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Combating Antibiotic-Resistant Bacteria With "Molecular Tweezers"

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Researchers from Ben-Gurion University (BGU), together with American and German colleagues, have developed new molecular tweezers to combat antibiotic-resistant bacteria. Their recently announced findings were published in Cell Chemical Biology.
For years, medical professionals have struggled with bacterial infections becoming increasingly resistant to antibiotics. These molecular tweezers may be the key to battling one of greatest public health issues of the 21st century.
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- ....

United States , Ravit Malishev , Raz Jelinek , Department Of Chemistry Prof , Ben Gurion University , Research Development , Ilse Katz Institute For Nanoscale Science , Cell Chemical , Ilse Katz Institute , Nanoscale Science , ஒன்றுபட்டது மாநிலங்களில் , ர்யாஸ் ஜெலினெக் , பென் குரியன் பல்கலைக்கழகம் , ஆராய்ச்சி வளர்ச்சி , இல்ஸ் க்யாட்ஸ் நிறுவனம் க்கு நானோஸ்கேல் அறிவியல் , செல் இரசாயன , இல்ஸ் க்யாட்ஸ் நிறுவனம் , நானோஸ்கேல் அறிவியல் ,

New "molecular tweezers" can help combat antibiotic-resistant bacteria

New molecular tweezers can help combat antibiotic-resistant bacteria
Researchers from Ben-Gurion University (BGU), together with American and German colleagues, have developed new molecular tweezers to combat antibiotic-resistant bacteria. Their recently announced findings were published in
Cell Chemical Biology.
For years, medical professionals have struggled with bacterial infections becoming increasingly resistant to antibiotics. These molecular tweezers may be the key to battling one of greatest public health issues of the 21st century.
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.
Raz Jelinek, Professor, Department of Chemistry, Ben-Gurion University (BGU) ....

United States , Ravit Malishev , Raz Jelinek , Emily Henderson , Department Of Chemistry , Ben Gurion University , Research Development , Ilse Katz Institute For Nanoscale Science , Cell Chemical , Ilse Katz Institute , Nanoscale Science , ஒன்றுபட்டது மாநிலங்களில் , ர்யாஸ் ஜெலினெக் , எமிலி ஹென்டர்சன் , துறை ஆஃப் வேதியியல் , பென் குரியன் பல்கலைக்கழகம் , ஆராய்ச்சி வளர்ச்சி , இல்ஸ் க்யாட்ஸ் நிறுவனம் க்கு நானோஸ்கேல் அறிவியல் , செல் இரசாயன , இல்ஸ் க்யாட்ஸ் நிறுவனம் , நானோஸ்கேல் அறிவியல் ,

Molecular tweezers that attack antibiotic resistant bacteria developed by Ben-Gurion U.

Credit: Dani Machlis/BGU
BEER-SHEVA, Israel May 10, 2021 - Researchers from Ben-Gurion University (BGU), together with American and German colleagues, have developed new molecular tweezers to combat antibiotic-resistant bacteria. Their recently announced findings were published in
Cell Chemical Biology.
For years, medical professionals have struggled with bacterial infections becoming increasingly resistant to antibiotics. These molecular tweezers may be the key to battling one of greatest public health issues of the 21st century.
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. ....

New York , United States , Rensselaer Polytechnic Institute , Nir Salinas , Elsa Sanchez Garcia , Yasserb Ruiz Blanco , Ravit Malishev , Gal Bitan , Orit Malka , Thomas Schrader , Chunyu Wang , James Gibson , Meytal Landau , Los Angeles , Raz Jelinek , Angela Bailey Eden , Molecular Biology Institute , University Of California , Research Development , Department Of Biological Sciences , Brain Research Institute , David Geffen School Of Medicine , European Molecular Biology Laboratory , Department Of Computational Biochemistry , Ilse Katz Institute For Nanoscale Science , Boehringer Ingelheim Foundation ,