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Structure and Dynamics of Membranous Interfaces
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More About This Title Structure and Dynamics of Membranous Interfaces

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Leading scientists review and explain the state of the science

With chapters contributed by pioneers and leading scientists in the field, this carefullyedited work provides state-of-the-science reviews focusing on the structural and dynamic aspects of diverse membranous systems. In addition to learning the significanceof the latest discoveries in membranous systems, readers also learn the most advanced techniques used to study these complex systems. Moreover, the text brings together a tremendous array of both published and unpublished data, offering an unprecedented reference and resource to fuel further research.

Integrating findings from computer science, biophysics, surface science, physical chemistry, nanotechnology, biochemistry, chemical engineering, materials science, and clinical physiology, this book offers a truly multidisciplinary perspective. Its fifteen chapters are organized into three main sections:
* Membrane Structure, focusing on direct experimental studies to determine the polymorphic structures of model and natural membranous systems
* Dynamics & Molecular Events at Membrane Interfaces, examining how membrane structures are formed and evolve into other superstructures
* Complex Membranous Systems, exploring bacterial and neural membranes, lung surfactants, and other colloidal systems

Structure and Dynamics of Membranous Interfaces offers researchers and students studying biomembranes a unique snapshot of what is known in the field, where additional research is needed, and where the field is heading. Furthermore, armed with a better understanding of membranous systems, readers are well positioned to make new advances in such areas as drug design, medicine, and environmental technologies.
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Kaushik Nag, PhD, is an Associate Professor in the Department of Biochemistry and Physics at Memorial University of Newfoundland, Canada. His research interests include biophysical and structural biochemistry of lipid-protein systems in lung surfactants and biomembranes. In addition, Dr. Nag is involved in using Langmuir films, giant liposome, Deuterium-NMR, fluorescence and atomic force microscopy, differential scanning calorimetry, Raman/IR imaging, and molecular dynamics simulations to study lung surfactant and biomembrane structure and dysfunction. He is the recipient of a prestigious five-year New Investigator Grant from the CIHR and major infrastructure funding from CFI and NSERC for Surface Nanobiology Laboratory.
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Introduction.

Part I: Membrane Structure.

1. The Membrane Interface as a Structured Compartment and a Substrate for Enzyme Action (Ole G. Mouritsen Luis A. Bagatolli, and Adam C. Simonsen).

2. Tof-SIMS Imaging of Lipid/Protein Model Systems (Michael Seifert, Mohammed Saleem, Daniel Breitenstein, Hans-Joachim Galla, and Michaela C. Meyera).

3. Flexibility and Structure of Fluid Bilayer Interfaces (Michael Rappolt and Georg Pabst).

4. X-Ray Diffraction Studies of Lung Surfactant Membrane Structures (Marcus Larsson).

5. Neutron and X-Ray Scattering from Isotropic and Aligned Membranes (J. Katsaras, J. Pencer, M. -P. Nieh, T. Abraham, N. Kucerka, and Thad A. Harrown).

Part II: Dynamics and Molecular Events At Membrane Interfaces.

6. Interaction of Plasma Proteins with Phospholipids at Interfaces (Chia-Lin Yin, D. Dorcas, Anna Dudek, and Chien-Hsiang Chang).

7. Monitoring of Membrane-Associated Protein Binkding and of Enzyme Activity in Monolayers at the Air-Water Interface by Infrared Spectroscopy (Sylvain Bussieres, Julie Boucher, Philippe Desmeules, Michel Grandbois Bernard Desbat, and Christian Salesse).

8. Chirality and Dipolar Interactions of Membrane Mimetic Amphiphilic Molecules (Nilashis Nandi, K. Thirumoorthy, and Dieter Vollhardt).

9. Organic and Inorganic Osmolytes at Lipid Membrane Interfaces (Peter Westh and Gunther H. Peters).

10. Protein Lipid Interactions from a Molecular Dynamics Simulation Point of View (Christian Kandt, Edit Matyus, and D. Peter Tieleman).

Part II: Complex Membranous Systems.

11. Molecular Analysis of Bacterial Membranous Systems (Salim Sioud, Nicolas Joly, Patrick Martin, and Joseph Banoub).

12. Thermodynamics of the Nervous Impulse (Thomas Heimburg and Andrew D. Jackson).

13. Relationships Between Surface Viscosity, Monolayer Phase Behavior, and the Stability of Lung Surfactant Monolayers (Joseph A. Zasadzinski, Coralie Alonso, Junqi Ding, Frank Bringezu, Heidi Warriner, Tim Alig, Siegfried Steltenkamp, and Alan J. Waring).

14. A Cursory Glance at the Phyiscochemical Properties of Oppositely Charged Surfactants in Solution and at the Air-Water Interface (Amiya Kumar Panda and Kaushik Nag).

15. Phase Transitions, Cholesterol and Raft Structures in Films and Bilayers of a Natural Membranous System (Kaushik Nag, Mauricia Fritzen-Garcia, Ravi Devraj, Ashley Hillier, and Doyle Rose).

Index.

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