U-M symposium: Frontiers in single-cell biology
EVENT ANNOUNCEMENT
DATE: 8:45 a.m.-4:15 p.m. Wednesday, Sept. 5, 2018
EVENT: Saltiel Life Sciences Symposium: “The Power of One: Frontiers in single-cell biology.” Free and open to the public.
PLACE: Forum Hall, Palmer Commons, 100 Washtenaw Ave., Ann Arbor
MEDIA: Journalists are welcome, but please RSVP to Ian Demsky, 734-647-9837 or [email protected].
DETAILS: Every tissue in the human body represents a complex mix of cell types—and the ability to probe subtle differences between these cells has substantial implications.
Until fairly recently, scientists could get a general picture of what was happening within a tissue as a whole, but not necessarily within the various cell types operating within that whole.
Recent advances in sequencing technologies are changing that, though, enabling scientists to isolate and study individual cell types within a complex tissue, and opening the field of single-cell biology.
The power of single-cell biology to advance our understanding of the basic process of human life and disease has led to rapid growth of the field in recent years, says Jiandie Lin, research professor at the U-M Life Sciences Institute and professor of cell and developmental biology at the U-M Medical School.
This year’s annual Saltiel Life Sciences Symposium will bring pioneers in the field to U-M to discuss the scientific advances driving the field forward. Lin, who chaired the symposium planning committee, believes the event presents a unique opportunity for single cell scientists across the university to consider new ways to position U-M at the forefront of this field.
“The timing is really perfect to bring the single-cell community at U-M together to hear about some of the cutting-edge research taking place in this field, and to expand this area of research here,” he said.
This year’s speakers represent a variety of scientific disciplines—from neuroscience to immunology to computer science and computational biology—reflecting the widespread applicability and relevance of single-cell research techniques. The speakers include:
- Long Cai, research professor of biology and biological engineering at the California Institute of Technology, whose lab uses super-resolution and live cell microscopy to study gene regulatory networks in cells and organisms. Cai and his colleagues developed a technique for multiplex detection of mRNAs in situ to address developmental and disease-related questions.
- Z. Josh Huang, professor of neuroscience at Cold Spring Harbor Laboratory, whose framework for discovering and classifying specific types of neurons advanced understanding of the diverse range of cell types operating within the brain’s neural circuits and how altered circuit development contributes to mental disorders.
- Miriam Merad, professor and director of the Precision Immunology Institute at the Icahn School of Medicine at Mount Sinai, whose multiscale immune profiling strategies provide powerful tools for mapping immune cells within tumors and designing immunotherapy approaches to treating cancer.
- Alexandra-Chloé Villani, principal investigator at the Massachusetts General Hospital Center for Immunology and Inflammatory Diseases, who recently used single-cell RNA sequencing to identify new types of immune cells in human blood.
- Xiaoliang Sunney Xie, Lee Shau-kee Chair Professor at Peking University, whose pioneering research in single molecule spectroscopy and imaging, single molecule enzymology and single cell genome sequencing has led to technological and fundamental scientific advances across the fields of biophysical chemistry and molecular and cell biology.
- Nir Yosef, assistant professor of electrical engineering and computer science at the University of California, Berkeley, whose lab is developing computational models and software that leverage the power of single cell RNA sequencing data.
SPONSOR: U-M Life Sciences Institute
INFORMATION: myumi.ch/Lqenw