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Protein adsorption onto nanoparticles induces conformational changes: Particle size dependency, kinetics, and mechanisms.


ABSTRACT: The use of nanomaterials in bioapplications demands a detailed understanding of protein-nanoparticle interactions. Proteins can undergo conformational changes while adsorbing onto nanoparticles, but studies on the impact of particle size on conformational changes are scarce. We have shown that conformational changes happening upon adsorption of myoglobin and BSA are dependent on the size of the nanoparticle they are adsorbing to. Out of eight initially investigated model proteins, two (BSA and myoglobin) showed conformational changes, and in both cases this conformational change was dependent on the size of the nanoparticle. Nanoparticle sizes ranged from 30 to 1000 nm and, in contrast to previous studies, we attempted to use a continuous progression of sizes in the range found in live viruses, which is an interesting size of nanoparticles for the potential use as drug delivery vehicles. Conformational changes were only visible for particles of 200 nm and bigger. Using an optimized circular dichroism protocol allowed us to follow this conformational change with regard to the nanoparticle size and, thanks to the excellent temporal resolution also in time. We uncovered significant differences between the unfolding kinetics of myoglobin and BSA. In this study, we also evaluated the plausibility of commonly used explanations for the phenomenon of nanoparticle size-dependent conformational change. Currently proposed mechanisms are mostly based on studies done with relatively small particles, and fall short in explaining the behavior seen in our studies.

SUBMITTER: Satzer P 

PROVIDER: S-EPMC4949706 | biostudies-other | 2016 Apr

REPOSITORIES: biostudies-other

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Protein adsorption onto nanoparticles induces conformational changes: Particle size dependency, kinetics, and mechanisms.

Satzer Peter P   Svec Frantisek F   Sekot Gerhard G   Jungbauer Alois A  

Engineering in life sciences 20151110 3


The use of nanomaterials in bioapplications demands a detailed understanding of protein-nanoparticle interactions. Proteins can undergo conformational changes while adsorbing onto nanoparticles, but studies on the impact of particle size on conformational changes are scarce. We have shown that conformational changes happening upon adsorption of myoglobin and BSA are dependent on the size of the nanoparticle they are adsorbing to. Out of eight initially investigated model proteins, two (BSA and m  ...[more]

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