Difference between revisions of "Stephanopoulos:Projects"

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* the modification of biochemical pathways inside cells and
 
* the modification of biochemical pathways inside cells and
 
* the rigorous evaluation of the resulting cellular phenotypes.
 
* the rigorous evaluation of the resulting cellular phenotypes.
 
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 +
 
Our most recent research has been focused on the following topics:
 
Our most recent research has been focused on the following topics:
  
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* Systems Biology
 
* Systems Biology
  
 
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             To accomplish the above goals we make use of a diverse array of scientific tools and
 
             To accomplish the above goals we make use of a diverse array of scientific tools and

Revision as of 15:45, 12 July 2006

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Research

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Our research is focused on Metabolic Engineering - the improvement of cellular properties, using modern genetic tools. This field encompasses two important components:

  • the modification of biochemical pathways inside cells and
  • the rigorous evaluation of the resulting cellular phenotypes.


Our most recent research has been focused on the following topics:

  • Metabolic Engineering of E.Coli for the production of biochemicals
  • Inverse Metabolic Engineering
  • gTME
  • Flux Determination
  • Hepatocyte Physiology
  • Metabolomics
  • Systems Biology

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To accomplish the above goals we make use of a diverse array of scientific tools and

methods, many of which have also become areas of research for our group:

  • <a href="Bioinfo.shtml">Bioinformatics and Systems Biology</a> - Our group was one of the first to realize the importance of computational tools for handling the large volume of data generated by microarrays and other technologies.
  • <a href="Fluxes.shtml">Methods for intracellular flux determination</a> - Fluxes are determined by material balancing, NMR fine spectra analysis and GC-MS measurements.
  • <a href="Microarray.shtml">DNA microarrays</a> - We have developed full genome microarrays for Synechocystis Sp., and partial microarrays for C. glutamicum, E. coli, and the mouse genomes.
  • <a href="BioReactor.shtml">Bioreaction network analysis.</a>
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Address
Massachusetts Institute of Technology
Department of Chemical Engineering
Cambridge, MA 02139
Room 56-469

<a href="http://www.mit.edu">MIT</a> | <a href="/wiki/Stephanopoulos_Lab">HOME</a>
Last Modified:
Monday, July 10th, 2006 - by <a href="Adrian.shtml">afi</a>.

gnswebpage-www@mit.edu

Telephones
office | 617.258.0398
lab | 617.253.6591
lab | 617.258.0349
lab | 617.253.6521
fax | 617.253.3122

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