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John A. and Cynthia Fry Gunn Professor and Professor of Neurology and of Neurosurgery
Current Research and Scholarly Interests Neuron death, stress, gene therapy
MD Student with Scholarly Concentration in Clinical Research, expected graduation Spring 2016
Current Research and Scholarly Interests My interests and experience are in epidemiology as it relates to:
1) Population health, with a particular focus on chronic diseases and aging globally.
2) Translational medicine and medical devices, with experience in drug development for neglected tropical diseases.
I am additionally interested in international exchange and health diplomacy.
Sapp Family Provostial Professor, David Starr Jordan Director, Stanford Bio-X and Professor of Biology and of Neurobiology
Current Research and Scholarly Interests The goal of research in the Shatz Laboratory is to discover how brain circuits are tuned up by experience during critical periods of development both before and after birth by elucidating cellular and molecular mechanisms that transform early fetal and neonatal brain circuits into mature connections. To discover mechanistic underpinnings of circuit tuning, the lab has conducted functional screens for genes regulated by neural activity and studied their function for vision, learning and memory.
Professor of Biology and of Pathology
Current Research and Scholarly Interests The connectivity of a neuron (its unique constellation of synaptic inputs and outputs) is essential for its function. Neuronal connections are made with exquisite accuracy between specific types of neurons. How each neuron finds its synaptic partners has been a central question in developmental neurobiology. We utilize the relatively simple nervous system of nematode C. elegans, to search for molecules that can specify synaptic connections and understand the molecular mechanisms of synaptic as
Associate Professor of Biology
Current Research and Scholarly Interests A central aim of the burgeoning field of systems biology is to understand the principles governing genetic control networks. I believe finding the principles underlying genetic circuits will occur through detailed studies and then comparisons of several natural systems. Due to its extensive development as an experimental system, our favorite model, the budding yeast cell cycle, is poised to become central to this enterprise.
Frank Lee and Carol Hall Professor and Professor of Genetics
Current Research and Scholarly Interests We use the tools of genetics, microscopy, and biochemistry to understand fundamental questions of cell biology: How are cells organized by the cytoskeleton? How do the centrosome and cilium control cell control cell signaling? How is cell division coordinated with duplication of the centrosome, and what goes wrong in cancer cells defective in this coordination?