Table of Contents

Membrane Protein Purification.- Characterization of Membrane Protein Preparations: Measurement of Detergent Content and Ligand Binding After Proteoliposomes Reconstitution.- Native Membrane Proteins vs. Yeast Recombinant: An Example: The Mitochondrial ADP/ATP Carrier.- Bacterial Overexpressed Membrane Proteins: An Example: The TSPO.- Insect Cell Versus Bacterial Overexpressed Membrane Proteins: An Example, the Human ABCG2 Transporter.- X-Ray Crystallography.- Crystallography of Membrane Proteins: From Crystallization to Structure.- Structural Approaches of the Mitochondrial Carrier Family.- What Can Be Learned About the Function of a Single Protein from Its Various X-Ray Structures: The Example of the Sarcoplasmic Calcium Pump.- Recent Progress in the Structure Determination of GPCRs, a Membrane Protein Family with High Potential as Pharmaceutical Targets.- Electron Microscopy.- Observation of Membrane Proteins In Situ: AQPcic, the Insect Aquaporin Example.- Two-Dimensional Crystallization of Integral Membrane Proteins for Electron Crystallography.- Structure Determination of Membrane Protein by Both Cryo-Electron Tomography and Single Particle Analysis.- Electron Microscope Tomography of Native Membranes.- From Electron Microscopy Maps to Atomic Structures Using Normal Mode-Based Fitting.- Nuclear Magnetic Resonance.- Determination of Membrane Protein Structures Using Solution and Solid-State NMR.- Membrane Protein Fragments Reveal Both Secondary and Tertiary Structure of Membrane Proteins.- What Can We Learn from a Small Regulatory Membrane Protein?.- Solution-State NMR Spectroscopy of Membrane Proteins in Detergent Micelles: Structure of the Klebsiella pneumoniae Outer Membrane Protein A, KpOmpA.- NMR Spectroscopy of Lipid Bilayers.- Molecular Modelling.- Critical Review of General Guidelines for Membrane Proteins Model Building and Analysis.- 3D Structural Models of Transmembrane Proteins.- Molecular Dynamics of Membrane Peptides and Proteins: Principles and Comparison to Experimental Data.- Membrane Protein Dynamics from Femtoseconds to Seconds.- The Family of G Protein-Coupled Receptors: An Example of Membrane Proteins.

Reviews

From the reviews:“This extensive monograph devoted to membrane proteins represents just what the subheading promises: a collection of experimental protocols proven competent in renowned laboratories. … This book introduces the reader to major techniques used in the field of membrane protein structure determination. … Authors show how the synergy between a laboratory experiment and computational modeling leads to structural delineation of the ligand binding pocket and how this knowledge can be used for rational drug design.” (Ľubica Lacinová, General Physiology and Biophysics, May, 2011)“This treatise … is a well-rounded compilation of methodological approaches to solving membrane protein structure. … The appropriateness of these approaches in the membrane structural biologist toolkit is nicely articulated in the example applications and state-of-the-art methodologies are described in detail. … current title has uniquely organized individual chapters to address a broader scope … . the effort should prove valuable to scientists unfamiliar with membrane proteins as well as more experienced investigators wanting to broaden the structural and/or computational tools at their disposal.” (O. John Semmes, Proteomics, Vol. 11, (16), 2011)“This book includes descriptions of modern methods employed for studies of membrane proteins, which represent nearly 40% of all proteins. … gives a brief introduction into problems related to studies of membrane proteins. … this book will be useful for biochemists, membrane biologists, molecular biologists, and biotechnologists, and also for specialists in cell biology and proteomics. There is no doubt that the material of this book will be very useful for teachers and students of colleges and universities specialized in the fields mentioned above.” (G. Ya. Wiederschain, Biochemistry, Vol. 76 (11), 2011)