期刊
NANOSCALE
卷 9, 期 29, 页码 10263-10276出版社
ROYAL SOC CHEMISTRY
DOI: 10.1039/c7nr00770a
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资金
- NSF CREST Interdisciplinary Nanotoxicity Center NSF-CREST [HRD-0833178]
- NSF-EPSCoR Award [362492-190200-01\NSFEPS-0903787]
- North Dakota State University Center for Computationally Assisted Science and Technology
- U.S. Department of Energy [DE-SC0001717]
- NSF ND EPSCoR Award [IIA-1355466]
- State of North Dakota
- National Science Center of Poland - Grant [DEC-2015/17/N/ST4/03935]
- Extreme Science and Engineering Discovery Environment (XSEDE) [TG-DMR110088, CHE140005]
- Division Of Human Resource Development
- Direct For Education and Human Resources [1547754] Funding Source: National Science Foundation
- Office of Integrative Activities
- Office Of The Director [1355466] Funding Source: National Science Foundation
Fullerene-based nanoparticles have been the subject of vital interest due to their unique properties and potential application in many areas, including medicine. Here we explore their characteristics that could make them prospective leads for known disease-related proteins. High-throughput virtual screening supported by comprehensive multi-software protein-ligand docking simulation and cheminformatics approaches has been applied in investigation of interactions of 1117 proteins with a 169 fullerene nanoparticles decorated with different small molecules. Moreover, obtained docking results were confirmed by the series of unrestricted all-atom molecular dynamics (MD) simulations. Hydrophobicity of fullerene core along with hydrophilic interaction of side chains plays a key role in binding with the studied proteins. We identified a series of nanoparticles that can lead to development of robust drugs for target proteins and another series that can behave as a highly toxic agent. The structure-activity relationship analysis revealed two significant molecular properties responsible for the binding score values. The application of carefully selected computational techniques and described outcome of the study facilitate development of functional fullerene nanoparticles for drug-like and drug delivery applications.
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