Team:Toulouse/Project/Chemotaxis

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<center><img style="width:420px; " src="https://static.igem.org/mediawiki/parts/e/e9/Recap_chemotax.jpg"></center>
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<b>WHAT IS CHEMOTAXIS ?</b>
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<p class="legend">Figure 1: Schema of the chemotaxis module</p>
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Chemotaxis is a bacterial function which allows to bacteria to move according a concentration gradient. This system allows bacteria to find better place to growth, the chemotaxis system is very used by bacteria especially for nutritional molecules like sugar, amino acid, vitamins ...
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<p class="title1">What is chemotaxis?</p>
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In our case chemotaxis is used as a way to detect and approach fungus. Indeed during its growth, fungi release N-acetylglucosamine, this molecule is the monomer of chitin which is specific to fungal presence. So around fungi there is a gradient of N- acetylglucosamine.</p>
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Chemotaxis is a bacterial function which induces a movement toward a gradient of concentration of a molecule of interest. With this system the bacteria are able to swim to a location containing higher concentrations of molecules such as sugar, amino acid, vitamins...  
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Chemotactic-signal transducers respond to changes in the concentration of attractants and repellents in the environment, transduce the signal from the outside to the inside of the cell, and facilitate sensory adaptation through the variation of the level of methylation.  
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<center><img style="width:420px; " src="https://static.igem.org/mediawiki/parts/e/e9/Recap_chemotax.jpg"></center>
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<p class="title1">More information on this module</p>
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Unfortunately bacillus Subtilis isn’t able to detect such gradient, but bacillus is able to detect and move to sugar like glucose thanks a glucose specific receptor, VcpA. But other bacteria can detect these kind of molecule, for example vibrio cholera, which have a specific receptor for N- acetylglucosamine, VCD.</p>
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Chemotaxis is used as a way to detect and come close to the location of fungi infection. During its growth, fungi release N-acetylglucosamine (NAG), the basic unit of chitin which composed its cell wall. Thus, there should exist a gradient of the concentration of NAG around the fungi.</p>
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It is known that <i>B. subtilis</i> is able to detect and to swim towards glucose using the Methyl-accepting chemotaxis protein, henceforth called <b>McpA</b> (<a href="http://www.uniprot.org/uniprot/P39214"_blanck">MCPA_BACSU</a>).<br>
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Some bacteria are attracted by NAG, like <i>Vibrio cholerae</i> which has a NAG regulated methyl-accepting chemotaxis protein: <b>VCD</b> (<a href="http://www.uniprot.org/uniprot/C3NYT2"_blank">VCD_000306</a>).</p>
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<center><img width="500px" SRC="https://static.igem.org/mediawiki/2014/4/47/Chimio1.png" alt="schema" style="margin-bottom:60px;"></center>
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<p class="legend">Figure 2: Chimeric protein of chemotaxis</p>
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Therefore, the idea is pretty simple, we switch glucose specificity by N- acetylglucosamine specificity. So we need to modify the extracellular part of VcpA, the part which is responsible of the specificity, by the extracellular part of a N-acetylglucosamine receptor, VCD.</p>
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Therefore, our idea is to switch the natural glucose specificity of <i>B. subtilis'</i>, mediated by McpA, to a NAG specificity. To achieve this, we need to change the extracellular domain of McpA, responsible for the specificity, by the extracellular domain of VCD.
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The whole sequence has been designed <i>in silico</i> and codon optimized for the transcription in <i>B. subtilis</i> before its synthesis.</p>
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<center><img width="600px" SRC="https://static.igem.org/mediawiki/2014/e/e4/Chimio2.png" alt="gene construct" style="margin-bottom:40px;"></center>
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<p class="legend">Figure 3: Construction of the chemotaxis gene</p>
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<center><a href="https://2014.igem.org/Team:Toulouse/Result/experimental-results"> <img src="https://static.igem.org/mediawiki/parts/f/fe/Jump.jpg"> </a></center>
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<p class="title1">References</p>
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<ul>
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<li class="tree"><p class="texte">K. Meibom,L. Xibing, A. Nielsen, CY. Wu, S. Roseman, and G. Schoolnik.<b> The <i>Vibrio cholerae</i> chitin utilization program </b>. The National Academy of Sciences of the USA (2004).</p></li>
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<li class="tree"><p class="texte">C. Kristich, and GW. Ordal. <b><i>Bacillus subtilis</i> CheD is a chemoreceptor modification enzyme required for chemotaxis</b>. J Biol Chem. 2002 Jul 12;277(28):25356-62. Epub 2002 May 13.<br></p></li>
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</ul>
      
      
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Latest revision as of 02:59, 18 October 2014