IGEM:MIT/2006/Notebook/2006-6-26: Difference between revisions

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==Paragraph==
==Paragraph==
This summer, MIT's iGEM 2006 team is developing bacteria that smell pleasant. We have inserted several genes into bacterial genomes to make the cells produce wintergreen, jasmine, floral, and fruit scents. Scents can act as natural biological tags and have many extended applications. By attaching the scent tag to a case-sensitive promoter, we can engineer a cellular system to report on environmental conditions. Also, since ''E. coli'' naturally produce a fecal smelling compound, we feel that engineering our system will be useful to scientists worldwide as it will make lab work with ''E. coli'' bacteria a little less painful. Other bacteria are responsible for producing human odor problems in the mouth, armpits, and feet. By implementing our system in these foul smelling bacteria, we could potentially develop bacterial deoderant. In addition, we could implement our system in yeast, thereby producing new flavors and scents in bread and beer.

Revision as of 09:50, 26 June 2006

to do

  1. re-order pcr primers for SAMT and ATF1
  2. order internal sequencing primer for SAMT
    • make sure primers bind to our dna sequencing results
    • put the 4 primers into (sequence, primer name) format and give to Heather asap
  3. ask Heather to order METHYL JASMONATE
  4. repeat transformation into competent cells with a pUC19 control this time
  5. check out the GC in building 18
  6. lab safety class at 1 pm
  7. design (and order) JMT primers to bind to Arabidopsis genome

Paragraph

This summer, MIT's iGEM 2006 team is developing bacteria that smell pleasant. We have inserted several genes into bacterial genomes to make the cells produce wintergreen, jasmine, floral, and fruit scents. Scents can act as natural biological tags and have many extended applications. By attaching the scent tag to a case-sensitive promoter, we can engineer a cellular system to report on environmental conditions. Also, since E. coli naturally produce a fecal smelling compound, we feel that engineering our system will be useful to scientists worldwide as it will make lab work with E. coli bacteria a little less painful. Other bacteria are responsible for producing human odor problems in the mouth, armpits, and feet. By implementing our system in these foul smelling bacteria, we could potentially develop bacterial deoderant. In addition, we could implement our system in yeast, thereby producing new flavors and scents in bread and beer.
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