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Literature DB >> 16782135

Master equation approach to the assembly of viral capsids.

Abstract

The distribution of inequivalent geometries occurring during self-assembly of the major capsid protein in thermodynamic equilibrium is determined based on a master equation approach. These results are implemented to characterize the assembly of SV40 virus and to obtain information on the putative pathways controlling the progressive build-up of the SV40 capsid. The experimental testability of the predictions is assessed and an analysis of the geometries of the assembly intermediates on the dominant pathways is used to identify targets for anti-viral drug design.

Mesh：

Substances：
Capsid Proteins

Year: 2006 PMID： 16782135 DOI： 10.1016/j.jtbi.2006.04.023

Source DB: PubMed Journal: J Theor Biol ISSN： 0022-5193 Impact factor: 2.691

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Cited

21 in total

Master equation approach to the assembly of viral capsids.

1. Exploring the paths of (virus) assembly.

2. Modeling Viral Capsid Assembly.

3. Tilable nature of virus capsids and the role of topological constraints in natural capsid design.

4. Affine extensions of the icosahedral group with applications to the three-dimensional organisation of simple viruses.

5. Exploring the parameter space of complex self-assembly through virus capsid models.

6. Derivative-Free Optimization of Rate Parameters of Capsid Assembly Models from Bulk in Vitro Data.

7. Using Markov state models to study self-assembly.

8. Molecular dynamics study of T = 3 capsid assembly.

Review 9. Quantitative computational models of molecular self-assembly in systems biology.

10. Surveying capsid assembly pathways through simulation-based data fitting.