Research Articles
Beyond Oil: How Bacteria Are Brewing the Sustainable Plastics of Tomorrow
Discover how engineered bacteria are transforming simple sugars into sustainable plastics and chemicals, offering a green alternative to petroleum-based materials.
The Tiny Titan: Engineering a Super-Microbe for Better Biofuel
Discover how scientists are enhancing Clostridium saccharoperbutylacetonicum N1-4 through metabolic engineering and cell immobilization for efficient butanol production.
Biosensors: The Tiny Detectives Supercharging Microbial Biofuel Production
Explore how biosensors are revolutionizing metabolic engineering of microorganisms for sustainable biofuel production through high-throughput screening and real-time monitoring.
Nature's Rosy Gold: Brewing the World's Most Powerful Antioxidant in Yeast
Discover how scientists are using metabolic engineering to teach yeast to produce astaxanthin, one of nature's most powerful antioxidants.
The Cellular Chef: How CRISPR is Rewriting Life's Recipe Book
Explore how CRISPR-derived genome editing technologies are revolutionizing metabolic engineering to create sustainable solutions and healthier futures.
The Digital Cell: How Next-Generation Genome-Scale Models Are Revolutionizing Metabolic Engineering
Explore how next-generation genome-scale models are transforming metabolic engineering, enabling the design of microbial cell factories for sustainable production of biofuels, pharmaceuticals, and more.
ePathBrick: Engineering Cellular Factories to Brew Medicines and Fuels
Explore ePathBrick, the synthetic biology platform revolutionizing metabolic pathway engineering in E. coli for sustainable production of medicines and fuels.
The Digital Alchemist: Brewing Bio-Fuel with Computer Code
How a Python library named Cameo is revolutionizing the way we design microbial factories for sustainable bio-fuel production.
Beyond Sugar: Teaching Microbes to Eat Our Leftovers
How scientists are turning bacteria and yeast into tiny, eco-friendly factories with a taste for trash through flexible feedstock concept.
Cracking the Cellular Code: Engineering Bacteria to Brew Bioplastics
Discover how scientists are using genome-scale models to engineer E. coli for sustainable bioplastic production.