Biotechnology for Biofuel Production and Optimization

<p>1. Engineering Central Metabolism for Production of Higher Alcohol-based Biofuels<br>2. Secondary Metabolism for Isoprenoid-based Biofuels<br>3. Metabolic Engineering for Fatty Acid and Biodiesel Production<br>4. Pathway and Strain Design for Biofuels Production<br>5. RNA-Based Molecular Sensors for Biosynthetic Pathway Design, Evolution, and Optimization<br>6. Pathway Assembly and Optimization<br>7. Design of Dynamic Pathways<br>8. Applications of Constraint-Based Models for Biochemical Production<br>9. Biotechnological Strategies for Advanced Biofuel Production: Enhancing Tolerance Phenotypes Through Genome-Scale Modifications<br>10. Evolutionary Methods for Improving the Production of Biorenewable Fuels and Chemicals<br>11. Biomass Utilization<br>12. Ralstonia eutropha H16 as a Platform for the Production of Biofuels, Biodegradable Plastics, and Fine Chemicals from Diverse Carbon Resources<br>13. Methane Biocatalysis: Selecting the Right Microbe<br>14. Photosynthetic Platform Strain Selection: Strain Selection Considerations and Large-Scale Production Limitations<br>15. Interpreting and Designing Microbial Communities for Bioprocess Applications, from Components to Interactions to Emergent Properties<br>16. Cell-Free Biotechnologies<br>17. Microbial Electrochemical Cells and Biorefinery Energy Efficiency<br>18. Photobiohybrid Solar Conversion with Metalloenzymes and Photosynthetic Reaction Centers<br>19. Scale-Up—Bioreactor Design and Culture Optimization<br>20. Scale-Up Considerations for Biofuels</p>