Difference between revisions of "Team:Austin UTexas/Results"

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<h4>CadC</h4>
 
<h4>CadC</h4>
  
<p>The CadC operon is a native pathway in <i>E. coli</i>, involved in the cadaverine synthesis pathway. The protein CadC protein on the operon is produced and activates segments downstream of the operon on the CadBA receptors. The CadC protein is pH sensitive to an external pH 5.5 and below, as well as lysine dependent. A point mutation on codon 265, in which argenine is converted to cystine, causes the CadC protein to become lysine independent.<sup>1</sup></p>
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<p>The CadC operon is a native pathway in <i>E. coli</i>, involved in the cadaverine synthesis pathway. The protein CadC protein on the operon is produced and activates segments downstream of the operon on the CadBA receptors. The CadC protein is pH sensitive to an external pH 5.5 and below, as well as lysine dependent. A point mutation on codon 265, in which argenine is converted to cystine, causes the CadC protein to become lysine independent.<sup>3</sup></p>
 
<p>Unfortunately, we have been unable to grow the modified CadC operon in <i>E. coli</i> suggesting some form of cell toxicity. Due to this apparent toxicity, no data regarding this mutant CadC could be collected. Alternative candidates are being explored for other pH sensors that sense in the acidic range.</p>
 
<p>Unfortunately, we have been unable to grow the modified CadC operon in <i>E. coli</i> suggesting some form of cell toxicity. Due to this apparent toxicity, no data regarding this mutant CadC could be collected. Alternative candidates are being explored for other pH sensors that sense in the acidic range.</p>
  
 
<h4>CpxA-CpxR</h4>
 
<h4>CpxA-CpxR</h4>
  
<p>CpxA-CpxR is a two-component mechanism that is activated at pH 7.4 and repressed at pH 6.0. CpxA is an intermembrane protein that autophosphorylates at a certain external pH, CpxR (a kinase) then gets phosphorylated by CpxA and acts as a transcription factor. This system originally is a transcription factor for the virF gene, but virF was replaced with a reporter. The original sequence was found in <i>Shigella sonnei</i>, but <i>E. coli</i> has a homolog of these proteins so all that is required on the construct is the appropriate prefix/suffix and CpxR binding site.</p>
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<p>CpxA-CpxR is a two-component mechanism that is activated at pH 7.4 and repressed at pH 6.0. CpxA is an intermembrane protein that autophosphorylates at a certain external pH, CpxR (a kinase) then gets phosphorylated by CpxA and acts as a transcription factor. This system originally is a transcription factor for the virF gene, but virF was replaced with a reporter. The original sequence was found in <i>Shigella sonnei</i>, but <i>E. coli</i> has a homolog of these proteins so all that is required on the construct is the appropriate prefix/suffix and CpxR binding site.<sup>5,6</sup></p>
 
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[[File:T--Austin_UTexas--Cpx_pH_Culture_Tubes_2.png|thumb|right|500px| Figure 1. Testing the CpxR Construct in pH 6-9. From left to right is control pH 6-9 and then experimental pH 6-9. These are showing the gradient change in expression accordingly with the change of pH due to a pH-dependent promotor compared to consistent expression accordingly with a promoter that is always "on".]]
 
[[File:T--Austin_UTexas--Cpx_pH_Culture_Tubes_2.png|thumb|right|500px| Figure 1. Testing the CpxR Construct in pH 6-9. From left to right is control pH 6-9 and then experimental pH 6-9. These are showing the gradient change in expression accordingly with the change of pH due to a pH-dependent promotor compared to consistent expression accordingly with a promoter that is always "on".]]
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<h4>P-atp2</h4>
 
<h4>P-atp2</h4>
<p>The P-atp2 promoter, native to the bacterium <i>Corynebacterium glutamicum</i> is reportedly induced at pH 7, to pH 9 (<a href="https://2015.igem.org/Team:BIT-China/Parts">BIT-China-2015</a> and <a href="http://parts.igem.org/Part:BBa_K1675021">BBa_K1675021</a>). Utilizing the blue chromoprotein (<a href="http://partsregistry.org/Part:BBa_K592009">BBa_K592009</a>), a test was designed in which a plasmid containing the P-atp2 promoter with the blue chromoprotein was grown alongside an <i>E. coli</i> line that contained a plasmid with just the blue chromoprotein. We expected to see constant blue chromoprotein production in the control series (those that lacked P-atp2) and a visual increase in blue chromoprotein as the pH was raised from 6 to 9 in the cells that contained the P-atp2 construct. The construct utilized as a control can be found on the iGEM registry <a href="http://parts.igem.org/Part:BBa_2097001">BBa_K2097001</a> as as in figure 5.</p>
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<p>The P-atp2 promoter, native to the bacterium <i>Corynebacterium glutamicum</i> is reportedly induced at pH 7, to pH 9 (<a href="https://2015.igem.org/Team:BIT-China/Parts">BIT-China-2015</a> and <a href="http://parts.igem.org/Part:BBa_K1675021">BBa_K1675021</a>).<sup>1</sup> Utilizing the blue chromoprotein (<a href="http://partsregistry.org/Part:BBa_K592009">BBa_K592009</a>), a test was designed in which a plasmid containing the P-atp2 promoter with the blue chromoprotein was grown alongside an <i>E. coli</i> line that contained a plasmid with just the blue chromoprotein. We expected to see constant blue chromoprotein production in the control series (those that lacked P-atp2) and a visual increase in blue chromoprotein as the pH was raised from 6 to 9 in the cells that contained the P-atp2 construct. The construct utilized as a control can be found on the iGEM registry <a href="http://parts.igem.org/Part:BBa_2097001">BBa_K2097001</a> as as in figure 5.</p>
 
<p>However, as seen in figure 4, no clear change in color expression appears in the experimental trials, suggesting a lack of sensitivity of the P-atp2 promoter.</p>
 
<p>However, as seen in figure 4, no clear change in color expression appears in the experimental trials, suggesting a lack of sensitivity of the P-atp2 promoter.</p>
 
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<h4>GOX Sequences as Putative Promoters</h4>
 
<h4>GOX Sequences as Putative Promoters</h4>
<p>Three endogenous upstream regions of loci that were reported to show increased mRNA synthesis as pH decreased were obtained. Using Golden Gate assembly, these putative promoters will be placed on a plasmid with a specific reporter sequence.<sup>2</sup> By placing these pH-sensitive promoters with different reporters and transforming into multiple organisms, the visualization of the microbes and their location in kombucha would be possible. This would serve as a stepping stone into the transformation of multiple kombucha organisms with these different reporter constructs, meaning organism concentration at a specific time during the brewing process could be visualized.</p>
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<p>Three endogenous upstream regions of loci that were reported to show increased mRNA synthesis as pH decreased were obtained.<sup>2</sup> Using Golden Gate assembly, these putative promoters will be placed on a plasmid with a specific reporter sequence. By placing these pH-sensitive promoters with different reporters and transforming into multiple organisms, the visualization of the microbes and their location in kombucha would be possible.<sup>4</sup> This would serve as a stepping stone into the transformation of multiple kombucha organisms with these different reporter constructs, meaning organism concentration at a specific time during the brewing process could be visualized.</p>
 
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Revision as of 21:27, 18 October 2016

Austin_UTexas

Results


Click on one of the images below to learn more about our results!




Kombucha Strains

Conjugation

Recapitulation

Ethanol

pH Sensors