Research Articles
Greener Harvests: How Genetic Engineering is Harnessing a Plant Hormone for a Sustainable Future
Explore how genetic engineering of cytokinins is revolutionizing agriculture for drought resistance, higher yields, and sustainable farming.
Unlocking Nature's Factory: How Promoter Technology Supercharges Amino Acid Production
Explore how PLMC technology revolutionizes threonine biosynthesis through promoter library optimization in metabolic engineering
Nature's Rainbow: How Engineered Bacteria are Brewing a Color Revolution
Discover how engineered E. coli bacteria are producing natural rainbow colorants as sustainable alternatives to synthetic dyes
The Body's Scaffolding: The Silent Science of Bones and Healing
Explore how orthopedic principles combine engineering and biology to mend broken bones through biomechanics, biological healing, and groundbreaking research.
Nature's Recipe for Green Plastic: The Tiny Bug that Brews Your Jacket
Discover how scientists engineered E. coli bacteria to produce 1,3-Propanediol, a sustainable alternative to petroleum-based plastics.
The Tiny Rooms of Life: How the Discovery of the Cell Revolutionized Biology
Explore the fascinating journey of cell discovery from Hooke's first observations to modern cell theory and its impact on contemporary biology.
From Baker's Yeast to Mini Oil Wells: The Green Alchemy of Biofuel
Discover how scientists are engineering baker's yeast to produce triacylglycerol for sustainable biofuel production through synthetic biology.
Tiny Bio-Factories: Engineering Bacteria to Save the World
Discover how metabolic engineering transforms bacteria into microscopic factories producing medicines, fuels, and sustainable materials.
The Flavor Factory: Engineering a Microbe to Feed the World
Discover how metabolic engineering transforms Corynebacterium glutamicum into a super-efficient glutamate producer through genetic reprogramming and biotechnology.
Unlocking Cellular Fortresses: How a Genetic Key Is Revolutionizing Bacterial Engineering
Discover how strategic mutations in the ponA gene dramatically increase bacterial transformation efficiency, opening new frontiers in metabolic engineering and synthetic biology.