Literature DB >> 21889450

Predicting the effects of basepair mutations in DNA-protein complexes by thermodynamic integration.

Frank R Beierlein1, G Geoff Kneale, Timothy Clark.   

Abstract

Thermodynamically rigorous free energy methods in principle allow the exact computation of binding free energies in biological systems. Here, we use thermodynamic integration together with molecular dynamics simulations of a DNA-protein complex to compute relative binding free energies of a series of mutants of a protein-binding DNA operator sequence. A guanine-cytosine basepair that interacts strongly with the DNA-binding protein is mutated into adenine-thymine, cytosine-guanine, and thymine-adenine. It is shown that basepair mutations can be performed using a conservative protocol that gives error estimates of ∼10% of the change in free energy of binding. Despite the high CPU-time requirements, this work opens the exciting opportunity of being able to perform basepair scans to investigate protein-DNA binding specificity in great detail computationally.
Copyright © 2011 Biophysical Society. Published by Elsevier Inc. All rights reserved.

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Year:  2011        PMID: 21889450      PMCID: PMC3164145          DOI: 10.1016/j.bpj.2011.07.003

Source DB:  PubMed          Journal:  Biophys J        ISSN: 0006-3495            Impact factor:   4.033


  59 in total

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Authors:  B Hernández; R Soliva; F J Luque; M Orozco
Journal:  Nucleic Acids Res       Date:  2000-12-15       Impact factor: 16.971

2.  Analyzing protein-DNA recognition mechanisms.

Authors:  Guillaume Paillard; Richard Lavery
Journal:  Structure       Date:  2004-01       Impact factor: 5.006

3.  The thermodynamics of charge transfer in DNA photolyase: using thermodynamic integration calculations to analyse the kinetics of electron transfer reactions.

Authors:  Sebastian Krapf; Thorsten Koslowski; Thomas Steinbrecher
Journal:  Phys Chem Chem Phys       Date:  2010-06-08       Impact factor: 3.676

4.  Comparison of efficiency and bias of free energies computed by exponential averaging, the Bennett acceptance ratio, and thermodynamic integration.

Authors:  Michael R Shirts; Vijay S Pande
Journal:  J Chem Phys       Date:  2005-04-08       Impact factor: 3.488

5.  Molecular dynamics characterization of the structures and induction mechanisms of a reverse phenotype of the tetracycline receptor.

Authors:  Ute Seidel; Olaf G Othersen; Florian Haberl; Harald Lanig; Frank R Beierlein; Timothy Clark
Journal:  J Phys Chem B       Date:  2007-05-05       Impact factor: 2.991

6.  An efficient method for the calculation of quantum mechanics/molecular mechanics free energies.

Authors:  Christopher J Woods; Frederick R Manby; Adrian J Mulholland
Journal:  J Chem Phys       Date:  2008-01-07       Impact factor: 3.488

Review 7.  Deforming DNA: from physics to biology.

Authors:  Chantal Prévost; Masayuki Takahashi; Richard Lavery
Journal:  Chemphyschem       Date:  2009-07-13       Impact factor: 3.102

8.  Statistically optimal analysis of samples from multiple equilibrium states.

Authors:  Michael R Shirts; John D Chodera
Journal:  J Chem Phys       Date:  2008-09-28       Impact factor: 3.488

9.  VMD: visual molecular dynamics.

Authors:  W Humphrey; A Dalke; K Schulten
Journal:  J Mol Graph       Date:  1996-02

10.  Classification of water molecules in protein binding sites.

Authors:  Caterina Barillari; Justine Taylor; Russell Viner; Jonathan W Essex
Journal:  J Am Chem Soc       Date:  2007-02-09       Impact factor: 15.419
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  12 in total

Review 1.  Structure-based modeling of protein: DNA specificity.

Authors:  Adam P Joyce; Chi Zhang; Philip Bradley; James J Havranek
Journal:  Brief Funct Genomics       Date:  2014-11-19       Impact factor: 4.241

2.  Computation of relative binding free energy for an inhibitor and its analogs binding with Erk kinase using thermodynamic integration MD simulation.

Authors:  Kuan-Wei Wu; Po-Chin Chen; Jun Wang; Ying-Chieh Sun
Journal:  J Comput Aided Mol Des       Date:  2012-09-18       Impact factor: 3.686

3.  Study of base pair mutations in proline-rich homeodomain (PRH)-DNA complexes using molecular dynamics.

Authors:  Seifollah Jalili; Leila Karami; Jeremy Schofield
Journal:  Eur Biophys J       Date:  2013-02-06       Impact factor: 1.733

4.  Tautomeric Equilibria of Nucleobases in the Hachimoji Expanded Genetic Alphabet.

Authors:  Lukas Eberlein; Frank R Beierlein; Nico J R van Eikema Hommes; Ashish Radadiya; Jochen Heil; Steven A Benner; Timothy Clark; Stefan M Kast; Nigel G J Richards
Journal:  J Chem Theory Comput       Date:  2020-03-20       Impact factor: 6.006

5.  Deficiencies in Molecular Dynamics Simulation-Based Prediction of Protein-DNA Binding Free Energy Landscapes.

Authors:  Morteza Khabiri; Peter L Freddolino
Journal:  J Phys Chem B       Date:  2017-05-16       Impact factor: 2.991

6.  Rapid and accurate structure-based therapeutic peptide design using GPU accelerated thermodynamic integration.

Authors:  Michael Garton; Carles Corbi-Verge; Yuan Hu; Satra Nim; Nadya Tarasova; Brad Sherborne; Philip M Kim
Journal:  Proteins       Date:  2019-01-04

Review 7.  Atomistic modeling of protein-DNA interaction specificity: progress and applications.

Authors:  Limin Angela Liu; Philip Bradley
Journal:  Curr Opin Struct Biol       Date:  2012-07-13       Impact factor: 6.809

8.  Evaluation of Sox2 binding affinities for distinct DNA patterns using steered molecular dynamics simulation.

Authors:  Dhanusha Yesudhas; Muhammad Ayaz Anwar; Suresh Panneerselvam; Han-Kyul Kim; Sangdun Choi
Journal:  FEBS Open Bio       Date:  2017-10-09       Impact factor: 2.693

9.  DNA-Dye-Conjugates: Conformations and Spectra of Fluorescence Probes.

Authors:  Frank R Beierlein; Miguel Paradas Palomo; Dmitry I Sharapa; Oleksii Zozulia; Andriy Mokhir; Timothy Clark
Journal:  PLoS One       Date:  2016-07-28       Impact factor: 3.240

10.  A computational approach for designing D-proteins with non-canonical amino acid optimised binding affinity.

Authors:  Michael Garton; Maryam Sayadi; Philip M Kim
Journal:  PLoS One       Date:  2017-11-06       Impact factor: 3.240
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