Research Articles
The Tiny Alchemist: Re-Programming a Bacterium to Brew Fuel
Explore how metabolic engineering transforms Clostridium acetobutylicum into a sustainable biofuel factory through genetic reprogramming and enhanced fermentation processes.
From Lab to Larder: How Supercharged Bacteria are Brewing the Color of Life
Discover how metabolic engineering transforms E. coli into microscopic factories for sustainable β-carotene production through isoprenoid pathway optimization.
Harnessing the Plant Factory: Engineering Tobacco for a Sweeter, Safer Future
Discover how metabolic flux engineering transforms tobacco plants into sustainable biochemical factories producing cembratrien-ol for pest resistance and green chemistry.
Brewing Better Biotech: Teaching Baker's Yeast to Be a Chemical Factory
Learn how scientists are engineering baker's yeast to produce valuable very long chain fatty acid-derived chemicals for sustainable fuels, lubricants, and pharmaceuticals.
Brewing Biobutanol: How Engineered Bacteria are Cooking Up the Fuels of the Future
Discover how metabolic engineering of Klebsiella oxytoca is revolutionizing sustainable production of 2,3-butanediol for biofuels and chemicals.
The Tomato Tweak: How Scientists Supercharged Photosynthesis for a Bigger Harvest
Discover how multi-gene metabolic engineering in tomato plants increased fruit yield by 23% through enhanced photosynthesis efficiency.
The Cellular Factory: Engineering Nature's Assembly Lines
How scientists are optimizing living cells through pathway analysis and metabolic engineering to build a better future
The Yeast Factory: Engineering a Tiny Cell to Brew a Mighty Molecule
Discover how metabolic engineering transforms Pichia pastoris into a pharmaceutical powerhouse for S-adenosyl-L-methionine (SAMe) production
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.
Metabolic Engineering of Bacillus subtilis Fueled by Systems Biology
Explore how systems biology is revolutionizing metabolic engineering of Bacillus subtilis for sustainable biomanufacturing