R. W. Dixon scite author profile

Improved rational drug design methods are needed to lower the cost and increase the success rate of drug discovery and development. Alchemical binding free energy calculations, one potential tool for rational design, have progressed rapidly over the last decade, but still fall short of providing robust tools for pharmaceutical engineering. Recent studies, especially on model receptor systems, have clarified many of the challenges that must be overcome for robust predictions of binding affnity to be useful in rational design. In this review, inspired by a recent joint academic/industry meeting organized by the authors, we discuss these challenges and suggest a number of promising approaches for overcoming them.

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The development/application of a ‘minimalist’ organic/biochemical molecular mechanic force field using a combination of ab initio calculations and experimental data

Kollman

et al. 1997

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Advancing beyond the atom-centered model in additive and nonadditive molecular mechanics

1997

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Ranking ligand binding affinities with avidin: a molecular dynamics-based interaction energy study

1999

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The binding of 14 biotin analogues to avidin is examined to evaluate the viability of calculating binding free energy based on molecular dynamics (MD) trajectories. Two approaches were investigated in this work. The first one uses the linear interaction energy approximation, while the other approach utilizes the interaction free energy. The results obtained from these two methods were found to correlate well with the experimental binding free energy data for 10 out of 14 ligands. For the other four ligands, both methods overestimate their binding strength by more than 7 kcal/mol. Free energy calculations using the thermodynamic integration method are employed to understand this overestimation. The effect of protein flexibility on binding free energy calculation and the effect of charged or neutral ligands on the calculated results are discussed. MD simulations are shown to be able to provide insight into the interactions occurring in the active site and the origins of variations in binding free energy.

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Photoelastic Properties of Selected Materials and Their Relevance for Applications to Acoustic Light Modulators and Scanners

Dixon¹

1967

489

104

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Measurements of the photoelastic tensor components and figures of merit of several materials selected for possible application in acoustic light modulators and scanners are presented. The most important results are that GaP is superior to fused quartz by nearly two orders of magnitude for modulation and scanning of visible light of wavelength longer than 0.58 μ, and that GaAs is similarly superior at wave-lengths longer than about 1 μ.

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R. W. Dixon

Alchemical free energy methods for drug discovery: progress and challenges

The development/application of a ‘minimalist’ organic/biochemical molecular mechanic force field using a combination of ab initio calculations and experimental data

Advancing beyond the atom-centered model in additive and nonadditive molecular mechanics

Ranking ligand binding affinities with avidin: a molecular dynamics-based interaction energy study

Photoelastic Properties of Selected Materials and Their Relevance for Applications to Acoustic Light Modulators and Scanners

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