Modeling of ribonucleic acid–ligand interactions

Stefaniak, Filip; Chudyk, Ewa I.; Bodkin, Michael J.; Dawson, Wayne; Bujnicki, Janusz

doi:10.1002/wcms.1226

Cited by 12 publications

(10 citation statements)

References 105 publications

(189 reference statements)

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“…However, docking to nucleic acids is comparatively underdeveloped. Generally, protein-ligand docking programs could be adapted to RNA-ligand docking as RNA-ligand and protein-ligand macromolecular complexes follow similar physicochemical binding principles [32,33]. However, many proteins contain a well-defined, generally hydrophobic binding site.…”

Section: Molecular Docking For Nucleic Acidsmentioning

confidence: 99%

Challenges and current status of computational methods for docking small molecules to nucleic acids

Luo

Wei

Waldispühl

et al. 2019

European Journal of Medicinal Chemistry

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Since the development of the first docking program in 1982, their use in in silico screening for potentially bioactive molecule discovery has become a common strategy in academia and pharmaceutical industry. Up until recently, their use has largely focused on drugs binding to proteins. However, with the relatively recent discovery of promising drug targets in nucleic acids, including RNA riboswitches, DNA G-quadruplexes, and extended repeats in RNA, there has been a greater interest in developing drugs for nucleic acids. However, due to the major biochemical and physical differences in charges, binding pockets, and solvation, existing docking programs, developed for proteins, face difficulties when adopted directly for nucleic acids. In this review, we cover the current field of in silico docking to nucleic acids, available programs, as well as challenges faced in the field.

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Section: Molecular Docking For Nucleic Acidsmentioning

confidence: 99%

Challenges and current status of computational methods for docking small molecules to nucleic acids

Luo

Wei

Waldispühl

et al. 2019

European Journal of Medicinal Chemistry

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“… [66] Presents an overview of the evolution of structure-based drug discovery techniques in the study of ligand-target recognition phenomenon, going from static molecular docking toward enhanced MD strategies. [67] Summarizes progress in the prediction of RNA–ligand interactions, available methods for calculating the mode of binding for various small RNA molecules, the range of SFs for ligands ranking, accommodating RNA flexibility, and example studies. [68] Provides an overview of the state of the art of experimental and computational approaches for investigating drug metabolism.…”

Section: Structure-based Computational Methodsmentioning

confidence: 99%

Structure-based molecular modeling in SAR analysis and lead optimization

Temml

Kutil

2021

Computational and Structural Biotechnology Journal

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“…Therefore, in general the methods developed for proteins can also be applied for RNA [20,27,[48][49][50]. However, there are several challenges which have to be considered when transferring the methods.…”

Section: Rna-ligand Dockingmentioning

confidence: 98%

Structure-Based Discovery of Small Molecules Binding to RNA

Wehler

Brenk

2017

Topics in Medicinal Chemistry

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Ribonucleic acids (RNAs) constitute attractive drug targets. The wealth of structural information about RNAs is steadily increasing making it possible to use this information for the design of new ligands. Two methods that make heavy use of structural knowledge for ligand discovery are molecular docking and fragment screening. In molecular docking the structure of the binding site is used as a template for the design of new ligands using computational methods whereas in fragment screening biophysical methods are used for the detection of weak binding ligands which are subsequently elaborated into tighter binding molecules. In this chapter, we give an overview of both methods in the context of ligand discovery for RNA targets and illustrate their applications for hit discovery.

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Modeling of ribonucleic acid–ligand interactions

Cited by 12 publications

References 105 publications

Challenges and current status of computational methods for docking small molecules to nucleic acids

Challenges and current status of computational methods for docking small molecules to nucleic acids

Structure-based molecular modeling in SAR analysis and lead optimization

Structure-Based Discovery of Small Molecules Binding to RNA

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