Team:TU Munich/Project/Genome Integration

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Genome Integration


Responsible: Martin Schappert

As we can't obey the letter of the German Purity Law (there is a zero tolerance policy concerning transgenic ingredients), we try our best to meet the spirit. Thus, it is unacceptable for us to work with antibiotics to keep up the selective environment. Since we can't work with auxotrophies in beer either, we have to make sure the yeasts don't get rid of the biobricks. The most promising way to accomplish a long lasting presence of our constructs is to achieve genome integration.

By means of genome integration we don't have to induce a selective stress in the brewing process and yet can be sure that the yeasts express our constructs properly - under constitutive promoters like TEF1 or TEF2 as well as ethanol inducible promoter or the light switchable promoter.

Background and principles


To accomplish genome integration we could resort to preexisting biobrick [http://partsregistry.org/Part:BBa_K300001|Part:BBa_K300001]

  • Available BioBrick
  • Short description of the principle

Idea


  • Plan to integrate mOrange, Thaumatin and Limonene and Brew beer with it

Cloning Scheme


Results

To show, that the stable integration worked, we picked 36 clones from the plates with yeasts transformed with the linearized integration vector plasmid (insert: BBa K300007). These 36 clones were put into non-selective YPD medium and passaged 4 times. After 48 hours, the last culture was used to inoculate an overnight culture. The OD of all candidates was measured. We had 5 negatives, probably due to mistakes in pipeting. The rest of the cultures were diluted to OD 0.4 and 100 ml of it were used to plate on selective (meaning G418+) petri dishes.

After the evolutionary pressure was lifted, the yeasts should've gone rid of the non-integrated vector. Another contact to G418 would not be tolerated by these yeast cells. Therefore carries every proliferating yeast cell the resistance decoded by the resistance gene on the integrational vector. The plates under lambda ____ show the typical fluorescence shown by mOrange.


Furthermore we will PCR the hell out of the yeasts to find out, where the integration took place (should be in the Gal-promoter region).

Reference