Research Articles
From Microbe to Molecule: Engineering Bacteria to Brew a Vital Chemical
Discover how scientists are reprogramming E. coli to produce phenylacetic acid through metabolic engineering for sustainable chemical production.
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.
Brewing Bioplastics: Teaching E. coli to Be a Tiny Chemical Factory
Discover how metabolic engineering transforms E. coli into sustainable factories for producing C4 chemical precursors like succinic acid, replacing petroleum-based methods.
Engineering Supercharged E. coli: The Tiny Factories Creating Biofuel from Plant Waste
Discover how genetically engineered E. coli bacteria are being transformed into efficient biofuel producers through metabolic engineering and adaptive evolution.
Brewing Better Biofuel: How E. Coli Learns to Make Butanol
Exploring how metabolic engineering transforms E. coli into a bio-butanol producer through pathway construction and promoter optimization.
The GABA Factory: Engineering Microbes to Brew a Brain Chemical
How scientists are turning simple bacteria into tiny, efficient production powerhouses for Gamma-Aminobutyric Acid (GABA), a crucial neurotransmitter.
Nature's Tiny Factories: How Engineered E. coli Can Brew Valuable Chemicals from Fatty Acids
Discover how engineered E. coli bacteria are being transformed into living factories to produce valuable ω-hydroxy fatty acids through synthetic biology and green chemistry approaches.
Green Factories: Engineering E. coli to Brew Renewable Alpha-Pinene
Explore how scientists engineer E. coli to produce renewable alpha-pinene through metabolic engineering for sustainable biofuels and chemicals.
The Factory in a Cell: How Engineered E. coli Could Revolutionize Materials Science
Discover how metabolic engineering of E. coli enables production of synthetic spider silk proteins with remarkable properties for medical and industrial applications.
The Silent Symphony: How Sound Waves Conduct the Inner Workings of E. coli
Discover how acoustic fields influence E. coli's metabolic networks through Gene Ontology and KEGG pathway analysis