Importance of consensus region of multiple-ligand templates in a virtual screening method

Okuno, Tatsuya; Kato, Koya; Minami, Shintaro; Terada, Tomoki P.; Sasai, Masaki; Chikenji, George

doi:10.2142/biophysico.13.0_149

Cited by 3 publications

(3 citation statements)

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“…Different ways of incorporating structural information have been proposed, for example by introducing spatial constraints targeting parts of the ligand that are common with a reference ligand, by guiding the placement of the ligand on reference atom-centered functions or electron density, or by scoring pose by 3D pharmacophore matching similarity [27,28,29]. Okuno et al suggested to combine multiple ligand-protein crystallographic structure into a reference grid [30,31]. The method, called VS-APPLE, aligned the ligand with the reference grid to predict the binding mode.…”

Section: Resultsmentioning

confidence: 99%

Local Interaction Density (LID), a Fast and Efficient Tool to Prioritize Docking Poses

et al. 2019

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Ligand docking at a protein site can be improved by prioritizing poses by similarity to validated binding modes found in the crystal structures of ligand/protein complexes. The interactions formed in the predicted model are searched in each of the reference 3D structures, taken individually. We propose to merge the information provided by all references, creating a single representation of all known binding modes. The method is called LID, an acronym for Local Interaction Density. LID was benchmarked in a pose prediction exercise on 19 proteins and 1382 ligands using PLANTS as docking software. It was also tested in a virtual screening challenge on eight proteins, with a dataset of 140,000 compounds from DUD-E and PubChem. LID significantly improved the performance of the docking program in both pose prediction and virtual screening. The gain is comparable to that obtained with a rescoring approach based on the individual comparison of reference binding modes (the GRIM method). Importantly, LID is effective with a small number of references. LID calculation time is negligible compared to the docking time.

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Section: Resultsmentioning

confidence: 99%

Local Interaction Density (LID), a Fast and Efficient Tool to Prioritize Docking Poses

et al. 2019

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“…In the process of seeking inhibitors of the target protein, an LBSV method, VS-APPLE 53,54 , was used. While conventional ligand-based VS methods adopt single ligand as a template, VS-APPLE adopts the multiple-ligand template, which is composed of multiple ligands bound to the same pocket, as a template.…”

Section: Methodsmentioning

confidence: 99%

A prospective compound screening contest identified broader inhibitors for Sirtuin 1

Chiba

Ohue

Gryniukova

et al. 2019

Sci Rep

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Potential inhibitors of a target biomolecule, NAD-dependent deacetylase Sirtuin 1, were identified by a contest-based approach, in which participants were asked to propose a prioritized list of 400 compounds from a designated compound library containing 2.5 million compounds using in silico methods and scoring. Our aim was to identify target enzyme inhibitors and to benchmark computer-aided drug discovery methods under the same experimental conditions. Collecting compound lists derived from various methods is advantageous for aggregating compounds with structurally diversified properties compared with the use of a single method. The inhibitory action on Sirtuin 1 of approximately half of the proposed compounds was experimentally accessed. Ultimately, seven structurally diverse compounds were identified.

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“…Okuno et al . [ 10 ] discussed a new virtual screening method for drug discovery, especially in the case that a number of different ligands bind to a protein pocket. Even in the era of high performance computing, they warned that detailed understanding of the mechanisms of protein-ligand interactions is the prerequisite for the improvement of the screening.…”

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confidence: 99%

Preface of Special Issue “Protein-Ligand Interactions”

Yura

2016

BIOPHYSICS

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Importance of consensus region of multiple-ligand templates in a virtual screening method

Cited by 3 publications

References 30 publications

Local Interaction Density (LID), a Fast and Efficient Tool to Prioritize Docking Poses

Local Interaction Density (LID), a Fast and Efficient Tool to Prioritize Docking Poses

A prospective compound screening contest identified broader inhibitors for Sirtuin 1

Preface of Special Issue “Protein-Ligand Interactions”

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