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, satiety). Their goal is to use these detailed molecular and cellular models of appetite to develop mechanism-based treatment strategies for obesity and other neurological disorders. More information can be
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channel-ligand interactions. Their goal is to use these detailed chemogenetic tools to develop research and gene therapy tools for obesity, addiction, and other neurological disorders. The lab also uses
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, satiety). Their goal is to use these detailed molecular and cellular models of appetite to develop mechanism-based treatment strategies for obesity and other neurological disorders. More information can be
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related to the lab infrastructure. You will primarily be responsible for IT support and maintenance and administration of current infrastructure. You will review goals and develop systems to meet those
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setting. Opportunities for professional and educational development and growth, including assistance in preparing for graduate school applications and interviews. A fun, positive, diverse, and inclusive
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, satiety). Their goal is to use these detailed molecular and cellular models of appetite to develop mechanism-based treatment strategies for obesity and other neurological disorders. More information can be
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learning and cultivates an environment of collaboration. Opportunities for professional and educational development and growth, including assistance in preparing for graduate school applications and
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://stanfordstomata.sites.stanford.edu/ About the role: In this role, you will work collaboratively with Dr. Bergmann to develop, coordinate, and undertake research projects in plant genetics cell biology and developmental biology. We
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, electrophysiological, and imaging methods. Their goal is to use detailed molecular and cellular models of appetite to develop mechanism-based treatment strategies for obesity and other neurological disorders. More
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resolution to understand the structural dynamics and interactions of macromolecular complexes. To accomplish this, Villa and her team develop tools and technologies to bridge live-cell imaging with cryo