Team:Dundee/Strategy

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         <!-- Start Body Content Here -->
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        <h2><img src="https://static.igem.org/mediawiki/2012/f/f5/Wetlab_header.png"></h2>
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            <h3>Strategy</h3>
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            <h2><img src="https://static.igem.org/mediawiki/2012/d/db/Strategy.png"></h2>
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             <img src="https://static.igem.org/mediawiki/2012/2/2f/Solutionpic1.png"><br>
             <img src="https://static.igem.org/mediawiki/2012/2/2f/Solutionpic1.png"><br>
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                Many bacterial species have evolved various types of secretion system. Type VI secretion systems are naturally found in gram negative organisms, including Serratia species, Vibrio cholerae and Pseudomonas aeruginosa. A type VI secretion system has also been found in Salmonella typhimurium, which is closely related to Escherichia coli (E. coli). The proteins for Salmonella type VI secretion systems are encoded by more than 13 genes, including Hcp, which encodes for the main structural component of the needle. This projects through the periplasm and outer membrane and can inject directly into competing cells, via the tip protein which is encoded by the gene VgrG. In this way, the type VI secretion system punctures other cells. Hcp and VgrG are largely conserved across all species expressing these systems. TypeVi secretion systems can also be associated with secreted effector molecules, these are thought to play a role in the pathogenesis of higher organisms and could help facilitate interactions with other bacteria. 
 
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<h2>Type VI Secretion System</h2>
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We choose to isolate the T6SS from <i>Salmonella enterica typhimurium LT2</i> as only two of the 13 genes involved would require site directed mutagenesis to remove biobrick restriction sites. Each of the 13 genes were cloned individually by PCR and then digested using either <I>Bcl</I>I or <I>Bgl</I>II and <I>Hind</I>III. The primers used to clone the genes included <I>Bam</I>HI, <I>Pst</I>I and <I>Hind</I>III. In addition, several included His tags to allow characterisation by Western blots. The genes to be cloned are all shown in the diagram above. As indicated by the overlaps, <I>ClpV</I>, <I>VipA</I>, <I>VipB</I> and <I>TssJ</I>, <I>TssK</I> (referred to hereafter as <I>ClpV</I> and <I>TssJK</I>) were cloned as in the original operon.<br>  
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DH5α cells were transformed with pUNI PROM from stock and grown overnight. We were then able to extract the plasmid using the Qiagen miniprep kits protocol. This was digested <I>Hind</I>III and <I>Bam</I>HI to allow the insertion of the genes using suicide ligation between <I>Bam</I>HI and <I>Bcl</I>I or <I>Bgl</I>II.<br><br>
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            The Problem
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Initially all gene fragments were ligated into pUNI PROM and transformed into DH5α <I>E. coli</I> cells. Those that were successful were sent for sequencing. <I>TssA</I> was the first gene to be fully sequenced and as a result this was chosen as the starting point for combinatorial cloning. This plasmid was digested <i>Bam</i>HI <i>Hind</i>III to allow the next gene, <i>ClpV</I>, to be added. Following successful transformation the plasmid was extracted and digested <I>Eco</I>RI <I>Hind</I>III. The product was run on a gel to check that an insert of the predicted size was present. Following this, the plasmid containing the <i>TssA-ClpV</I> clone was sent for sequencing using a primer designed to read from near the end of <i>TssA</i> into the next gene and a pUNI PROM reverse primer.<br>
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<I>TssG</I> and <I>TssL</I> both contained biobrick restriction sites. <I>TssG</I> required the removal of an <I>Eco</I>RI and a <I>Pst</I>I site. <I>TssL</I> contained an <I>Eco</I>RI site. These were removed using site driected mutagenesis following the standard Quikchage(TM) protocol. Final products were sent for sequencing to confirm that the SDM was successful. <br>
 +
 
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Each gene was sequentially added to the plasmid in the way described above to give the first plasmid displayed in the diagram below. We found that once this plasmid had nine of the 13 genes cloned into it, it was difficult to add any more. To clone the last five genes we began the second plasmid shown below starting with <i>TssM</i>. The remaining genes were added to this plasmid using the same method as above until all genes were cloned.<br> <br>
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    <center><a href="https://static.igem.org/mediawiki/2012/1/11/Vector1.png"><img src="https://static.igem.org/mediawiki/2012/e/e0/Vector2.png"></a></center>
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<h2>Endolysin fusions</h2>
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A second PCR was performed for <I>Hcp</i> and <I>VgrG</I>. In this reaction, the reverse primer lacked a stop codon and contained an <I>Xba</I>I site to allow the endolysing gene to be fused onto the end. The PCR products were digested <I>Bam</I>HI <I>Xba</I>I and ligated into pUNI PROM cut with the same enzymes.<br>
 +
 
