Biological physics of the developing embryo发育胚胎的生物物理学
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作者: Gabor Forgacs 著
出 版 社:
出版时间: 2005-12-1字数:版次: 1页数: 337印刷时间: 2005/12/01开本: 16开印次: 1纸张: 铜版纸I S B N : 9780521783378包装: 精装内容简介
During development cells and tissues undergo changes in pattern and form that employ a wider range of physical mechanisms than at any other time in an organism's life. This book shows how physics can be used to analyze these biological phenomena. Written to be accessible to both biologists and physicists, major stages and components of the biological development process are introduced and then analyzed from the viewpoint of physics. The presentation of physical models requires no mathematics beyond basic calculus. Physical concepts introduced include diffusion, viscosity and elasticity, adhesion, dynamical systems, electrical potential, percolation, fractals, reaction-diffusion systems, and cellular automata. With full-color figures throughout, this comprehensive textbook teaches biophysics by application to developmental biology and is suitable for graduate and upper-undergraduate courses in physics and biology.
目录
Acknowledgments
introduction: Biology and physics
1 The cell: fundamental unit of developmental systems
The eukaryotic cell
Diffusion
Osmosis
Viscosity
Elasticity and viscoelasticity
Perspective
2 Cleavage and blastula formation
The cell biology of early cleavage and blastula
formation
Physical processes in the cleaving blastula
Physical models of cleavage and blastula formation
Perspective
3 Cell states: stability, oscillation, differentiation
Gene expression and biochemical state
How physics describes the behavior of a complex system
Oscillatory processes in early development
Multistability in cell-type diversification
Perspective
4 Cell adhesion, compartmentalization, and lumen formation
Adhesion and differential adhesion in development
The cell surface
Cell adhesion: specific and nonspecific aspects
The kinetics of cell adhesion
Differential adhesion of embryonic tissues
The physics of cell sorting
Perspective
5 Epithelial morphogenesis: gastrulation and neurulation
Physical properties of epithelia
Gastrulation
Convergence and extension
Neurulation
Perspective
Appendix: Linear stability analysis
6 Mesenchymal morphogenesis
Development of the neural crest
The extracellular matrix: networks and phase
transformations
Mesenchymal condensation
Perspective
7 Pattern formation: segmentation, axes, and asymmetry
Basic mechanisms of cell pattern fbrmation
Segmentation
Epithelial patterning by juxtacrine signaling
Mesodernr induction by diffusion gradients
Reaction-diffusion systems
Control of axis formation and left-right asymmetry
Perspective
8 Organogenesis
Development of the cardiovascular system
Fractals and their biological significance
Branching morphogenesis: development of the
salivary gland
Vertebrate limb development
Perspective
9 Fertilization: generating one living dynamical system from two
Development of the egg and sperm
Interaction of the egg and sperm
Propagation of calcium waves: spatiotemporal
encoding of postfertilization events
Surface contraction waves and the initiation of
development
Perspective
10 Evolution of developmental mechanisms
The physical origins of developmental systems
Analyzing an evolutionary transition using physical
concepts: segmentation in insects
The evolution of developmental robustness
Perspective
Glossary
References
Index
