Difference between revisions of "Team:Vilnius-Lithuania/Description"

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                   </td>
 
                   </td>
 
                   <td class="c43" colspan="1" rowspan="1">
 
                   <td class="c43" colspan="1" rowspan="1">
                     <p class="c7"><span class="c17">10</span><span class="c17 c31">7</span></p>
+
                     <p class="c7"><span class="c17">10</span><span class="c17 c31"><sup>7</sup></span></p>
 
                   </td>
 
                   </td>
 
               </tr>
 
               </tr>
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                         <li class="c34"><span class="c2">The low display rate can be a drawback. In the first round of panning where very few binders are to be enriched from a huge excess of unwanted phages, phages that are mostly &ldquo;bald&rdquo; can reduce the accessible molecular diversity of the library and the efficiency of the system</span></li>
 
                         <li class="c34"><span class="c2">The low display rate can be a drawback. In the first round of panning where very few binders are to be enriched from a huge excess of unwanted phages, phages that are mostly &ldquo;bald&rdquo; can reduce the accessible molecular diversity of the library and the efficiency of the system</span></li>
 
                         <li class="c34"><span class="c2">If selection is done on cells, non specific phage binding is observed, due to phage protein interaction with cell membrane proteins </span></li>
 
                         <li class="c34"><span class="c2">If selection is done on cells, non specific phage binding is observed, due to phage protein interaction with cell membrane proteins </span></li>
                         <li class="c62"><span class="c17">In phage display, libraries must be transformed into bacteria, limiting the number of possible independent sequences to 10</span><span class="c17 c31">9</span><span class="c17">&ndash;10</span><span class="c17 c31">10</span></li>
+
                         <li class="c62"><span class="c17">In phage display, libraries must be transformed into bacteria, limiting the number of possible independent sequences to 10</span><span class="c17 c31"><sup>9</sup></span><span class="c17">&ndash;10</span><span class="c17 c31"><sup>10</sup></span></li>
 
                     </ul>
 
                     </ul>
 
                   </td>
 
                   </td>
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                       </td>
 
                       </td>
 
                       <td class="c0" colspan="1" rowspan="1">
 
                       <td class="c0" colspan="1" rowspan="1">
                         <p class="c7"><span class="c17">10</span><span class="c17 c31">13-14</span></p>
+
                         <p class="c7"><span class="c17">10</span><span class="c17 c31"><sup>13-14</sup></span></p>
 
                       </td>
 
                       </td>
 
                   </tr>
 
                   </tr>
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                       </td>
 
                       </td>
 
                       <td class="c0" colspan="1" rowspan="1">
 
                       <td class="c0" colspan="1" rowspan="1">
                         <p class="c12"><span class="c17">High affinity binders can be generated after 1</span><span class="c17 c31">st </span><span class="c2">round of selection, but most of the time, multiple rounds are done</span></p>
+
                         <p class="c12"><span class="c17">High affinity binders can be generated after 1</span><span class="c17 c31"><sup>st</sup> </span><span class="c2">round of selection, but most of the time, multiple rounds are done</span></p>
 
                       </td>
 
                       </td>
 
                   </tr>
 
                   </tr>
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                       </td>
 
                       </td>
 
                       <td class="c0" colspan="1" rowspan="1">
 
                       <td class="c0" colspan="1" rowspan="1">
                         <p class="c7"><span class="c17">Stable in Mg</span><span class="c17 c31">2+</span></p>
+
                         <p class="c7"><span class="c17">Stable in Mg</span><span class="c17 c31"><sup>2+</sup></span></p>
 
                       </td>
 
                       </td>
 
                   </tr>
 
                   </tr>
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                       <td class="c0" colspan="1" rowspan="1">
 
                       <td class="c0" colspan="1" rowspan="1">
 
                         <ul class="c20 lst-kix_8k5bwrjmi1qe-0 start">
 
                         <ul class="c20 lst-kix_8k5bwrjmi1qe-0 start">
                             <li class="c34"><span class="c17">Fast generation of big library as the complex is stabilized by Mg</span><span class="c17 c31">2+ </span><span class="c2">and can be readily dissociated by the addition of EDTA</span></li>
+
                             <li class="c34"><span class="c17">Fast generation of big library as the complex is stabilized by Mg</span><span class="c17 c31"><sup>2+</sup> </span><span class="c2">and can be readily dissociated by the addition of EDTA</span></li>
                             <li class="c34"><span class="c17">A signi&#64257;cant advantage of </span><span class="c5">in vitro</span><span class="c2">&nbsp;translation methods is the ability to modify the genetic code to allow the incorporation of non-canonical, unnatural amino acids, to give molecules with novel properties, such as cyclic peptides with increased serum, stability </span></li>
+
                             <li class="c34"><span class="c17">A signi&#64257;cant advantage of </span><span class="c5"><var>in vitro</var></span><span class="c2">&nbsp;translation methods is the ability to modify the genetic code to allow the incorporation of non-canonical, unnatural amino acids, to give molecules with novel properties, such as cyclic peptides with increased serum, stability </span></li>
 
                             <li class="c62"><span class="c2">Rapid isolation and direct evolution of high-affinity functional proteins, particularly antibodies</span></li>
 
