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Structures of the native and swollen forms of cowpea chlorotic mottle virus determined by X-ray crystallography and cryo-electron microscopy.

Authors :
Speir, JA
Speir, JA
Munshi, S
Wang, G
Baker, TS
Johnson, JE
Speir, JA
Speir, JA
Munshi, S
Wang, G
Baker, TS
Johnson, JE
Source :
Structure (London, England : 1993); vol 3, iss 1, 63-78; 0969-2126
Publication Year :
1995

Abstract

BackgroundRNA-protein interactions stabilize many viruses and also the nucleoprotein cores of enveloped animal viruses (e.g. retroviruses). The nucleoprotein particles are frequently pleomorphic and generally unstable due to the lack of strong protein-protein interactions in their capsids. Principles governing their structures are unknown because crystals of such nucleoprotein particles that diffract to high resolution have not previously been produced. Cowpea chlorotic mottle virions (CCMV) are typical of particles stabilized by RNA-protein interactions and it has been found that crystals that diffract beyond 4.5 A resolution are difficult to grow. However, we report here the purification of CCMV with an exceptionally mild procedure and the growth of crystals that diffract X-rays to 3.2 A resolution.ResultsThe 3.2 A X-ray structure of native CCMV, an icosahedral (T = 3) RNA plant virus, shows novel quaternary structure interactions based on interwoven carboxyterminal polypeptides that extend from canonical capsid beta-barrel subunits. Additional particle stability is provided by intercapsomere contacts between metal ion mediated carboxyl cages and by protein interactions with regions of ordered RNA. The structure of a metal-free, swollen form of the virus was determined by cryo-electron microscopy and image reconstruction. Modeling of this structure with the X-ray coordinates of the native subunits shows that the 29 A radial expansion is due to electrostatic repulsion at the carboxyl cages and is stopped short of complete disassembly by preservation of interwoven carboxyl termini and protein-RNA contacts.ConclusionsThe CCMV capsid displays quaternary structural interactions that are unique compared with previously determined RNA virus structures. The loosely coupled hexamer and pentamer morphological units readily explain their versatile reassembly properties and the pH and metal ion dependent polymorphism observed in the virions. Association of capsomeres through

Details

Database :
OAIster
Journal :
Structure (London, England : 1993); vol 3, iss 1, 63-78; 0969-2126
Notes :
application/pdf, Structure (London, England : 1993) vol 3, iss 1, 63-78 0969-2126
Publication Type :
Electronic Resource
Accession number :
edsoai.on1344353572
Document Type :
Electronic Resource