Team:UGent/Results

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<h1> Plasmids containing T7-<i>ccdB</i> </h1>
<h1> Plasmids containing T7-<i>ccdB</i> </h1>
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We constructed plasmid pSB6A1-T7<i>ccdB</i> for use in CIChE. Through this plasmid, pressure can be put on the CIChE strains simply by adding IPTG.
We constructed plasmid pSB6A1-T7<i>ccdB</i> for use in CIChE. Through this plasmid, pressure can be put on the CIChE strains simply by adding IPTG.

Revision as of 01:57, 4 October 2013

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Plasmids containing T7-ccdB

We constructed plasmid pSB6A1-T7ccdB for use in CIChE. Through this plasmid, pressure can be put on the CIChE strains simply by adding IPTG.

We also purified plasmids p5SpFRT-T7ccdB, p10SpFRT-T7ccdB, p20SpFRT-T7ccdB from strains we obtained from Inbio. These plasmids have different copy numbers and they too can be used in chromosomal evolution.

Having plasmids with different copy numbers at our disposal, we can test CIChE with different degrees of toxin-pressure.

Strains with ccdA-gfp construct

The following strain containing the construct to be duplicated (ccdA-gfp) was constructed (KI experiment 1):

E. coli MG1655 ΔendA DE3 ccdA-Pmb1GFP-CmFRT (called strain 8)

We also dispose of a backup version of this strain, constructed by Inbio in case our own experiment failed (called MDM.Cm). We included this second version in our further experiments as to test possible differences between the two versions.

CIChE Strains

The plasmids and strains mentioned above were used in transformations (experiment 3) to obtain strains containing all elements necessary to perform chromosomal evolution. The following strains were constructed:

  • 8+pSB6A1-T7ccdB
  • 8+p5SpFRT-T7ccdB
  • 8+p10SpFRT-T7ccdB
  • 8+p20SpFRT-T7ccdB
  • MDM.Cm+p5SpFRT-T7ccdB
  • MDM.Cm+p10SpFRT-T7ccdB
  • MDM.Cm+p20SpFRT-T7ccdB

UV Test

Phage transduction was used to perform the deletion of the recA gene. To check whether the gene was successfully knocked out, an UV test was developed. The UV light puts a certain amount of stress on the bacterial cells. Due to this stress, an SOS pathway is triggered in which recA plays an important role. Cells in which the recA gene is deleted will not survive on the backup plate.

RESULT:

  • recA positive strain grows on both parts (UV and non-UV)
  • recA negative strain
    • 10’’ – no visible differences
    • 15’’ – still some colonies on UV-part of the plate
    • 20’’ – one colony visible on UV-part of the plate
    • 30'' – no growth on UV-part of the plate



CONCLUSION
With a 30’’ UV exposure, the cells in which recA is successfully deleted will not survive on the backup plate.

CIChE

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