Kinetic Modelling in Systems Biology

Name: Kinetic Modelling in Systems Biology
Brand: Taylor & Francis Inc
SKU: 9781584886679
Price: 235.6 EUR
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Oleg Demin | Igor Goryanin

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A-ketoglutarate Dehydrogenase

A01=Igor Goryanin

A01=Oleg Demin

Acyl CoA Ligase

ADP ATP

advanced kinetic modeling techniques

Aminoimidazole Carboxamide Ribonucleotide

ATP Consumption

Author_Igor Goryanin

Author_Oleg Demin

bc1

Bc1 Complex

biochemical pathway modeling

biotechnology applications

Branch Chain Amino Acid Biosynthesis

Catalytic Cycle

Category=PBW

Category=PBWH

Category=PHVN

Category=PS

Category=PSAX

Category=UYM

cellular network reconstruction

computational biology methods

dehydrogenase

EGFR Signalling

energy

enzyme kinetics analysis

eq_bestseller

eq_computing

eq_isMigrated=1

eq_isMigrated=2

eq_nobargain

eq_non-fiction

eq_science

ICL

Isocitrate Lyase

Knowledge Acquisition

matrix

membrane

Metabolic Control Analysis

Metabolic Networks

metabolism

Michaelis Constant

mitochondrial

mitochondrial metabolism

Ode Solver

Ode System

Ordinary Differential Equations

oxidative

phosphorylation

Ro Ne

SDH

Stoichiometric Matrix

succinate

Succinate Dehydrogenase

Systems Biology

Ta Te

Tabbed Page

Product details

ISBN 9781584886679
Weight: 666g
Dimensions: 156 x 234mm
Publication Date: 24 Oct 2008
Publisher: Taylor & Francis Inc
Publication City/Country: US
Product Form: Hardback

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With more and more interest in how components of biological systems interact, it is important to understand the various aspects of systems biology. Kinetic Modelling in Systems Biology focuses on one of the main pillars in the future development of systems biology. It explores both the methods and applications of kinetic modeling in this emerging field.

The book introduces the basic biological cellular network concepts in the context of cellular functioning, explains the main aspects of the Edinburgh Pathway Editor (EPE) software package, and discusses the process of constructing and verifying kinetic models. It presents the features, user interface, and examples of DBSolve as well as the principles of modeling individual enzymes and transporters. The authors describe how to construct kinetic models of intracellular systems on the basis of models of individual enzymes. They also illustrate how to apply the principles of kinetic modeling to collect all available information on the energy metabolism of whole organelles, construct a kinetic model, and predict the response of the organelle to changes in external conditions. The final chapter focuses on applications of kinetic modeling in biotechnology and biomedicine.

Encouraging readers to think about future challenges, this book will help them understand the kinetic modeling approach and how to apply it to solve real-life problems.

Downloadable Resources FeaturesExtensively used throughout the text for pathway visualization and illustration, the EPE software is available on the accompanying downloadable resources. The downloadable resources also include pathway diagrams in several graphical formats, DBSolve installation with examples, and all models from the book with dynamic visualization of simulation results, allowing readers to perform in silico simulations and use the models as templates for further applications.

Demin, Oleg; Goryanin, Igor

Kinetic Modelling in Systems Biology

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