The Evolution of the Bioenergetic Processes

ForewordForeword to the Revised Reprint1. Energy in the Biosphere (a) Life and Work (b) Energy and Entropy in the Biosphere (c) Heat as a Source of Work? (d) Organisms as Chemodynamical Machines (e) Dynamic States of Organisms (f) Active Transport2. Bioenergetics and Evolution (a) Classes of Bioenergetic Processes (b) Genotype and Phenotype (c) Gene Transfer and Evolution (d) Processes and Substances (e) Bioenergetics and Classification3. Early Conditions on the Earth (a) Formation of the Planets (b) Age Determinations (c) The Secondary Terrestrial Atmosphere (d) Conditions on Earth-like Planets4. Origin of Life (a) The Concepts of Oparin and Haldane (b) Organic Matter in Space and in Meteorites (c) Abiosynthesis on the Early Earth (d) The Primeval Soup (e) Formation of Macromolecules5. Eobionts and Organisms (a) From Eobionts to Cells (b) Coacervates and Microspheres (c) The Origin of the Genetic Code (d) Considerations about Self-Organization (e) Acquisition of Enzymes (f) Loss of Functions (g) The Origin of Optical Activity6. Energy-Rich Compounds (a) The Adenylic Acid System (b) Energetic Coupling (c) The Origin of Energy-Rich Compounds7. Fermentation (a) The Simplest Extant Organisms (b) Clostridia (c) Glycolysis (d) Hydrogen Fermentations (e) Methane Formers (f) The Pentose Phosphate Pathway (g) Storage Materials8. Bacterial Photosynthesis in General (a) A Critical Stage for Life (b) The Overall Role of Phototrophy (c) The Role of Chlorophyll (d) The Photosynthetic Unit (e) Cyclic Photophosphorylation. Electron Flow (f) Non-Cyclic Photophosphorylation (g) Origin of Photosynthesis (h) Early Mechanisms9. Photoorganotrohpy (a) Non-Sulphur Purple Bacteria (b) Reducing Power and ATP10. Assimilation of Carbon Dioxide (a) Availability of CO2 (b) Absorption of CO2 by Fermenters (c) Anaerobic CO2 Assimilation in the Dark (d) Reductive Carboxylic Acid Cycle (e) Reductive Pentose Phosphate Cycle11. Photolithotrophy (a) Reducing Power from Inorganic Substances (b) Purple and Green Sulphur Bacteria12. Plant Photosynthesis (a) Water as a Source of Electrons (b) The Z Scheme (c) The Origin of the Serial Process (d) Non-Cyclic and Cyclic Photophosphorylation (e) Absolute Quantum Yields (f) Blue-Green and Other Algae (g) Return to Older Processes13. Respiration in General (a) Use of Oxygen (b) The Concept of Respiration (c) The Citric Acid Cycle (d) The Respiratory Chain14. Aerobic Respiration of Prokaryotes (a) Respiration of Blue-Green Algae (b) Protection Against Oxygen (c) Oxygen in Bacterial Energy Metabolism (d) The Origin of Bacterial Respiration (e) The Conversion Hypothesis (f) The Origin of the Aerobes (g) The Gliding "Bacteria"15. Chemolithotrophy (a) General Features (b) Colourless Sulphur Bacteria (c) Nitrificants (d) Hydrogen Oxidizing Bacteria and Algae (e) Oxidizers of C1 Compounds (f) The Origin of the Chemolithotrophs16. Bactrial Anaerobic Respiration (a) Nitrate and Sulphate Respirers (b) Sulphureta (c) The Origin of the Nitrate Respirers (d) The Origin of the Sulphate Respirers (e) Carbonate Respirers?17. A Scheme for Prokaryotic Evolution (a) General Features (b) Special Features18. Eukaryotes and their Organelles (a) Prokaryotes and Eukaryotes (b) Intracellular Organelles (c) Mitochondria (d) Aerobic and Anaerobic Yeast (e) Nuclei (f) Peroxisomes (g) Chloroplasts19.