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Effect of Water Models on Transmembrane Self-Assembled Cyclic Peptide Nanotubes

Martín Calvelo, Charlotte I. Lynch, Juan R. Granja, Mark S.P. Sansom, Rebeca García‐Fandiño

2021ACS Nano24 citationsDOIOpen Access PDF

Abstract

molecular dynamics (MD) simulations. The behavior of water molecules in nanopores is expected to affect the properties of these channels and therefore merits detailed examination. A number of water models commonly used in MD simulations have been validated by how well they reproduce bulk water properties. However, it is less clear how these water models behave in the nanoconfined condition inside a channel. The behavior of four different water models-TIP3P, TIP4P, TIP4P/2005, and OPC-are evaluated in MD simulations of self-assembled cyclic peptide nanotubes of distinct composition and diameter. The dynamic behavior of the water molecules and ions in these designed artificial channels depends subtly on the water model used. TIP3P water molecules move faster than those of TIP4P, TIP4P/2005, and OPC. This demeanor is clearly observed in the filling of the nanotube, in water diffusion within the pore, and in the number and stability of hydrogen bonds of the peptides with water. It was also shown that the water model influences the simulated ion flux through the nanotubes, with TIP3P producing the greatest ion flux. Additionally, the two more recent models, TIP4P/2005 and OPC, which are known to reproduce the experimental self-diffusion coefficient of bulk water quite well, exhibit very similar results under the nanoconfined conditions studied here. Because none of these models have been parametrized specifically for waters confined in peptide nanotubes, this study provides a point of reference for further validation.

Topics & Concepts

Materials scienceNanotechnologyPeptideTransmembrane proteinCyclic peptideSelf-assemblyChemistryBiochemistryReceptorSupramolecular Self-Assembly in MaterialsPhotoreceptor and optogenetics researchLipid Membrane Structure and Behavior
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