Research Articles
Engineering Microbes: How E. coli Learns to Build Valuable Chemicals
Discover how metabolic engineering transforms E. coli into microscopic factories producing optically pure 1,2-propanediol from renewable sugars.
The Genetic Off-Switch: How Scientists Are Mastering Precise Control of Bacterial Genes
Discover how a universal actuator enables efficient gene silencing in E. coli through convergent transcription resistant to Rho-dependent termination.
Crafting Cellular Factories: The Science of Knocking New Genes into E. coli
Explore the revolutionary genomic engineering approach using recombineering to insert heterologous genes into E. coli for biotechnology applications.
From Waste to Fuel: How E. Coli Turns Leftover Glycerol into Clean Hydrogen
Discover how E. coli bacteria transform glycerol waste into clean hydrogen fuel through specialized hydrogenase enzymes and fermentation processes.
Boosting Nature's Factories: How Engineered E. coli Supercharges β-Alanine Production
Discover how multivariate modular metabolic engineering enhances β-alanine production in E. coli through systematic pathway optimization and sustainable biomanufacturing approaches.
Brewing Bioplastics: How Engineered E. Coli Turns Lysine into Green Plastics
Discover how engineered E. coli bacteria transform lysine into δ-valerolactam, a key monomer for sustainable nylon production, through advanced metabolic engineering.
The Microbial Mind-Reader: Engineering E. coli to Spy on Its Neighbors
Discover how scientists engineered E. coli bacteria to glow in response to chemical signals, creating living biosensors that reveal microbial communication.
Metabolic Flux Analysis: How E. coli Fights Octanoic Acid Stress
Explore how E. coli MG1655 adapts its metabolic pathways under octanoic acid stress through advanced metabolic flux analysis techniques.
Tiny Cellular Factories: Engineering E. coli to Brew a Greener Future
Discover how metabolic engineering transforms E. coli into sustainable factories for producing biofuels, medicines, and industrial chemicals.
Rewiring Microbes: How Digital Blueprints are Building Super-Producer Cells
Discover how systems biology and bioprocess engineering are revolutionizing biotechnology by creating engineered E. coli cells that produce L-threonine efficiently.