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This book examines both the origin of body plans in particular and the evolution of animal development in general.
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This book examines both the origin of body plans in particular and the evolution of animal development in general.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 360
- Erscheinungstermin: 20. Dezember 2004
- Englisch
- Abmessung: 246mm x 189mm x 19mm
- Gewicht: 696g
- ISBN-13: 9780521779289
- ISBN-10: 0521779286
- Artikelnr.: 21788517
- Verlag: Cambridge University Press
- Seitenzahl: 360
- Erscheinungstermin: 20. Dezember 2004
- Englisch
- Abmessung: 246mm x 189mm x 19mm
- Gewicht: 696g
- ISBN-13: 9780521779289
- ISBN-10: 0521779286
- Artikelnr.: 21788517
Preface
Acknowledgements
Part I. Introduction: 1.1 A developmental approach to an evolutionary problem
1.2 The early history of the animal kingdom
1.3 Alternative strategies
1.4 Creation versus destruction
1.5 Systematics and the concept of natural classification
1.6 Micromutation versus macromutation
1.7 Developing organisms as inverted cones
Part II. What is a Body Plan?: 2.1 Body plans and taxonomic levels
2.2 Body plans, cladograms and homology
2.3 Body plans and embryology
2.4 Body plans, genes and mutations
2.5 Body plans, adaptation and environments
Part III. Patterns of Body Plan Origins: 3.1 Strategy
3.2 Patterns of metazoan inter-relationships
3.3 Early fossils: from cladograms to trees
3.4 Bringing back morphology
3.5 Paleoecology and possible adaptive scenarios
Part IV. Evolutionary Developmental Biology: 4.1 From pattern to mechanism
4.2 The aims of Evolutionary Developmental Biology
4.3 A brief history
4.4 Is there a theory of development?
Part V. Developmental Mechanisms: Cells and Signals: 5.1 Strategy
5.2 Cellular processes and architecture
5.3 Short-range signals: cell-cell contacts
5.4 Mid-range signals and the nature of 'morphogens'
5.5 Long-range signals and pan-organismic co-ordination
5.6 Patterns of interconnection: developmental programmes
Part VI. Developmental Mechanisms: Genes: 6.1 Introduction
6.2 Overview of the genetics of Drosophila body axes
6.3 The Antennapedia and Bithorax complexes
6.4 The hedgehog gene and limb development
6.5 Developmental programmes and an evolutionary message
Part VII. Comparative Developmental Genetics: 7.1 From development to evolution
7.2 Phylogeny of Hox genes
7.3 Dorso-ventral polarity in arthropods and chordates
7.4 Limb formation, hedgehog, and the nature of homology
7.5 Phylogeny of cadherin genes
7.6 Emergent evolutionary messages
Part VIII. Gene Duplication and Mutation: 8.1 Introduction
8.2 The creation of new genes
8.3 Mutation: the classical approach
8.4 Mutation: a developmental approach
8.5 Mutation and the evolution of development
Part IX. The Spread of Variant Ontogenies in Populations: 9.1 Introduction
9.2 Population genetic models of directional selection
9.3 Internal selection
9.4 The origin of body plans: a population perspective
9.5 Types of genetic change
9.6 Drift, drive and directed mutation
Part X. Creation Versus Destruction: 10.1 A fourth 'eternal metaphor'?
10.2 Mutationists v. selectionists: a protracted debate
10.3 The structure of morphospace
10.4 Creation and destruction
Part XI. Ontogeny and Phylogeny Re-Visited: 11.1 Mapping the two hierarchies
11.2 From two hierarchies to six
11.3 An important general pattern
11.4 Larval forms and complex life histories
11.5 Phenotypic complexity and evolutionary 'explosions'
Part XII. Prospect: Expanding the Synthesis: 12.1 Neither boredom nor heresy
12.2 Completing the evolutionary circle
12.3 The main themes of Evolutionary Developmental Biology
12.4 Paths into the future
References
Index.
