Journal ArticleDOI
Destructive extraction of phospholipids from Escherichia coli membranes by graphene nanosheets
Yusong Tu,Min Lv,Peng Xiu,Tien Huynh,Meng Zhang,Matteo Castelli,Z. Y. Liu,Qing(黄庆) Huang,Chunhai(樊春海) Fan,Haiping(方海平) Fang,Ruhong Zhou,Ruhong Zhou,Ruhong Zhou +12 more
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TLDR
Graphene nanosheets can penetrate into and extract large amounts of phospholipids from the cell membranes because of the strong dispersion interactions between graphene and lipid molecules as mentioned in this paper.Abstract:
Understanding how nanomaterials interact with cell membranes is related to how they cause cytotoxicity and is therefore critical for designing safer biomedical applications. Recently, graphene (a two-dimensional nanomaterial) was shown to have antibacterial activity on Escherichia coli, but its underlying molecular mechanisms remain unknown. Here we show experimentally and theoretically that pristine graphene and graphene oxide nanosheets can induce the degradation of the inner and outer cell membranes of Escherichia coli, and reduce their viability. Transmission electron microscopy shows three rough stages, and molecular dynamics simulations reveal the atomic details of the process. Graphene nanosheets can penetrate into and extract large amounts of phospholipids from the cell membranes because of the strong dispersion interactions between graphene and lipid molecules. This destructive extraction offers a novel mechanism for the molecular basis of graphene's cytotoxicity and antibacterial activity.read more
Citations
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Journal ArticleDOI
Preparation of polymer brushes grafted graphene oxide by atom transfer radical polymerization as a new support for trypsin immobilization and efficient proteome digestion
TL;DR: Combined application of the two types of immobilized trypsin with different surface-grafted polymers leads to at least 18.3% enhancement in protein/peptide identification compared with that obtained by digestion using a single type, indicating the potential of this digestion strategy for deeper proteome coverage using limited mass spectrometer machine hour.
Journal ArticleDOI
Modeling the Impact of Silicon-Carbide Nanotube onthe Phospholipid Bilayer Membrane: Study of Nanoindentation and RemovalProcesses via Molecular Dynamics Simulation
TL;DR: The molecular dynamics simulation technique was extensively used to explore systematically the nanoindentation of a phospholipid bilayer by a silicon-carbide nanotube as discussed by the authors.
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Nanoantimicrobials Mechanism of Action
TL;DR: Specific attention was given to antimicrobial agents antimicrobial instruments with center around age of reactive oxygen species (ROS) including hydrogen peroxide (H2O2), OH-(hydroxyl radicals), and O2−2 (peroxide).
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The influence of selected nanomaterials on microorganisms
Paula Brandeburová,Lucia Birošová,Marian Vojs,Alexander Kromka,Miroslav Gál,Jozef Tichý,Ján Híveš,Tomáš Mackuľak +7 more
TL;DR: In this article, the interaction of selected types of nanomaterials with different gram-positive and gram-negative bacteria, filamentous fungi, and yeasts was studied. But, there is still a lack of information about their effects on the environment, microorganisms or their possible applications in wastewater treatments for micropollutants removal.
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Mechanistic study of the adsorption and penetration of modified SiO2 nanoparticles on cellular membrane.
TL;DR: In this paper , the uptake process of different modified SiO2 particles (with adsorbed trace gas molecules, including formic acid (FA), methyl vinyl ketone (MVK), and methacrolein (MAC)) into DPPC bilayers were investigated by molecular dynamics (MD) simulations.
References
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TL;DR: Probing the various interfaces of nanoparticle/biological interfaces allows the development of predictive relationships between structure and activity that are determined by nanomaterial properties such as size, shape, surface chemistry, roughness and surface coatings.
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