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E-book
Nonlinear Physics of DNA, 2nd EditionISBN: 978-3-527-60473-9
E-book
205 pages
January 2006
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CHAPTER 1 DNA STRUCTURE
1.1 Chemical composition and primary structure
1.2 Spatial geometry and secondary structure
1.3 Forces stabilizing secondary structure
1.4 Polymorphism
1.5 Tertiary structure
1.6 Approximate models of DNA structure
1.7 Experimental methods of studying DNA structure
CHAPTER 2 DNA DYNAMICS
2.1 General picture of the internal mobility
2.2 Twisting and bending motions
2.3 Dynamics of bases
2.4 Dynamics of sugar-phosphate backbone
2.5 Conformational transitions
2.6 Motions associated with local strand separation
2.7 Approximate models of DNA dynamics
2.8 Experimental methods of studying DNA dynamics
CHAPTER 3 DNA FUNCTIONING
3.1 Physical aspects of DNA functioning
3.2 Intercalation
3.3 DNA-protein recognition
3.4 Gene expression
3.5 Regulation of gene expression
3.6 Replication
CHAPTER 4 LINEAR THEORY OF DNA
4.1 The main mathematical models
4.2 Statistics of linear excitations
4.3 Scattering problem
4.4 Linear theory and experiment
CHAPTER 5 NONLINEAR THEORY OF DNA: IDEAL DYNAMICAL MODELS
5.1 Nonlinear mathematical modeling: general principles and restrictions
5.2 Nonlinear rod-like models
5.3 Nonlinear double rod-like models
5.4 Nonlinear models of higher levels
CHAPTER 6 NONLINEAR THEORY OF DNA: NON-IDEAL MODELS
6.1 Effects of environment
6.2 Effects of inhomogeneity
1.1 Chemical composition and primary structure
1.2 Spatial geometry and secondary structure
1.3 Forces stabilizing secondary structure
1.4 Polymorphism
1.5 Tertiary structure
1.6 Approximate models of DNA structure
1.7 Experimental methods of studying DNA structure
CHAPTER 2 DNA DYNAMICS
2.1 General picture of the internal mobility
2.2 Twisting and bending motions
2.3 Dynamics of bases
2.4 Dynamics of sugar-phosphate backbone
2.5 Conformational transitions
2.6 Motions associated with local strand separation
2.7 Approximate models of DNA dynamics
2.8 Experimental methods of studying DNA dynamics
CHAPTER 3 DNA FUNCTIONING
3.1 Physical aspects of DNA functioning
3.2 Intercalation
3.3 DNA-protein recognition
3.4 Gene expression
3.5 Regulation of gene expression
3.6 Replication
CHAPTER 4 LINEAR THEORY OF DNA
4.1 The main mathematical models
4.2 Statistics of linear excitations
4.3 Scattering problem
4.4 Linear theory and experiment
CHAPTER 5 NONLINEAR THEORY OF DNA: IDEAL DYNAMICAL MODELS
5.1 Nonlinear mathematical modeling: general principles and restrictions
5.2 Nonlinear rod-like models
5.3 Nonlinear double rod-like models
5.4 Nonlinear models of higher levels
CHAPTER 6 NONLINEAR THEORY OF DNA: NON-IDEAL MODELS
6.1 Effects of environment
6.2 Effects of inhomogeneity
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