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

Line 23: Line 23:
 
     <div class="modal-close"></div>
 
     <div class="modal-close"></div>
 
     <div class="modal-content">
 
     <div class="modal-content">
         <h1>Description</h1>
+
       
        <p></p>
+
    <table class="c39">
        <p></p>
+
         <tbody>
        <h2>What is SynORI?</h2>
+
          <tr class="c9">
        <p>SynORI stands for synthetic origin of replication. It is a framework designed to make working with single
+
              <td class="c27" colspan="1" rowspan="1">
            and multi-plasmid systems precise, easy and on top of that - more functional.</p>
+
                <p class="c1"><span class="c12 c29">Part Number</span></p>
        <p>The SynORI framework enables scientists to build a multi-plasmid system in a standardized manner by:</p>
+
              </td>
        <ol>
+
              <td class="c10" colspan="1" rowspan="1">
            <li>Selecting the number of plasmid groups</li>
+
                <p class="c1"><span class="c12 c29">Type</span></p>
            <li>Choosing the copy number of each group</li>
+
              </td>
            <li>Picking the type of copy number control (specific to one group or regulating all of them at once).</li>
+
              <td class="c17" colspan="1" rowspan="1">
 
+
                <p class="c1"><span class="c12 c29">Name</span></p>
        </ol>
+
              </td>
        </p>
+
              <td class="c30" colspan="1" rowspan="1">
 
+
                <p class="c1"><span class="c12 c29">Brief description</span></p>
        <p></p>
+
              </td>
        <p>The framework also includes a possibility of adding a selection system that reduces the usage of antibiotics
+
              <td class="c41" colspan="1" rowspan="1">
            (only 1 antibiotic for up to 5 different plasmids!) and an active partitioning system to make sure that low
+
                <p class="c1"><span class="c12 c29">Length, nt</span></p>
            copy number plasmid groups are not lost during the division.
+
              </td>
        </p>
+
          </tr>
        <p></p>
+
          <tr class="c9">
        <div class="img-cont">
+
              <td class="c27" colspan="1" rowspan="1">
            <img src="https://static.igem.org/mediawiki/parts/8/84/Collect.png" alt="img">
+
                <p class="c1"><span class="c0">BBa_K2622025</span></p>
            <div class="img-label">
+
              </td>
            </div>
+
              <td class="c10" colspan="1" rowspan="1">
        </div>
+
                <p class="c1"><span class="c0">Composite</span></p>
        <h2>Applications</h2>
+
              </td>
        <p>
+
              <td class="c17" colspan="1" rowspan="1">
            <h5>Everyday lab work</h5>
+
                <p class="c1"><span class="c0">GJ6-His-GFP</span></p>
            <p>
+
              </td>
                A multi-plasmid system that is easy to assemble and control. With our framework the need to limit your
+
              <td class="c30" colspan="1" rowspan="1">
                research to a particular plasmid copy number just because there are not enough right replicons to
+
                <p class="c1"><span class="c0">Recombinant N-terminus histidine tagged GFP with temperature-sensitive non-coding RNA 3</span></p>
                choose from, is eliminated. With SynORI you can easily create a vector with a desired copy number that
+
              </td>
                suits your needs.</li>
+
              <td class="c31" colspan="1" rowspan="1">
            </p>
+
                <p class="c4"><span class="c0">809</span></p>
            <h5>Biological computing</h5>
+
              </td>
            <p>
+
          </tr>
                The ability to choose a wide range of copy number options and their control types will make the
+
          <tr class="c20">
                synthetic biology engineering much more flexible and predictable. Introduction of plasmid copy number
+
              <td class="c27" colspan="1" rowspan="1">
                regulation is equivalent to adding a global parameter to a computer system. It enables the coordination
+
                <p class="c1"><span class="c0">BBa_K2622026</span></p>
                of multiple gene group expression.
+
              </td>
            </p>
+
              <td class="c10" colspan="1" rowspan="1">
            <h5>Smart assembly of large protein complexes</h5>
+
                <p class="c1"><span class="c0">Composite</span></p>
            <p>
+
              </td>
                The co-expression of multi-subunit complexes using different replicons brings incoherency to an already
+
              <td class="c17" colspan="1" rowspan="1">
                chaotic cell system. This can be avoided by using SynORI, as in this framework every plasmid group uses
+
                <p class="c1"><span class="c0">Lpp-OmpA-His</span></p>
                the same type of control, and in addition can act in a group-specific manner.</p>
+
              </td>
 
