Boston UniversityRestrictionChoice

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Restriction Enzyme Choice

Here is a map of PJQ200, not engineered. We must engineer the plasmid in three ways: 1. Remove the sacB gene so the plasmid will not be lethal in S. oneidensis 2. Insert the mutated global transcription factors 3. Allow for appropriate antibiotic selection.

We will combine the first 2 goals into one solution by removing the sacB gene and inserting in its place the transcription factors. We will use the restriction enzymes HindIII and EcoRI, whose sites bound the sacB gene.

In terms of antibiotic selection, after conjugation we will want to kill off all E. coli and those S. oneidensis that do not take up the plasmid, leaving only S. oneidensis with the plasmid. Selection by gentamicin will not be effective for our purposes because E. coli with the plasmid will survive. In addition, because S. oneidensis normally is resistant to gentamicin, S. oneidensis even without the plasmid will survive. To solve this problem, we plan on removing the gtmR gene and replacing it with the kanR gene that gives resistance to kanamycin. Kanamycin will then kill off all E. coli without the plasmid and S. oneidensis without the plasmid. In order to remove all E. coli with the plasmid, we can use gentamicin, as the plasmid will no longer give resistance to gentamicin. In order to remove gtmR and replace it with kanR, we will use restriction enzymes BsaI and Tth111I. BsaI is an isoschizomer with Eco31I, meaning BsaI will cut at the same place that Eco31I. Eco31I and Tth111I's sites bound the gtmR gene.