MIT

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Information

Mercury contamination of drinking water is a significant problem in both developped and developping countries. Techniques to filter it out are both costly and intensive. Thus, the MIT iGEM 2007 team is engineering a biological mechanism to cost-effectively sense and remove Mercury ions from contaminated water through a two cell system. One cell will use the Mer promoter to sense the presence of Mercury ions, then activate the GFP fused downstream. The other uses a cell surface display mechanism to exhibit a Mercury capturing peptide, extracting the Mercury from the water. Both cells also display polystyrene binding peptides, and will thus be attached to a polystyrene filter. This setup would be easy to use, cheap to manufacture, and economical to distribute. It could be used from very small scales to even an entire village's drinking water supply.

Graphics

The MIT iGEM 2007 team. Top Row: Forrest Liau, Aditya Kohli, Brian Cook, Alex Lue, Semmie Kim, Bernice Huang, Jess Ho. Bottom Row: Debbie Liu, Laure-Anne Ventouras, Toan Tran-Phu

People

Students

Jessica Ho
Bernice Huang
Alexander Lue
Semmie Kim
Aditya Kohli
Toan Tran-Phu

Email us: team [AT] igem.mit.edu

Advisors

Anton Aboukhalil
Robbie Barbero
Peter Carr
Brian Cook
Drew Endy
Rana Ghosh
Hyung-Do Kim
Tom Knight
Eric Krauland
Forrest Liau
Debbie Liu
Romie Littrell
Venkataramanan Soundararajan
Laure-Anne Ventouras

Email grads: grads [AT] igem.mit.edu Email all: igem [AT] igem.mit.edu

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-[[Image:IGEM_team.jpg|thumb|center|300px|The MIT iGEM 2007 team. Top Row: Forrest Liau, Aditya Kohli, Brian Cook, Alex Lue, Semmie Kim, Bernice Huang, Jess Ho.  Bottom Row: Debbie Liu, Laure-Anne Ventouras, Toan Tran-Phu]]
+Mercury contamination of drinking water is a significant problem in both developped and developping countries.  Techniques to filter it out are both costly and intensive.  Thus, the MIT iGEM 2007 team is engineering a biological mechanism to cost-effectively sense and remove Mercury ions from contaminated water through a two cell system.  One cell will use the Mer promoter to sense the presence of Mercury ions, then activate the GFP fused downstream.  The other uses a cell surface display mechanism to exhibit a Mercury capturing peptide, extracting the Mercury from the water.  Both cells also display polystyrene binding peptides, and will thus be attached to a polystyrene filter.  This setup would be easy to use, cheap to manufacture, and economical to distribute.  It could be used from very small scales to even an entire village's drinking water supply.
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-Mercury contamination of drinking water is a significant problem in both developped and developping countries.  Techniques to filter it out are both costly and intensive.  Thus, the MIT iGEM 2007 team is engineering a biological mechanism to cost-effectively sense and remove Mercury ions from contaminated water through a two cell system.  One cell will use the Mer promoter to sense the presence of Mercury ions, then activate the GFP fused downstream.  The other uses a cell surface display mechanism to exhibit a Mercury capturing peptide, extracting the Mercury from the water.  Both cells also display polystyrene binding peptides, and will thus be attached to a polystyrene filter.  This setup would be easy to use, cheap to manufacture, and economical to distribute.  It could be used from very small scales to even an entire village's drinking water supply.
+[[Image:MITGoal.jpg|300px|center|MIT's goal]]
+[[Image:IGEM_team.jpg|thumb|center|300px|The MIT iGEM 2007 team. Top Row: Forrest Liau, Aditya Kohli, Brian Cook, Alex Lue, Semmie Kim, Bernice Huang, Jess Ho.  Bottom Row: Debbie Liu, Laure-Anne Ventouras, Toan Tran-Phu]]
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-The MIT iGEM team consists of six undergraduate students working fulltime during summer 2007 on engineering a biological system.  In addition, we have a number of graduate student and faculty advisors.
 ===Students===

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