AbstractVirus capsid assembly has attracted considerable interest from the biophysical modeling community as a model system for complicated self-assembly processes. Simulation methods have proven valuable for characterizing the space of possible kinetics and mechanisms of capsid assembly, but they have so far been able to say little about the assembly kinetics or pathways of any specific virus. It is not possible to directly measure the detailed interaction rates needed to parameterize a model, and there is only a limited amount of experimental evidence available to constrain possible pathways, with almost all of it gathered from in vitro studies of purified coat proteins. In prior work, we developed methods to address this problem by using...
AbstractWe develop a class of models with which we simulate the assembly of particles into T1 capsid...
AbstractA computer model is described for studying the kinetics of the self-assembly of icosahedral ...
AbstractThe process by which hundreds of identical capsid proteins self-assemble into icosahedral st...
<p>Virus capsid assembly has attracted considerable interest from the biophysical modeling community...
AbstractVirus capsid assembly has attracted considerable interest from the biophysical modeling comm...
<p>Understanding the mechanisms of virus capsid assembly has been an important research objective ov...
We use discrete event stochastic simulations to characterize the parameter space of a model of icosa...
AbstractVirus capsid assembly has been widely studied as a biophysical system, both for its biologic...
AbstractWe use discrete event stochastic simulations to characterize the parameter space of a model ...
As computational and mathematical studies become increasingly central to studies of complicated reac...
Virus capsid assembly has been a key model system for studies of complex self-assembly but it does p...
The environment of a living cell is vastly different from that of an in vitro reaction system, an is...
AbstractThe assembly of virus capsids or other spherical polymers—empty, closed structures composed ...
We develop a class of models with which we simulate the assembly of particles into T1 capsid-like ob...
For a three dimensional structure to spontaneously self-assemble from many identical components it m...
AbstractWe develop a class of models with which we simulate the assembly of particles into T1 capsid...
AbstractA computer model is described for studying the kinetics of the self-assembly of icosahedral ...
AbstractThe process by which hundreds of identical capsid proteins self-assemble into icosahedral st...
<p>Virus capsid assembly has attracted considerable interest from the biophysical modeling community...
AbstractVirus capsid assembly has attracted considerable interest from the biophysical modeling comm...
<p>Understanding the mechanisms of virus capsid assembly has been an important research objective ov...
We use discrete event stochastic simulations to characterize the parameter space of a model of icosa...
AbstractVirus capsid assembly has been widely studied as a biophysical system, both for its biologic...
AbstractWe use discrete event stochastic simulations to characterize the parameter space of a model ...
As computational and mathematical studies become increasingly central to studies of complicated reac...
Virus capsid assembly has been a key model system for studies of complex self-assembly but it does p...
The environment of a living cell is vastly different from that of an in vitro reaction system, an is...
AbstractThe assembly of virus capsids or other spherical polymers—empty, closed structures composed ...
We develop a class of models with which we simulate the assembly of particles into T1 capsid-like ob...
For a three dimensional structure to spontaneously self-assemble from many identical components it m...
AbstractWe develop a class of models with which we simulate the assembly of particles into T1 capsid...
AbstractA computer model is described for studying the kinetics of the self-assembly of icosahedral ...
AbstractThe process by which hundreds of identical capsid proteins self-assemble into icosahedral st...