Steered Molecular Dynamics of Lipid Membrane Indentation by Carbon and Silicon-Carbide Nanotubes—The Impact of Indenting Angle Uncertainty

Steered Molecular Dynamics of Lipid Membrane Indentation by Carbon and Silicon-Carbide Nanotubes—The Impact of Indenting Angle Uncertainty

Due to the semi-liquid nature and uneven morphologies of biological membranes, indentation may occur in a range of non-ideal conditions. These conditions are relatively unstudied and may alter the physical characteristics of the process. One of the basic challenges in the construction of nanoindente...

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Veröffentlicht in:Sensors (Basel, Switzerland) Switzerland), 2021-10, Vol.21 (21), p.7011
Hauptverfasser: Raczyński, Przemysław, Górny, Krzysztof, Bełdowski, Piotr, Yuvan, Steven, Marciniak, Beata, Dendzik, Zbigniew
Format: Artikel
Sprache:eng
Schlagworte:
biological membranes
Biosensors
Carbon
drug delivery
Indentation
Indenters
Lipids
Membranes
Molecular dynamics
Nanoindenters
nanoneedle
nanotubes
Phospholipids
Physical properties
Physiology
Silicon carbide
Simulation
steered molecular dynamics
Velocity
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Zusammenfassung:Due to the semi-liquid nature and uneven morphologies of biological membranes, indentation may occur in a range of non-ideal conditions. These conditions are relatively unstudied and may alter the physical characteristics of the process. One of the basic challenges in the construction of nanoindenters is to appropriately align the nanotube tip and approach the membrane at a perpendicular angle. To investigate the impact of deviations from this ideal, we performed non-equilibrium steered molecular dynamics simulations of the indentation of phospholipid membranes by homogeneous CNT and non-homogeneous SiCNT indenters. We used various angles, rates, and modes of indentation, and the withdrawal of the relative indenter out of the membrane in corresponding conditions was simulated.
ISSN:1424-8220
1424-8220
DOI:10.3390/s21217011