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Title: Unravelling the Stability and Capsid Dynamics of the Three Virions of Brome Mosaic Virus Assembled Autonomously In Vivo. Author: Chakravarty A, Reddy VS, Rao ALN. Journal: J Virol; 2020 Mar 31; 94(8):. PubMed ID: 31996436. Abstract: Viral capsids are dynamic assemblies that undergo controlled conformational transitions to perform various biological functions. The replication-derived four-molecule RNA progeny of Brome mosaic virus (BMV) is packaged by a single capsid protein (CP) into three types of morphologically indistinguishable icosahedral virions with T=3 quasisymmetry. Type 1 (B1V) and type 2 (B2V) virions package genomic RNA1 and RNA2, respectively, while type 3 (B3+4V) virions copackage genomic RNA3 (B3) and its subgenomic RNA4 (sgB4). In this study, the application of a robust Agrobacterium-mediated transient expression system allowed us to assemble each virion type separately in planta Experimental approaches analyzing the morphology, size, and electrophoretic mobility failed to distinguish between the virion types. Thermal denaturation analysis and protease-based peptide mass mapping experiments were used to analyze stability and the conformational dynamics of the individual virions, respectively. The crystallographic structure of the BMV capsid shows four trypsin cleavage sites (K65, R103, K111, and K165 on the CP subunits) exposed on the exterior of the capsid. Irrespective of the digestion time, while retaining their capsid structural integrity, B1V and B2V released a single peptide encompassing amino acids 2 to 8 of the N-proximal arginine-rich RNA binding motif. In contrast, B3+4V capsids were unstable with trypsin, releasing several peptides in addition to the peptides encompassing four predicted sites exposed on the capsid exterior. These results, demonstrating qualitatively different dynamics for the three types of BMV virions, suggest that the different RNA genes they contain may have different translational timing and efficiency and may even impart different structures to their capsids.IMPORTANCE The majority of viruses contain RNA genomes protected by a shell of capsid proteins. Although crystallographic studies show that viral capsids are static structures, accumulating evidence suggests that, in solution, virions are highly dynamic assemblies. The three genomic RNAs (RNA1, -2, and -3) and a single subgenomic RNA (RNA4) of Brome mosaic virus (BMV), an RNA virus pathogenic to plants, are distributed among three physically homogeneous virions. This study examines the thermal stability by differential scanning fluorimetry (DSF) and capsid dynamics by matrix-assisted laser desorption ionization-time of flight (MALDI-TOF) analyses following trypsin digestion of the three virions assembled separately in vivo using the Agrobacterium-mediated transient expression approach. The results provide compelling evidence that virions packaging genomic RNA1 and -2 are distinct from those copackaging RNA3 and -4 in their stability and dynamics, suggesting that RNA-dependent capsid dynamics play an important biological role in the viral life cycle.[Abstract] [Full Text] [Related] [New Search]