Date: 10.5.2021
Researchers from Ben-Gurion University (BGU), together with American and German colleagues, have developed new "molecular tweezers" to combat antibiotic-resistant bacteria.
"Our discovery prevents infection without building up antibiotic resistance, and it might even be preferable to develop treatments based on molecular tweezers rather than antibiotics," said BGU Department of Chemistry Prof. Raz Jelinek.
The research team, led by Prof. Jelinek and his Ph.D. student Ravit Malishev, tested their molecular tweezers on the Staphylococcus aureus (Staph) bacteria. In the U.S. staph infections have an estimated mortality rate of over 25%, and 40% for drug-resistant strains.
The tweezers target biofilm, a thin layer of fibers that protects the bacteria. By gripping the fibers and destroying the protective layer, the tweezers impair the bacteria without directly attacking it, which prevents resistance from occurring.
Prof. Jelinek, who is also BGUs vice president of research and development and a member of the Ilse Katz Institute for Nanoscale Science and Technology, explained, "The tweezers are just like your home tweezers but a million times smaller, and instead of plucking hairs they attack fibers of the bacteria's biofilm." By doing that they break the biofilm, making it more vulnerable to human immune defenses and external substances that are used against bacteria like antibiotics."
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