Research Articles
Nature's Cement: How Bacteria Are Building a Sustainable Future
Exploring Microbial Induced Calcium Carbonate Precipitation (MICP) as a sustainable alternative to traditional construction methods for soil improvement and infrastructure development.
The Fragile Fortress: Predicting Structural Stress in Genome-Reduced Bacteria
Exploring how genome-reduced bacteria face structural stress and the predictive models used to understand their metabolic vulnerabilities.
The Bacterial Power Plant: A Molecular Census of Nature's Tiny Lumberjack
Explore how proteomics reveals the inner workings of Clostridium thermocellum, a heat-loving bacterium that could revolutionize biofuel production.
Tiny Plastic-Eaters with a New Diet: How Bacteria are Weaving a Sustainable Future
Discover how engineered bacteria are creating sustainable bioplastics from unusual feedstocks, offering solutions to plastic pollution.
The Rhizosphere Tango: When Bacteria Learn a New Snack, But Forget the Address
Discover how soil bacteria acquire new metabolic pathways for root exudates but struggle to colonize plant roots in the competitive rhizosphere environment.
Engineering Nature's Factories: Genetic Tools Unlock Bacterial Potential
Discover how genetic engineering tools are revolutionizing biotechnology using Novosphingobium aromaticivorans and Rhodobacter sphaeroides for sustainable biofuel and bioproduct production.
Tiny Bio-Factories: Engineering Bacteria to Save the World
Discover how metabolic engineering transforms bacteria into microscopic factories producing medicines, fuels, and sustainable materials.
Gardening the Gut: Vaccine-Enhanced Competition for Bacterial Strain Replacement
Discover how vaccine-enhanced competition uses immune mechanisms and metabolic niche competition to replace harmful gut bacteria with beneficial strains.
The Silent Conductors: How Bacterial Small RNAs Are Revolutionizing Metabolic Engineering
Exploring how bacterial small RNAs are transforming metabolic engineering with their precise gene regulation capabilities.
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.