Michael R. Lynch (Professor and Director of The Biodesign Institute
Evolutionary Cell Biology
The Origins of Cellular Architecture
Michael R. Lynch (Professor and Director of The Biodesign Institute
Evolutionary Cell Biology
The Origins of Cellular Architecture
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Establishes the foundations of the emerging field of evolutionary cell biology, providing a deep and broad coverage of the literature, with many ideas synthesised and presented for the first time.
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Establishes the foundations of the emerging field of evolutionary cell biology, providing a deep and broad coverage of the literature, with many ideas synthesised and presented for the first time.
Produktdetails
- Produktdetails
- Verlag: Oxford University Press
- Seitenzahl: 704
- Erscheinungstermin: 29. Mai 2024
- Englisch
- Abmessung: 253mm x 203mm x 37mm
- Gewicht: 1720g
- ISBN-13: 9780192847287
- ISBN-10: 0192847287
- Artikelnr.: 68506104
- Verlag: Oxford University Press
- Seitenzahl: 704
- Erscheinungstermin: 29. Mai 2024
- Englisch
- Abmessung: 253mm x 203mm x 37mm
- Gewicht: 1720g
- ISBN-13: 9780192847287
- ISBN-10: 0192847287
- Artikelnr.: 68506104
Mike Lynch is Professor and Director of The Biodesign Institute, Arizona State University, USA. He was made a Fellow of the American Association for the Advancement of Science (1998), a Fellow of the American Academy of Arts and Sciences (2002), and a Member of the US National Academy of Sciences (2009).
Preface
Part I: Introduction
1: Evolutionary Cell Biology
2: The Origin of Cells
3: The Major Lines of Descent
Part II: The Genetic Mechanisms of Evolution
4: The Population-genetic Environment
5: Evolution as a Population-genetic Process
6: Evolution of Cellular Complexity
Part III: Basic Cellular Features
7: The Cellular Environment
8: Evolutionary Scaling Laws in Cell Biology
9: Cell Growth and Division
10: The Cell Life Cycle
11: Cellular Senescence
Part IV: Structural Evolution
12: The Protein World
13: Multimerization
14: Protein Management
15: Lipids and Membranes
16: Cytoskeleton, Cell Shape, and Motility
Part V: Energetics and Metabolism
17: The Costs of Cellular Features
18: Resource Acquisition and Homeostasis
19: Enzymes and Metabolic Pathways
Part VI: Information Processing
20: Intracellular Errors
21: Intracellular Communication: Transcription
22: Environmental Sensing and Extracellular Communication
Part VII: Organismal Complexity
23: Endosymbiosis
24: Origins of Organismal Complexity
Part I: Introduction
1: Evolutionary Cell Biology
2: The Origin of Cells
3: The Major Lines of Descent
Part II: The Genetic Mechanisms of Evolution
4: The Population-genetic Environment
5: Evolution as a Population-genetic Process
6: Evolution of Cellular Complexity
Part III: Basic Cellular Features
7: The Cellular Environment
8: Evolutionary Scaling Laws in Cell Biology
9: Cell Growth and Division
10: The Cell Life Cycle
11: Cellular Senescence
Part IV: Structural Evolution
12: The Protein World
13: Multimerization
14: Protein Management
15: Lipids and Membranes
16: Cytoskeleton, Cell Shape, and Motility
Part V: Energetics and Metabolism
17: The Costs of Cellular Features
18: Resource Acquisition and Homeostasis
19: Enzymes and Metabolic Pathways
Part VI: Information Processing
20: Intracellular Errors
21: Intracellular Communication: Transcription
22: Environmental Sensing and Extracellular Communication
Part VII: Organismal Complexity
23: Endosymbiosis
24: Origins of Organismal Complexity
Preface
Part I: Introduction
1: Evolutionary Cell Biology
2: The Origin of Cells
3: The Major Lines of Descent
Part II: The Genetic Mechanisms of Evolution
4: The Population-genetic Environment
5: Evolution as a Population-genetic Process
6: Evolution of Cellular Complexity
Part III: Basic Cellular Features
7: The Cellular Environment
8: Evolutionary Scaling Laws in Cell Biology
9: Cell Growth and Division
10: The Cell Life Cycle
11: Cellular Senescence
Part IV: Structural Evolution
12: The Protein World
13: Multimerization
14: Protein Management
15: Lipids and Membranes
16: Cytoskeleton, Cell Shape, and Motility
Part V: Energetics and Metabolism
17: The Costs of Cellular Features
18: Resource Acquisition and Homeostasis
19: Enzymes and Metabolic Pathways
Part VI: Information Processing
20: Intracellular Errors
21: Intracellular Communication: Transcription
22: Environmental Sensing and Extracellular Communication
Part VII: Organismal Complexity
23: Endosymbiosis
24: Origins of Organismal Complexity
Part I: Introduction
1: Evolutionary Cell Biology
2: The Origin of Cells
3: The Major Lines of Descent
Part II: The Genetic Mechanisms of Evolution
4: The Population-genetic Environment
5: Evolution as a Population-genetic Process
6: Evolution of Cellular Complexity
Part III: Basic Cellular Features
7: The Cellular Environment
8: Evolutionary Scaling Laws in Cell Biology
9: Cell Growth and Division
10: The Cell Life Cycle
11: Cellular Senescence
Part IV: Structural Evolution
12: The Protein World
13: Multimerization
14: Protein Management
15: Lipids and Membranes
16: Cytoskeleton, Cell Shape, and Motility
Part V: Energetics and Metabolism
17: The Costs of Cellular Features
18: Resource Acquisition and Homeostasis
19: Enzymes and Metabolic Pathways
Part VI: Information Processing
20: Intracellular Errors
21: Intracellular Communication: Transcription
22: Environmental Sensing and Extracellular Communication
Part VII: Organismal Complexity
23: Endosymbiosis
24: Origins of Organismal Complexity