Acknowledgements
Part I. Introduction: 1.1 A developmental approach to an evolutionary problem
1.2 The early history of the animal kingdom
1.3 Alternative strategies
1.4 Creation versus destruction
1.5 Systematics and the concept of natural classification
1.6 Micromutation versus macromutation
1.7 Developing organisms as inverted cones
Part II. What is a Body Plan?: 2.1 Body plans and taxonomic levels
2.2 Body plans, cladograms and homology
2.3 Body plans and embryology
2.4 Body plans, genes and mutations
2.5 Body plans, adaptation and environments
Part III. Patterns of Body Plan Origins: 3.1 Strategy
3.2 Patterns of metazoan inter-relationships
3.3 Early fossils: from cladograms to trees
3.4 Bringing back morphology
3.5 Paleoecology and possible adaptive scenarios
Part IV. Evolutionary Developmental Biology: 4.1 From pattern to mechanism
4.2 The aims of Evolutionary Developmental Biology
4.3 A brief history
4.4 Is there a theory of development?
Part V. Developmental Mechanisms: Cells and Signals: 5.1 Strategy
5.2 Cellular processes and architecture
5.3 Short-range signals: cell-cell contacts
5.4 Mid-range signals and the nature of 'morphogens'
5.5 Long-range signals and pan-organismic co-ordination
5.6 Patterns of interconnection: developmental programmes
Part VI. Developmental Mechanisms: Genes: 6.1 Introduction
6.2 Overview of the genetics of Drosophila body axes
6.3 The Antennapedia and Bithorax complexes
6.4 The hedgehog gene and limb development
6.5 Developmental programmes and an evolutionary message
Part VII. Comparative Developmental Genetics: 7.1 From development to evolution
7.2 Phylogeny of Hox genes
7.3 Dorso-ventral polarity in arthropods and chordates
7.4 Limb formation, hedgehog, and the nature of homology
7.5 Phylogeny of cadherin genes
7.6 Emergent evolutionary messages
Part VIII. Gene Duplication and Mutation: 8.1 Introduction
8.2 The creation of new genes
8.3 Mutation: the classical approach
8.4 Mutation: a developmental approach
8.5 Mutation and the evolution of development
Part IX. The Spread of Variant Ontogenies in Populations: 9.1 Introduction
9.2 Population genetic models of directional selection
9.3 Internal selection
9.4 The origin of body plans: a population perspective
9.5 Types of genetic change
9.6 Drift, drive and directed mutation
Part X. Creation Versus Destruction: 10.1 A fourth 'eternal metaphor'?
10.2 Mutationists v. selectionists: a protracted debate
10.3 The structure of morphospace
10.4 Creation and destruction
Part XI. Ontogeny and Phylogeny Re-Visited: 11.1 Mapping the two hierarchies
11.2 From two hierarchies to six
11.3 An important general pattern
11.4 Larval forms and complex life histories
11.5 Phenotypic complexity and evolutionary 'explosions'
Part XII. Prospect: Expanding the Synthesis: 12.1 Neither boredom nor heresy
12.2 Completing the evolutionary circle
12.3 The main themes of Evolutionary Developmental Biology
12.4 Paths into the future
References
Index.
Preface
Acknowledgements
Part I. Introduction: 1.1 A developmental approach to an evolutionary problem
1.2 The early history of the animal kingdom
1.3 Alternative strategies
1.4 Creation versus destruction
1.5 Systematics and the concept of natural classification
1.6 Micromutation versus macromutation
1.7 Developing organisms as inverted cones
Part II. What is a Body Plan?: 2.1 Body plans and taxonomic levels
2.2 Body plans, cladograms and homology
2.3 Body plans and embryology
2.4 Body plans, genes and mutations
2.5 Body plans, adaptation and environments
Part III. Patterns of Body Plan Origins: 3.1 Strategy
3.2 Patterns of metazoan inter-relationships
3.3 Early fossils: from cladograms to trees
3.4 Bringing back morphology
3.5 Paleoecology and possible adaptive scenarios
Part IV. Evolutionary Developmental Biology: 4.1 From pattern to mechanism
4.2 The aims of Evolutionary Developmental Biology
4.3 A brief history
4.4 Is there a theory of development?
Part V. Developmental Mechanisms: Cells and Signals: 5.1 Strategy
5.2 Cellular processes and architecture
5.3 Short-range signals: cell-cell contacts
5.4 Mid-range signals and the nature of 'morphogens'
5.5 Long-range signals and pan-organismic co-ordination
5.6 Patterns of interconnection: developmental programmes
Part VI. Developmental Mechanisms: Genes: 6.1 Introduction
6.2 Overview of the genetics of Drosophila body axes
6.3 The Antennapedia and Bithorax complexes
6.4 The hedgehog gene and limb development
6.5 Developmental programmes and an evolutionary message
Part VII. Comparative Developmental Genetics: 7.1 From development to evolution
7.2 Phylogeny of Hox genes
7.3 Dorso-ventral polarity in arthropods and chordates
7.4 Limb formation, hedgehog, and the nature of homology
7.5 Phylogeny of cadherin genes
7.6 Emergent evolutionary messages
Part VIII. Gene Duplication and Mutation: 8.1 Introduction
8.2 The creation of new genes
8.3 Mutation: the classical approach
8.4 Mutation: a developmental approach
8.5 Mutation and the evolution of development
Part IX. The Spread of Variant Ontogenies in Populations: 9.1 Introduction
9.2 Population genetic models of directional selection
9.3 Internal selection
9.4 The origin of body plans: a population perspective
9.5 Types of genetic change
9.6 Drift, drive and directed mutation
Part X. Creation Versus Destruction: 10.1 A fourth 'eternal metaphor'?
