Add to ORKGThere has been tremendous progress towards the development of responsive polymers that are programmed to respond to an external stimulus such as light, pH and temperature. The unique combination of molecular packaging followed by slow, controlled release of molecular cargo is of particular importance for self-healing materials and the controlled release of drugs. While much focus and progress remains centred around synthetic carriers, viruses and virus-like particles can be considered ideal cargo carriers as they are intrinsically designed to package, protect and deliver nucleic acid cargo to host cells. Here, we report the encapsulation of a stimuli-responsive self-immolative polymer within virus-like assemblies of Cowpea Chlorotic Mottle ...
Introduction of compartments with defined spaces inside a hydrogel network brings unique features, s...
Virus capsids, i.e., viruses devoid of their genetic material, are suitable nanocarriers for biomedi...
Virus-like particles are very interesting tools for application in bionanotechnology, due to their m...
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...
Cowpea chlorotic mottle virus is a single-stranded RNA plant virus with a diameter of 28 nm. The pro...
Nature offers a vast array of biological building blocks that can be combined with synthetic materia...
The inside surfaces of the protein shells of many viruses are positively charged, thereby enhancing ...
In this paper, we describe the controlled incorporation of two synthetic polymers with different str...
Here we report on the covalent attachment of photoresponsive azobenzene moieties to cowpea chlorotic...
The first half of this dissertation (Chapters 1-3) deals with the in vitro self-assembly of Cowpea C...
The virus-like particle (VLP) of the Cowpea Chlorotic Mottle Virus (CCMV) has often been used to enc...
The virus-like particle (VLP) of the Cowpea Chlorotic Mottle Virus (CCMV) has often been used to enc...
AbstractWe report a study of the in vitro self-assembly of virus-like particles formed by the capsid...
Viruses provide a whole new set of building blocks for the development of new materials and as such ...
Introduction of compartments with defined spaces inside a hydrogel network brings unique features, s...
Virus capsids, i.e., viruses devoid of their genetic material, are suitable nanocarriers for biomedi...
Virus-like particles are very interesting tools for application in bionanotechnology, due to their m...
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...
Cowpea chlorotic mottle virus is a single-stranded RNA plant virus with a diameter of 28 nm. The pro...
Nature offers a vast array of biological building blocks that can be combined with synthetic materia...
The inside surfaces of the protein shells of many viruses are positively charged, thereby enhancing ...
In this paper, we describe the controlled incorporation of two synthetic polymers with different str...
Here we report on the covalent attachment of photoresponsive azobenzene moieties to cowpea chlorotic...
The first half of this dissertation (Chapters 1-3) deals with the in vitro self-assembly of Cowpea C...
The virus-like particle (VLP) of the Cowpea Chlorotic Mottle Virus (CCMV) has often been used to enc...
The virus-like particle (VLP) of the Cowpea Chlorotic Mottle Virus (CCMV) has often been used to enc...
AbstractWe report a study of the in vitro self-assembly of virus-like particles formed by the capsid...
Viruses provide a whole new set of building blocks for the development of new materials and as such ...
Introduction of compartments with defined spaces inside a hydrogel network brings unique features, s...
Virus capsids, i.e., viruses devoid of their genetic material, are suitable nanocarriers for biomedi...
Virus-like particles are very interesting tools for application in bionanotechnology, due to their m...