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Team:DTU-Denmark/Repressor Section
From 2010.igem.org
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<p align="justify">In the first plasmids (pIGR01 and pIGR02) we cloned a GFP reporter downstream of the pR promoter, because this would give us the level of GFP expression from the pR promoter when the represser is not present, see figure 2.</p> | <p align="justify">In the first plasmids (pIGR01 and pIGR02) we cloned a GFP reporter downstream of the pR promoter, because this would give us the level of GFP expression from the pR promoter when the represser is not present, see figure 2.</p> | ||
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| + | <table class="https://static.igem.org/mediawiki/2010/e/ef/Repressor_plasmid3.png" align="center"> | ||
| + | <caption align="bottom"><p align="justify"> <b>Figure 2</b> Characterization plasmid pIGR01/02, containing promoters and GFP reporter. Expression of GFP shows that the pR promoters are working as expected. </p></caption><tr><td><img src=" https://static.igem.org/mediawiki/2010/e/ef/Repressor_plasmid3.png" width="400px"></td></tr></table><br> | ||
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| + | <p align=”justify”>The next plasmids (pIGR03 and pIGR04) contain GFP downstream of pR and the repressors (GogR or GtgR) downstream of pRM, see figure 3. These plasmids would allow us to see if the repressors repress the pR promoter – causing expression of GFP to cease. If no GFP is expressed, repressor system is tight.</p> | ||
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| + | <table class="https://static.igem.org/mediawiki/2010/c/ce/Repressor_plasmid2.png " align="center"> | ||
| + | <caption align="bottom"><p align="justify"> <b>Figure 2</b> Characterization plasmid pIGR03/04, containing promoters, repressor and GFP reporter. No expression of GFP shows that the repressor is working as expected.</p></caption><tr><td><img src="https://static.igem.org/mediawiki/2010/c/ce/Repressor_plasmid2.png " width="400px"></td></tr></table><br> | ||
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<a name="Characterization_Results"></a><h3>Results</h3> | <a name="Characterization_Results"></a><h3>Results</h3> | ||
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Revision as of 09:39, 26 October 2010
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IntroductionThe Gifsy promoters with their respective repressors and anti-repressors are important regulatory elements in the switch and this is why we wanted to characterize them and submit them as BioBricks. We already know that this system is tight in its natural settings in Salmonella, but to our knowledge no one before us has tried to characterize the system in Escherichia coli. A good way to characterize it in E. coli is to test whether the repression of the pR promoters is tight, and if the antirepressors indeed do antirepress. Because of previous knowledge of the strength of the promoters in Salmonella (reference, spørg seb) all characterization had to be done in low copy number plasmids. We have characterized the following BioBricks: Construction of BioBricksBioBricks BBa_K374008 , BBa_K374009In wildtype Salmonella enterica Serovar Typhimurium (strain ATCC 14028) the Gifsy immunity region, consisting of the two divergent promoters pR and pRM and the repressor gogR/gtgR downstream of the pRM promoter, are present in the chromosome. We designed a primer pair to amplify the immunity region from Gifsy 1 and Gifsy 2, and by adding the standardized prefix and suffix as a tail, the amplicons were made Biobrick compatible. The amplicons were made by PCR. After the PCR the fragments were cleaned up using a PCR clean-up kit. The amplicon as well as the linearized backbone plasmid pSB1C3 were digested with the restriction enzymes EcoRI and PstI leaving sticky ends. Both the digested PCR product and the digested plasmid were run on a gel in order to estimate DNA concentration. The ligation was made using T4 ligase with a 5:1 ratio of insert to backbone. After the ligation the plasmid was transformed into electrocompetent DH5α E. coli cells. After an hour of recovery in LB media at 37 °C the cells were plated on LB plates containing chloramphenicol (Cam). The next day five colonies on the plates were selected and restreaked on LB+Cam plates in order to assure pure colonies. Overnight cultures were made of the transformants by taking one colony from each restreak and inoculating it in LB+Cam at 37 °C over night. Minipreps were made from the overnight cultures and a verification PCR was run on these in order to assure that the plasmid had the expected insert.
BioBrick BBa_K374010The Gifsy1 anti-repressor AntO was amplified by PCR using a plasmid containing the anti-repressor as template (Sebastién Lemire). The primers had tails corresponding to the standardized prefix and suffix making the amplicon BioBrick compatible. Once we had the amplicon it was digested, ligated and transformed into DH5α E. coli cells following the same procedure as in the above mentioned BioBricks. The results from the verification PCR can be seen in figure 1. CharacterizationStrategyIn order to characterize the BioBricks we constructed three plasmids for each Gifsy phage using fluorescent proteins as reporter genes, see table 1. We used a BioLector microreactor system for our measurements. The BioLector is a microfermenting system that measures OD and fluorescence simultaneously, which is ideal to characterize our constructs.
In the first plasmids (pIGR01 and pIGR02) we cloned a GFP reporter downstream of the pR promoter, because this would give us the level of GFP expression from the pR promoter when the represser is not present, see figure 2.
The next plasmids (pIGR03 and pIGR04) contain GFP downstream of pR and the repressors (GogR or GtgR) downstream of pRM, see figure 3. These plasmids would allow us to see if the repressors repress the pR promoter – causing expression of GFP to cease. If no GFP is expressed, repressor system is tight.
Results |
