Biologists take closer look at stress response in cells
A new study from the Zaher Lab at Washington University in St. Louis, published in Molecular Cell, dives into the mechanisms behind the ways cells respond to stress.
A new study from the Zaher Lab at Washington University in St. Louis, published in Molecular Cell, dives into the mechanisms behind the ways cells respond to stress.
Cell & Microbiology
Jun 18, 2024
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A new way to study protein movements has been developed by researchers at Umeå University and the MAX IV Laboratory in Lund. The method enables significantly more experiments than before and allows us to learn more about ...
Molecular & Computational biology
Jun 18, 2024
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Cryogenic damage has long presented a significant barrier to effective organ preservation, posing challenges to advancements in transplantation and medical treatments. The formation of ice crystals during freezing can compromise ...
Biochemistry
Jun 18, 2024
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31
Drought stress poses a significant challenge to plant survival, affecting growth and productivity. Transcription factors, particularly NAC proteins, play vital roles in plant responses to abiotic stress.
Molecular & Computational biology
Jun 17, 2024
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13
Could measuring protein clumps in our cells be a new way to find out our risk of getting age-related diseases? Professor Dorothee Dormann and Professor Edward Lemke of Johannes Gutenberg University Mainz (JGU), who are also ...
Cell & Microbiology
Jun 17, 2024
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16
Using computer-designed proteins, researchers have now shown they are able to direct human stem cells to form new blood vessels in the lab. This milestone in regenerative medicine offers new hope for repairing damaged hearts, ...
Cell & Microbiology
Jun 17, 2024
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57
Australian researchers, led by Monash University, have invented a new artificial intelligence (AI) tool which is poised to reshape virtual screening in early stage drug discovery and enhance scientists' ability to identify ...
Biochemistry
Jun 17, 2024
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31
In a small laboratory in Seoul, a team of South Korean scientists are injecting cultured beef cells into individual grains of rice, in a process they hope could revolutionize how the world eats.
Biotechnology
Jun 17, 2024
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24
Intrinsically disordered proteins (IDPs) can dynamically change their conformations depending on their external environment and can, therefore, bind to different compounds. However, they are difficult to analyze. Now, Tokyo ...
Molecular & Computational biology
Jun 13, 2024
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124
SMU nanotechnology expert MinJun Kim and his team have developed a faster, more precise way to detect the properties and interactions of individual proteins crucial in rapid, accurate, and real-time monitoring of virus-cell ...
Bio & Medicine
Jun 13, 2024
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