Research Articles
Green Factories: How Synthetic Biology Revolutionizes Artemisinin Production
Explore how synthetic biology and metabolic engineering are revolutionizing artemisinin production to combat malaria more effectively.
Nature's Tiny Factories: How Engineered E. coli Can Brew Valuable Chemicals from Fatty Acids
Discover how engineered E. coli bacteria are being transformed into living factories to produce valuable ω-hydroxy fatty acids through synthetic biology and green chemistry approaches.
Green Factories: Engineering E. coli to Brew Renewable Alpha-Pinene
Explore how scientists engineer E. coli to produce renewable alpha-pinene through metabolic engineering for sustainable biofuels and chemicals.
Beyond 'Yuck': The Surprising Science of Disgust and How to Overcome It
Explore the science behind the 'yuck' factor, why we experience disgust, and evidence-based strategies to overcome it for personal and societal benefit.
Harnessing Tiny Microbes: How Bacteria Are Turning Wastewater into Electricity
Discover how bioelectrochemical systems use bacteria to generate electricity while treating wastewater, creating sustainable energy solutions.
Green Cell Factories: How Proteomics is Supercharging Microalgae for a Sustainable Future
Discover how high-throughput proteomics and metabolomics are revolutionizing microalgae engineering for sustainable biofuel and nutrient production.
Blue Poinsettias: How Science is Rewriting Christmas Classics
Explore how scientists are using metabolic engineering to create the first true blue poinsettia by manipulating anthocyanin pigments.
Unraveling Nature's Code: How Scientists Are Making Traditional Food Colors Safer
Explore how comparative transcriptomic analysis is revealing key genes involved in citrinin biosynthesis in Monascus purpureus, paving the way for safer natural food pigments.
Cracking Yeast's Metabolic Code: How Scientists Trace Sugar Pathways to Engineer Better Biofactories
Discover how scientists use 13C labeling and NMR spectroscopy to trace split metabolic pathways in yeast for bioengineering applications.
The Goldilocks Principle: How Cell Density Shapes Stem Cell Behavior for Bone Regeneration
Explore how cell density influences mesenchymal stem cell aggregation and osteogenic differentiation in 3D RGD-alginate matrices for bone tissue engineering applications.