Conformational Preferences of Modified Uridines: Comparison of AMBER Derived Force Fields

Overview

Journal J Chem Inf Model

Publisher American Chemical Society

Specialties Chemistry
Medical Informatics

Date 2014 Apr 5

PMID 24697757

Citations 6

Authors

Indrajit Deb

Joanna Sarzynska

Lennart Nilsson

Ansuman Lahiri

Affiliations

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Abstract

The widespread occurrence of modified residues in RNA sequences necessitates development of accurate parameters for these modifications for reliable modeling of RNA structure and dynamics. A comprehensive set of parameters for the 107 naturally occurring RNA modifications was proposed by Aduri et al. (J. Chem. Theory Comput. 2007, 3, 1464-1475) for the AMBER FF99 force field. In this work, we tested these parameters on a set of modified uridine residues, namely, dihydrouridine, 2-thiouridine, 4-thiouridine, pseudouridine, and uridine-5-oxyacetic acid, by performing molecular dynamics and replica exchange molecular dynamics simulations of these nucleosides. Although our simulations using the FF99 force field did not, in general, reproduce the experimentally observed conformational characteristics well, combination of the parameter set with recent revisions of the FF99 force field for RNA showed noticeable improvement for some of the nucleosides.

Citing Articles

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Data-informed reparameterization of modified RNA and the effect of explicit water models: application to pseudouridine and derivatives.

Dutta N, Deb I, Sarzynska J, Lahiri A J Comput Aided Mol Des. 2022; 36(3):205-224.

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Additive CHARMM force field for naturally occurring modified ribonucleotides.

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Brown R, Andrews C, Elcock A J Chem Theory Comput. 2015; 11(5):2315-28.

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