Possible 'Trojan Horse' found for treating stubborn bacterial infections
Bacteria can be tricked into sending death signals to stop the growth of their slimy, protective homes that lead to deadly infections, a new study demonstrates.
Bacteria can be tricked into sending death signals to stop the growth of their slimy, protective homes that lead to deadly infections, a new study demonstrates.
Cell & Microbiology
Mar 5, 2024
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Antibiotic resistance is a significant and growing medical problem worldwide. Researchers at the Marine Biological Laboratory (MBL) and collaborators have found a novel genetic arrangement that may help a common bacterium ...
Molecular & Computational biology
Mar 1, 2024
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Scientists at EPFL have developed a game-changing technique that uses light to manipulate and identify individual bacteriophages without the need for chemical labels or bioreceptors, potentially accelerating and revolutionizing ...
Bio & Medicine
Feb 27, 2024
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Fighting disease-causing bacteria becomes more difficult when antibiotics stop working. People with pre-existing conditions in particular can carry resistant germs and suffer from repeated infections for years, according ...
Cell & Microbiology
Feb 1, 2024
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Antibiotic overuse can lead to antibiotic resistance, but classic antibiotic resistance might not completely explain why antibiotics sometimes fail. Sub-populations of bacteria called persister cells can survive in the presence ...
Cell & Microbiology
Jan 10, 2024
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In a breakthrough discovery, published in Nature Communications, scientists from Queen Mary University of London in collaboration with researchers at Newcastle University and The Francis Crick Institute have unraveled the ...
Cell & Microbiology
Dec 21, 2023
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Scientists have discovered that bacteria can create something like memories about when to form strategies that can cause dangerous infections in people, such as resistance to antibiotics and bacterial swarms when millions ...
Cell & Microbiology
Nov 21, 2023
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Infections with antibiotic-resistant bacteria are a growing global problem. Part of the solution may lie in copying the bacteria's own weapons. Researchers in Tromsø have found a new bacteriocin, in a very common skin bacterium. ...
Cell & Microbiology
Nov 21, 2023
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"What doesn't kill me makes me stronger," originally coined by Friedrich Nietzsche in 1888, is a perfect description of how bacteria develop antibiotic resistance.
Molecular & Computational biology
Nov 8, 2023
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Scientists have shown how a molecule with broad-spectrum antibiotic activity works by disabling a process vital to bacterial growth without affecting the normal functioning of human cells. The journal mBio published the work, ...
Cell & Microbiology
Nov 1, 2023
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