+
              <td class="c30" colspan="1" rowspan="1">
            <h5>Metabolic engineering</h5>
+
                <p class="c1"><span class="c0">Recombinant C-terminus histidine tagged OmpA fused with Lpp </span></p>
            <p>
+
              </td>
                A big challenge for heterologous expression of multiple gene pathways is to accurately adjust the
+
              <td class="c31" colspan="1" rowspan="1">
                levels of each enzyme to achieve optimal production efficiency. Precise promoter tuning in
+
                <p class="c4"><span>597</span></p>
                transcriptional control and synthetic ribosome binding sites in translational control are already
+
              </td>
                widely used to maintain expression levels. In addition to current approaches, our framework allows a
+
          </tr>
                simultaneous multiple gene control. Furthermore, an inducible regulation that we offer, can make the
+
          <tr class="c46">
                search for perfect conditions a lot easier.
+
              <td class="c27" colspan="1" rowspan="1">
 
+
                <p class="c1"><span class="c0">BBa_K2622027</span></p>
 
+
              </td>
 
+
              <td class="c10" colspan="1" rowspan="1">
            </p>
+
                <p class="c1"><span class="c0">Composite</span></p>
 
+
              </td>
 
+
              <td class="c17" colspan="1" rowspan="1">
        </p>
+
                <p class="c1"><span class="c0">Mstx-Lpp-OmpA-His</span></p>
        <p>
+
              </td>
        </p>
+
              <td class="c30" colspan="1" rowspan="1">
        <table style="width:100%">
+
                <p class="c1"><span class="c0">Recombinant C-terminus histidine tagged OmpA fused with Mistic and Lpp </span></p>
<thead>
+
              </td>
<td align='center'>Species sign in ODE system</td>
+
              <td class="c31" colspan="1" rowspan="1">
<td align='center'>Species</td>
+
                <p class="c4"><span>933</span></p>
<td align='center'>Initial concentration (M)</td>
+
              </td>
</thead>
+
          </tr>
<tbody>
+
          <tr class="c35">
<tr>
+
              <td class="c27" colspan="1" rowspan="1">
<td align='center'>A</td>
+
                <p class="c1"><span class="c0">BBa_K2622028</span></p>
<td align='center'>pDNA+RNA I+RNAII early</td>
+
              </td>
<td align='center'>0</td>
+
              <td class="c10" colspan="1" rowspan="1">
</tr>
+
                <p class="c1"><span class="c0">Composite</span></p>
<tr>
+
              </td>
<td align='center'>B</td>
+
              <td class="c17" colspan="1" rowspan="1">
<td align='center'>pDNA+RNA II short</td>
+
                <p class="c1"><span class="c0">Mstx-Lpp-OmpA-GFPN</span></p>
<td align='center'>0</td>
+
              </td>
</tr>
+
              <td class="c30" colspan="1" rowspan="1">
<tr>
+
                <p class="c1"><span class="c0">Recombinant protein OmpA fused with Mistic, Lpp and GFP Nanobody</span></p>
<td align='center'>RNAI</td>
+
              </td>
<td align='center'>RNA I</td>
+
              <td class="c31" colspan="1" rowspan="1">
<td align='center'>1E-6</td>
+
                <p class="c4"><span class="c0">1272</span></p>
</tr>
+
              </td>
<tr>
+
          </tr>
<td align='center'>D</td>
+
          <tr class="c45">
<td align='center'>pDNA+RNA II long</td>
+
              <td class="c27" colspan="1" rowspan="1">
<td align='center'>0</td>
+
                <p class="c1"><span class="c0">BBa_K2622029</span></p>
</tr>
+
              </td>
<tr>
+
              <td class="c10" colspan="1" rowspan="1">
<td align='center'>E</td>
+
                <p class="c1"><span class="c0">Composite</span></p>
<td align='center'>pDNA+RNAII primer</td>
+
              </td>
<td align='center'>0</td>
+
              <td class="c17" colspan="1" rowspan="1">
</tr>
+
                <p class="c1"><span class="c0">Lpp-OmpA-GFPN</span></p>
<tr>
+
              </td>
<td align='center'>F</td>
+
              <td class="c30" colspan="1" rowspan="1">
<td align='center'>RNA II long</td>
+
                <p class="c1"><span class="c0">Recombinant protein OmpA fused with Lpp and GFP Nanobody</span></p>
<td align='center'>0</td>
+
              </td>
</tr>
+
              <td class="c31" colspan="1" rowspan="1">
<tr>
+
                <p class="c4"><span class="c0">936</span></p>
<td align='center'>G</td>
+
              </td>
<td align='center'>pDNA</td>
+
          </tr>
<td align='center'>4E-8*</td>
+
          <tr class="c28">
</tr>
+
              <td class="c27" colspan="1" rowspan="1">
<tr>
+
                <p class="c1"><span class="c0">BBa_K2622030</span></p>
<td align='center'>H</td>
+
              </td>
<td align='center'>pDNA+RNA II+RNA I late</td>
+
