Abstract
The molecular mechanisms by which RNA viruses coordinate their transcriptional activities are not fully understood. For rotavirus, an important pediatric gastroenteric pathogen, transcription occurs within a double-layered particle that encloses the viral genome. To date, there remains very little structural information available for actively-transcribing rotavirus double-layered particles, which could provide new insights for antiviral development. To improve our vision of these viral assemblies, we developed a new combinatorial strategy that utilizes currently available high-resolution image processing tools. First, we employed a 3D classification routine that allowed us to sort transcriptionally-active rotavirus assemblies on the basis of their internal density. Next, we implemented an additional 3D refinement procedure using the most active class of DLPs. For comparison, the refined structures were computed in parallel by (1) enforcing icosahedral symmetry, and by (2) using no symmetry operators. Comparing the resulting structures, we were able to visualize the continuum that exists between viral capsid proteins and the viral RNA for the first time.
Highlights
RNA viruses are ubiquitous in nature and represent some of the most severe pathogens known to mankind
Viral transcripts are recognized by host cell ribosomes and act as functional templates for protein synthesis (Figure 1A) [5]
To expand upon our previous findings of transcriptionally-active RV double-layered particles (DLPs), we implemented a new computing protocol to better visualize the dynamic nature of these complexes
Summary
RNA viruses are ubiquitous in nature and represent some of the most severe pathogens known to mankind (e.g. influenza A virus, Ebola virus, poliovirus, etc.). Upon inspecting the individual DLP assemblies that represented the active structures, we found greater quantities of mRNA surrounded the particles (Figures 1B and 1C, Class 3).
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More From: Journal of analytical & molecular techniques
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