Deciphering the kinetic mechanism of spontaneous self-assembly of icosahedral capsids.

Deciphering the kinetic mechanism of spontaneous self-assembly of icosahedral capsids. Research Abstract Details 

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Deciphering the kinetic mechanism of spontaneous self-assembly of icosahedral capsids. Abstract Text:

Hung D Nguyen,Vijay S Reddy,Charles L Brooks,

Self-assembly of viral proteins into icosahedral capsids is an interesting yet poorly understood phenomenon of which elucidation may aid the exploration of beneficial applications of capsids in materials science and medicine. Using molecular dynamics simulations of coarse-grained models for capsid proteins, we show that the competition between the formation of full capsids and nonidealized structures is strongly dependent upon the protein concentration and temperature, occurring kinetically as a cascade of elementary reactions in which free monomers are added to the growing oligomers on a downhill free-energy landscape. However, the insertion of the final subunits is the rate-limiting, energetically unfavorable step in viral capsid assembly. A phase diagram has been constructed to show the regions where capsids or nonidealized structures are stable at each concentration and temperature. We anticipate that our findings will provide guidance in identifying suitable conditions required for in vitro viral capsid assembly experiments.

Deciphering the kinetic mechanism of spontaneous self-assembly of icosahedral capsids. Publishing Authors By Initials

HD Nguyen,VS Reddy,CL Brooks,

For similar biological phenomena, cell phenomena, and immunity: biological phenomena: microbiologic phenomena: viral physiology: virus replication: virus assembly research abstracts see: biological phenomena, cell phenomena, and immunity: biological phenomena: microbiologic phenomena: viral physiology: virus replication: virus assembly research

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Deciphering the kinetic mechanism of spontaneous self-assembly of icosahedral capsids. Journal Published:

PUBLICATION TYPE: Research Support, U.S. Gov't,

Journal: Nano letters

VOLUME: 7

Page Numbers: 338-44

Journal Abbreviation: Nano Lett.

ISSN: 1530-6984

DAY: 3

MONTH: Feb

YEAR: 2007

Deciphering the kinetic mechanism of spontaneous self-assembly of icosahedral capsids. Information

Number of References:

LANGUAGE: eng

NlmUniqueID: 101088070

Deciphering the kinetic mechanism of spontaneous self-assembly of icosahedral capsids. Keywords Mesh Terms:

KEYWORDS: Virus Assembly

MESH TERMS: ultrastructure

Chemical & Substance for Abstract: Deciphering the kinetic mechanism of spontaneous self-assembly of icosahedral capsids. Information

Substance Name: Multiprotein Complexes

Registry Number: 0

Grant and Affiliation Information for Deciphering the kinetic mechanism of spontaneous self-assembly of icosahedral capsids.

AFFILIATION: Department of Molecular Biology, TPC6, 10550 North Torrey Pines Road, La Jolla, California 92037, USA.

Country: United States

AGENCY: United States NCRR

GRANT: RR12255

ACRONYM: RR

MEDLINETA: Nano Lett

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