Theoretical Physics for Biological Systems
Theoretical Physics for Biological Systems
Re, Angela; Lecca, Paola
Taylor & Francis Ltd
03/2021
146
Mole
Inglês
9780367780388
15 a 20 dias
294
Quantum Mechanics in Biology
General De?nitions
The Time-independent Schroedinger Equation
Time-dependent Schroedinger Equation
Transition Probability Per Unit of Time
Quantum Coherence and Entanglement
Quantum Interference
Quantum E?ects in Biology
Statistical Physics in Biology
Why Statistical Physics in Biology?
Markov Processes
The Chemical Master Equation
Chemical Master Equation and Curse of Dimensionality
Discrete Approach to Chemical Kinetics
Stochastic Simulation Algorithm
An Example of Real Enzymatic Reactions Simulated with Gillespie Algorithm
Graph Theory and Physics Meet Network Biology
Physics at the Birth of Network Biology
Mutual Information-Based Network Inference
Thermodynamics Applications in Biological Network Analysis
Electronic Physics Applications in Network Analysis
Assessment of Network Inference Methods and the Issue of Generation of Gold-Standard Data
Network Biology is Transformed by Physics
Applied Descriptors for Complexity and Centrality to Network Biology
Network Theory
Measures for Network Complexity and Centrality
Comparative Network Analysis
Applications
Perspectives
Systems Theory and Quantum Physics
Various Recapitulation Exercises
References
Quantum Mechanics in Biology
General De?nitions
The Time-independent Schroedinger Equation
Time-dependent Schroedinger Equation
Transition Probability Per Unit of Time
Quantum Coherence and Entanglement
Quantum Interference
Quantum E?ects in Biology
Statistical Physics in Biology
Why Statistical Physics in Biology?
Markov Processes
The Chemical Master Equation
Chemical Master Equation and Curse of Dimensionality
Discrete Approach to Chemical Kinetics
Stochastic Simulation Algorithm
An Example of Real Enzymatic Reactions Simulated with Gillespie Algorithm
Graph Theory and Physics Meet Network Biology
Physics at the Birth of Network Biology
Mutual Information-Based Network Inference
Thermodynamics Applications in Biological Network Analysis
Electronic Physics Applications in Network Analysis
Assessment of Network Inference Methods and the Issue of Generation of Gold-Standard Data
Network Biology is Transformed by Physics
Applied Descriptors for Complexity and Centrality to Network Biology
Network Theory
Measures for Network Complexity and Centrality
Comparative Network Analysis
Applications
Perspectives
Systems Theory and Quantum Physics
Various Recapitulation Exercises
References