Difference between revisions of "Team:Nottingham/Project"

Line 28: Line 28:
 
         </h3>
 
         </h3>
 
<p>The main aim of this project was to create a therapeutic for CDI that would allow the natural gut microbiota to remain unchanged and reduce the reliance on antibiotics. To achieve this goal phage therapy was selected as an appropriate alternative due to its highly specific nature. It has been shown that non-toxigenic strains of <em>C. difficile</em> can act as probiotics to reduce the colonisation of toxigenic <em>C. difficile</em> in the gut therefore, by silencing the toxin gene expression in <em>C. difficile</em>, non-toxigenic probiotic strains are created.<p>
 
<p>The main aim of this project was to create a therapeutic for CDI that would allow the natural gut microbiota to remain unchanged and reduce the reliance on antibiotics. To achieve this goal phage therapy was selected as an appropriate alternative due to its highly specific nature. It has been shown that non-toxigenic strains of <em>C. difficile</em> can act as probiotics to reduce the colonisation of toxigenic <em>C. difficile</em> in the gut therefore, by silencing the toxin gene expression in <em>C. difficile</em>, non-toxigenic probiotic strains are created.<p>
 +
 +
<p>To do this two strategies of gene silencing are investigated, the use of anti-sense RNA and dead Cas9. In order to ensure the therapeutic is specific for <em>C. difficile</em> these “silencers” will be delivered to the gut using a phage. This ensures that only the <em>C. difficile</em> cells are targeted and due to the specificity of the “silencers” only strains capable of producing the toxins will be silenced allowing the now non-toxigenic strains to remain part of the gut microbiota to protect against other opportunistic toxic bacteria. In addition, with this approach the lack of a lytic phage is no longer an issue as using the ability of temperate phage to integrate into the host cell chromosome to express the “silencers” results in stable repression of the toxin while keeping the cells alive which allows the strains to become part of the gut microbiota. The presence of toxin silenced <em>C. difficile</em> strains in the gut microbiota can have a protective effect to reduce the likelihood of toxic strains colonising and causing future infections.<p>
 
         </div>
 
         </div>
 
         <a class="anchor" id="abstract"></a>
 
         <a class="anchor" id="abstract"></a>

Revision as of 22:37, 16 October 2018

Clostridium dTox Project Human Practices Public Engagement Lab Modelling Collaborations Achievements Team Attributions