Löffelhardt, Wolfgang
Endosymbiosis
Part I. The Heterotrophic Eukaryotes
1. Mitochondria and the Origin of Eukaryotes
B. Franz Lang
2. Modifications and Innovations in the Evolution of Mitochondrial Protein Import Pathways
Victoria Hewitt, Trevor Lithgow, Ross F. Waller
Part II. Autotrophy as the Driving Force for Endosymbiosis: Primary Endosymbiosis
3. The Single Primary Endosymbiotic Event
Wolfgang Löffelhardt
4. Insertion of Metabolite Transporters into the Endosymbiont Membrane(s) as a Prerequisite for Primary Endosymbiosis
Fabio Facchinelli, Andreas P. M. Weber
5. Evolution of the Protein Translocons of the Chloroplast Envelope
Maik S. Sommer, Enrico Schleiff
6. Evolution of Storage Polysaccharide Metabolism in Archaeplastida Opens an Unexpected Window on the Molecular Mechanisms That Drove Plastid Endosymbiosis
S. G. Ball
7. Analysis of the Genome of
Debashish Bhattacharya, Dana C. Price, Cheong Xin Chan, Jeferson Gross, Jürgen M. Steiner, Wolfgang Löffelhardt
Part III. Recent “Primary” Endosymbioses
8. Photosynthetic
Hwan Su Yoon, Eun Chan Yang, Huan Qiu, Debashish Bhattacharya
9.
Susann Adler, Eike M. Trapp, Christine Dede, Uwe G. Maier, Stefan Zauner
Part IV. Autotrophy as the Driving Force for Endosymbiosis: Secondary and Tertiary Endosymbioses
10.
Marjorie Linares, Dee Carter, Sven B. Gould
11. Nucleomorph Comparative Genomics
Goro Tanifuji, John M. Archibald
12. Protein Import into Complex Plastids: Current Findings and Perspectives
Christopher Grosche, Franziska Hempel, Kathrin Bolte, Lars Abram, Uwe G. Maier, Stefan Zauner
13. Tertiary Plastid Endosymbioses in Dinoflagellates
Przemysław Gagat, Andrzej Bodył, Paweł Mackiewicz, John W. Stiller
14. Endosymbioses in Sacoglossan Seaslugs: Plastid-Bearing Animals that Keep Photosynthetic Organelles Without Borrowing Genes
Heike Wägele, William F. Martin
Keywords: Life Sciences, Evolutionary Biology, Plant Sciences, Plant Biochemistry
- Author(s)
- Löffelhardt, Wolfgang
- Publisher
- Springer
- Publication year
- 2014
- Language
- en
- Edition
- 2014
- Page amount
- 11 pages
- Category
- Natural Sciences
- Format
- Ebook
- eISBN (PDF)
- 9783709113035