Membrane Shape and Biological Function - Bozelli Jr, José Carlos; M. Epand, Richard; (ed.) - Prospero Internet Bookshop
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Product details:
ISBN13:9781032263144
ISBN10:1032263148
Binding:Hardback
No. of pages:304 pages
Size:234x156 mm
Language:English
Illustrations: 60 Illustrations, black & white; 17 Illustrations, color; 31 Halftones, black & white; 16 Halftones, color; 29 Line drawings, black & white; 1 Line drawings, color; 6 Tables, black & white
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Membrane Shape and Biological Function

 
Edition number: 1
Publisher: CRC Press
Date of Publication:
 
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GBP 150.00
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Short description:

Membrane Shape and Biological Function is an important guide for anyone interested in the dynamic world of biological membranes. The book explores how membrane shape influences crucial biological processes and highlights its practical applications.

Long description:

Membrane Shape and Biological Function is an important guide for anyone interested in the dynamic world of biological membranes. The book explores how membrane shape influences crucial biological processes and highlights its practical applications. It delves into the mechanics of lipid bilayers, their role in cellular processes, and computational methods for understanding membrane remodeling, including real-world applications such as the Golgi apparatus' structure and function, the role of inositol phospholipids in cellular organization, membrane fusion in cell biology, and the potential of lipid bilayers in neuromorphic computing. This comprehensive resource is valuable for students, researchers, and anyone curious about membrane biology.

Table of Contents:

1. The Effect of Membrane Deformation on the Spatial Distribution of Lipids.  2. Flexible Surface Model for Lipid-Protein Interactions.  3. Non-Lamellar Phases of Membrane Lipids.  4. Lipid Shape Matters.  5. Continuum Modeling of Lipid Bilayers for Curvature Generation in Cellular Processes.  6. Lipid Membrane Remodeling by (Bio)Polymers and Nanoparticles: Mechanistic Insights From Multi-Scale Simulations.  7. Bicontinuous Inverted Cubic Phases as Tools for Studying the Mechanism of Membrane-Remodeling Proteins.  8. Recognition of Membrane Curvature by the Amphipathic Lipid Packing Sensor (ALPS) Motif.  9. The Bending Rigidity of the Red Blood Cell Cytoplasmic Membrane.  10. Shape and Function of the Golgi Apparatus.  11. Inositol Lipids Are Key to Shaping Membranes and to Define the Cellular Lipid Landscape.  12. Shaping Membranes in Cell-Cell Fusion.  13. Lipid Bilayers as Platforms for Understanding Biological Memory and the Development of Neuromorphic Computing.