Research Articles
Unlocking a Bacterial Superpower: How Scientists Finally Cracked the Genetic Code of Clostridium kluyveri
Discover how scientists developed a biparental methylation-conjugation system to enable plasmid-based expression in the previously genetically intractable Clostridium kluyveri, opening new frontiers in sustainable manufacturing.
Unlocking Nature's Medicine Chest: Engineering the Madagascar Periwinkle
Discover how genetic engineering is revolutionizing production of cancer-fighting drugs from the Madagascar periwinkle plant.
Redesigning Life: The Rise of Synthetic Biology
Explore the revolutionary field of synthetic biology, from engineering yeast to produce life-saving drugs to the ethical considerations of redesigning life itself.
Tuning the Cellular Symphony: How 5' UTRs Master the Flow of Biochemical Pathways
Discover how 5' untranslated regions provide unprecedented control over biochemical pathways in genetic engineering and synthetic biology applications.
CRISPR and Custom Microbes: The Genetic Revolution Against Plastic Pollution
Explore how genetic engineering and CRISPR technology are creating plastic-eating microbes to solve the global plastic pollution crisis through biological degradation.
Green Factories: How Plant Biotechnology is Brewing Better Medicines
Exploring how plant cell technology and genetic engineering are revolutionizing phytochemical production for sustainable medicine manufacturing.
Green Gold: How Genetic Engineering is Unlocking Coccomyxa's Biofuel Potential
Explore how metabolic engineering and iterative self-cloning are revolutionizing biofuel production from Coccomyxa microalgae for sustainable energy solutions.
Green Superpowers: How Boosting Vitamin C Creates Bigger, Tougher Plants
Discover how genetic engineering elevates vitamin C in Arabidopsis plants, leading to enhanced biomass and remarkable stress tolerance.
Green Factories: Engineering Artemisia annua for a Malaria-Free World
Discover how scientists are genetically engineering Artemisia annua plants to dramatically increase artemisinin production, the key antimalarial drug.
The Evolution Machine: Shuffling DNA Like a Deck of Cards
How scientists are harnessing a bacterial superpower to engineer life faster using synthetic integrons and DNA cassette shuffling.