Bacteria like cholera may be crucial in the development of new antibiotics
For thousands of years, the highly infectious disease cholera has been one of the most feared infections in the world. As it should. The mortality rate was high.
For thousands of years, the highly infectious disease cholera has been one of the most feared infections in the world. As it should. The mortality rate was high.
Cell & Microbiology
Jul 27, 2023
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Understanding the molecular mechanism that triggers disease is essential for identifying new treatments. Cholera, a disease caused by the bacterium Vibrio cholerae, is no exception.
Cell & Microbiology
Jul 13, 2023
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76
Cholera bacteria use specific D-amino acids to escape unfavorable niches and form complex ecological systems. This is shown by a study led by a research group at Umeå University, Sweden. The discovery may eventually have ...
Cell & Microbiology
Jun 27, 2023
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Leading Charles Darwin University (CDU) environmental microbiology researchers have presented research focused on understanding tropical rock oysters and Vibrios and the implications for food safety and human health at an ...
Ecology
May 31, 2023
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A new study uncovers how the interplay between Sargassum spp., plastic marine debris and Vibrio bacteria creates the perfect "pathogen" storm that has implications for both marine life and public health. Vibrio bacteria are ...
Ecology
May 18, 2023
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101
Have you ever had a nasty infection that just won't seem to go away? Or a runny nose that keeps coming back? You may have been dealing with a bacterium that is tolerant of, though not yet resistant to, antibiotics.
Cell & Microbiology
Apr 11, 2023
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MIT researchers have identified molecules found in mucus that can block cholera infection by interfering with the genes that cause the microbe to switch into a harmful state.
Molecular & Computational biology
Dec 12, 2022
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128
In Gram-negative bacteria, which include some of the most devastating human pathogens, just two mechanisms for the export of polysaccharides have been identified so far. Now a Max Planck research team led by Lotte Søgaard-Andersen ...
Cell & Microbiology
Aug 29, 2022
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106
The transport of substances across the membrane into the cell is linked to specific membrane transport proteins. Researchers at the University Hospital Bonn (UKB) and the University of Bonn, in collaboration with an international ...
Molecular & Computational biology
Aug 4, 2022
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95
Using artificial intelligence, UT Southwestern researchers have discovered a new family of sensing genes in enteric bacteria that are linked by structure and probably function, but not genetic sequence. The findings, published ...
Molecular & Computational biology
Jul 2, 2022
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281