Imagine falling seriously ill with an infection. Normally, we visit the doctor, are prescribed antibiotics, and after 7-10 days, we're back on our feet. But today, it is no longer guaranteed that the ...

Light-activated copper microrobots use single-atom catalysis and peroxide to penetrate biofilms, generate reactive oxygen species, and eliminate MRSA infections. (Nanowerk Spotlight) Bacterial ...

Bacteria can sneakily evade our best efforts at eradication by developing resistance to various pressures in their ...

University of Otago scientists are harnessing the power of peptides—the body's own tiny protein molecules—for a spray to help the red meat industry solve headaches around bacterial contamination and ...

A small molecular strand could hold the key to solving one of the greatest global health challenges. When bacteria develop resistance to antibiotics, it can be deadly, but researchers have now decoded ...

In nature as well as in our bodies, bacteria predominantly live as organized communities called biofilms. These structures play a central role in antibiotic resistance mechanisms. In a paper published ...

When bacteria infect our bodies, they sometimes form sticky mats of sugars and proteins called biofilms to protect themselves. This viscous layer makes it difficult for antibiotics and immune cells to ...

Methicillin-resistant Staphylococcus aureus (MRSA) remains one of the most pressing threats in modern healthcare. Known for its resistance to a wide range of antibiotics, MRSA causes infections that ...

A new synthetic antibiotic is shown to be more effective than established drugs against 'superbugs' such as MRSA, a new study shows. A new synthetic antibiotic developed by University of Liverpool ...

(From left) Ph.D. Candidate Joo Hun Lee (co-author), Professor Hyunjoon Kong (co-corresponding author) and Postdoctoral Researcher Yujin Ahn (co-first author) from the Department of Chemical and ...