Literature
From bio-physics-wiki
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*Zoltan Szallasi, Jörg Stelling, Vipul Periwal - System Modeling in Cellular Biology [http://amzn.to/30TjJa1 (Link)] | *Zoltan Szallasi, Jörg Stelling, Vipul Periwal - System Modeling in Cellular Biology [http://amzn.to/30TjJa1 (Link)] | ||
− | *Bernhard Ø. Palsson - Systems Biology: Simulation of Dynamic Network States [ | + | *Bernhard Ø. Palsson - Systems Biology: Simulation of Dynamic Network States [http://amzn.to/3hKQI7c (Link)] |
− | *Bernhard Ø. Palsson - Systems Biology: Properties of Reconstructed Networks [ | + | *Bernhard Ø. Palsson - Systems Biology: Properties of Reconstructed Networks [http://amzn.to/2CZ8tRF (Link)] |
− | *Michael A. Savageau - Biochemical Systems Analysis: A Study of Function and Design in Molecular Biology [ | + | *Michael A. Savageau - Biochemical Systems Analysis: A Study of Function and Design in Molecular Biology [http://amzn.to/2DfUiY0 (Link)] |
*Philip W. Kuchel $\&$ Peter J. Mulquiney - Modelling Metabolism with Mathematica: Analysis of Human Erythrocyte[http://books.google.at/books?id=ILEpWpKvbM8C&dq=Modelling+Metabolism+with+Mathematica:+Analysis+of+Human+Erythrocyte&hl=de&sa=X&ei=8ATJUJ30DYzJswb46YDYAg&ved=0CDQQ6AEwAA] | *Philip W. Kuchel $\&$ Peter J. Mulquiney - Modelling Metabolism with Mathematica: Analysis of Human Erythrocyte[http://books.google.at/books?id=ILEpWpKvbM8C&dq=Modelling+Metabolism+with+Mathematica:+Analysis+of+Human+Erythrocyte&hl=de&sa=X&ei=8ATJUJ30DYzJswb46YDYAg&ved=0CDQQ6AEwAA] |
Revision as of 21:03, 28 July 2020
Contents |
Systems Biology
- Uri Alon - An Introduction to Systems Biology: Design Principles of Biological Circuits (Link)
- Zoltan Szallasi, Jörg Stelling, Vipul Periwal - System Modeling in Cellular Biology (Link)
- Bernhard Ø. Palsson - Systems Biology: Simulation of Dynamic Network States (Link)
- Bernhard Ø. Palsson - Systems Biology: Properties of Reconstructed Networks (Link)
- Michael A. Savageau - Biochemical Systems Analysis: A Study of Function and Design in Molecular Biology (Link)
- Philip W. Kuchel $\&$ Peter J. Mulquiney - Modelling Metabolism with Mathematica: Analysis of Human Erythrocyte[1]
- Robert Rosen - Dynamical System Theory in Biology [2]
- Albert Goldbeter - Biochemical Oscillations and Cellular Rhythems: The molecular bases of periodic and chaotic behaviour
- Eduardo Sonntag - Mathematical Systems Biology Lecture Notes
- Gregory N. Stephanopoulos $\&$ Aristos A. Aristidou - Metabolic Engineering [3]
Biological Physics - Chemical Physics
- Rob Phillips - Physical Biology of the Cell [4]
- Nicolis $\&$ Prigogine - Self-Organization in Nonequilibrium Systems: From Dissipative Structures to Order through Fluctuations
- Hans V. Westerhoff $\&$ Karel Van Dam - Thermodynamics and control of biological free-engergy transduction
- Martin Feinberg - Feinberg Lectures on Chemical Reaction Networks[5]
- Donald T. Haynie - Biological Thermodynamics
Complex Systems
- Albert-Laszlo Barabasi - Network Science [6]
- Mark Newman - The Structure and Dynamics of Networks
Physics
- Frederik Reif - Statistische Physik und Theorie der Wärme [7]
- Wolfgang Gopel - Statistische Thermodynamik [8]
Mathematics
- Riley, Hobson and Bence - Mathematical Methods for Physics and Engineering
- D.W Jordan and P. Smith - Nonlinear Ordinary Differential Equations: An Introduction for Scientists and Engineers
- Steven H. Strogatz - Nonlinear Dynamics and Chaos: With Applications to Physics, Biology, Chemistry and Engineering [9]
- Courant Hilbert- Methods Of Mathematical Physics Vol. 1 and 2
Control Systems
- Katsuhiko Ogata - Modern Control Engineering
- Karl Johan Aström and Richard M. Murray - Feedback Systems: An Introduction for Scientists and Engineers (Caltech)
- John H. Milsum - Biological Control Systems Analysis
Statistics
- P. McCullagh and J.A. Nelder - Generalized Linear Models (second edition)
- Raymond H. Myers, Douglas C. Montgomery, G. Geoffry Vining - Generalized Linear Models: With Applications in Engineering and the Sciences