Add to ORKGVirus-like particles are used to encapsulate drugs, imaging agents, enzymes, and other biologically active molecules in order to enhance their function. However, the size of most virus-like particles is inflexible, precluding the design of appropriately sized containers for different applications. Here, we describe a chromatographic selection for virus-like particle assembly. Using this selection, we identified a single amino acid substitution to the coat protein of bacteriophage MS2 that mediates a uniform switch in particle geometry from T = 3 to T = 1 icosahedral symmetry. The resulting smaller particle retains the ability to be disassembled and reassembled in vitro and to be chemically modified to load cargo into its interior cavity. Th...
AbstractThe amino acid sequence of viral capsid proteins contains information about their folding, s...
Viral protein cages, with their regular and programmable architectures, are excellent platforms for ...
Virus-like particles (VLPs) are dynamic protein cages most notably used as drug, vaccine, and small ...
Virus-like particles are used to encapsulate drugs, imaging agents, enzymes, and other biologically ...
Self-assembling proteins are critical to biological systems and industrial technologies, but predict...
Self-assembling proteins are emerging as compelling solutions in both drug delivery and vaccine deve...
Self-assembling protein containers are promising delivery vehicles for cellular and gene therapy app...
Peptide insertions in the primary sequence of proteins expand functionality by introducing new bindi...
Nanometer-scale molecular assemblies have numerous applications in materials, catalysis, and medicin...
A virus-like particle (VLP) is a biological nanoparticle. It consists of the protective protein shel...
Interactions between viral coat proteins determine the size and shape of the virus capsid. Therefore...
Protein cages providing a controlled environment to encapsulated cargo are a ubiquitous presence in ...
Protein-based nanoparticles are useful models for the study of self-assembly and attractive candidat...
Virus-like particles (VLPs) are biological nanoparticles formed from the self-assembly of viral subu...
Protein cages providing a controlled environment to encapsulated cargo are a ubiquitous presence in ...
AbstractThe amino acid sequence of viral capsid proteins contains information about their folding, s...
Viral protein cages, with their regular and programmable architectures, are excellent platforms for ...
Virus-like particles (VLPs) are dynamic protein cages most notably used as drug, vaccine, and small ...
Virus-like particles are used to encapsulate drugs, imaging agents, enzymes, and other biologically ...
Self-assembling proteins are critical to biological systems and industrial technologies, but predict...
Self-assembling proteins are emerging as compelling solutions in both drug delivery and vaccine deve...
Self-assembling protein containers are promising delivery vehicles for cellular and gene therapy app...
Peptide insertions in the primary sequence of proteins expand functionality by introducing new bindi...
Nanometer-scale molecular assemblies have numerous applications in materials, catalysis, and medicin...
A virus-like particle (VLP) is a biological nanoparticle. It consists of the protective protein shel...
Interactions between viral coat proteins determine the size and shape of the virus capsid. Therefore...
Protein cages providing a controlled environment to encapsulated cargo are a ubiquitous presence in ...
Protein-based nanoparticles are useful models for the study of self-assembly and attractive candidat...
Virus-like particles (VLPs) are biological nanoparticles formed from the self-assembly of viral subu...
Protein cages providing a controlled environment to encapsulated cargo are a ubiquitous presence in ...
AbstractThe amino acid sequence of viral capsid proteins contains information about their folding, s...
Viral protein cages, with their regular and programmable architectures, are excellent platforms for ...
Virus-like particles (VLPs) are dynamic protein cages most notably used as drug, vaccine, and small ...