"Lec 2 - Construction of De Novo Biological Process Control Circuits" (October 14, 2009) Susan Weininger of Molecular Lock Corporation introduces molecular locks, protein assemblies that can turn genes on and off. She then discusses how the structure and action of Molecular Locks make them uniquely suited to engineering new biological circuits that can run parallel to existing naturally occurring biological circuits. Biological circuit design has many of the same features of electronic circuits and software, including logic elements, causal conditions, clocks and loops. Stanford University: http://www.stanford.edu/ Stanford Engineering Everywhere: http://see.stanford.edu/ Stanford Center for Professional Development: http://scpd.stanford.edu/ Stanford University Channel on YouTube: http://www.youtube.com/stanford
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Channels: Physics (General)
Tags: science technology biology molecular lock engineering genetics protein circuits DNA logic elements causal condition clock loop sequence genome binding cell spooling lock HIV virus regulation cancer
Uploaded by: stanfordcomlabco ( Send Message ) on 04-09-2012.
Duration: 74m 7s
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Lec 1 - Self and Self: Whys and Wherefores
Lec 3 - DRAM Errors in the Wild: A Large-Scale Field Study
Lec 4 - Wave Glider: An Autonomous Wave-Powered Sensor Platform
Lec 5 - Starting a Productivity Revolution in Parallel Computation
Lec 6 - Rethinking Time in Distributed Systems
Lec Last - PortLand: Scaling Data Center Networks to 100,000 Ports and Beyond