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Introduction to Modeling Biological Cellular Control Systems

This textbook contains the essential knowledge in modeling, simulation, analysis, and applications in dealing with biological cellular control systems. In particular, the book shows how to use the law of mass balance and the law of mass action to derive an enzyme kinetic model - the Michaelis-Menten...

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Bibliographic Details
Main Author: Liu, Weijiu
Format: eBook
Language:English
Published: Milano Springer Milan 2012, 2012
Edition:1st ed. 2012
Series:MS&A, Modeling, Simulation and Applications
Subjects:
Cell Biology
Chemometrics
Bioinformatics
Computational And Systems Biology
Mathematical And Computational Biology
Cytology
Control Theory
Systems Theory, Control
Biomathematics
System Theory
Mathematical Applications In Chemistry
Differential Equations
Online Access:
Collection: Springer eBooks 2005- - Collection details see MPG.ReNa
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505 0 |a Enzyme Kinetics -- Preliminary Systems Theory -- Control of Blood Glucose -- Control of Calcium in Yeast Cells -- Kinetics of Ion Pumps and Channels -- Store-Operated Calcium Entry -- Control of Mitochondrial Calcium -- Control of Phosphoinositide Synthesis -- PreliminaryMATLAB. 
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653 |a Chemometrics 
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653 |a Computational and Systems Biology 
653 |a Mathematical and Computational Biology 
653 |a Cytology 
653 |a Control theory 
653 |a Systems Theory, Control 
653 |a Biomathematics 
653 |a System theory 
653 |a Mathematical Applications in Chemistry 
653 |a Differential Equations 
653 |a Differential equations 
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520 |a This textbook contains the essential knowledge in modeling, simulation, analysis, and applications in dealing with biological cellular control systems. In particular, the book shows how to use the law of mass balance and the law of mass action to derive an enzyme kinetic model - the Michaelis-Menten function or the Hill function, how to use a current-voltage relation, Nernst potential equilibrium equation, and Hodgkin and Huxley's models to model an ionic channel or pump, and how to use the law of mass balance to integrate these enzyme or channel models into a complete feedback control system. The book also illustrates how to use data to estimate parameters in a model, how to use MATLAB to solve a model numerically, how to do computer simulations, and how to provide model predictions. Furthermore, the book demonstrates how to conduct a stability and sensitivity analysis on a model 

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