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Comparative binding energy analysis (COMBINE)
- A structure-based design of new C2- and C13-substituted taxanes: tubulin binding affinities and extended quantitative structure-activity relationships using comparative binding energy (COMBINE) analysis.
Coderch C, Tang Y, Klett J, Zhang SE, Ma YT, Shaorong W, Matesanz R, Pera B, Canales A, Jiménez-Barbero J, Morreale A, Díaz JF, Fang WS, Gago F
Org Biomol Chem11p3046-56(2013 May 14) - Comparative binding energy COMBINE analysis for understanding the binding determinants of type II dehydroquinase inhibitors.
Peón A, Coderch C, Gago F, González-Bello C
ChemMedChem8p740-7(2013 May) - Exploring the binding of BACE-1 inhibitors using comparative binding energy analysis (COMBINE).
Liu S, Fu R, Cheng X, Chen SP, Zhou LH
BMC Struct Biol12p21(2012 Aug 27) - Histone deacetylase inhibitors: structure-based modeling and isoform-selectivity prediction.
Silvestri L, Ballante F, Mai A, Marshall GR, Ragno R
J Chem Inf Model52p2215-35(2012 Aug 27) - Comparative binding energy (COMBINE) analysis supports a proposal for the binding mode of epothilones to β-tubulin.
Coderch C, Klett J, Morreale A, Fernando Díaz J, Gago F
ChemMedChem7p836-43(2012 May) - Quantum mechanical pairwise decomposition analysis of protein kinase B inhibitors: validating a new tool for guiding drug design.
Zhang X, Gibbs AC, Reynolds CH, Peters MB, Westerhoff LM
J Chem Inf Model50p651-61(2010 Apr 26) - Comparative binding energy analysis for binding affinity and target selectivity prediction.
Henrich S, Feierberg I, Wang T, Blomberg N, Wade RC
Proteins78p135-53(2010 Jan) - gCOMBINE: A graphical user interface to perform structure-based comparative binding energy (COMBINE) analysis on a set of ligand-receptor complexes.
Gil-Redondo R, Klett J, Gago F, Morreale A
Proteins78p162-72(2010 Jan) - Distinct interactions of 2'- and 3'-O-(N-methyl)anthraniloyl-isomers of ATP and GTP with the adenylyl cyclase toxin of Bacillus anthracis, edema factor.
Suryanarayana S, Wang JL, Richter M, Shen Y, Tang WJ, Lushington GH, Seifert R
Biochem Pharmacol78p224-30(2009 Aug 1) - Key residues controlling binding of diverse ligands to human cytochrome P450 2A enzymes.
DeVore NM, Smith BD, Wang JL, Lushington GH, Scott EE
Drug Metab Dispos37p1319-27(2009 Jun) - An integrated approach to ligand- and structure-based drug design: development and application to a series of serine protease inhibitors.
Nicolotti O, Miscioscia TF, Carotti A, Leonetti F, Carotti A
J Chem Inf Model48p1211-26(2008 Jun) - Masamoto Arakawaa, Kiyoshi Hasegawab, Kimito Funatsu: Tailored scoring function of Trypsin–benzamidine complex using COMBINE descriptors and support vector regression. Chemometrics and Intelligent Laboratory Systems, Volume 92, Issue 2, 15 July 2008, Pages 145-151.
- A conformational transition in the adenylyl cyclase catalytic site yields different binding modes for ribosyl-modified and unmodified nucleotide inhibitors.
Wang JL, Guo JX, Zhang QY, Wu JJ, Seifert R, Lushington GH
Bioorg Med Chem15p2993-3002(2007 Apr 15) - COMBINE analysis of the specificity of binding of Ras proteins to their effectors.
Tomić S, Bertosa B, Wang T, Wade RC
Proteins67p435-47(2007 May 1) - Whither combine? New opportunities for receptor-based QSAR.
Lushington GH, Guo JX, Wang JL
Curr Med Chem14p1863-77(2007) - Martin B. Peters, Kenneth M. Merz Jr.: Semiempirical Comparative Binding Energy Analysis (SE-COMBINE) of a Series of Trypsin Inhibitors. J. Chem. Theory Comput., 2006, 2 (2), pp 383–399.
