Bo Huang Delivers 2018 Byers Award Lecture on Boundary-Pushing Microscopy
Huang highlighted the microscopy work in his lab that has enabled a clearer understanding of the function of cells and the processes that underlie disease.
University of California San Francisco
Give to UCSFHuang highlighted the microscopy work in his lab that has enabled a clearer understanding of the function of cells and the processes that underlie disease.
UCSF have taken the first step toward a comprehensive atlas of gene expression in cells across the developing human brain.
Peter Walter, PhD, professor of biochemistry and biophysics at UCSF, has been named winner of a 2018 Breakthrough Prize in Life Sciences, for his research on a biological mechanism that normally protects cells, but can cause disease if not functioning properly.
UCSF researchers are leading several initiatives that aim to see how dozens of seemingly unrelated genes and proteins involved in a disease are in fact all part the same interconnected biological pathway.
UCSF has ranked in the top 10 for seven specialties in 2017 Best Global Universities rankings released Tuesday by U.S. News & World Report.
UCSF researchers have identified a molecular signature in tissue adjacent to tumors in eight of the most common cancers that suggests they are all using the same mechanism to remodel normal tissue and spread.
Newly developed microscopy techniques have allowed UC San Francisco researchers to observe white blood cells in action in unprecedented detail.
Research team led by University of California scientists has used a modified version of the gene-editing technique CRISPR to find enhancers by prompting them into action.
A new study by UCSF researchers raises a red flag against adding antibiotics when growing cells in labs, finding that it can induce unintentional genetic changes in the cells and distort test results.
UCSF neuroscientists answered questions about a molecule that reverses severe memory and learning impairments in mice with traumatic brain injury.
Scientists at UCSF have shown that cellular antennae called cilia, found on fat-forming cells interspersed in muscle, play a key role in this muscle-to-fat transformation.