Reprogramming cancer cells into immune defenders
By reprogramming tumor cells to become the body's defenders, Filipe Pereira and his colleagues hope to improve current cancer treatments.
Dec 22, 2022
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By reprogramming tumor cells to become the body's defenders, Filipe Pereira and his colleagues hope to improve current cancer treatments.
Dec 22, 2022
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Researchers at the Centre for Genomic Regulation (CRG) and Imperial College London have found a switch that regulates the activity of a gene that causes diabetes. The findings, published in Nature Cell Biology, highlight ...
Oct 27, 2022
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A fault in cells that form a key part of the immune system can be repaired with a pioneering gene editing technique, finds new research demonstrated in human cells and mice, led by UCL scientists.
Oct 26, 2022
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National Eye Institute researchers mapped the organization of human retinal cell chromatin, the fibers that package 3 billion nucleotide-long DNA molecules into compact structures that fit into chromosomes within each cell's ...
Oct 7, 2022
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Mild, persistent inflammation in tissue is considered one of the biological hallmarks of the aging process in humans—and at the same time is a risk factor for diseases such as Alzheimer's or cancer. Prof. Francesco Neri ...
Sep 22, 2022
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The research group led by immunologists Vigo Heissmeyer and Taku Ito-Kureha of LMU and Helmholtz Munich has revealed the essential function of m6A modifications in T cells.
Jul 27, 2022
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Using new technologies to study thousands of genes simultaneously within immune cells, researchers at Gladstone Institutes, UC San Francisco (UCSF), and Stanford School of Medicine have created the most detailed map yet of ...
Jul 11, 2022
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Researchers from the Icahn School of Medicine at Mount Sinai have applied a novel stem cell model to map disease risk variants in human neurons, which could help provide insights into the biological mechanisms that underlie ...
Jun 1, 2022
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CRISPR genome editing has served as a powerful tool for deleting or altering DNA sequences and studying the resulting effect. Now, researchers at Gladstone Institutes and UC San Francisco (UCSF) have co-opted the CRISPR-Cas9 ...
Feb 3, 2022
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Up to 60 percent of the risk associated with coronary arteriosclerosis may be explained by changes in the activity of hundreds of genes working together in networks across several organs in the body. Moreover, fat processing ...
Jan 12, 2022
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