- Computational approaches to model ligand selectivity in drug design.
Ortiz AR, Gomez-Puertas P, Leo-Macias A, Lopez-Romero P, Lopez-Viñas E, Morreale A, Murcia M, Wang K
Curr Top Med Chem6p41-55(2006) - Binding affinity prediction of non-peptide inhibitors of HIV-1 protease using COMBINE model introduced from peptide inhibitors.
Nakamura S, Nakanishi I, Kitaura K
Bioorg Med Chem Lett16p6334-7(2006 Dec 15) - Marta Murcia,Antonio Morreale,Angel R. Ortiz: Comparative Binding Energy Analysis Considering Multiple Receptors: A Step toward 3D-QSAR Models for Multiple Targets. J. Med. Chem., 2006, 49 (21), pp 6241–6253. link
- Quantitative analysis of substrate specificity of haloalkane dehalogenase LinB from Sphingomonas paucimobilis UT26.
Kmunícek J, Hynková K, Jedlicka T, Nagata Y, Negri A, Gago F, Wade RC, Damborský J
Biochemistry44p3390-401(2005 Mar 8) - How optimal are the binding energetics of barnase and barstar?
Wang T, Tomic S, Gabdoulline RR, Wade RC
Biophys J87p1618-30(2004 Sep) - Rebecca C. Wadem Stefan Henrich, Ting Wang: Using 3D protein structures to derive 3D-QSARs. Drug Discovery Today: Technologies, Volume 1, Issue 3, December 2004, Pages 241-246.
- Comparative structural and energetic analysis of WW domain-peptide interactions.
Schleinkofer K, Wiedemann U, Otte L, Wang T, Krause G, Oschkinat H, Wade RC
J Mol Biol344p865-81(2004 Nov 26) - Chemometrical identification of mutations in HIV-1 reverse transcriptase conferring resistance or enhanced sensitivity to arylsulfonylbenzonitriles.
Rodríguez-Barrios F, Gago F
J Am Chem Soc126p2718-9(2004 Mar 10) - Virtual screening with flexible docking and COMBINE-based models. Application to a series of factor Xa inhibitors.
Murcia M, Ortiz AR
J Med Chem47p805-20(2004 Feb 12) - Modulation of binding strength in several classes of active site inhibitors of acetylcholinesterase studied by comparative binding energy analysis.
Martín-Santamaría S, Muñoz-Muriedas J, Luque FJ, Gago F
J Med Chem47p4471-82(2004 Aug 26) - Computational studies of COX-2 inhibitors: 3D-QSAR and docking.
Kim HJ, Chae CH, Yi KY, Park KL, Yoo SE
Bioorg Med Chem12p1629-41(2004 Apr 1) - A docking score function for estimating ligand-protein interactions: application to acetylcholinesterase inhibition.
Guo J, Hurley MM, Wright JB, Lushington GH
J Med Chem47p5492-500(2004 Oct 21) - Modeling and interactions of Aspergillus fumigatus lanosterol 14-alpha demethylase 'A' with azole antifungals.
Gollapudy R, Ajmani S, Kulkarni SA
Bioorg Med Chem12p2937-50(2004 Jun 1) - Jiri Damborsky, Jan Kmunicek, Tomas Jedlicka,Santos Luengo, Federico Gago, Angel R. Ortiz and Rebecca C. Wade: Rational Re-design of Haloalkane Dehalogenases Guided by Comparative Binding Energy Analysis. In “Enzyme functionality: Design, Engineering and Screening”, Ed. A. Svendsen, Marcel Dekker, New York, ISBN: 0-8247-4709-7 (2004) pp79-96.
- Comparative binding energy analysis of haloalkane dehalogenase substrates: modelling of enzyme-substrate complexes by molecular docking and quantum mechanical calculations.
Kmunícek J, Bohác M, Luengo S, Gago F, Wade RC, Damborský J
J Comput Aided Mol Des17p299-311(2003 May-Jun) - Comparative binding energy (COMBINE) analysis of OppA-peptide complexes to relate structure to binding thermodynamics.
Wang T, Wade RC
J Med Chem45p4828-37(2002 Oct 24) - A quantitative model for predicting enzyme enantioselectivity: application to Burkholderia cepacia lipase and 3-(aryloxy)-1,2-propanediol derivatives.
