1. Introduction to synthetic biology and plant-derived bioactive compounds 2. Mining bioparts for the biosynthesis of plant-derived bioactive compounds via omics and bioinformatics technologies 3. The application of DNA assembly technologies in the biosynthesis of plant-derived bioactive compounds 4. The application of gene editing technologies in the biosynthesis of plant-derived bioactive compounds 5. Protein design and engineering for the biosynthesis of plant-derived bioactive compounds 6. Pathway engineering of plant-derived bioactive compounds in microbes 7. The application of genome-scale metabolic model (GEM) to redesign biosynthesis pathways of plant-derived bioactive compounds 8. Metabolic design-build-test-learn cycle used for the biosynthesis of plant-derived bioactive compounds 9. Organelle engineering and optimization strategies used for the biosynthesis of plant-derived bioactive compounds 10. Microbial cell factories for the synthesis of plant-derived bioactive compounds: metabolic flux dynamic regulation 11. Yeast cell factories for the biosynthesis of plant-derived bioactive terpenoids 12. Non-conventional yeast cell factories for the biosynthesis of plant-derived bioactive terpenoids 13. Yeast cell factories for the biosynthesis of plant-derived bioactive flavonoids 14. Non-conventional yeast cell factories for the biosynthesis of plant-derived bioactive flavonoids 15. Non-yeast cell factories for the biosynthesis of plant-derived bioactive compounds 16. Fine tune and dynamic control of microbial cell factories for the biosynthesis of plant-derived bioactive compounds 17. Biofoundries for plant-derived bioactive compounds 18. Analytical methods for plant-derived bioactive compounds 19. Engineering biology fundamental for plant-derived bioactive compounds: Challenges and prospects