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Quantitative Biology : From Molecular to Cellular Systems

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Free Energies, Landscapes, and Fitness in Evolution Dynamics, Robert H. AustinSystem Design Principles, Michael A. SavageauChance and Memory, Theodore J. Perkins, Andrea Y. Weiße, and Peter S. SwainInformation Theory and Adaptation, Ilya NemenmanQuantitative In Vitro Biochemistry, One Molecule at a Time, Jeffrey A. Hanson and Haw YangSmall-Angle Scattering, Cy M. Jeffries and Jill TrewhellaSubcellular Signaling Read more...

Abstract: Free Energies, Landscapes, and Fitness in Evolution Dynamics, Robert H. AustinSystem Design Principles, Michael A. SavageauChance and Memory, Theodore J. Perkins, Andrea Y. Weiße, and Peter S. SwainInformation Theory and Adaptation, Ilya NemenmanQuantitative In Vitro Biochemistry, One Molecule at a Time, Jeffrey A. Hanson and Haw YangSmall-Angle Scattering, Cy M. Jeffries and Jill TrewhellaSubcellular Signaling Dynamics, Jeffrey J. Saucerman and Jin ZhangSingle-Cell Behavior, Philippe CluzelModeling Genetic Parts for Synthetic Biology, Ying-Ja Chen, Kevin Clancy and Christopher A. VoigtModelin

Author(s): Wall, Michael E
Series: Chapman & Hall/CRC Mathematical and Computational Biology
Publisher: CRC Press
Year: 2012

Language: English
Pages: 396
City: Hoboken
Tags: Биологические дисциплины;Молекулярная биология;

Content: Front Cover
Dedication
Contents
Preface
Acknowledgments
The Editor
Contributors
1. Free Energies, Landscapes, and Fitness in Evolution Dynamics
2. System Design Principles
3. Chance and Memory
4. Information Theory and Adaptation
5. Quantitative In Vitro Biochemistry, One Molecule at a Time
6. Small-Angle Scattering
7. Subcellular Signaling Dynamics
8. Single-Cell Behavior
9. Modeling Genetic Parts for Synthetic Biology
10. Modeling Cellular Variability
11. PKA: Prototype for Dynamic Signaling in Time and Space