10.2 Mutationists v. selectionists: a protracted debate
10.3 The structure of morphospace
10.4 Creation and destruction
Part XI. Ontogeny and Phylogeny Re-Visited: 11.1 Mapping the two hierarchies
11.2 From two hierarchies to six
11.3 An important general pattern
11.4 Larval forms and complex life histories
11.5 Phenotypic complexity and evolutionary 'explosions'
Part XII. Prospect: Expanding the Synthesis: 12.1 Neither boredom nor heresy
12.2 Completing the evolutionary circle
12.3 The main themes of Evolutionary Developmental Biology
12.4 Paths into the future
References
Index.
Acknowledgements
Part I. Introduction: 1.1 A developmental approach to an evolutionary problem
1.2 The early history of the animal kingdom
1.3 Alternative strategies
1.4 Creation versus destruction
1.5 Systematics and the concept of natural classification
1.6 Micromutation versus macromutation
1.7 Developing organisms as inverted cones
Part II. What is a Body Plan?: 2.1 Body plans and taxonomic levels
2.2 Body plans, cladograms and homology
2.3 Body plans and embryology
2.4 Body plans, genes and mutations
2.5 Body plans, adaptation and environments
Part III. Patterns of Body Plan Origins: 3.1 Strategy
3.2 Patterns of metazoan inter-relationships
3.3 Early fossils: from cladograms to trees
3.4 Bringing back morphology
3.5 Paleoecology and possible adaptive scenarios
Part IV. Evolutionary Developmental Biology: 4.1 From pattern to mechanism
4.2 The aims of Evolutionary Developmental Biology
4.3 A brief history
4.4 Is there a theory of development?
Part V. Developmental Mechanisms: Cells and Signals: 5.1 Strategy
5.2 Cellular processes and architecture
5.3 Short-range signals: cell-cell contacts
5.4 Mid-range signals and the nature of 'morphogens'
5.5 Long-range signals and pan-organismic co-ordination
5.6 Patterns of interconnection: developmental programmes
Part VI. Developmental Mechanisms: Genes: 6.1 Introduction
6.2 Overview of the genetics of Drosophila body axes
6.3 The Antennapedia and Bithorax complexes
6.4 The hedgehog gene and limb development
6.5 Developmental programmes and an evolutionary message
Part VII. Comparative Developmental Genetics: 7.1 From development to evolution
7.2 Phylogeny of Hox genes
7.3 Dorso-ventral polarity in arthropods and chordates
7.4 Limb formation, hedgehog, and the nature of homology
7.5 Phylogeny of cadherin genes
7.6 Emergent evolutionary messages
Part VIII. Gene Duplication and Mutation: 8.1 Introduction
8.2 The creation of new genes
8.3 Mutation: the classical approach
8.4 Mutation: a developmental approach
8.5 Mutation and the evolution of development
Part IX. The Spread of Variant Ontogenies in Populations: 9.1 Introduction
9.2 Population genetic models of directional selection
9.3 Internal selection
9.4 The origin of body plans: a population perspective
9.5 Types of genetic change
9.6 Drift, drive and directed mutation
Part X. Creation Versus Destruction: 10.1 A fourth 'eternal metaphor'?
10.2 Mutationists v. selectionists: a protracted debate
10.3 The structure of morphospace
10.4 Creation and destruction
Part XI. Ontogeny and Phylogeny Re-Visited: 11.1 Mapping the two hierarchies
11.2 From two hierarchies to six
11.3 An important general pattern
11.4 Larval forms and complex life histories
11.5 Phenotypic complexity and evolutionary 'explosions'
Part XII. Prospect: Expanding the Synthesis: 12.1 Neither boredom nor heresy
12.2 Completing the evolutionary circle
12.3 The main themes of Evolutionary Developmental Biology
12.4 Paths into the future
References
Index.