 +
Professor Neil Fairweather from Imperial College London was kind enough to send us a synthetic gene for the endolysin. This was cloned using PCR and the product was digested <i>Xba</i>I and <i>Hind</i>III. The plasmids containing <I>Hcp</i> and <I>VgrG</I> with the <I>Xba</I>I site were digested <i>Xba</i>I <i>Hind</i>III to allow ligation with the endolysin genes. These were transformed into competent <I>E. coli</I> cells and eventually sent for sequencing when successful.<br>
 +
 
 +
The fused genes could then be cut out of the plasmid <I>Bcl</I> <Hind</I>III and cloned into the combination plasmids as described above.<br>
 +
 
 +
This procedure was repeated for mCherry with the aim of producing a system that could be identified using microscopy.<br>
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              <h2>Biosensor</h2><br>
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The two Biosensor genes, <I>Ttr-R</I> and <I>Ttr-S</I> were cloned as a single product from <i>S. typhimurium</I> chromosomal DNA. The PCR product was digested <I>BamHI</I> / <I>EcoRI</I> and ligated into pUNI PROM. Due to the presence of a <I>Pst</I>I site in the genes, site-directed mutagenesis using the Quikchange(TM) protocol had to be carried out to remove this site.<br><br>
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<center><img src="https://static.igem.org/mediawiki/2012/a/a9/TtrR.png"><br></center><br><br>
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<center><a href="https://static.igem.org/mediawiki/2012/7/75/PUNI-_TtrRS_gene1.jpg"><img src="https://static.igem.org/mediawiki/2012/8/8d/PUNI-_TtrRS_gene2.jpg"></a></center>
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Latest revision as of 21:08, 26 September 2012




Type VI Secretion System

We choose to isolate the T6SS from Salmonella enterica typhimurium LT2 as only two of the 13 genes involved would require site directed mutagenesis to remove biobrick restriction sites. Each of the 13 genes were cloned individually by PCR and then digested using either BclI or BglII and HindIII. The primers used to clone the genes included BamHI, PstI and HindIII. In addition, several included His tags to allow characterisation by Western blots. The genes to be cloned are all shown in the diagram above. As indicated by the overlaps, ClpV, VipA, VipB and TssJ, TssK (referred to hereafter as ClpV and TssJK) were cloned as in the original operon.
DH5α cells were transformed with pUNI PROM from stock and grown overnight. We were then able to extract the plasmid using the Qiagen miniprep kits protocol. This was digested HindIII and BamHI to allow the insertion of the genes using suicide ligation between BamHI and BclI or BglII.

Initially all gene fragments were ligated into pUNI PROM and transformed into DH5α E. coli cells. Those that were successful were sent for sequencing. TssA was the first gene to be fully sequenced and as a result this was chosen as the starting point for combinatorial cloning. This plasmid was digested BamHI HindIII to allow the next gene, ClpV, to be added. Following successful transformation the plasmid was extracted and digested EcoRI HindIII. The product was run on a gel to check that an insert of the predicted size was present. Following this, the plasmid containing the TssA-ClpV clone was sent for sequencing using a primer designed to read from near the end of TssA into the next gene and a pUNI PROM reverse primer.
TssG and TssL both contained biobrick restriction sites. TssG required the removal of an EcoRI and a PstI site. TssL contained an EcoRI site. These were removed using site driected mutagenesis following the standard Quikchage(TM) protocol. Final products were sent for sequencing to confirm that the SDM was successful.
Each gene was sequentially added to the plasmid in the way described above to give the first plasmid displayed in the diagram below. We found that once this plasmid had nine of the 13 genes cloned into it, it was difficult to add any more. To clone the last five genes we began the second plasmid shown below starting with TssM. The remaining genes were added to this plasmid using the same method as above until all genes were cloned.

Endolysin fusions

A second PCR was performed for Hcp and VgrG. In this reaction, the reverse primer lacked a stop codon and contained an XbaI site to allow the endolysing gene to be fused onto the end. The PCR products were digested BamHI XbaI and ligated into pUNI PROM cut with the same enzymes.
Professor Neil Fairweather from Imperial College London was kind enough to send us a synthetic gene for the endolysin. This was cloned using PCR and the product was digested XbaI and HindIII. The plasmids containing Hcp and VgrG with the XbaI site were digested XbaI HindIII to allow ligation with the endolysin genes. These were transformed into competent E. coli cells and eventually sent for sequencing when successful.
The fused genes could then be cut out of the plasmid Bcl III and cloned into the combination plasmids as described above.
This procedure was repeated for mCherry with the aim of producing a system that could be identified using microscopy.

Biosensor


The two Biosensor genes, Ttr-R and Ttr-S were cloned as a single product from S. typhimurium chromosomal DNA. The PCR product was digested BamHI / EcoRI and ligated into pUNI PROM. Due to the presence of a PstI site in the genes, site-directed mutagenesis using the Quikchange(TM) protocol had to be carried out to remove this site.