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Ab initio:
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Structure from chemical shifts:
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Torsion angles from chemical shifts:
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Default General Order Parameter based Correlation Analysis of Protein Backbone Motions between Experimental NMR Relaxation Measurements and Molecular Dynamics Simulations

General Order Parameter based Correlation Analysis of Protein Backbone Motions between Experimental NMR Relaxation Measurements and Molecular Dynamics Simulations

Publication date: Available online 16 January 2015
Source:Biochemical and Biophysical Research Communications

Author(s): Qing Liu , Chaowei Shi , Lu Yu , Longhua Zhang , Ying Xiong , Changlin Tian

Internal backbone dynamic motions are essential for different protein functions and occur on a wide range of time scales, from femtoseconds to seconds. Molecular dynamic (MD) simulations and nuclear magnetic resonance (NMR) spin relaxation measurements are valuable tools to gain access to fast (nanosecond) internal motions. However, there exist few reports on correlation analysis between MD and NMR relaxation data. Here, backbone relaxation measurements of 15N-labeled SH3 (Src homology 3) domain proteins in aqueous buffer were used to generate general order parameters (S2) using a model-free approach. Simultaneously, 80 ns MD simulations of SH3 domain proteins in a defined hydrated box at neutral pH were conducted and the general order parameters (S2) were derived from the MD trajectory. Correlation analysis using the Gromos force field indicated that S2 values from NMR relaxation measurements and MD simulations were significantly different. MD simulations were performed on models with different charge states for three histidine residues, and with different water models, which were SPC (simple point charge) water model and SPC/E (extened simple point charge) water model. S2 parameters from MD simulations with charges for all three histidines and with the SPC/E water model correlated well with S2 calculated from the experimental NMR relaxation measurements, in a site-specific manner.







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