Using AI to improve diagnosis of rare genetic disorders
AIM narrows the differential genetic diagnoses down to a few genes and can potentially guide the discovery of previously unknown disorders.
Read MoreAIM narrows the differential genetic diagnoses down to a few genes and can potentially guide the discovery of previously unknown disorders.
Read MoreSARS-CoV-2 takes advantage of powerful biological mechanisms that allow it to evolve quickly, generating variants to adapt to and persevere in human populations.
Read MoreSometimes, research inspires scientists like Dr. Ankita Thawani to dig into their artistic side to create renditions of their findings.
Read MoreA protein produced in large amounts in HSCs is key for these cells to retain their regenerative potential and avert the effects of aging.
Read MoreThis new testing method represents a paradigm shift in laboratory genetics, moving from the traditional DNA-centric approach to one focusing on the patient’s cells.
Read MoreThe researchers hope that in the future their findings could be used as a marker of effective therapeutic response.
Read MoreThe results support germline testing for cancer-predisposition variants among children with rhabdomyosarcoma, which could aid in early clinical surveillance strategies.
Read MoreResearchers visualize in atomic detail the first step of the mechanism that prompts DNA gyrase for resolving DNA entanglements.
Read MoreThis study opens new avenues of research in human and genome biology and eventually will help to bring potential new treatments to patients and their families.
Read MoreAfter 64 schools competed and about a quarter million votes were cast, Baylor College of Medicine took the win home!
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