User:Bosworth: Difference between revisions
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will bosworth | will bosworth | ||
bosworth AT mit.edu | bosworth AT mit.edu | ||
mit class of 2008 | mit class of 2008 | ||
pursing a bs in mechanical engineering with a minor in biology | |||
currently a member of the [http://www.openwetware.org/wiki/IGEM:UC_Berkeley/2006 UCBerkeley iGEM team], | |||
designing cellular logic gates in cells. Continuing this project in the endy lab @ mit in fall2006. | |||
previously a member of the [http://openwetware.org/wiki/IGEM:MIT/2005 MIT iGEM team]] in 2005, where I did alot of struggling and learning. We tried to modify a chemical pathway to create a platform that could be easily modified to sense different environmental factors. Unfortunately, our method involved significantly modifying proteins! | |||
[http:// | |||
concrete interests: bio-electro-mechanical system design and MEMS - living cell interaction, electro-mechanical motion control & creating the mechanisms and terminology for analogous control in biological systems, quantitative models matching actual results. I must be interested in something that doesn't sound "far out and far away," too. | |||
abstract interests: innovation, righteous engineering, design, self assembly, abstraction, exploring and managing complexity, simplicity, big words. |
Revision as of 23:37, 28 August 2006
will bosworth bosworth AT mit.edu mit class of 2008 pursing a bs in mechanical engineering with a minor in biology
currently a member of the UCBerkeley iGEM team, designing cellular logic gates in cells. Continuing this project in the endy lab @ mit in fall2006.
previously a member of the MIT iGEM team] in 2005, where I did alot of struggling and learning. We tried to modify a chemical pathway to create a platform that could be easily modified to sense different environmental factors. Unfortunately, our method involved significantly modifying proteins!
concrete interests: bio-electro-mechanical system design and MEMS - living cell interaction, electro-mechanical motion control & creating the mechanisms and terminology for analogous control in biological systems, quantitative models matching actual results. I must be interested in something that doesn't sound "far out and far away," too.
abstract interests: innovation, righteous engineering, design, self assembly, abstraction, exploring and managing complexity, simplicity, big words.