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<p>Johannes Gutenberg University Mainz (JGU) recently inaugurated its new Institute for Quantitative and Computational Biosciences (IQCB). The IQCB is an interdisciplinary research institute at the interface between the life sciences and neighboring disciplines including mathematics, computer science, physics, chemistry, and engineering, thus generating new opportunities for research by way of, for example, computer-aided analysis of large amounts of data, computer-based modeling, and machine learning.</p>
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Coronavirus | Representational Image (Photo Credits: Pixabay)
Washington, June 28: The body s immune cells naturally fight off viral and bacterial microbes and other invaders, but they can also be reprogrammed or trained to respond even more aggressively and potently to such threats, report University of California- Los Angeles scientists who have discovered the fundamental rule underlying this process in a particular class of cells.
Through the study published in the journal Science, the researchers identified a key molecular mechanism within macrophages, infection-fighting cells of the innate immune system, that determines whether- and how well- the cells can be trained. Their findings could help pave the way for future targeted strategies to enhance the function of the immune system.
Study finds how immune cells can be trained to fight infections ANI | Updated: Jun 28, 2021 08:00 IST
Washington [US], June 28 (ANI): The body s immune cells naturally fight off viral and bacterial microbes and other invaders, but they can also be reprogrammed or trained to respond even more aggressively and potently to such threats, report University of California- Los Angeles scientists who have discovered the fundamental rule underlying this process in a particular class of cells.
Through the study published in the journal Science, the researchers identified a key molecular mechanism within macrophages, infection-fighting cells of the innate immune system, that determines whether- and how well- the cells can be trained. Their findings could help pave the way for future targeted strategies to enhance the function of the immune system.