Julie theriot hhmi
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- Research(active tab) · Biography · Related news · Relevant publications.
- Julie A. Theriot is a cell biologist, who studies the molecular mechanics and dynamics of cell movement and organization.
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UW Biology
Education:
1988: B.S. Biology (Course 7), B.S. Physics (Course 8), Massachusetts Institute of Technology
1993: Ph.D. Cell Biology, University of California at San Francisco
Professional Appointments:
1993 - 1997: Whitehead Fellow, Whitehead Institute for Biomedical Research
1997 - 2005: Assistant Professor, Department of Biochemistry and Department of Microbiology and Immunology, Stanford University School of Medicine
2005 - 2012: Associate Professor, Department of Biochemistry and Department of Microbiology and Immunology, Stanford University School of Medicine
2012 - 2018: Professor, Department of Biochemistry and Department of Microbiology and Immunology, Stanford University School of Medicine
2018 - present: Professor, Department of Biology, University of Washington
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Julie Theriot, Ph.D.
Bio:
Julie Theriot attended college at the Massachusetts Institute of Technology, earning dual B. S. degrees in physics and biology. She completed her Ph.D. in cell biology at the University of California at San Francisco, and then returned to Cambridge as a Whitehead Fellow at the Whitehead Institute for Biomedical Research. She joined the faculty of the Stanford University School of Medicine in 1997, with appointments in the Department of Biochemistry and the Department of Microbiology & Immunology, and an Investigator of the Howard Hughes Medical Institute (HHMI). Julie is currently a Professor at the University of Washington, Department of Biology, a continuing HHMI Investigator, and as Chief Scientist at the Allen Institute for Cell Science.
The experimental work of her research group focuses on quantitative measurement of the dynamic and mechanical behavior of structural components in living cells, exploring the molecular and biophysical mechanisms of various forms of cell motility and shape determination across a variety of eukaryotic and bact
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Cellular Structures: Discovering Design Principles for Cells and Organisms
00:00:07.11 Hello I'm Julie Theriot at Stanford University
00:00:10.10 and I'm delighted to be taking part in this iBiology talk series
00:00:13.17 on great problems at the interface between physics and biology.
00:00:16.18 The particular problem that I would like to explore with you today
00:00:19.27 is a question of how to go about discovering design principles for cells and organisms.
00:00:24.25 This I think is a very fundamental question in biology
00:00:28.12 that reveals itself just when you look at any living organism.
00:00:32.04 And I've showed you a few examples here at the cellular level,
00:00:34.26 where on the left we have one of Santiago Ramón y Cajal's
00:00:38.14 beautiful drawings of neurons in the brain.
00:00:40.18 In the middle we have a light micrograph of an algae, Spyrogyra
00:00:45.05 where you can see the beautiful regular helical patterns of its chloroplasts.
00:00:48.21 And over here on the right we have the little glass exoskeleton of a diatom,
00:00:53.28 wh
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