              <td class="c10" colspan="1" rowspan="1">
<td align='center'>0</td>
+
                <p class="c1"><span class="c0">Composite</span></p>
</tr>
+
              </td>
<tr>
+
              <td class="c17" colspan="1" rowspan="1">
<td align='center'>RNA II</td>
+
                <p class="c1"><span class="c0">Lpp-OmpA-scFv_antiVLY</span></p>
<td align='center'>RNA II</td>
+
              </td>
<td align='center'>0</td>
+
              <td class="c30" colspan="1" rowspan="1">
</tr>
+
                <p class="c1"><span class="c0">Recombinant protein OmpA fused with Lpp and scFv_antiVLY</span></p>
<tr>
+
              </td>
<td align='center'>J</td>
+
              <td class="c31" colspan="1" rowspan="1">
<td align='center'>RNAI+RNAII</td>
+
                <p class="c4"><span class="c0">1317</span></p>
<td align='center'>0</td>
+
              </td>
</tr>
+
          </tr>
</tbody>
+
          <tr class="c28">
</table>
+
              <td class="c27" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BBa_K2622031</span></p>
 +
              </td>
 +
              <td class="c10" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Composite</span></p>
 +
              </td>
 +
              <td class="c17" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Mstx-Lpp-OmpA-scFv_antiVLY</span></p>
 +
              </td>
 +
              <td class="c30" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Recombinant protein OmpA fused with Mistic, Lpp and scFv_antiVLY</span></p>
 +
              </td>
 +
              <td class="c31" colspan="1" rowspan="1">
 +
                <p class="c4"><span class="c0">1653</span></p>
 +
              </td>
 +
          </tr>
 +
          <tr class="c9">
 +
              <td class="c27" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BBa_K2622032</span></p>
 +
              </td>
 +
              <td class="c10" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Composite</span></p>
 +
              </td>
 +
              <td class="c17" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">His-IgA-Mstx</span></p>
 +
              </td>
 +
              <td class="c30" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Recombinant N-terminus histidine tagged IgA protein fused with Mistic</span></p>
 +
              </td>
 +
              <td class="c31" colspan="1" rowspan="1">
 +
                <p class="c4"><span class="c0">2001</span></p>
 +
              </td>
 +
          </tr>
 +
          <tr class="c9">
 +
              <td class="c27" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BBa_K2622033</span></p>
 +
              </td>
 +
              <td class="c10" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Composite</span></p>
 +
              </td>
 +
              <td class="c17" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">His-scFv_antiVLY</span></p>
 +
              </td>
 +
              <td class="c30" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">N-terminus histidine tagged scFv_antiVLY</span></p>
 +
              </td>
 +
              <td class="c31" colspan="1" rowspan="1">
 +
                <p class="c4"><span class="c0">927</span></p>
 +
              </td>
 +
          </tr>
 +
          <tr class="c28">
 +
              <td class="c27" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BBa_K2622034</span></p>
 +
              </td>
 +
              <td class="c10" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Composite</span></p>
 +
              </td>
 +
              <td class="c17" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">GFPN-IgA-Mstx</span></p>
 +
              </td>
 +
              <td class="c30" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Recombinant protein IgA fused with GFP Nanobody and Mistic</span></p>
 +
              </td>
 +
              <td class="c31" colspan="1" rowspan="1">
 +
                <p class="c4"><span class="c0">2286</span></p>
 +
              </td>
 +
          </tr>
 +
          <tr class="c28">
 +
              <td class="c27" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BBa_K2622035</span></p>
 +
              </td>
 +
              <td class="c10" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Composite</span></p>
 +
              </td>
 +
              <td class="c17" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">scFv_antiVGY-IgA-Mstx</span></p>
 +
              </td>
 +
              <td class="c30" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Recombinant protein IgA fused with scFv_antiVLY and Mistic</span></p>
 +
              </td>
 +
              <td class="c31" colspan="1" rowspan="1">
 +
                <p class="c4"><span class="c0">2667</span></p>
 +
              </td>
 +
          </tr>
 +
          <tr class="c28">
 +