                             <li class="c62"><span class="c2">Rapid isolation and direct evolution of high-affinity functional proteins, particularly antibodies</span></li>
 
                         </ul>
 
                         </ul>
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                           </td>
 
                           </td>
 
                           <td class="c21" colspan="1" rowspan="1">
 
                           <td class="c21" colspan="1" rowspan="1">
                             <p class="c7"><span class="c17">10</span><span class="c17 c31">10</span></p>
+
                             <p class="c7"><span class="c17">10</span><span class="c17 c31"><sup>10</sup></span></p>
 
                           </td>
 
                           </td>
 
                       </tr>
 
                       </tr>
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                               </td>
 
                               </td>
 
                               <td class="c39" colspan="1" rowspan="1">
 
                               <td class="c39" colspan="1" rowspan="1">
                                 <p class="c7"><span class="c17">10</span><span class="c17 c31">14 </span></p>
+
                                 <p class="c7"><span class="c17">10</span><span class="c17 c31"><sup>14</sup> </span></p>
 
                               </td>
 
                               </td>
 
                           </tr>
 
                           </tr>
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                                   </td>
 
                                   </td>
 
                                   <td class="c21" colspan="1" rowspan="1">
 
                                   <td class="c21" colspan="1" rowspan="1">
                                     <p class="c7"><span class="c17">10</span><span class="c17 c31">7</span></p>
+
                                     <p class="c7"><span class="c17">10</span><span class="c17 c31"><sup>7</sup></span></p>
 
                                   </td>
 
                                   </td>
 
                               </tr>
 
                               </tr>
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                                       </td>
 
                                       </td>
 
                                       <td class="c21" colspan="1" rowspan="1">
 
                                       <td class="c21" colspan="1" rowspan="1">
                                         <p class="c7"><span class="c17">Up to 10</span><span class="c17 c31">14</span></p>
+
                                         <p class="c7"><span class="c17">Up to 10</span><span class="c17 c31"><sup>14</sup></span></p>
 
                                       </td>
 
                                       </td>
 
                                   </tr>
 
                                   </tr>
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                                           </td>
 
                                           </td>
 
                                           <td class="c30" colspan="1" rowspan="1">
 
                                           <td class="c30" colspan="1" rowspan="1">
                                             <p class="c7"><span class="c17">10</span><span class="c17 c31">7</span></p>
+
                                             <p class="c7"><span class="c17">10</span><span class="c17 c31"><sup>7</sup></span></p>
 
                                           </td>
 
                                           </td>
 
                                       </tr>
 
                                       </tr>
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                                               </td>
 
                                               </td>
 
                                               <td class="c30" colspan="1" rowspan="1">
 
                                               <td class="c30" colspan="1" rowspan="1">
                                                 <p class="c7"><span class="c17 c51">10</span><span class="c17 c51 c31">10</span></p>
+
                                                 <p class="c7"><span class="c17 c51">10</span><span class="c17 c51 c31"><sup>10</sup></span></p>
 
                                               </td>
 
                                               </td>
 
                                           </tr>
 
                                           </tr>
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                                     </table>
 
                                     </table>
 
                                     <p></p>
 
                                     <p></p>
                                     <h2>Liposome DIsplay</h2>
+
                                     <h2>Liposome Display</h2>
 
                                     <p>fotkes</p>
 
                                     <p>fotkes</p>
 
                                     <table class="c65">
 
                                     <table class="c65">
Line 1,058: Line 1,058:
 
                                                   </td>
 
                                                   </td>
 
                                                   <td class="c13" colspan="1" rowspan="1">
 
                                                   <td class="c13" colspan="1" rowspan="1">
                                                     <p class="c7"><span class="c17">10</span><span class="c17 c31">7</span></p>
+
                                                     <p class="c7"><span class="c17">10</span><span class="c17 c31"><sup>7</sup></span></p>
 
                                                   </td>
 
                                                   </td>
 
                                               </tr>
 
                                               </tr>

Revision as of 03:07, 18 October 2018

Description

Describe the Impossible

Cell-free systems are becoming an increasingly popular in vitro tool to study biological processes as it is accompanied by less intrinsic and extrinsic noise. Relying on fundamental concepts of synthetic biology, we apply a bottom-up forward engineering approach to create a novel cell-free system for unorthodox protein-evolution. The core of this system is cell-sized liposomes that serve as excellent artificial membrane models. By encapsulating genetic material and full in vitro protein transcription and translation systems within the liposomes, we create reliable and incredibly efficient nanofactories for the production of target proteins. Even though there are many alternative proteins that can be synthesized, our main focus is directed towards membrane proteins, which occupy approximately one third of living-cells’ genomes. Considering their significance, membrane proteins are spectacularly understudied since synthesis and thus characterization of them remain prevailing obstacles to this day. We aim to utilize liposomes as nanofactories for directed evolution of membrane proteins. Furthermore, by means of directed membrane protein-evolution, a universal exposition system will be designed in order to display any protein of interest on the surface of the liposome. This way, a system is built where a phenotype of a particular protein is expressed on the outside while containing its genotype within the liposome. To prove the concept, small antibody fragments will be displayed to create a single-chain variable fragment (scFv) library for rapid screening of any designated target.

invert