- Title Pages
- Series Foreword
- Preface
- Acknowledgments
-
I History -
II The Modern Synthesis -
III Biology -
15 Introduction: Lamarckian Problematics in Biology -
16 Lamarck’s Dangerous Idea -
17 Behavior, Stress, and Evolution in Light of the Novosibirsk Selection Experiments -
18 The Role of Cellular Plasticity in the Evolution of Regulatory Novelty -
19 Evolutionary Implications of Individual Plasticity -
20 Epigenetic Variability in a Predator-Prey System -
21 Cellular Epigenetic Inheritance in the Twenty-First Century -
22 An Evolutionary Role for RNA-Mediated Epigenetic Variation? -
23 Maternal and Transgenerational Influences on Human Health -
24 Plants: Individuals or Epigenetic Cell Populations? -
25 Instantaneous Genetic and Epigenetic Alterations in the Wheat Genome Caused by Allopolyploidization -
26 Lamarckian Leaps in the Microbial World -
27 Symbionts as an Epigenetic Source of Heritable Variation -
IV Philosophy -
V Ramifications and Future Directions -
Appendix A: Mandelstam’s Poem “Lamarck” -
Appendix B: Mechanisms of Cell Heredity - Further Reading
- Glossary
- Contributors
- Index
Instantaneous Genetic and Epigenetic Alterations in the Wheat Genome Caused by Allopolyploidization
Instantaneous Genetic and Epigenetic Alterations in the Wheat Genome Caused by Allopolyploidization
- Chapter:
- (p.261) 25 Instantaneous Genetic and Epigenetic Alterations in the Wheat Genome Caused by Allopolyploidization
- Source:
- Transformations of Lamarckism
- Author(s):
Moshe Feldman
Avraham A. Levy
- Publisher:
- The MIT Press
Allopolyploidization is the hybridization between two species, followed by genome doubling. This chapter presents a study on wheat hybrids, demonstrating that allopolyploidization induces genome evolution by activating instantaneous radical genomic upheavals through the generation of genetic and epigenetic alterations.
Keywords: allopolyploidization, hybridization, genome doubling, genome evolution, genetic alterations, epigenetic alterations
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- Title Pages
- Series Foreword
- Preface
- Acknowledgments
-
I History -
II The Modern Synthesis -
III Biology -
15 Introduction: Lamarckian Problematics in Biology -
16 Lamarck’s Dangerous Idea -
17 Behavior, Stress, and Evolution in Light of the Novosibirsk Selection Experiments -
18 The Role of Cellular Plasticity in the Evolution of Regulatory Novelty -
19 Evolutionary Implications of Individual Plasticity -
20 Epigenetic Variability in a Predator-Prey System -
21 Cellular Epigenetic Inheritance in the Twenty-First Century -
22 An Evolutionary Role for RNA-Mediated Epigenetic Variation? -
23 Maternal and Transgenerational Influences on Human Health -
24 Plants: Individuals or Epigenetic Cell Populations? -
25 Instantaneous Genetic and Epigenetic Alterations in the Wheat Genome Caused by Allopolyploidization -
26 Lamarckian Leaps in the Microbial World -
27 Symbionts as an Epigenetic Source of Heritable Variation -
IV Philosophy -
V Ramifications and Future Directions -
Appendix A: Mandelstam’s Poem “Lamarck” -
Appendix B: Mechanisms of Cell Heredity - Further Reading
- Glossary
- Contributors
- Index