Research Articles
Unlocking Nature's Red Gold: Engineering a Tiny Enzyme to Boost Lycopene Factories
Discover how scientists engineered a key enzyme to dramatically boost lycopene production in microbes, unlocking nature's antioxidant powerhouse.
The Metabolic Maestros: How Bacteria Rewire Their Inner Workings and Why It Matters
Exploring how omics-integrated genome-scale metabolic models are revolutionizing our understanding of bacterial metabolism and its applications.
The Embryo Factory: How Maize Unlocks Its Cellular Superpower
Transcriptomic analysis reveals somatic embryogenesis-associated signaling pathways and gene expression regulation in maize (Zea mays L.)
The Flavor Architects: How Genetic Sleuthing Revealed Yeast's Hidden Secrets
Discover how polygenic analysis uncovered novel genetic components in yeast flavor ester biosynthesis beyond the well-known ATF1 gene.
The Tiny Traffic Cop in Cyanobacteria: How PirA Directs Nitrogen Flow
Discover how the small protein PirA regulates nitrogen flux in cyanobacteria through the ornithine-ammonia cycle, acting as a metabolic traffic cop.
The Tiny Lipid Architects Revolutionizing Medicine: How Nanoparticles Are Unlocking mRNA's Immunotherapy Potential
Discover how lipid nanoparticles are transforming medicine by enabling mRNA-based immunotherapies for cancer, genetic disorders, and neurodegenerative diseases.
Unlocking the Secret of Supercharged Photosynthesis: Galdieria Rubisco's Molecular Clutch
Discover how Galdieria's Rubisco enzyme achieves unprecedented carbon fixation efficiency through its unique molecular clutch mechanism.
Cracking Life's Code: Reverse Engineering Nature's Rhythms
Exploring how reverse engineering dynamic temporal models transforms our understanding of biological processes and their relationships.
The Metabolic Maestro: How Scientists Engineer E. Coli's Carbon-Nitrogen Symphony
Exploring how scientists engineer E. coli's carbon-nitrogen metabolism for sustainable bio-production.
Unlocking Precision: How Exonuclease Fusion Supercharges Gene Editing in Microbial Factories
Discover how fusing exonucleases with CRISPR-Cas9 enhances homologous recombination in Pichia pastoris, revolutionizing precision genome editing for biomanufacturing.