Regulating gene regulatory regions offers a novel mechanism to control ATXN1 levels
Researchers identified a novel mechanism that regulates ATXN1 levels and reduces SCA1 symptoms in animal model.
Read MoreResearchers identified a novel mechanism that regulates ATXN1 levels and reduces SCA1 symptoms in animal model.
Read MoreResearchers discovered a new way cells can dispose of misfolded proteins that may help better understand human NGLY1 deficiency.
Read MoreBaylor College of Medicine researchers extend the life and effectiveness of off-the-shelf, cancer-fighting immune T cells.
Read MoreScientists at Baylor College of Medicine have devised a chemical approach for discovering compounds that could be developed into new drugs.
Read MoreReduced levels of protein kinase SPEG lead to hyperactive calcium channel RyR2 and an increased risk of atrial fibrillation.
Read MoreCAR-T cell therapy has been used to treat Hodgkin lymphoma with remarkable success for the first time in an early phase clinical trial.
Read MoreA novel strategy can potentially address a major challenge to the current treatment for CNV, the leading cause of irreversible blindness in the elderly.
Read MoreCancer cell clusters are more effective than single cells at spreading cancer in the body, and researchers at Baylor College of Medicine found out why.
Read MoreDetailed 3-D studies reveal how the androgen receptor is put together as a functional complex that drives prostate cancer.
Read MorePolyA-miner enables scientists to evaluate the contribution of alternative polyadenylation to gene regulation in health and disease.
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