Research Articles
Unlocking Yeast's Palette: Engineering Nature's Vibrant Colors
Discover how scientists are using metabolomics and gene-editing technologies to engineer yeasts into efficient carotenoid production factories.
The Cell's Volume Knob: Engineering Yeast for a Cleaner, Greener Future
How scientists are fine-tuning cellular machinery using RNAi to control plasmid copy number in yeast for revolutionary bioproduction
Yeast Cell Factories: Programming Nature's Tiny Miracle Workers
Explore recent advances in yeast cell factories and how synthetic biology is transforming these microorganisms into efficient production platforms for pharmaceuticals, biofuels, and sustainable chemicals.
The Crystal Ball for Brewing Chemicals: Predicting What Yeast Can Make
Explore how statistical models and machine learning are revolutionizing chemical biosynthesis yield prediction in engineered yeast
Brewing Cancer Medicine: How Engineered Yeast Could Revolutionize Drug Production
Discover how engineered yeast is transforming cancer drug production, making vinblastine and vincristine more accessible through synthetic biology breakthroughs.
How Growth Rate Reshapes the Genetic Blueprint in Yeast
Exploring how cellular growth rate dramatically influences gene expression in Saccharomyces cerevisiae and reshapes our understanding of biological data interpretation.
The Sweet Science of Yeast: How Microbes Could Revolutionize Chocolate
Exploring how oleaginous yeasts can produce cocoa butter-like lipids to address cocoa shortages and create sustainable chocolate alternatives.
The Hidden Superpower of Yeast: Molecular Secrets Behind Biofuel Production
Discover the molecular mechanisms that enable yeast to produce ethanol efficiently, making it a key player in sustainable biofuel production.
The Secret Sacrifice: Why Engineered Yeast Cells Eat Their Own Medicines
Discover how engineered yeast cells consume their own medicinal products and the scientific breakthroughs preventing this biological betrayal.
Cracking Yeast's Metabolic Code: How Scientists Trace Sugar Pathways to Engineer Better Biofactories
Discover how scientists use 13C labeling and NMR spectroscopy to trace split metabolic pathways in yeast for bioengineering applications.