Modulation of Capsid Dynamics in Bromoviruses by the Host and Heterologous Viral Replicase.
Antara ChakravartyA L N RaoPublished in: Journal of virology (2023)
The three genomic and a single subgenomic RNA of Cowpea chlorotic mottle virus (CCMV), which is pathogenic to plants, is packaged into three morphologically indistinguishable icosahedral virions with T=3 symmetry. The two virion types, C1 V and C2 V , package genomic RNAs 1 (C1) and 2 (C2), respectively. The third virion type, C3+4 V , copackages genomic RNA3 and its subgenomic RNA (RNA4). In this study, we sought to evaluate how the alteration of native capsid dynamics by the host and viral replicase modulate the general biology of the virus. The application of a series of biochemical, molecular, and biological assays revealed the following. (i) Proteolytic analysis of the three virion types of CCMV assembled individually in planta revealed that, while retaining the structural integrity, C1 V and C2 V virions released peptide regions encompassing the N-terminal arginine-rich RNA binding motif. In contrast, a minor population of the C3+4 V virion type was sensitive to trypsin-releasing peptides encompassing the entire capsid protein region. (ii) The wild-type CCMV virions purified from cowpea are highly susceptible to trypsin digestion, while those from Nicotiana benthamiana remained resistant, and (iii) finally, the matrix-assisted laser desorption ionization-time of flight (MALDI-TOF) analysis evaluated the relative dynamics of C3+4 V and B3+4 V virions assembled under the control of the homologous versus heterologous replicase. The role of viral replicase in modulating the capsid dynamics was evident by the differential sensitivity to protease exhibited by B3+4 V and C3+4 V virions assembled under the homologous versus heterologous replicase. Our results collectively conclude that constant modulation of capsid dynamics by the host and viral replicase is obligatory for successful infection. IMPORTANCE Infectious virus particles or virions are considered static structures and undergo various conformational transitions to replicate and infect many eukaryotic cells. In viruses, conformational changes are essential for establishing infection and evolution. Although viral capsid fluctuations, referred to as dynamics or breathing, have been well studied in RNA viruses pathogenic to animals, such information is limited among plant viruses. The primary focus of this study is to address how capsid dynamics of plant-pathogenic RNA viruses, namely, Cowpea chlorotic mottle (CCMV) and Brome mosaic virus (BMV), are modulated by the host and viral replicase. The results presented have improved and transformed our understanding of the functional relationship between capsid dynamics and the general biology of the virus. They are likely to provide stimulus to extend similar studies to viruses pathogenic to eukaryotic organisms.
Keyphrases
- sars cov
- mass spectrometry
- magnetic resonance imaging
- dna damage
- healthcare
- magnetic resonance
- nitric oxide
- induced apoptosis
- molecular dynamics
- single molecule
- dna repair
- wild type
- gene expression
- dna methylation
- endoplasmic reticulum stress
- small molecule
- cell death
- multidrug resistant
- oxidative stress
- disease virus