How metabolic engineers reprogrammed Gluconobacter oxydans to produce 2-KLG in one step, revolutionizing vitamin C production
Exploring how cross-pollination of ideas between scientific disciplines is driving revolutionary breakthroughs in agriculture, robotics, and computational biology.
Exploring how bovine collagen type I is transforming urinary tract repair through tissue engineering, with breakthrough results in minipig models.
Exploring the revolutionary fusion of protein engineering and artistic design through protein calligraphy, the new frontier of molecular innovation.
Explore how scientists use 16S rRNA-based functional annotation to predict microbial functions in your gut microbiome and other environments.
How scientists are engineering microbial cell factories to produce Tetrahydroisoquinoline (THIQ) alkaloids for sustainable medicine production.
Scientists are using metabolic engineering in blueberry callus cultures to boost antioxidant production year-round, creating powerful nutraceutical factories.
Explore how microbial platform cells like recoded E. coli are transforming synthetic biology and enabling revolutionary applications in medicine, energy, and materials.
Explore how genetic engineering transforms baker's yeast into cellular factories producing pharmaceuticals, biofuels, and gourmet flavors through cutting-edge biotechnology.
Discover how genomic library screens are identifying key genes for butanol tolerance in E. coli, enabling more efficient biofuel production.