Lazaridis, Themis - Department of Chemistry, City College, City University of New York

• Distance and Exposure Dependent Effective Dielectric Function
• Configuration of influenza hemagglutinin fusion peptide monomers and oligomers in membranes
• Energetic Determinants of Oligomeric State Specificity in Coiled Coils [J. Am. Chem. Soc. 2006, 128, 15499-15510]. Jorge Ramos and Themis Lazaridis*
• Effective Energy Function for Proteins in Lipid Membranes Themis Lazaridis*
• Thermodynamics of Buried Water Clusters at a Protein-Ligand Binding Interface Zheng Li and Themis Lazaridis*
• Voltage-dependent energetics of alamethicin monomers in the membrane Madhusoodanan Mottamal, Themis Lazaridis
• Protein sidechain conformer prediction: a test of the energy function
• On the Unfolding of -Lytic Protease and the Role of the Pro Region
• Energetics of the Native and Non-native States of the Glycophorin Transmembrane Helix Dimer
• Reaction paths and free energy profiles for conformational transitions: An internal coordinate approach
• The Effect of Water Displacement on Binding Thermodynamics: Concanavalin A Zheng Li and Themis Lazaridis*
• J. Phys. Chem. 1993,97, 5789-5790 5789 Reply to the Comment on "Entropyof Hydrophobic
• Solvent Reorganization Energy and Entropy in Hydrophobic Hydration Themis Lazaridis*
• Structural Determinants of Transmembrane -Barrels Themis Lazaridis*
• J. Phys. Chem. 1994,98, 635-642 635 Simulation Studies of the Hydration Entropy of Simple, Hydrophobic Solutes
• Current Organic Chemistry, 2002, 6, 1319-1332 1319 1385-2728/02 $35.00+.00 2002 Bentham Science Publishers Ltd.
• Biophysical Chemistry 100 (2003) 367395 0301-4622/03/$ -see front matter 2002 Elsevier Science B.V. All rights reserved.
• Inhomogeneous Fluid Approach to Solvation Thermodynamics. 1. Theory Themis Lazaridis*
• Transmembrane Helix Association Affinity Can Be Modulated by Flanking and Noninterfacial Residues
• proteinsSTRUCTURE O FUNCTION O BIOINFORMATICS Computational prediction of the binding site
• proteinsSTRUCTURE O FUNCTION O BIOINFORMATICS Membrane-bound structure and
• Modeling fatty acid delivery from intestinal fatty acid binding protein to a membrane
• Water at biomolecular binding interfaces Zheng Li and Themis Lazaridis*
• Modeling a Spin-Labeled Fusion Peptide in a Membrane: Implications for the Interpretation of EPR Experiments
• Energetic Determinants of Oligomeric State Specificity in Coiled Coils
• Calculating the Free Energy of Association of Transmembrane Helices Jinming Zhang and Themis Lazaridis
• Calculations of pH-Dependent Binding of Proteins to Biological Membranes Maja Mihajlovic and Themis Lazaridis*
• Implicit Solvent Simulations of DPC Micelle Formation Themis Lazaridis,* Buddhadeb Mallik, and Yong Chen
• The Contribution of CR-H,,,O Hydrogen Bonds to Membrane Protein Stability Depends on the Position of the Amide
• Implicit Solvent Simulations of Peptide Interactions With Anionic Lipid Membranes
• 1926 Biophysical Journal Volume 84 March 2003 19261939 Investigation of Pathways for the Low-pH Conformational Transition
• Potentials of Mean Force between Ionizable Amino Acid Side Chains in Water
• Contributions to the Binding Free Energy of Ligands to Avidin and Streptavidin
• Solvent Size vs Cohesive Energy as the Origin of Hydrophobicity
• Protein structure prediction, fold recognition, homology modeling and design rely mainly on statistical effective energy
• Z .Biophysical Chemistry 78 1999 207 217 Heat capacity and compactness of denatured proteins
• Discrimination of the Native from Misfolded Protein Models with an Energy Function Including
• RESEARCH ARTICLES Effective Energy Function for Proteins in Solution
• Inhomogeneous Fluid Approach to Solvation Thermodynamics. 2. Applications to Simple Themis Lazaridis*
• "New View" of Protein Folding Reconciled with the Old Through Multiple Unfolding Simulations
• Prorein Science (1997), 6:2589-2605. Cambridge University Press. Printed in the USA Copyright 0 1997 The Protein Society
• Orientational correlations and entropy in liquid water Themis Lazaridis
• 1546 J. Am. Chem. SOC.1994,116, 1546-1 556 Computational Study of Conformational Transitions in the
• J. Phys. Chem. 1992,96, 3841-3855 3847 Entropy of Hydrophobic Hydration: A New Statistical Mechanical Formulation