- Inbunden (Hardback)
- Antal sidor
- Cambridge University Press
- 27 b, w illus 244 colour illus 45 tables
- 27 b/w illus. 244 colour illus. 45 tables
- 247 x 177 x 31 mm
- Antal komponenter
- 1270 g
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Constraint-based Reconstruction and Analysis
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Bernhard Palsson, Jeffrey A Hubbell, Robert Plonsey, Joseph D Bronzino
A volume in the new Principles and Applications in Engineering series, Tissue Engineering provides an overview of the major physiologic systems of current interest to biomedical engineers: cardiovascular, endocrine, nervous, visual, auditory, gast...
Cancer Cell Lines Part 1
John R W Masters, Bernhard Palsson
Continuous cell lines derived from human cancers are the most widely used resource in laboratory-based cancer research. The first 3 volumes of this series on Human Cell Culture are devoted to these cancer cell lines. The chapters in these first 3 ...
Recensioner i media
'One of the defining challenges of systems biology is to determine the structures and mechanisms by which complex networks of genes, proteins and metabolites control cell processes and molecular dynamics. Bernhard . Palsson is a leading pioneer in constructing and analyzing genome-scale models of such networks. Here Palsson offers students an insider's guided tour of the concepts, principles and techniques underlying this emerging field. The book is brilliantly laid out and offers professors well-structured, much-needed material for a graduate-level course in systems biology and network science.' James J. Collins, Massachusetts Institute of Technology
'This is a real tour de force. With enormous clarity, Bernhard . Palsson sets out the what, why and how of network and systems biology, and of the important role of genome-wide reconstructions - especially, to date, of metabolism - in realising it ... this is a masterful survey of the field by one of its leading practitioners. The development is nicely logical ... If you are interested in network biology at all, then this book is for you.' Douglas Kell, University of Manchester
'Systems Biology is an excellent resource for familiarizing researchers and students with the process of reconstructing genome-scale metabolic models and the types of data needed. A number of thorough studies are included that shed light on a range of queries that genome-scale models are well suited to answer. In addition to models, a number of algorithmic techniques are described for analyzing models and inferring organizational principles of metabolism or ways to re-engineer them. A great teaching and reference resource!' Costas Maranas, Pennsylvania State University
'... a very important and novel contribution to the systems biology literature. The field of systems biology is still in the phase of being defined as an independent field with a clear curriculum, but Palsson gives his very clear contributions to this. His definition of the paradigm of systems biology as components, networks, computer models and physiology is clearly explained and linked to educational modules, educational values and specific prerequisites. Thus, not only is he providing a fantastic novel textbook that enables teaching about network reconstruction and analysis, but he is also clearly defining this as the core of systems biology. I am therefore confident that the very well thought through structure of this textbook, where the reader is introduced to the different layers of network reconstruction and analysis, will be widely used for teaching systems biology worldwide.' Jens Nielsen, Chalmers University of Technology
'Bernhard . Palsson is the leading pioneer of genome-scale models in biology today, and this book provides a beautiful view into his unique and powerful brand of systems biology. What lies in these pages is a masterful synthesis of a cohesive mathematical framework for representing biological processes ...
Bloggat om Systems Biology
Bernhard O. Palsson is the Galletti Professor of Bioengineering and Professor of Pediatrics at the University of California, San Diego. For almost 30 years, his research has focused on the development of large-scale models of biological functions and their use to solve basic and applied problems in the life sciences. He has authored three previous textbooks.
Preface; 1. Introduction; Part I. Network Reconstruction: 2. Network reconstruction: the concept; 3. Network reconstruction: the process; 4. Metabolism in Escherichia coli; 5. Prokaryotes; 6. Eukaryotes; 7. Biochemical reaction networks; 8. Metastructures of genomes; Part II. Mathematical Properties of Reconstructed Networks: 9. The stoichiometric matrix; 10. Simple topological network properties; 11. Fundamental network properties; 12. Pathways; 13. Use of pathway vectors; 14. Randomized sampling; Part III. Determining the Phenotypic Potential of Reconstructed Networks: 15. Dual causality; 16. Functional states; 17. Constraints; 18. Optimization; 19. Determining capabilities; 20. Equivalent states; 21. Distal causation; Part IV. Basic and Applied Uses: 22. Environmental parameters; 23. Genetic parameters; 24. Analysis of omic data; 25. Model driven discovery; 26. Adaptive laboratory evolution; 27. Model driven design; Part V. Conceptual Foundations: 28. Teaching systems biology; 29. Epilogue; References; Index.