              <td class="c27" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BBa_K2622036</span></p>
 +
              </td>
 +
              <td class="c10" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Composite</span></p>
 +
              </td>
 +
              <td class="c17" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Sw11-OmpA-His</span></p>
 +
              </td>
 +
              <td class="c30" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">C-terminus histidine tagged OmpA with temperature-sensitive non-coding RNA 11</span></p>
 +
              </td>
 +
              <td class="c31" colspan="1" rowspan="1">
 +
                <p class="c4"><span class="c0">598</span></p>
 +
              </td>
 +
          </tr>
 +
          <tr class="c28">
 +
              <td class="c27" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BBa_K2622037</span></p>
 +
              </td>
 +
              <td class="c10" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Composite</span></p>
 +
              </td>
 +
              <td class="c17" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Sw11-Mstx-OmpA-His</span></p>
 +
              </td>
 +
              <td class="c30" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Recombinant C-terminus histidine tagged OmpA fused with temperature-sensitive non-coding RNA 11 and Mistic </span></p>
 +
              </td>
 +
              <td class="c31" colspan="1" rowspan="1">
 +
                <p class="c4"><span class="c0">1082</span></p>
 +
              </td>
 +
          </tr>
 +
          <tr class="c28">
 +
              <td class="c27" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BBa_K2622038</span></p>
 +
              </td>
 +
              <td class="c10" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Composite</span></p>
 +
              </td>
 +
              <td class="c17" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Mstx-scFv_antiVLY</span></p>
 +
              </td>
 +
              <td class="c30" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Recombinant protein scFv_antiVLY fused with Mistic</span></p>
 +
              </td>
 +
              <td class="c31" colspan="1" rowspan="1">
 +
                <p class="c4"><span class="c0">1266</span></p>
 +
              </td>
 +
          </tr>
 +
          <tr class="c9">
 +
              <td class="c27" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BBa_K2622039</span></p>
 +
              </td>
 +
              <td class="c10" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Composite</span></p>
 +
              </td>
 +
              <td class="c17" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BamA-His composite</span></p>
 +
              </td>
 +
              <td class="c30" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">C-terminus histidine tagged BamA</span></p>
 +
              </td>
 +
              <td class="c31" colspan="1" rowspan="1">
 +
                <p class="c4"><span class="c0">2569</span></p>
 +
              </td>
 +
          </tr>
 +
          <tr class="c9">
 +
              <td class="c27" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BBa_K2622040</span></p>
 +
              </td>
 +
              <td class="c10" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Composite</span></p>
 +
              </td>
 +
              <td class="c17" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BamA composite</span></p>
 +
              </td>
 +
              <td class="c30" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">C-terminus histidine tagged BamA controlled by T7 promoter and terminator</span></p>
 +
              </td>
 +
              <td class="c31" colspan="1" rowspan="1">
 +
                <p class="c4"><span class="c0">2580</span></p>
 +
              </td>
 +
          </tr>
 +
          <tr class="c9">
 +
              <td class="c27" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BBa_K2622041</span></p>
 +
              </td>
 +
              <td class="c10" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Composite</span></p>
 +
              </td>
 +
              <td class="c17" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BamA composite</span></p>
 +
              </td>
 +
              <td class="c30" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BamA controlled by T7 promoter and terminator</span></p>
 +
              </td>
 +
              <td class="c31" colspan="1" rowspan="1">
 +
                <p class="c4"><span class="c0">2628</span></p>
 +
              </td>
 +
          </tr>
 +
          <tr class="c9">
 +
              <td class="c27" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BBa_K2622042</span></p>
 +
              </td>
 +
              <td class="c10" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Composite</span></p>
