Add to ORKGThe design and engineering of biological building blocks that self-assemble into\ud highly ordered, well-defined structures is of growing interest for applications in nanotechnology. For applications in biomedicine and drug delivery, the design of biomolecular cargo carriers has largely focused on either lipid-based assemblies (vesicles and micelles) or protein-based assemblies (cage-like proteins and virus- based assemblies). Owing to their reversible assembly, stability, monodispersity and biocompatibility, viruses are highly attractive candidates and have consequently received much attention. The outer shell of viruses is composed of multiple copies of identical virus coat proteins that can be modified by chemical or genetic means for en...
Viral assembly is the process by which the viral genome becomes encapsidated by viral structural pro...
Virus capsids, i.e., viruses devoid of their genetic material, are suitable nanocarriers for biomedi...
There has been tremendous progress towards the development of responsive polymers that are programme...
The design and engineering of biological building blocks that self-assemble into highly ordered, wel...
Viruses provide a whole new set of building blocks for the development of new materials and as such ...
Advances in nanotechnology offer significant improvements in a wide range of applications that inclu...
The cowpea chlorotic mottle virus (CCMV) is a nanoparticle that holds promise for diagnostic and the...
Various protein-based organelles exist in nature that are involved in a wide variety of different me...
In this paper, we describe the controlled incorporation of two synthetic polymers with different str...
Virus-like particles (VLPs) are biological nanoparticles formed from the self-assembly of viral subu...
The first half of this dissertation (Chapters 1-3) deals with the in vitro self-assembly of Cowpea C...
Self-assembly of regular protein surfaces around nanoparticle templates provides a new class of hybr...
Viruses are among the simplest biological systems and are highly effective vehicles for the delivery...
Cowpea chlorotic mottle virus is a single-stranded RNA plant virus with a diameter of 28 nm. The pro...
Viral assembly is the process by which the viral genome becomes encapsidated by viral structural pro...
Virus capsids, i.e., viruses devoid of their genetic material, are suitable nanocarriers for biomedi...
There has been tremendous progress towards the development of responsive polymers that are programme...
The design and engineering of biological building blocks that self-assemble into highly ordered, wel...
Viruses provide a whole new set of building blocks for the development of new materials and as such ...
Advances in nanotechnology offer significant improvements in a wide range of applications that inclu...
The cowpea chlorotic mottle virus (CCMV) is a nanoparticle that holds promise for diagnostic and the...
Various protein-based organelles exist in nature that are involved in a wide variety of different me...
In this paper, we describe the controlled incorporation of two synthetic polymers with different str...
Virus-like particles (VLPs) are biological nanoparticles formed from the self-assembly of viral subu...
The first half of this dissertation (Chapters 1-3) deals with the in vitro self-assembly of Cowpea C...
Self-assembly of regular protein surfaces around nanoparticle templates provides a new class of hybr...
Viruses are among the simplest biological systems and are highly effective vehicles for the delivery...
Cowpea chlorotic mottle virus is a single-stranded RNA plant virus with a diameter of 28 nm. The pro...
Viral assembly is the process by which the viral genome becomes encapsidated by viral structural pro...
Virus capsids, i.e., viruses devoid of their genetic material, are suitable nanocarriers for biomedi...
There has been tremendous progress towards the development of responsive polymers that are programme...