CHE.496/2008: Difference between revisions
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==News== | ==News== | ||
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* | *Summer research! | ||
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==Recent Updates== | ==Recent Updates== | ||
Revision as of 14:20, 16 May 2008
Course Overview
This course was designed by an undergraduate student at the University of Virginia to facilitate a constructive learning environment for undergraduate students interested in synthetic biology. The main goal of this course is to introduce the engineering principles and tools necessary to design, model and build a functional biological system and, in doing so, program novel cellular function and behavior to solve engineering problems and test biological hypotheses.
Synthetic biology is emerging as a new engineering discipline, applying engineering principles such as the standardization of modular components, the hierarchical abstraction of complex systems, and the characterization of both components and systems to biology, allowing the decoupling of construction from design. Novel biological systems may be engineered to solve industrial, medical and environmental engineering problems such as the bioremediation of toxic waste, the microbial production of the anti-malarial drug artemisinin, and the biosynthesis of hydrogen or butanol as an alternative fuel source,
Course coordinator: Professor Erik Fernandez
Meeting times: W 6-6:50pm, R 7-7:50pm
Questions? Contact George McArthur
Expectations
- Attendance
- Read material for each meeting
- Write a response to each reading assignment
- Lead discussions (rotational basis)
- Complete 3 main projects
News
- Summer research!
Recent Updates
List of abbreviations:
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- This edit created a new page (also see list of new pages)
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- This is a minor edit
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17 April 2024
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16 April 2024
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N 19:59 | Nanoimprint Lithography (NIL) - Carter Paul 10 changes history +7,205 [CarterPaul (10×)] | |||
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18:42 (cur | prev) +85 CarterPaul talk contribs (Created page with "{{Template:CHEM-ENG590E}} =Motivation= =Introduction to NIL= =Thermal NIL Process=") | |||
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| N 18:40 | 3D Cell Culture - McLean Taggart, Emma Villares, Maximillian Marek, Scott LeBlanc, Adam Lyons and Jacob Belden diffhist +24,060 CarterPaul talk contribs (Created page with "{{Template:CHEM-ENG590E}} ==Introduction== While most microfluidic devices incorporate a 2D cell culture design, in which a single layer of cells is grown on the bottom of a device, these systems suffer from poor <i>in vivo</i> mimicry, as, in the human body, most cells grow in all directions.<sup>https://doi.org/10.5114/aoms.2016.63743 1</sup> To address this limitation, 3D cell culture devices have been developed - in w...") | ||||
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10:20 | Yarn Microfluidics - Roger Dirth 12 changes history +442 [Rcostello (12×)] | |||
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08:18 | 3D Printed Microfluidic Robots - Helen Hua 2 changes history +6 [Michele Caggioni (2×)] | |||
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15 April 2024
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22:11 | The paper that launched microfluidics - Xi Ning 11 changes history +4,793 [Xning098 (11×)] | |||
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