Different approaches toward an automatic structural alignment of drug molecules: Applications to sterol mimics, thrombin and thermolysin inhibitors

Klebe, G.; Mietzner, Thomas; Weber, F.

doi:10.1007/bf00124019

Cited by 108 publications

(87 citation statements)

References 45 publications

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“…This dualscoring problem does not make the problem simpler; even so, the strategy appears very convincing. We have focussed on another alternative which takes advantage of the successful superpositioning of ligand molecules according to their spatial similarity in terms of physicochemical properties [O. Krämer, Dissertation, University of Marburg, 2003] [36,37]. In previous studies, we have applied the program SEAL [38] to produce reasonable ligand alignments as a prerequisite for subsequent comparative molecular field analysis (CoMFA) [39] and comparative molecular similarity indices (CoM-SIA) [40].…”

Section: Strategies To Screen Simultaneously Against a Set Of Alternamentioning

confidence: 99%

Strategies for the design of inhibitors of aldose reductase, an enzyme showing pronounced induced-fit adaptations

Klebe

Krämer

Sotriffer

2004

Cellular and Molecular Life Sciences (CMLS)

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Aldose reductase is involved in the polyol pathway, catalyzing the reduction of glucose to sorbitol. However, due to pronounced binding site adaptations, the enzyme can operate on a broad palette of structurally diverse substrates ranging from small aliphatic and aromatic aldehydes up to steroid-type ligands. A comparative analysis of the presently accessible crystal structures of aldose reductase complexes reveals four binding-competent protein conformations. Additional relevant conformers are detected through molecular dynamics simulations. They indicate an equilibrium of several conformers which is shifted towards the binding-competent geometries upon ligand binding. Such a manifold system with several alternative binding site conformers requires some tailored concepts in virtual screening. We followed two strategies, both successfully suggesting new micromolar inhibitors. In a first attempt, we concentrated on one preferred conformer and performed a virtual screening, assuming that the binding pocket of aldose reductase adopts only this conformation. In a second approach, we followed a ligand superpositioning method. Ligands were extracted in their bound conformations from three different crystal structures, all accommodating the ligands with different active site conformations. After merging these ligands into one supermolecule, mutual alignments were computed, taking candidate ligands from a screening database. The latter strategy also retrieved several structurally new inhibitors of micromolar potency.

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Section: Strategies To Screen Simultaneously Against a Set Of Alternamentioning

confidence: 99%

Strategies for the design of inhibitors of aldose reductase, an enzyme showing pronounced induced-fit adaptations

Klebe

Krämer

Sotriffer

2004

Cellular and Molecular Life Sciences (CMLS)

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“…Flexible docking was performed using FlexX [24] version 1.11. During ligand construction, the FlexX command MAPREF and the perturbate algorithm was used for the placement of the base fragment.…”

Section: Molecular Modelingmentioning

confidence: 99%

“…Flexible docking was performed using the program FlexX [24]. Based on the coordinates of the published crystal structure [25] of a ternary complex of farnesyltransferase, a farnesylpyrophosphate analog, and Nacetyl-Cys-Val-Ile-selenoMetOH (PDB-code 1QBQ), we have calculated the solvent-accessible surface of the farnesyltransferase active site using the program MOLCAD as implemented in the molecular modeling software package SYBYL [26].…”

Section: Molecular Modelingmentioning

confidence: 99%

Non‐thiol Farnesyltransferase Inhibitors: Utilization of the Far Aryl Binding Site by 5‐Cinnamoylaminobenzophenones

Mitsch

Böhm

Sattler

et al. 2004

Archiv der Pharmazie

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“…The minimized single conformation of Ala (which has no rotamers but possesses a side-chain beta C atom) was adopted here as template and other 18 rotamer assemblies (except Gly) were in turn superposed on it using atomic root-mean-square (RMS) fitting method. 32 Only the four backbone atoms were considered when superposing Gly onto Ala template. The superposition result is as shown in Figure 3.…”

Section: Superpositionmentioning

confidence: 99%

Exploring the activity space of peptides binding to diverse SH3 domains using principal property descriptors derived from amino acid rotamers

Yang

et al. 2011

Biopolymers

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Although there were intensive works addressed on multivariate extraction of the informative components from numerous physicochemical parameters of amino acids in isolated state, the various conformational behaviors of amino acids in complicated biological context have long been underappreciated in the field of quantitative structure-activity relationship (QSAR). In this work, the amino acid rotamers, which were derived from statistical survey of protein crystal structures, were used to reproduce the conformational variety of amino acid side-chains in real condition. In this procedure, these rotamers were superposed into a nx x ny x nz lattice and an artificial probe was employed to detect four kinds of nonbonding field potentials (i.e., electrostatic, steric, hydrophobic, and hydrogen bonds) at each lattice point using a Gaussian-type potential function; the generated massive data were then subjected to a principal component analysis (PCA) treatment to obtain a set of few, informative amino acid descriptors. We used this set of descriptors, that we named principal property descriptors derived from amino acid rotamers (PDAR), to characterize over 13,000 peptides with known binding affinities to 10 types of SH3 domains. Genetic algorithm/ partial least square regression (GA/PLS) modeling and Monte Carlo cross-validation (MCCV) demonstrated that the correlation between the PDAR descriptors and the binding affinities of peptides are comparable with or even better than previously published models. Furthermore, from the PDAR-based QSAR models we concluded that the core motif of peptides, particularly the electrostatic property, hydrophobicity, and hydrogen bond at residue positions P3, P2, and/or P0, contribute significantly to the hAmph SH3 domain-peptide binding, whereas two ends of the peptides, such as P6, P4, P-4, and P5, only play a secondary role in the binding.

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Different approaches toward an automatic structural alignment of drug molecules: Applications to sterol mimics, thrombin and thermolysin inhibitors

Cited by 108 publications

References 45 publications

Strategies for the design of inhibitors of aldose reductase, an enzyme showing pronounced induced-fit adaptations

Strategies for the design of inhibitors of aldose reductase, an enzyme showing pronounced induced-fit adaptations

Non‐thiol Farnesyltransferase Inhibitors: Utilization of the Far Aryl Binding Site by 5‐Cinnamoylaminobenzophenones

Exploring the activity space of peptides binding to diverse SH3 domains using principal property descriptors derived from amino acid rotamers

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