Secondary endosymbioses /

Detalles Bibliográficos
Clasificación:Libro Electrónico
Otros Autores: Hirakawa, Yoshihisa (Editor )
Formato: Electrónico eBook
Idioma:Inglés
Publicado: London, England : Academic Press, 2017.
Edición:First edition.
Colección:Advances in botanical research ; Volume 84.
Temas:
Genomes.
Endosymbiosis.
G�enomes.
Endosymbiose.
NATURE > Ecology.
NATURE > Ecosystems & Habitats > Wilderness.
SCIENCE > Environmental Science.
SCIENCE > Life Sciences > Ecology.
Endosymbiosis
Genomes
Acceso en línea:Texto completo
Tabla de Contenidos:
  • Front Cover
  • Secondary Endosymbioses
  • Copyright
  • Contents
  • Contributors
  • Preface
  • Chapter One: The Convoluted Evolution of Eukaryotes With Complex Plastids
  • 1. Introduction
  • 2. Diversity of Plastids
  • 2.1. Primary Plastids
  • 2.2. Complex Plastids
  • 3. Plastid vs Host Data: Divergent View on the Tree of Eukaryotes
  • 3.1. Plastid Evidence Support a Single Origin
  • 3.2. Host Lineages Are Not Monophyletic
  • 4. How Often Have Red Algal-Derived Plastids Spread?
  • 4.1. The Chromalveolate Hypothesis
  • 4.2. Plastid Loss and Plastid Dependency
  • 4.3. Serial Eukaryote-to-Eukaryote Endosymbioses5. Complex Algae and Genome Mosaicism
  • 6. Concluding Remarks
  • Acknowledgements
  • References
  • Chapter Two: Let There Be Light: A Contemporary Primer on Primary Plastid Endosymbiosis
  • 1. Introduction
  • 2. The ABCs of Primary Endosymbiosis
  • 3. The Polychromatic Puzzle Pieces of Plastid Primary Endosymbiosis
  • 4. Paulinella chromatophora: A Primary Plastid Revival Tour
  • 5. Lost in the Light: Unexpected Insights From Nonphotosynthetic Primary Plastids
  • 6. Three Decades of Primary Plastid Genomics
  • 7. Concluding Thoughts: Too Much Sequencing, Not Enough Experimenting?Acknowledgements
  • References
  • Chapter Three: Secondary Plastids of Stramenopiles
  • 1. Introduction
  • 1.1. Diversity of Stramenopiles
  • 2. Endosymbiotic Origins
  • 2.1. Endosymbiotic Histories of Stramenopiles
  • 2.2. Chimeric Origins of Stramenopile Plastids
  • 3. Structure of Stramenopile Plastids
  • 3.1. Stramenopile Plastid Organisation
  • 3.2. Stramenopile Plastid Genomes
  • 4. Biochemistry and Physiology
  • 4.1. Plastid Biogenesis
  • 4.2. Photosynthesis and Photoprotection
  • 4.3. Central Carbon Metabolism4.4. Primary and Secondary Metabolism Pathways
  • 4.5. Nutrient Acquisition
  • 4.6. Plastid-Mitochondria Interactions
  • 5. Evolutionary Dynamics
  • 5.1. Loss of Photosynthesis
  • 5.2. Transient Symbioses and Kleptoplasty
  • 5.3. Tertiary and Higher Endosymbioses
  • 6. Concluding Remarks
  • Acknowledgements
  • References
  • Chapter Four: Plastid Complexity in Dinoflagellates: A Picture of Gains, Losses, Replacements and Revisions
  • 1. Introduction
  • 2. Unusual Features of Dinoflagellates That Might Impact Their Endosymbionts
  • 3. The Peridinin Plastid4. Plastid Reduction and Loss
  • 5. Plastid Replacement
  • 5.1. Complex Plastids Derived From Haptophytes
  • 5.2. Complex Plastids Derived From Green Algae
  • 5.3. Complex Plastid Endosymbionts Derived From Diatoms
  • 5.4. Kleptoplasts
  • 6. Evolution of Plastids in Dinoflagellates: A Case to Revise Contemporary Notions
  • 6.1. Scenario 1: A Common Plastid Was Gained Before the Divergence of Myzozoans
  • 6.1.1. Rationale
  • 6.1.2. Caveats

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