AbstractThe subunits that make up the capsid of a double-stranded DNA phage have been found to be arranged as covalently bonded, interlinked pentamer and hexamer rings. This remarkable ‘chainmail’ arrangement raises interesting new questions about macromolecular assembly
An atomic model of the subunit of tomato bushy stunt virus (TBSV) has been constructed to fit an ele...
The approaches used by structural biologists evolve as they tackle the study of increasingly large, ...
SummaryThe infectious bursal disease virus T=13 viral particle is composed of two major proteins, VP...
AbstractThe subunits that make up the capsid of a double-stranded DNA phage have been found to be ar...
The assembly and regulation of viral capsid proteins into highly ordered macromolecular complexes is...
DNA is packaged into preformed bacteriophage capsids to liquid crystalline density by the action of ...
The majority of viruses on Earth form capsids built by multiple copies of one or more types of a coa...
Interactions between viral coat proteins determine the size and shape of the virus capsid. Therefore...
The polymerization of protein subunits into precursor shells empty of DNA is a critical process in t...
Polyomavirus major capsid protein VP1, purified after expression of the recombinant gene in Escheric...
First discovered in bacteriophage HK97, biological chainmail is a highly stable system formed by con...
AbstractCapsids of many viruses assemble around nucleic acids or other polymers. Understanding how t...
AbstractCapsids of spherical viruses share a common architecture: an icosahedral arrangement of iden...
The capsids of double-stranded DNA viruses protect the viral genome from the harsh extracellular env...
AbstractViruses assemble protective capsids from several copies of one or a few structural proteins....
An atomic model of the subunit of tomato bushy stunt virus (TBSV) has been constructed to fit an ele...
The approaches used by structural biologists evolve as they tackle the study of increasingly large, ...
SummaryThe infectious bursal disease virus T=13 viral particle is composed of two major proteins, VP...
AbstractThe subunits that make up the capsid of a double-stranded DNA phage have been found to be ar...
The assembly and regulation of viral capsid proteins into highly ordered macromolecular complexes is...
DNA is packaged into preformed bacteriophage capsids to liquid crystalline density by the action of ...
The majority of viruses on Earth form capsids built by multiple copies of one or more types of a coa...
Interactions between viral coat proteins determine the size and shape of the virus capsid. Therefore...
The polymerization of protein subunits into precursor shells empty of DNA is a critical process in t...
Polyomavirus major capsid protein VP1, purified after expression of the recombinant gene in Escheric...
First discovered in bacteriophage HK97, biological chainmail is a highly stable system formed by con...
AbstractCapsids of many viruses assemble around nucleic acids or other polymers. Understanding how t...
AbstractCapsids of spherical viruses share a common architecture: an icosahedral arrangement of iden...
The capsids of double-stranded DNA viruses protect the viral genome from the harsh extracellular env...
AbstractViruses assemble protective capsids from several copies of one or a few structural proteins....
An atomic model of the subunit of tomato bushy stunt virus (TBSV) has been constructed to fit an ele...
The approaches used by structural biologists evolve as they tackle the study of increasingly large, ...
SummaryThe infectious bursal disease virus T=13 viral particle is composed of two major proteins, VP...
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