Team:KULeuven/Wetlab/Vanillin Production

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==Goal==
==Goal==
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[[Image:Miss_Blue_vanillin_production.png|175px|left]]
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[[Image:Miss_Blue_vanillin_production.png|200px|left]]
Making vanillin from tyrosine in a five-step pathway.
Making vanillin from tyrosine in a five-step pathway.
[[Image:Vanillin_Biosynthesis_Pathway.jpg‎|left|thumb|365px|Making vanillin from tyrosine]]
[[Image:Vanillin_Biosynthesis_Pathway.jpg‎|left|thumb|365px|Making vanillin from tyrosine]]

Revision as of 15:21, 2 September 2009

VANILLIN SYNTHESIS

Goal

Miss Blue vanillin production.png

Making vanillin from tyrosine in a five-step pathway.

Making vanillin from tyrosine













Required

Biobricks:

  • SAM8: : coding sequence without RBS
  • SAM5: : RBS site + PstI restriction site removed
  • COMT: : coding sequence without RBS
    • LVA tag (AANDENYALAA) attached to COMT (nucleotide code: gctgcaaacgacgaaaactacgctttagtagct)
  • FCS:  : RBS + fcs in pSB1A2
  • ECH:  : RBS + ech in pSB1A2

Where from

  • SAM8, SAM5, COMT, FCS, ECH will be sent to us from the French Lab from the university Edinburgh

Steps

  • We will be working in three different stages
  1. Testing the transformation of tyrosin to ferrulic acid. The enzymes are put under a constitutive promoter and transcribed. Ferrulic acid concentrations are then measured with GC
  2. Testing the transformation of ferrulic acid to vanillin. The enzymes are put under a constitutive promoter and transcribed. Ferrulic acid concentrations are then measured with GC
  3. If both are tested and ok, they can be combined into one plasmid and again tested.
  4. Then, the locks need to be added.
  • Testing the enzymes by detecting the endproducts through gaschromatography.
  • One problem might be that the tyrosine of E. coli is depleted too fast