Team:USP-UNESP-Brazil/Plasmid Plug n Play/Results

From 2012.igem.org

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For the bacteria transformed with 100 ng and 1000 ng of PCR-products we found colonies in the three plates. Find colonies in the plate with both antibiotics (Fig. 3 and Fig. 4) strongly suggest that the bacteria had a Plug&Play plasmid where the recombination of the PCR-product into the lox71 site occurred. We counted the number of colonies in both plates: 36 colonies grew in the plate of bacteria transformed with 10 ng of PCR-product and 611 for the plate of bacteria transformed with 100 ng of PCR-product.  
For the bacteria transformed with 100 ng and 1000 ng of PCR-products we found colonies in the three plates. Find colonies in the plate with both antibiotics (Fig. 3 and Fig. 4) strongly suggest that the bacteria had a Plug&Play plasmid where the recombination of the PCR-product into the lox71 site occurred. We counted the number of colonies in both plates: 36 colonies grew in the plate of bacteria transformed with 10 ng of PCR-product and 611 for the plate of bacteria transformed with 100 ng of PCR-product.  
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The kanamycin gene that we used cant express or replicate without being in the plasmid, it has no promoter or replication site, we cloned just the ORF of the gene. This gene will be expressed as long as IPTG is present in the culture medium.      
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The kanamycin gene that we used cant express or replicate without being in the plasmid, it has no promoter or replication site, we cloned just the ORF of the gene. This gene will be expressed as long as IPTG is present in the culture medium.  
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{{:Team:USP-UNESP-Brazil/Templates/RImage | image=Resultfinal1000.png | caption= Fig. 4.LB plate (ampicillin plus kanamycin), used for the growth of Plug&Play Machine cells transformed with 1000 ng of PCR purified product.  | size=500px }}
{{:Team:USP-UNESP-Brazil/Templates/RImage | image=Resultfinal1000.png | caption= Fig. 4.LB plate (ampicillin plus kanamycin), used for the growth of Plug&Play Machine cells transformed with 1000 ng of PCR purified product.  | size=500px }}
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<h1 id="''Conclusions'' ">''Conclusions'' </h1>
<h1 id="''Conclusions'' ">''Conclusions'' </h1>
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Our results suggest that this technology is possible, that the recombination system is able to circularize the PCR-product as soon as it enters in the cell, and before it is degraded by the cellular nucleases. This was already expected, from the results obtained in the mathematical model.   
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Based on the report made by the igem2010 UT-Tokyo team and some papers (e.g http://www.ncbi.nlm.nih.gov/pmc/articles/PMC137435/), the lox71 (BBa_I718017) from the registry was wrong, it had a cg instead a gc in the 8bp spacer sequence between the arms. Apparently, this part was corrected by the  iGEM11_WITS_CSIR_SA team (BBa_K537020), but the sequence of this group had the same error. The corrected part from iGEM11_Tokyo_Tech (BBa_K649205) was right but no DNA was available in the registry. So we decided to synthesized it and test it, using the proper sequence described  by http://www.ncbi.nlm.nih.gov/pmc/articles/PMC137435/, and we submitted the correct DNA to the Registry. Our results suggest that the lox71 submitted by our group is working.   
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Our results suggest that this technology is possible, that the recombination system is able to circularize the PCR-product as soon as it enters in the cell, and before it is degraded by the cellular nucleases. Which was already expected, as a result from the mathematical model we developed before the beginning of the project.  
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This was the first test of one of the six prototypes, we want to test the others in order to find out which is the best structure for developing a complete series of recombination plasmids that use this mechanism. As a prove of concept we developed a plasmid for expression in ''E. coli'', but this methodology could be use for developing plasmids for expression in another systems, like plants and yeast.
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This was the first test of one of the six prototypes, we want to test the others in order to see which is the best structure for developing a compete series of recombination plasmids that uses this mechanism. As a prove of concept we developed a plasmid for expression in ''E. coli'', we see this results like just the begining   
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This technology could help in the screening/development of candidate genes in a high-throughput manner for developing new standard biological parts.      
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Revision as of 02:43, 27 September 2012