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Greg Stephanopoulos’ lab work includes efforts to create microbes that can help convert sugars from certain types of plants into ethanol.
Greg Stephanopoulos’ lab work includes efforts to create microbes that can help convert sugars from certain types of plants into ethanol.
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<a href="http://web.mit.edu/newsoffice/2006/peptide-grammar.html">Anti-microbial 'grammar' posits new language of healing</a>
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<u><b>*Bio.in.for.mat.ics:</b></u> <i>(bI-O-"in-f&r-'ma-tiks)</i> The collection, classification, storage, and analysis of biochemical and biological information using computers, especially as applied in molecular genetics and genomics.
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<a href="web.mit.edu/newsoffice/2006/biofuels.html">Engineered yeast improves ethanol production</a>
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<b><u>*Metabolic Engineering:</u></b> The rational redesign - typically using genetic engineering - of organisms to meet commercial objectives, by the modification of existing - or the introduction of entirely new - metabolic pathways.
<b><u>*Metabolic Engineering:</u></b> The rational redesign - typically using genetic engineering - of organisms to meet commercial objectives, by the modification of existing - or the introduction of entirely new - metabolic pathways.

Revision as of 15:43, 25 May 2007

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Welcome


Welcome to the Bioinformatics & Metabolic Engineering Laboratory at M.I.T. Our Research - led by Professor Greg Stephanopoulos of the Chemical Engineering Department - concentrates on a few diverse challenges in the fields of Metabolic Engineering and Bioinformatics*.


gregory stephanopoulos
Greg Stephanopoulos’ lab work includes efforts to create microbes that can help convert sugars from certain types of plants into ethanol.


Anti-microbial 'grammar' posits new language of healing


Engineered yeast improves ethanol production

Open Positions

If you are interested in becoming a researcher in our laboratory, please read about the opportunities that are available immediately, or send an e-mail to gnswebpage-www@mit.edu.

*Metabolic Engineering: The rational redesign - typically using genetic engineering - of organisms to meet commercial objectives, by the modification of existing - or the introduction of entirely new - metabolic pathways.


*Bio.in.for.mat.ics: (bI-O-"in-f&r-'ma-tiks) The collection, classification, storage, and analysis of biochemical and biological information using computers, especially as applied in molecular genetics and genomics.


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Address <p>Department of Chemical Engineering</p> <p>Massachusetts Institute of Technology</p> <p>77 Massachusetts Ave,</p> <p>Room 56-469</p> <p>Cambridge, MA 02139</p>

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Telephones <p>office | 617.258.0398</p> <p>lab | 617.253.6591</p> <p>lab | 617.258.0349</p> <p>lab | 617.253.6521</p> <p>fax | 617.253.3122</p>

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