Abstract

Standard normal mode analysis (NMA) method is able to calculate vibrational entropy of proteins, but it is computationally intensive, especially for large proteins. To evaluate vibrational entropy efficiently and accurately, we, here, propose computation schemes based on coarse-grained NMA methods. This can be achieved by rescaling coarse-grained results with a specific factor that is derived on the basis of the linear correlation of protein vibrational entropy between standard NMA and coarse-grained NMA. Our coarse-grained NMA computation schemes can repeat correctly and efficiently the results of standard NMA for large proteins.

Full Text
Published version (Free)

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Similar Papers

Paper Title
Journal
Date
Author
Comparative Investigation of Normal Modes and Molecular Dynamics of Hepatitis C NS5B Protein
M S Asafi ... A Yildirim
Journal of Physics: Conference Series | VOL. 707
M S Asafi, et. al.M S Asafi ... A Yildirim
01 Apr 2016
A Comparative Study of All-atom Molecular Dynamics Simulation and Coarse-grained Normal Mode Analysis in Identifying Pre-existing Residue Interaction Networks that Promote Coupled-Domain Dynamics in Escherichia coli Methionyl-tRNA Synthetase
Samuel Fehling ... Alexander Strom
American Journal of Undergraduate Research | VOL. 14
Samuel Fehling, et. al.Samuel Fehling ... Alexander Strom
30 Jun 2017
Vibrational entropy differences between mesophile and thermophile proteins and their use in protein engineering.
Vincent Frappier ... Rafael Najmanovich
Protein science : a publication of the Protein Society | VOL. 24
Vincent Frappier, et. al.Vincent Frappier ... Rafael Najmanovich
05 Nov 2014
On coarse-grained Normal Mode Analysis and refined Gaussian Network Model for protein structure fluctuations
Jun-Koo Park
-
Jun-Koo ParkJun-Koo Park
30 May 2013
View more papers

More From: Journal of computational chemistry

Paper Title
Journal
Date
Author
Theoretical study on the carbon nanomaterial-supported Pt complex electrocatalysts for efficient and selective chlorine evolution reaction.
Jewel Hossen ... Naoki Nakatani
Journal of computational chemistry | VOL. -
Jewel Hossen, et. al.Jewel Hossen ... Naoki Nakatani
17 Jul 2024
Electronic structure of the strongly correlated electron system plutonium hexaboride: A study from single-particle approximations and many-body calculations.
Ru-Song Li ... Zheng Xie
Journal of computational chemistry | VOL. -
Ru-Song Li, et. al.Ru-Song Li ... Zheng Xie
16 Jul 2024
Issue Information
-
Journal of computational chemistry | VOL. 45
--
16 Jul 2024
First principles insight into the study of the structural, stability, and optoelectronic properties of alkali-based single halide perovskite ZSnCl3 (Z = Na/K) materials for photovoltaic applications.
Tesfaye Abebe Geleta ... Fredy Mamani Gonzalo
Journal of computational chemistry | VOL. -
Tesfaye Abebe Geleta, et. al.Tesfaye Abebe Geleta ... Fredy Mamani Gonzalo
15 Jul 2024
View more papers