Research Articles
Sweet Science: How Engineered Microbes Are Revolutionizing Sugar Production
Explore how metabolic engineering transforms microbes into efficient factories for producing valuable sugars, from pharmaceuticals to sustainable materials.
The DNA Assembler: Building Nature's Factories with Cellular Magic
Discover how DNA assembler technology revolutionized synthetic biology by enabling rapid construction of complex biochemical pathways with near-perfect efficiency.
The Genetic Off-Switch: How Scientists Are Mastering Precise Control of Bacterial Genes
Discover how a universal actuator enables efficient gene silencing in E. coli through convergent transcription resistant to Rho-dependent termination.
The Genetic Tightrope: How Science is Learning to Walk the Line of DNA Stability
Explore the science of genomic instability and how researchers are designing more stable synthetic DNA systems through rational design principles.
Engineering Superbugs: How Regulatory Minimal Cut Sets Are Revolutionizing Metabolic Engineering
Discover how Regulatory Minimal Cut Sets (cRegMCSs) are transforming metabolic engineering by enabling precise control of metabolic fluxes for creating efficient microbial cell factories.
Tying Survival to Catalysis: How Scientists Linked a Bacterial Engine to a Vital Metabolic Pathway
Exploring how synthetic biology links FeFe-hydrogenase activity to E. coli sulfur metabolism for sustainable energy solutions
Engineering Protein Machines: Rewriting the Code of Cellular Energy
Explore how scientists are redesigning protein-based machines to emulate and reprogram cellular metabolism for sustainable biotechnology applications.
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.
The Sugar Solution: Brewing a Clean Hydrogen Future with Synthetic Biology
Discover how scientists are engineering carbon-neutral hydrogen fuel from plant waste using synthetic biology and in vitro metabolic engineering.
Bacterial Genome Revolution: How 'Jumping Genes' Are Powering Synthetic Biology
Explore how bacterial transposons - nature's genetic engineers - are revolutionizing synthetic biology and strain improvement for industrial applications.