Implicit model to capture electrostatic features of membrane environment

Samanta, Rituparna and Gray, Jeffrey J. and Haliloglu, Turkan (2024) Implicit model to capture electrostatic features of membrane environment. PLOS Computational Biology, 20 (1). e1011296. ISSN 1553-7358

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Abstract

Membrane protein structure prediction and design are challenging due to the complexity of capturing the interactions in the lipid layer, such as those arising from electrostatics. Accurately capturing electrostatic energies in the low-dielectric membrane often requires expensive Poisson-Boltzmann calculations that are not scalable for membrane protein structure prediction and design. In this work, we have developed a fast-to-compute implicit energy function that considers the realistic characteristics of different lipid bilayers, making design calculations tractable. This method captures the impact of the lipid head group using a mean-field-based approach and uses a depth-dependent dielectric constant to characterize the membrane environment. This energy function Franklin2023 (F23) is built upon Franklin2019 (F19), which is based on experimentally derived hydrophobicity scales in the membrane bilayer. We evaluated the performance of F23 on five different tests probing (1) protein orientation in the bilayer, (2) stability, and (3) sequence recovery. Relative to F19, F23 has improved the calculation of the tilt angle of membrane proteins for 90% of WALP peptides, 15% of TM-peptides, and 25% of the adsorbed peptides. The performances for stability and design tests were equivalent for F19 and F23. The speed and calibration of the implicit model will help F23 access biophysical phenomena at long time and length scales and accelerate the membrane protein design pipeline.

Item Type: Article
Subjects: STM Open Academic > Biological Science
Depositing User: Unnamed user with email admin@eprint.stmopenacademic.com
Date Deposited: 23 Mar 2024 11:30
Last Modified: 23 Mar 2024 11:30
URI: http://publish.sub7journal.com/id/eprint/2068

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