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

From 2012.igem.org

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<h1 id="''In vivo'' assay ">''In vivo'' assay </h1>
<h1 id="''In vivo'' assay ">''In vivo'' assay </h1>
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We proved that we can circularize a fragment of DNA (kanamycin resistance gene) flanked by a loxP and a lox66 sites ''in vitro'', so we decided to test one of the Plug&Play prototypes (T7-lox71-Cre-pSB4A5). This plasmid produces a low copy number and has a resistance gene to ampicillin. The Cre recombinase is under the control of the T7 promoter, the target gene (in this case the  
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We proved that we can circularize a fragment of DNA (kanamycin resistance gene) flanked by a loxP and a lox66 sites ''in vitro'', so we decided to test one of the Plug&Play prototypes (T7-lox71-Cre-pSB4A5). This plasmid produces a low copy number and has a gene that confers resistance to ampicillin. The Cre recombinase is under the control of the T7 promoter, the target gene (in this case the kanamycin resistance gene) will be inserted in the lox71 site upstream the Cre recombinase gene. When the gene is inserted it will be controlled by the same T7 promoter. This plasmid is part of the six prototypes we are developing, the comparison of these plasmids will identify the best system for the developing of this technology.
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For this experiment we needed a bacteria lineage with the Plug&Play prototype. So we transformed electrocompetent ''E. coli''(Bl21(DE3)) cells with 1ul(80ng) of the Plug&Play prototype. Then, we prepared electrocompetent cells using this transformed bacteria, producing a Plug&Play Machine ready to receive the kanamycin resistance gene.
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We transformed electrocompetent Plug&Play Machine cells with a gradient of our PCR-product (kanamycin resistance gene flanked by a loxP and a lox66): 10ng, 100ng and 1000ng. This concentration were chosen using the mathematical model that the group already had. After transformation the cells (50ul) were left for 40 min in LB medium without antibiotic for recovering from the transformation stress. This LB medium with the cells (1mL medium) was  equally divided in three LB plates. One plate had ampicillin and IPTG, the second had kanamycin and IPTG and the last one had ampicillin, kanamycin and IPTG. The plates were left incubating for 15h at 37°C. As a control, the pET15b plasmid was used for a independent transformation of the ''E. coli''(Bl21(DE3)) lineage and plated in the same three types of plates. The pET15b plasmid has a gene that confers resistance to ampicillin. 
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We found one colony growing in a LB plate with kanamycin, showing that the fusion was possible. Which is really a good result, because the pGEM plasmid has no RBS, so it is reported that it can be use to express but the expression is really low.
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We found
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Based on the report made by the igem2010 UT-Tokyo team and some papers, the lox71 (BBa_I718017) from the registry was wrong, it had a cg instead a gc in its center sequence that is between the arms.
 
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Apparently, this part was corrected by the  iGEM11_WITS_CSIR_SA team (BBa_K537020), but the sequence from 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.
 
{{:Team:USP-UNESP-Brazil/Templates/Foot}}
{{:Team:USP-UNESP-Brazil/Templates/Foot}}

Revision as of 14:03, 26 September 2012