Phase diagram of self-assembled viral capsid protein polymorphs Article

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Overview

abstract

• We present an experimental study of the self-assembly of capsid proteins of the cowpea chlorotic mosaic virus (CCMV), in the absence of the viral genome, as a function of pH and ionic strength. In accord with previous measurements, a wide range of polymorphs can be identified by electron microscopy, among them single and multiwalled shells and tubes. The images are analyzed with respect to size and shape of aggregates, and evidence is given that equilibrium has been achieved, allowing a phase diagram to be constructed. Some previously unreported structures are also described. The range and stability of the polymorphs can be understood in terms of electrostatic interactions and the way they affect the spontaneous curvature of protein networks and the relative stabilities of pentamers and hexamers. © 2009 American Chemical Society.

authors

• Cadena-Nava R.D.
• Gelbart W.M.
• Gingery M.
• Knobler C.M.
• Lavelle L.
• Phillips M.
• Pinedo-Torres L.A.
• Ruiz García Jaime
• Vega-Acosta J.R.

publication date

• 2009-01-01

published in

• Journal of Physical Chemistry B  Journal

Research

keywords

• Ionic strength; Phase diagrams; Capsid proteins; Electrostatic interactions; Experimental studies; Hexamers; Mosaic virus; Multi-walled; Pentamers; Protein networks; Relative stabilities; Self- assemblies; Self-assembled; Size and shapes; Spontaneous curvatures; Viral capsids; Viral genomes; Polymorphism

Identity

Digital Object Identifier (DOI)

• 10.1021/jp8079765

Additional Document Info

start page

• 3813

end page

• 3819

volume

• 113

issue

• 12