Tomić S, Kojić-Prodić B
J Mol Graph Model21p241-52(2002 Dec) - Comparative binding energy (COMBINE) analysis of influenza neuraminidase-inhibitor complexes.
Wang T, Wade RC
J Med Chem44p961-71(2001 Mar 15) - Ting Wang, Rebecca C. Wade: COMBINE 3D-QSAR Analysis of Influenza Neuraminidase Inhibitors. In: “Rational Approaches to Drug Design: 13th European Symposium on Quantitative Structure-Activity Relationships”, Eds. Holtje, H-D., Sippl,W. (2001), Prous Science S.A., Barcelona, pp78-82.
- Rebecca C. Wade: Derivation of QSARs using 3D structural models of protein-ligand complexes. In: “Rational Approaches to Drug Design: 13th European Symposium on Quantitative Structure-Activity Relationships”, Eds. Holtje, H-D., Sippl,W. (2001), Prous Science S.A., Barcelona, pp23-28.
- Sanja Tomica, Rebecca C. Wade: COMBINE Analysis of Nuclear Receptor-DNA Binding Specificity: Comparison of Two Sets of Data. CROATICA CHEMICA ACTA CCACAA 74 (2) 295-314 (2001), ISSN-0011-1643 CCA-2733 Original Scientific Paper.
- Comparative binding energy analysis of the substrate specificity of haloalkane dehalogenase from Xanthobacter autotrophicus GJ10.
Kmunícek J, Luengo S, Gago F, Ortiz AR, Wade RC, Damborský J
Biochemistry40p8905-17(2001 Jul 31) - Comparative binding energy (COMBINE) analysis of human neutrophil elastase inhibition by pyridone-containing trifluoromethylketones.
Cuevas C, Pastor M, Pérez C, Gago F
Comb Chem High Throughput Screen4p627-42(2001 Dec) - Sanja Tomic,Lennart Nilsson, Rebecca C. Wade: Nuclear Receptor−DNA Binding Specificity: A COMBINE and Free−Wilson QSAR Analysis. J. Med. Chem., 2000, 43 (9), pp 1780–1792.
- M. Pastor, F. Gago, G. Cruciani: Comparative binding energy (COMBINE) analysis on a series of glycogen phosphorylase inhibitors: comparison with GRID/GOLPE methods. 2000
- 3D-QSAR methods on the basis of ligand-receptor complexes. Application of COMBINE and GRID/GOLPE methodologies to a series of CYP1A2 ligands.
Lozano JJ, Pastor M, Cruciani G, Gaedt K, Centeno NB, Gago F, Sanz F
J Comput Aided Mol Des14p341-53(2000 May) - Kiyoshi Hasegawa, Toshiro Kimura, Kimito Funatsu: GA Strategy for Variable Selection in QSAR Studies: Enhancement of Comparative Molecular Binding Energy Analysis by GA-Based PLS Method. Quantitative Structure-Activity Relationships, 18 (3) 262–272, July 1999.
- Rebecca C. Wade, A. R. Oritz, F. Gago: Comparative binding energy analysis. Perspectives in Drug Discovery and Design, Volumes 9-11, January 1998 , 19-34(16).
- Comparative binding energy analysis of HIV-1 protease inhibitors: incorporation of solvent effects and validation as a powerful tool in receptor-based drug design.
Pérez C, Pastor M, Ortiz AR, Gago F
J Med Chem41p836-52(1998 Mar 12) - Simulation of alternative binding modes in a structure-based QSAR study of HIV-1 protease inhibitors.
Pastor M, Pérez C, Gago F
J Mol Graph Model15p364-71, 389(1997 Dec) - Reliability of comparative molecular field analysis models: effects of data scaling and variable selection using a set of human synovial fluid phospholipase A2 inhibitors.
Ortiz AR, Pastor M, Palomer A, Cruciani G, Gago F, Wade RC
J Med Chem40p1136-48(1997 Mar 28) - Prediction of drug binding affinities by comparative binding energy analysis.
Ortiz AR, Pisabarro MT, Gago F, Wade RC
J Med Chem38p2681-91(1995 Jul 7)