Can a Leading Laboratory Unlock the Cause of Gastrointestinal Disease?
Faranak Fattahi’s lab is a national leader in growing stem cells to model peripheral nerves, focusing on gastrointestinal diseases.
University of California San Francisco
Give to UCSFFaranak Fattahi’s lab is a national leader in growing stem cells to model peripheral nerves, focusing on gastrointestinal diseases.
Vissers’ work on RNA tags helped found the field of epitranscriptomics, the study of how chemical marks on RNA, rather than their sequence alone, dictate the function of the molecules.
Angela Phillips, PhD, leads research that could help predict future viruses like COVID and the antibodies we might use to treat them.
Emily Goldberg's lab studies what happens during aging to a particular set of immune cells: those embedded in fat tissue. She hypothesizes that changes to these cells during aging could be key to age-related inflammation.
Because proteins can adapt to extremes, Margaux Pinney, PhD, believes they can show how living organisms might adapt to climate change.
Shaeri Mukherjee, PhD, has won the Bowes Biomedical Investigator award, which will provide funding to further her work using bacterial pathogens to identify basic processes inside human cells.
Researchers have discovered a cellular uptake pathway for larger molecules that delivers cell-permeable drugs efficiently.
Researchers have engineered molecules that act like “cellular glue,” a major step toward building tissues and organs.
38 UCSF researchers rank in the top 1 percent for impact in their fields, according to a new analysis of research citations by science and intellectual property company Clarivate.
Researchers have identified specific immune cells that drive deadly heart inflammation in a small fraction of patients treated with powerful cancer immunotherapy drugs.
Scientists at UCSF have developed a new way of looking at sex-biased diseases that is rooted in evolutionary biology.
A new UCSF study researchers of more than 23 million people concludes that some commonly used and abused drugs pose previously unidentified risks for the development of atrial fibrillation (AF), a potentially deadly heart-rhythm disorder.
The single-celled protozoan Euplotes eurystomus achieves a scurrying walk by coordinate its microscopic uses a simple, mechanical computer instead of a brain like most animals, UCSF researchers found.