Team:OLS Canmore Canada/Results

RESULTS

Introduction

These are our list of results that we have successfully acquired through our two-year run developing this project. Special thanks to Lisa Oberding for helping with our Gene Design, Gene Synthesis, and Transformation.

Gene Design

The 4 constructs that we have designed, with the help of our mentor Lisa Oberding and previous iGem teams (especially Tianjin 2016), include:


  • a polyethylene terephthalate hydrolase (PET-ase) fused to a red fluorescent protein, (or RFP) called mCherry, which gives the protein its colour aspect,
  • a hydrophobin called BslA fused to mCherry,
  • a PET-ase without the RFP, and
  • a BslA without RFP.

Special care was taken to ensure the sequences did not include any extra restriction enzyme sites and to design the coding regions to be expressed successfully in BOTH E. coli and B. subtilis cells. See our parts pages for further details regarding these parts.


Gene Synthesis

The gene constructs we have created with the help of Lisa were synthesized by Bio Basic and shipped to us for transformation. The plasmids were ordered both in the standard pSB1C3 backbone, as well as a second “shuttle” backbone we hope to use in the future for testing on Bacillus specifically.

Transformations

Our lab tried repeatedly to transform our cells. We had success with E. coli but were unable to transform Bacillus subtilis on our own. Thank you to Amino Labs who hosted us over the summer for a second (though unsuccessful) round of attempts at Bacillus transformation. Thankfully our mentor, Lisa Oberding from Fredsense Technologies, was able to help us successfully transform both E.coli and B.subtilis cells with each of our four constructs.


These pictures are our constructs in E.coli DH5alpha. The ones on the left are imaged under regular light and the picture on the right is under UV light. The coding system Lisa used for the test is:

  • E - PET-ase
  • F - mCherry PET-ase
  • G - BslA
  • H - mCherry BslA
Regular (left), UV (right)

These pictures are our constructs in B.subtilis SCK6. The ones on the left are imaged under regular light and the picture on the right is under UV light. The coding Lisa used for our plates are:

  • E - PET-ase
  • PM - mCherry PET-ase
  • B - BslA
  • BM - BslA-mCherry
Regular (left), UV (right)

Lysis of E. coli Cells

For full lysis protocol, go to “Lysis Protocol (E.Coli)” under the Experiments page of our wiki.

We used the lysis protocol to help extract the protein from the E.Coli, as they are not excellent secreters of proteins. Our lab does not have capabilities to purify the proteins or enzymes from the lysate, but in the future, this step will be important to further test whether the constructs do adhere selectively to the plastics. We suspect the protocol was successful due to the pink/purple colouration of the lysis buffer. In our results, we can see that F2, which is PET-ase mCherry, has a slight colouration signifying the excretion of the mCherry.

Results of the Lysis Protocol, October 5th. Notice the pink coloration on "F2".

Testing of Constructs

Our four constructs were tested on a strip of PET plastic. We predicted there will be a slight gradient of coloration, visible to the human eye, with each construct and plastic combination. We expected to see the brightest colouration with the PET-ase and mCherry with the Hydrophobin without mCherry since the hydrophobins will make it easier to adhere better. The constructs were also tested on bubble wrap, which was our control for a non-PET plastic.

Firstly, we ran the pure mCherry through the spectrophotometer to measure the wavelength where it shows the max absorbance to have a baseline target for our upcoming tests. We determined from the results the absorbance peak was 1.011 at 587nm.

Click to see full size image