations and Contacts across Different Lifecycle Stages

Autor: Peter G. Stockley, Nikesh Patel, Emma L. Wroblewski, Andrew J. P. Scott, Carlos P. Mata, Rebecca Chandler-Bostock, Amy M. Barker, Reidun Twarock, Sam Clark, Richard J. Bingham
Jazyk: angličtina
Rok vydání: 2020
Předmět:
Zdroj: Proceedings, Vol 50, Iss 1, p 109 (2020)
Druh dokumentu: article
ISSN: 20200501
2504-3900
DOI: 10.3390/proceedings2020050109
Popis: Single-stranded RNA viral genomes (gRNA) are dynamic molecules that permit packaging into virions and their subsequent extrusion during infection. For viruses with such genomes, we discovered a previously unsuspected mechanism that regulates their assembly. This regulation is the result of multiple cognate coat protein (CP)–gRNA contacts distributed across the RNA. Collectively, these interactions make the assembly highly efficient and specific. The regions of the gRNA packaging signals (PSs) driving this assembly are potential drug targets, whilst the manipulation of PS–CP contacts with nonviral RNA cargos is a route towards bespoke virus-like particles. Infectivity depends on the virions being able to transfer their gRNAs into host cells. The starting point for this transfer appears to be an encapsidated RNA with a defined three-dimensional structure, especially around the PSs. A combination of asymmetric cryo-electron microscopy structure determination and X-ray synchrotron footprinting were used to define these contacts and structures in a number of viral examples, including hepatitis B virus and enteroviruses. These tools allow us to look beyond the outer CP layer of the virion shell and to see the functional, asymmetric components that regulate viral infectivity. This revealed yet more unexpected aspects of critical infection mechanisms, such as the RNA conformational changes required for encapsidation, the details of PS–CP contacts regulating the assembly, and the conformational “memory” imposed by encapsidation.
Databáze: Directory of Open Access Journals