Regulation of In Vivo Neural Stem Cell Fate in the Embryonic and Adult Brains

I have a broad background in molecular biology, genetics, developmental biology, and neurobiology. I am interested in the molecular and cellular mechanisms that regulate brain development and function. As a graduate student at Cornell University, I employed the invertebrate model organism C. elegans, and made significant contributions to the discovery of RNA interference (RNAi) and the understanding of asymmetric cell divisions. After graduation, I became fascinated with how the brain works. As a Research Fellow in Medicine at Harvard Medical School and postdoctoral fellow at Genentech Inc., I carried out neurobiological studies of the development of brain monoamine neurotransmitter systems, using the vertebrate genetic model organism zebrafish. Our research at the University of California, San Francisco aims to understand how neural stem cells are regulated to generate complex brain structures, and how individual neurons contribute to intricate networks that regulate behavior. We strive to improve our basic knowledge of the brain and the mind, which will help understand and treat neuropsychiatric disorders.