Bronze badge

- Registered for iGEM;
- Completed the Judging form;
- We documented and submited in Registry 9 new parts (BBa_K1819000, BBa_K1819001, BBa_K1819002, BBa_K1819003, BBa_K1819004, BBa_K1819005, BBa_S05291, BBa_S05307, BBa_S05308)
- We have a wiki;
- We have stated clear (Attributions);
- Present a poster and a talk at the iGEM Jambore.

Exportation test

As mentioned before, we planned a test to check which of the exportation systems was better for each of the enzymes. An easy way to see the expression of folded Lcp and RoxA is to fusion a Green Fluorescent Protein (GFP). Again, because of the mixed site formed by the ligation between XbaI and SpeI, which translates as a stop codon, we chose to add a NdeI site between the prefix and the sequence in the case of GFP and between the suffix and the sequence for Lcp and RoxA. The assemblies are shown below.

Promoter test

To check the viability of our kill switch we planned two tests, using different promoters, all induced by addiction of a sugar (arabinose, rhamnose and IPTG) in the culture medium.

The first test monitors the production of two fluorescent proteins, GFP and RFP (Red Fluorescent Protein). The idea is that in the presence of the inductor (arabinose, rhamnose or IPTG) the bacteria produces GFP and tetracycline, which will inhibits the production of RFP and in the absence of the inductor the production of GFP and tetracycline would cease and the production of RFP would get higher. The assemblies are shown below.

The second test follows the same principle but instead of two fluorescent proteins we used GFP only. In this case, GFP would be produced if the E. coli grew in a medium lacking the inductor. The assemblies are shown below.

Parts design

Latex Clearing Protein (Lcp) and Rubber Oxygenase A (RoxA)

We received Lcp and RoxA sequences optimized for E. coli cloned in pUC9 from Prof. Dr. Dieter Jendrossek and the first thing we did was check their biobrick compatibility searching for EcoRI, PstI, SpeI and XbaI sites. Lcp didn’t possess any of these sites but we found an EcoRI site between bases 207 and 211 of RoxA sequence. To solve this problem we planned a set of primers changing a thymine for a cytosine, keeping the asparagine codon, to perform site directed mutagenesis.



To amplify these sequences and clone in pSB1C3 we design the primers in a way that they would contain the biobrick prefix and suffix as well as NdeI and SacI sites for protein fusion, as mentioned previously.
The primers for Lcp are the following.



The primers for RoxA are the following.



The meaning of the colors is in the table below.

Other parts

Some of the parts we needed for the main assembly and exportation test were synthesized as gBlocks® Gene Fragments by Integrated DNA Technologies (IDT). One of them was the signal TAT, in addition to its sequence this part had the prefix and suffix used in biobricks as well as a SacI site. The sequence is shown below.

SignalTAT

Another part we decided to synthesize was the GFP used in the exportation tests. In this case we had to change a thymine for a cytosine in the blue area from 282 to 284 bases to eliminate an undesirable NdeI site. Another modification was a linker (represented in grey in the sequence below) add so the GFP wouldn’t interfere with Lcp and RoxA folding.

References

(1) Yikmis, M; Arenskötter M, Rose K, Lange N, Wernsmann H, Wiefel L, Steinbüchel A. “Secretion and transcriptional regulation of the latex-clearing protein, Lcp, by the rubber-degrading bacterium Streptomyces sp. strain K30”; Appl Environ Microbiol. 74(17):5373-82., September 2008.
(2) “OmpA outer membrane protein A fused to linker; displays proteins on cell surface”, available on: http://parts.igem.org/Part:BBa_K103006
(3) Poulsen, L. K.; Larsen, N. M.; Molin, S.; Andersson, P; “A family of genes encoding a cell-killing function may be conserved in all Gram-negative bacteria”; Molecular Microbiology, 3(11), 1463-1472, 1989.