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Biologically Inspired Physics

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Cover of 'Biologically Inspired Physics'

Table of Contents

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    Book Overview
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    Chapter 1 Physics from Proteins
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    Chapter 2 Search and Recognition: Spin Glass Engineering as an Approach to Protein Structure Prediction
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    Chapter 3 Random Heteropolymers Folding
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    Chapter 4 DNA Topology
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    Chapter 5 Correlation between Structural Conformations at Different Levels in Hemoglobin Determined by XANES
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    Chapter 6 Selective Constraints over DNA Sequence
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    Chapter 7 The Physics of DNA Electrophoresis
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    Chapter 8 Recent Developments in the Physics of Fluctuating Membranes
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    Chapter 9 Vesicle Shapes and Shape Transformations: A Systematic Study
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    Chapter 10 Theoretical Analysis of Phospholipid Vesicles and Red Blood Cell Shapes and the Effect of External Electric Field
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    Chapter 11 Lipid Membrane Curvature Elasticity and Protein Function
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    Chapter 12 Observation of Surface Undulations on the Mesoscopic Length Scale by NMR
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    Chapter 13 A Possible Correlation between Fluctuations and Function of a Membrane Protein
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    Chapter 14 Microphase Separation in Bilayer Membranes
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    Chapter 15 Morphological Changes in Partially Polymerized Vesicles
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    Chapter 16 Unbinding Transitions of Polymers or Membranes in Two Dimensions
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    Chapter 17 Heat-Flux Driven Biomembrane Transport of Matter and Charge
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    Chapter 18 A Lattice Model for Steric Repulsive Interactions in Phospholipid Systems
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    Chapter 19 Dynein-Microtubule Interactions
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    Chapter 20 Cell Movement and Automatic Control
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    Chapter 21 Dielectric Study of the Hydration Process in Biological Materials
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    Chapter 22 Protonic Conductivity in Biomaterials in the Frame of Percolation Model
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    Chapter 23 Problems in Theoretical Immunology
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    Chapter 24 Specialization, Adaptation and Optimization in Dilute Random Attractor Neural Networks
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    Chapter 25 Computational Strategy in the Premotor Cortex of the Monkey: A Neural Network Model
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    Chapter 26 Mechanisms of Biological Pattern Formation
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    Chapter 27 Liquid Crystalline Order in Collagen Networks
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    Chapter 28 Physical Approaches to Biological Evolution
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    Chapter 29 Quantitative Analysis of Selection and Mutation in Self-Replicating RNA
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    Chapter 30 Disordered Systems and Evolutionary Models
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    Chapter 31 What Controls the Exocytosis of Neurotransmitter?
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    Chapter 32 Structure and Function of the Photosynthetic Apparatus
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    Chapter 33 Relaxational Processes in Frustrated Random Systems: A Spherical-Spin Model
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    Chapter 34 Crystallography of Composite Flowers: Mode Locking and Dynamical Maps
Attention for Chapter 19: Dynein-Microtubule Interactions
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Chapter title
Dynein-Microtubule Interactions
Chapter number 19
Book title
Biologically Inspired Physics
Published by
Springer, Boston, MA, January 1991
DOI 10.1007/978-1-4757-9483-0_19
Book ISBNs
978-1-4757-9485-4, 978-1-4757-9483-0
Authors

Nicolas J. Cordova, Ronald D. Vale, George F. Oster