What Governs Protein Adsorption and Immobilization at a Charged Solid Surface?

[Image: see text] The adsorption of hen egg white lysozyme at a model charged surface is studied using fully atomistic molecular dynamics simulations. The simulations are performed over a 90 ns time scale which is sufficient to observe rotational and translational steps in the adsorption process. El...

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Autores principales: Kubiak-Ossowska, Karina, Mulheran, Paul A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Chemical Society 2010
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3689231/
https://www.ncbi.nlm.nih.gov/pubmed/20433191
http://dx.doi.org/10.1021/la101276v
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author Kubiak-Ossowska, Karina
Mulheran, Paul A.
author_facet Kubiak-Ossowska, Karina
Mulheran, Paul A.
author_sort Kubiak-Ossowska, Karina
collection PubMed
description [Image: see text] The adsorption of hen egg white lysozyme at a model charged surface is studied using fully atomistic molecular dynamics simulations. The simulations are performed over a 90 ns time scale which is sufficient to observe rotational and translational steps in the adsorption process. Electrostatics is found to play a key role in guiding the protein to the favorable binding orientation with the N,C-terminal face against the substrate. However, full immobilization appears to only occur through the strong interaction of Arg128 with the surface, facilitated by the protein’s flexibility at the terminal face. Simulated mutation at this residue confirms its crucial role. This work demonstrates that electrostatics alone might not be sufficient to guide the development of material systems that exploit protein adsorption and immobilization.
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spelling pubmed-36892312013-06-21 What Governs Protein Adsorption and Immobilization at a Charged Solid Surface? Kubiak-Ossowska, Karina Mulheran, Paul A. Langmuir [Image: see text] The adsorption of hen egg white lysozyme at a model charged surface is studied using fully atomistic molecular dynamics simulations. The simulations are performed over a 90 ns time scale which is sufficient to observe rotational and translational steps in the adsorption process. Electrostatics is found to play a key role in guiding the protein to the favorable binding orientation with the N,C-terminal face against the substrate. However, full immobilization appears to only occur through the strong interaction of Arg128 with the surface, facilitated by the protein’s flexibility at the terminal face. Simulated mutation at this residue confirms its crucial role. This work demonstrates that electrostatics alone might not be sufficient to guide the development of material systems that exploit protein adsorption and immobilization. American Chemical Society 2010-04-30 /pmc/articles/PMC3689231/ /pubmed/20433191 http://dx.doi.org/10.1021/la101276v Text en Copyright © 2010 American Chemical Society
spellingShingle Kubiak-Ossowska, Karina
Mulheran, Paul A.
What Governs Protein Adsorption and Immobilization at a Charged Solid Surface?
title What Governs Protein Adsorption and Immobilization at a Charged Solid Surface?
title_full What Governs Protein Adsorption and Immobilization at a Charged Solid Surface?
title_fullStr What Governs Protein Adsorption and Immobilization at a Charged Solid Surface?
title_full_unstemmed What Governs Protein Adsorption and Immobilization at a Charged Solid Surface?
title_short What Governs Protein Adsorption and Immobilization at a Charged Solid Surface?
title_sort what governs protein adsorption and immobilization at a charged solid surface?
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3689231/
https://www.ncbi.nlm.nih.gov/pubmed/20433191
http://dx.doi.org/10.1021/la101276v
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