AbstractViruses assemble protective capsids from several copies of one or a few structural proteins. This is accomplished through a combination of conformational flexibility and control mechanisms that restrict this flexibility. This review will discuss some of these mechanisms in light of the many recent results in this area
The mathematic modelling of icosahedral virus assembly has drawn increasing interest because of the ...
AbstractTo assemble into a virus with icosahedral symmetry, capsid proteins must be able to attain m...
In biology, there are an abundant number of self-assembled structures organized according to hierarc...
Viruses are submicroscopic biological entities that need to infect a host cell in order to replicate...
Viruses are submicroscopic biological entities that need to infect a host cell in order to replicate...
AbstractCapsids of many viruses assemble around nucleic acids or other polymers. Understanding how t...
Viruses are an important subject to biological research. In particular their astonishing ability to...
The successful assembly of a closed protein shell (or capsid) is a key step in the replication of vi...
The capsids of double-stranded DNA viruses protect the viral genome from the harsh extracellular env...
We simulate the assembly dynamics of icosahedral capsids from subunits that interconvert between dif...
Icosahedral viral capsids assemble with high fidelity from a large number of identical buildings blo...
AbstractThe subunits that make up the capsid of a double-stranded DNA phage have been found to be ar...
Many T=3 plant and insect viruses use a molecular switch in form of order/disorder of a segment of t...
Interactions between viral coat proteins determine the size and shape of the virus capsid. Therefore...
Assembly of virus capsids and surface proteins must be regulated to ensure that the resulting comple...
The mathematic modelling of icosahedral virus assembly has drawn increasing interest because of the ...
AbstractTo assemble into a virus with icosahedral symmetry, capsid proteins must be able to attain m...
In biology, there are an abundant number of self-assembled structures organized according to hierarc...
Viruses are submicroscopic biological entities that need to infect a host cell in order to replicate...
Viruses are submicroscopic biological entities that need to infect a host cell in order to replicate...
AbstractCapsids of many viruses assemble around nucleic acids or other polymers. Understanding how t...
Viruses are an important subject to biological research. In particular their astonishing ability to...
The successful assembly of a closed protein shell (or capsid) is a key step in the replication of vi...
The capsids of double-stranded DNA viruses protect the viral genome from the harsh extracellular env...
We simulate the assembly dynamics of icosahedral capsids from subunits that interconvert between dif...
Icosahedral viral capsids assemble with high fidelity from a large number of identical buildings blo...
AbstractThe subunits that make up the capsid of a double-stranded DNA phage have been found to be ar...
Many T=3 plant and insect viruses use a molecular switch in form of order/disorder of a segment of t...
Interactions between viral coat proteins determine the size and shape of the virus capsid. Therefore...
Assembly of virus capsids and surface proteins must be regulated to ensure that the resulting comple...
The mathematic modelling of icosahedral virus assembly has drawn increasing interest because of the ...
AbstractTo assemble into a virus with icosahedral symmetry, capsid proteins must be able to attain m...
In biology, there are an abundant number of self-assembled structures organized according to hierarc...
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