Research Articles
The Orange Revolution: Supercharging Yeast to Brew Vitamin A
Discover how scientists are engineering Yarrowia lipolytica yeast to produce β-carotene through advanced metabolic engineering and the multivesicular body pathway.
Green Plastic from Bacteria: Engineering E. coli to Brew Sustainable Polymers
Discover how scientists are engineering E. coli bacteria to produce sustainable PHBV bioplastics from glucose, offering an eco-friendly alternative to petroleum-based plastics.
The Hidden World of the Madagascar Periwinkle: Engineering Nature's Microscopic Factories
Exploring the engineering of Catharanthus roseus for monoterpenoid indole alkaloids production in homologous and heterologous systems
Brewing Fuel from Waste: How Engineered E. Coli Turns Glycerol into Green Energy
Discover how metabolic engineers are transforming E. coli into microscopic factories that convert biodiesel waste into n-butanol, a superior biofuel.
Redesigning Nature's Factory: The Multiplex Quest for L-Homoserine
Explore how multiplex metabolic engineering transforms E. coli into efficient L-Homoserine producers through systematic genetic reprogramming.
Unlocking Nature's Vitamin Factories: Engineering Bacteria for Better Nutrition
Discover how scientists are engineering lactic acid bacteria to produce natural folate, addressing global nutritional deficiencies through metabolic engineering.
Green Factories: Engineering E. coli to Brew Sustainable Cadaverine
Discover how systems metabolic engineering transforms E. coli into sustainable factories for producing bio-based cadaverine as an alternative to petroleum chemicals.
Engineering E. coli's Sweet Tooth: A Green Key to Unlocking Plant Waste
How synthetic biologists are rewiring E. coli's regulatory systems to transform plant waste into valuable bioproducts through metabolic engineering.
Engineering Cellular Factories: How Scientists Are Hijacking Nature's Assembly Line
Explore how scientists are engineering enzyme assembly lines in cells to create super-efficient biosynthetic pathways for sustainable chemical production.
The Cellulose Sleuth: Engineering a Bacterium to Craft Biofuel
Discover how scientists are engineering Clostridium thermocellum to transform plant waste into n-butanol, a superior biofuel.