Huntington's disease is a neurodegenerative disorder that is usually fatal about 15 to 20 years after a patient is diagnosed. It is known to be caused by an aberrant repetitive sequence (CAG) in the ...
A new study shows that cancer damages its own DNA by pushing key genes to work too hard. Researchers found that the most powerful genetic "on switches" in cancer cells, called super-enhancers, drive ...
A new UCLA Health study has discovered in mouse models that genes associated with repairing mismatched DNA are critical in eliciting damages to neurons that are most vulnerable in Huntington's disease ...
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Gene regulators could restore the aging body's ability to self-repair
As we age, we don't recover from injury or illness like we did when we were young. But new research from UCSF has found gene ...
Researchers from the Hubrecht Institute and their collaborators at other institutions have used a protein from zebrafish dubbed Hmga1 which plays a key role in heart regeneration, to reactivate heart ...
A new UCLA Health study has discovered in mouse models that genes associated with repairing mismatched DNA are critical in eliciting damages to neurons that are most vulnerable in Huntington’s disease ...
Circulating Tumor DNA as a Prognostic Biomarker for Recurrence in Patients With Locoregional Esophagogastric Cancers With a Pathologic Complete Response PD-1 inhibition is effective in patients with ...
Identification of variants influences treatment decisions. Inhibitors of the poly-ADP-ribose polymerase (PARP) system, a pathway for repairing single-stranded DNA breaks, are recommended for tumors ...
A new UCLA Health study has discovered in mouse models that genes associated with repairing mismatched DNA are critical in eliciting damages to neurons that are most vulnerable in Huntington's disease ...
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