Team:UT-Tokyo

From 2011.igem.org

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=Our Project: SMART ''E.coli'' <html><span style="font-size: 50%">- Self Mustering with Aspartate-Responsive Taxis -</span></html>=
=Our Project: SMART ''E.coli'' <html><span style="font-size: 50%">- Self Mustering with Aspartate-Responsive Taxis -</span></html>=
==Making bioremediation far more efficient!==
==Making bioremediation far more efficient!==
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[[File:UT-Tokyo_Overview.png]]
Our project, SMART ''E.coli'', aims at making bioremediation more efficient. In situations where the substrate (such as pollutants you want bacteria to collect) is not equally distributed and rather concentrated in particular spots, conventional bioremediation projects are not efficient. To overcome this problem, we attempt to increase the cell density around the substrate by attracting the bacteria to the substrate.
Our project, SMART ''E.coli'', aims at making bioremediation more efficient. In situations where the substrate (such as pollutants you want bacteria to collect) is not equally distributed and rather concentrated in particular spots, conventional bioremediation projects are not efficient. To overcome this problem, we attempt to increase the cell density around the substrate by attracting the bacteria to the substrate.

Revision as of 19:13, 5 October 2011

Welcome to iGEM UT-Tokyo

Welcome to the UT-Tokyo team's wiki for iGEM 2011. If you would like to get in touch with us, please contact us by email or on [http://twitter.com/UT_Tokyo twitter (@UT_Tokyo)] , [http://www.facebook.com/pages/IGEM-UT-Tokyo/246851982004135 Facebook].

Our Project: SMART E.coli - Self Mustering with Aspartate-Responsive Taxis -

Making bioremediation far more efficient!

UT-Tokyo Overview.png Our project, SMART E.coli, aims at making bioremediation more efficient. In situations where the substrate (such as pollutants you want bacteria to collect) is not equally distributed and rather concentrated in particular spots, conventional bioremediation projects are not efficient. To overcome this problem, we attempt to increase the cell density around the substrate by attracting the bacteria to the substrate.

To attain this goal, we designed two mechanisms, chemoattraction using aspartate and cell arrest.

To learn more about our project, please take a look at our Project page on this wiki!