Research Articles
Nature's Pharmacy: The Battle Against Superbugs Using Plant Metabolites
Exploring how plant metabolites offer promising solutions to combat antibiotic-resistant superbugs through natural chemical defenses and modern scientific approaches.
Unlocking New Antibiotics: The Molecular Puzzle of FabV Inhibition
Exploring the structure-activity relationship of the B-ring in diaryl ether-based paFabV inhibitors and their potential as novel antibiotics.
The Unseen Cost of Antibiotics: How a Common Fungus in Babies Might Fuel Future Allergies
Discover how early antibiotic use in infants can trigger fungal overgrowth that reprograms the immune system, potentially leading to allergies and asthma later in life.
Latent Antibiotics: Unlocking the Hidden Potential of Arylomycins
Exploring how latent antibiotics like arylomycins offer new hope in the fight against antibiotic-resistant superbugs through novel mechanisms and engineering approaches.
Forging a New Shield: The Quest for Next-Generation Antibiotics
Exploring the development of new Schiff base compounds with potent antibacterial activity against resistant bacteria.
The Hidden Impact: How Antibiotics During Pregnancy Reshape the Vaginal Microbiome
Explore how antibiotic use during pregnancy transforms the vaginal microbiome, affecting maternal and infant health through scientific evidence and data visualizations.
Antibiotics in Space: Unveiling Challenges and Opportunities for Microgravity Medicine
Exploring how space environment affects antibiotic effectiveness and bacterial behavior, with implications for future space missions and Earth medicine.
How Our Body's Own Chemicals Supercharge Antibiotic Action
Discover how host metabolites enhance aminoglycoside antibiotics by stimulating bacterial proton motive force, potentially revolutionizing antibiotic therapy.
The Digital Alchemist: Designing a New Weapon in the Fight Against Superbugs
How scientists are using computer models and chemistry to create next-generation antibiotics against superbugs.
The Shape-Shifting Molecules Revolutionizing Antibiotic Medicine
Discover how isoamphipathic antibacterial molecules use positional isomerism to combat antibiotic resistance while minimizing toxicity to human cells.