 +
              </td>
 +
              <td class="c17" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BamB composite</span></p>
 +
              </td>
 +
              <td class="c30" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BamB controlled by T7 promoter and terminator</span></p>
 +
              </td>
 +
              <td class="c31" colspan="1" rowspan="1">
 +
                <p class="c4"><span class="c0">1369</span></p>
 +
              </td>
 +
          </tr>
 +
          <tr class="c9">
 +
              <td class="c27" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BBa_K2622043</span></p>
 +
              </td>
 +
              <td class="c10" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Composite</span></p>
 +
              </td>
 +
              <td class="c17" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BamC composite</span></p>
 +
              </td>
 +
              <td class="c30" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BamC controlled by T7 promoter and terminator</span></p>
 +
              </td>
 +
              <td class="c31" colspan="1" rowspan="1">
 +
                <p class="c4"><span class="c0">1165</span></p>
 +
              </td>
 +
          </tr>
 +
          <tr class="c9">
 +
              <td class="c27" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BBa_K2622044</span></p>
 +
              </td>
 +
              <td class="c10" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Composite</span></p>
 +
              </td>
 +
              <td class="c17" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BamD composite</span></p>
 +
              </td>
 +
              <td class="c30" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BamD controlled by T7 promoter and terminator</span></p>
 +
              </td>
 +
              <td class="c31" colspan="1" rowspan="1">
 +
                <p class="c4"><span class="c0">865</span></p>
 +
              </td>
 +
          </tr>
 +
          <tr class="c9">
 +
              <td class="c27" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BBa_K2622045</span></p>
 +
              </td>
 +
              <td class="c10" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Composite</span></p>
 +
              </td>
 +
              <td class="c17" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BamE composite</span></p>
 +
              </td>
 +
              <td class="c30" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BamE controlled by T7 promoter and terminator</span></p>
 +
              </td>
 +
              <td class="c31" colspan="1" rowspan="1">
 +
                <p class="c4"><span class="c0">556</span></p>
 +
              </td>
 +
          </tr>
 +
          <tr class="c9">
 +
              <td class="c27" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BBa_K2622046</span></p>
 +
              </td>
 +
              <td class="c10" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Composite</span></p>
 +
              </td>
 +
              <td class="c17" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">SurA composite</span></p>
 +
              </td>
 +
              <td class="c30" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">SurA controlled by T7 promoter and terminator</span></p>
 +
              </td>
 +
              <td class="c31" colspan="1" rowspan="1">
 +
                <p class="c4"><span class="c0">1482</span></p>
 +
              </td>
 +
          </tr>
 +
          <tr class="c9">
 +
              <td class="c27" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">BBa_K2622047</span></p>
 +
              </td>
 +
              <td class="c10" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Composite</span></p>
 +
              </td>
 +
              <td class="c17" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Mstx-OmpA_full-His</span></p>
 +
              </td>
 +
              <td class="c30" colspan="1" rowspan="1">
 +
                <p class="c1"><span class="c0">Full length recombinant C-terminus histidine tagged protein OmpA fused with Mistic</span></p>
 +
              </td>
 +
              <td class="c31" colspan="1" rowspan="1">
 +
                <p class="c4"><span class="c0">1340</span></p>
 +
              </td>
 +
          </tr>
 +
        </tbody>
 +
    </table>
 
     </div>
 
     </div>
 
</div>
 
</div>

Revision as of 00:31, 18 October 2018

Composite Parts

Making Them Stronger

Composite pats that we created are used to build beta-barrel bearing protein synthesis and membrane insertion system. These parts encode recombinant proteins, that are are targeted to lipid bilayers to display different classes of antibodies.

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