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A Systems Theoretic Approach to Systems and Synthetic Biology I: Models and System Characterizations
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Main description:

The complexity of biological systems has intrigued scientists from many disciplines and has given birth to the highly influential field of systems biology wherein a wide array of mathematical techniques, such as flux balance analysis, and technology platforms, such as next generation sequencing, is used to understand, elucidate, and predict the functions of complex biological systems.  More recently, the field of synthetic biology, i.e., de novo engineering of biological systems, has emerged. Scientists from various fields are focusing on how to render this engineering process more predictable, reliable, scalable, affordable, and easy. 

Systems and control theory is a branch of engineering and applied sciences that rigorously deals with the complexities and uncertainties of interconnected systems with the objective of characterising fundamental systemic properties such as stability, robustness, communication capacity, and other performance metrics. Systems and control theory also strives to offer concepts and methods that facilitate the design of systems with rigorous guarantees on these properties. Over the last 100 years, it has made stellar theoretical and technological contributions in diverse fields such as aerospace, telecommunication, storage, automotive, power systems, and others. Can it have, or evolve to have, a similar impact in biology? The chapters in this book demonstrate that, indeed, systems and control theoretic concepts and techniques can have a significant impact in systems and synthetic biology. 

Volume I provides a panoramic view that illustrates the potential of such mathematical methods in systems and synthetic biology.  Recent advances in systems and synthetic biology have clearly demonstrated the benefits of a rigorous and systematic approach rooted in the principles of systems and control theory - not only does it lead to exciting insights and discoveries but it also reduces the inordinately lengthy trial-and-error process of wet-lab experimentation, thereby facilitating significant savings in human and financial resources.  In Volume I, some of the leading researchers in the field of systems and synthetic biology demonstrate how systems and control theoretic concepts and techniques can be useful, or should evolve to be useful, in order to understand how biological systems function. 

As the eminent computer scientist Donald Knuth put it, "biology easily has 500 years of exciting problems to work on". This edited book presents but a small fraction of those for the benefit of (1) systems and control theorists interested in molecular and cellular biology and (2) biologists interested in rigorous modelling, analysis and control of biological systems.


Feature:

New rigorous methods to obtain better predictive models of biological networks

New results on the limits of performance in biological networks

Includes novel applications of in vitro synthetic biology in nanotechnology


Back cover:

The complexity of biological systems has intrigued scientists from many disciplines and has given birth to the highly influential field of systems biology wherein a wide array of mathematical techniques, such as flux balance analysis, and technology platforms, such as next generation sequencing, is used to understand, elucidate, and predict the functions of complex biological systems. More recently, the field of synthetic biology, i.e., de novo engineering of biological systems, has emerged. Scientists from various fields are focusing on how to render this engineering process more predictable, reliable, scalable, affordable, and easy.

Systems and control theory is a branch of engineering and applied sciences that rigorously deals with the complexities and uncertainties of interconnected systems with the objective of characterising fundamental systemic properties such as stability, robustness, communication capacity, and other performance metrics. Systems and control theory also strives to offer concepts and methods that facilitate the design of systems with rigorous guarantees on these properties. Over the last 100 years, it has made stellar theoretical and technological contributions in diverse fields such as aerospace, telecommunication, storage, automotive, power systems, and others. Can it have, or evolve to have, a similar impact in biology? The chapters in this book demonstrate that, indeed, systems and control theoretic concepts and techniques can have a significant impact in systems and synthetic biology.

Volume I provides a panoramic view that illustrates the potential of such mathematical methods in systems and synthetic biology. Recent advances in systems and synthetic biology have clearly demonstrated the benefits of a rigorous and systematic approach rooted in the principles of systems and control theory - not only does it lead to exciting insights and discoveries but it also reduces the inordinately lengthy trial-and-error process of wet-lab experimentation, thereby facilitating significant savings in human and financial resources. In Volume I, some of the leading researchers in the field of systems and synthetic biology demonstrate how systems and control theoretic concepts and techniques can be useful, or should evolve to be useful, in order to understand how biological systems function.

As the eminent computer scientist Donald Knuth put it, "biology easily has 500 years of exciting problems to work on". This edited book presents but a small fraction of those for the benefit of (1) systems and control theorists interested in molecular and cellular biology and (2) biologists interested in rigorous modelling, analysis and control of biological systems.


Contents:

Preface

1 On the Mathematics of the Law of Mass Action Authors
Leonard Adleman, Manoj Gopalkrishnan, Ming-Deh Huang, Pablo Moisset, and Dustin Reishus

2 Structural Analysis of Biological Networks Authors
Franco Blanchini and Elisa Franco

3 Guaranteeing Spatial Uniformity in Reaction-Diffusion Systems Using WeightedL2-norm Contractions
Zahra Aminzare, Yusef Shafi, Murat Arcak, and Eduardo D. Sontag

4 Robust Tunable Transcriptional Oscillators using Dynamic Inversion
Vishwesh V.  Kulkarni, Aditya A. Paranjape, and Soon-Jo Chung

5 Towards the Modular Decomposition of the Metabolic Network
Anne Goelzer and Vincent Fromion

6 An Optimal Control Approach to Seizure Detection in Drug-Resistant Epilepsy
Sabato Santaniello, Samuel P. Burns, Christophe C. Jouny, William S. Anderson,Gregory K. Bergey, and Sridevi V. Sarma

7 Model Reduction of Genetic-Metabolic Networks via Time-Scale Separation
Juan Kuntz, Diego Oyarz ́un, and Guy-Bart Stan

8 Networks, Metrics, and Systems Biology
Soumen Roy

9 Understanding and Predicting Biological Networks Using Linear System Identification
Alberto Carignano, Ye Yuan, Neil Dalchau, Alex A. R. Webb, and Jorge Gonc ̧alves

10 Model Checking in Biology
Jasmin Fisher and Nir Piterman

11 Computational Design of Informative Experiments in Systems Biology
Alberto Giovanni Busetto, Mikael Sunn ̊aker and Joachim M. Buhrmann
12 Predicting Phenotype from Genotype through Reconstruction and Integrative Modeling of Metabolic and Regulatory Networks
Sriram Chandrasekaran

Index


PRODUCT DETAILS

ISBN-13: 9789401790406
Publisher: Springer (Springer Netherlands)
Publication date: July, 2014
Pages: 300
Weight: 726g
Availability: Not available (reason unspecified)
Subcategories: General Issues

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