Literature DB >> 31397498

Alchemical Grid Dock (AlGDock): Binding Free Energy Calculations between Flexible Ligands and Rigid Receptors.

David D L Minh1.   

Abstract

Alchemical Grid Dock (AlGDock) is open-source software designed to compute the binding potential of mean force-the binding free energy between a flexible ligand and a rigid receptor-for a small organic ligand and a biological macromolecule. Multiple BPMFs can be used to rigorously compute binding affinities between flexible partners. AlGDock uses replica exchange between thermodynamic states at different temperatures and receptor-ligand interaction strengths. Receptor-ligand interaction energies are represented by interpolating precomputed grids. Thermodynamic states are adaptively initialized and adjusted on-the-fly to maintain adequate replica exchange rates. In demonstrative calculations, when the bound ligand is treated as fully solvated, AlGDock estimates BPMFs with a precision within 4 kT in 65% and within 8 kT for 91% of systems. It correctly identifies the native binding pose in 83% of simulations. Performance is sometimes limited by subtle differences in the important configuration space of sampled and targeted thermodynamic states.
© 2019 Wiley Periodicals, Inc. © 2019 Wiley Periodicals, Inc.

Entities:  

Keywords:  implicit ligand theory; noncovalent binding free energy; protein-ligand; replica exchange; thermodynamic length

Mesh:

Substances:

Year:  2019        PMID: 31397498      PMCID: PMC7263302          DOI: 10.1002/jcc.26036

Source DB:  PubMed          Journal:  J Comput Chem        ISSN: 0192-8651            Impact factor:   3.376


  32 in total

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4.  DOCK 6: combining techniques to model RNA-small molecule complexes.

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Journal:  RNA       Date:  2009-04-15       Impact factor: 4.942

5.  Docking performance of the glide program as evaluated on the Astex and DUD datasets: a complete set of glide SP results and selected results for a new scoring function integrating WaterMap and glide.

Authors:  Matthew P Repasky; Robert B Murphy; Jay L Banks; Jeremy R Greenwood; Ivan Tubert-Brohman; Sathesh Bhat; Richard A Friesner
Journal:  J Comput Aided Mol Des       Date:  2012-05-11       Impact factor: 3.686

6.  Comprehensive evaluation of ten docking programs on a diverse set of protein-ligand complexes: the prediction accuracy of sampling power and scoring power.

Authors:  Zhe Wang; Huiyong Sun; Xiaojun Yao; Dan Li; Lei Xu; Youyong Li; Sheng Tian; Tingjun Hou
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7.  Implicit ligand theory for relative binding free energies.

Authors:  Trung Hai Nguyen; David D L Minh
Journal:  J Chem Phys       Date:  2018-03-14       Impact factor: 3.488

8.  Free Energy Perturbation Hamiltonian Replica-Exchange Molecular Dynamics (FEP/H-REMD) for Absolute Ligand Binding Free Energy Calculations.

Authors:  Wei Jiang; Benoît Roux
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9.  Identifying ligand binding sites and poses using GPU-accelerated Hamiltonian replica exchange molecular dynamics.

Authors:  Kai Wang; John D Chodera; Yanzhi Yang; Michael R Shirts
Journal:  J Comput Aided Mol Des       Date:  2013-12-03       Impact factor: 3.686

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Authors:  Marco A C Neves; Maxim Totrov; Ruben Abagyan
Journal:  J Comput Aided Mol Des       Date:  2012-05-09       Impact factor: 3.686
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  3 in total

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Authors:  Andrea Rizzi; Travis Jensen; David R Slochower; Matteo Aldeghi; Vytautas Gapsys; Dimitris Ntekoumes; Stefano Bosisio; Michail Papadourakis; Niel M Henriksen; Bert L de Groot; Zoe Cournia; Alex Dickson; Julien Michel; Michael K Gilson; Michael R Shirts; David L Mobley; John D Chodera
Journal:  J Comput Aided Mol Des       Date:  2020-01-27       Impact factor: 3.686

2.  Implicit ligand theory for relative binding free energies: II. An estimator based on control variates.

Authors:  Trung Hai Nguyen; David D L Minh
Journal:  J Phys Commun       Date:  2020-11-26

3.  On Restraints in End-Point Protein-Ligand Binding Free Energy Calculations.

Authors:  William M Menzer; Bing Xie; David D L Minh
Journal:  J Comput Chem       Date:  2019-12-10       Impact factor: 3.376
  3 in total

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