Nanoscale particles have become promising materials in many fields, such as cancer therapeutics, diagnosis, imaging, drug delivery, catalysis, as well as biosensors. In order to stimulate and facilitate these applications, there is an urgent need for the understanding of the interaction mode between the nano-particles and proteins. In this study, we investigate the orientation and adsorption between several enzymes (cytochrome c, RNase A, lysozyme) and 4 nm/11 nm silica nanoparticles (SNPs) by using molecular dynamics (MD) simulation. Our results show that three enzymes are adsorbed onto the surfaces of both 4 nm and 11 nm SNPs during our MD simulations and the small SNPs induce greater structural stabilization. The active site of cytochrom...
International audienceThe production and utilization of nanoparticles has been strongly increasing o...
Hypothesis: We developed a geometrical model to determine the theoretical maximum number of proteins...
The need for a better understanding of nanoparticle–protein interactions and the mechanisms governin...
Nanoscale particles have become promising materials in many fields, such as cancer therapeutics, dia...
<div><p>Nanoscale particles have become promising materials in many fields, such as cancer therapeut...
We describe a method for determining the orientation of cytochrome c, RNase A, and lysozyme on silic...
Nanoparticles possess unique properties due to large surface area per unit volume and therefore can ...
The immobilization of proteins on inorganic supports is attracting increasing interest since the rea...
International audienceUpon contact with biological fluids, nanoparticles (NPs) are readily coated by...
International audienceThe performance of a bio-nanomaterial essentially results from interactions th...
We prepared silica nanospheres 360 nm in diameter surface-modified with p-tert-butylthiacalix[4]aren...
International audienceThe orientation of cytochrome c molecules at the surface of silica nanoparticl...
Monolayer-protected metal nanoparticles (MPMNs) are a newly discovered class of nanoparticles with a...
Silica nanostructures are biologically available and find wide applications for drug delivery, catal...
The understanding of the mechanisms involved in the interaction of proteins with inorganic surfaces ...
International audienceThe production and utilization of nanoparticles has been strongly increasing o...
Hypothesis: We developed a geometrical model to determine the theoretical maximum number of proteins...
The need for a better understanding of nanoparticle–protein interactions and the mechanisms governin...
Nanoscale particles have become promising materials in many fields, such as cancer therapeutics, dia...
<div><p>Nanoscale particles have become promising materials in many fields, such as cancer therapeut...
We describe a method for determining the orientation of cytochrome c, RNase A, and lysozyme on silic...
Nanoparticles possess unique properties due to large surface area per unit volume and therefore can ...
The immobilization of proteins on inorganic supports is attracting increasing interest since the rea...
International audienceUpon contact with biological fluids, nanoparticles (NPs) are readily coated by...
International audienceThe performance of a bio-nanomaterial essentially results from interactions th...
We prepared silica nanospheres 360 nm in diameter surface-modified with p-tert-butylthiacalix[4]aren...
International audienceThe orientation of cytochrome c molecules at the surface of silica nanoparticl...
Monolayer-protected metal nanoparticles (MPMNs) are a newly discovered class of nanoparticles with a...
Silica nanostructures are biologically available and find wide applications for drug delivery, catal...
The understanding of the mechanisms involved in the interaction of proteins with inorganic surfaces ...
International audienceThe production and utilization of nanoparticles has been strongly increasing o...
Hypothesis: We developed a geometrical model to determine the theoretical maximum number of proteins...
The need for a better understanding of nanoparticle–protein interactions and the mechanisms governin...