Difference between revisions of "Team:TU Darmstadt/Parts"

 
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{{TU_Darmstadt}}{{TU_Darmstadt/Bootstrap}}{{TU_Darmstadt/CSS}}{{TU_Darmstadt/Homepage/SVG_HEADER}}{{TU_Darmstadt/NavBar}}{{TU_Darmstadt/Parts/Banner}}{{TU_Darmstadt/Homeboy}}
 
{{TU_Darmstadt}}{{TU_Darmstadt/Bootstrap}}{{TU_Darmstadt/CSS}}{{TU_Darmstadt/Homepage/SVG_HEADER}}{{TU_Darmstadt/NavBar}}{{TU_Darmstadt/Parts/Banner}}{{TU_Darmstadt/Homeboy}}
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                 <a href="#Basic_Parts">Basic Parts</a>
 
                 <a href="#Basic_Parts">Basic Parts</a>
 
                 <a href="#Composite_Parts">Composite Parts</a>
 
                 <a href="#Composite_Parts">Composite Parts</a>
                <a href="#invitro_Characterization">For <i>in vitro</i> Characterization</a>
 
                <a href="#Immobilization">For Immobilization on our Biofilm</a>
 
                <a href="#Kill_Switch">For our Kill Switch</a>
 
 
                 <a href="#Registry_Parts">Registry Parts</a>
 
                 <a href="#Registry_Parts">Registry Parts</a>
 
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<br>
 
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<div class="TFcontainer">
 
         <div class="containertext" id=Chapter1 >
 
         <div class="containertext" id=Chapter1 >
             <b>Due to COVID-19 </b> we were <b> not able to test </b> any of our designed parts in the lab. Nevertheless, we registered our basic parts, so <b> future teams </b> are easily able to characterize them. For our <b> Composite Parts we only uploaded one</b> for which we can provide modeling data. We refrained from uploading the others to the registry as there exists no primary literature on them, but we still provide schematic images on them. We did not submit any parts for the special prizes Best Basic Part and Best Composite Part.  
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             <b>Due to COVID-19 </b> we were <b> not able to test </b> any of our designed parts in the lab. Nevertheless, we registered our basic parts, so <b> future teams </b> are easily able to characterize them. For our <b> Composite Parts we only uploaded one</b> for which we can provide modeling data. We refrained from uploading the others to the registry as there exists no primary literature on them, but we still provide schematic images on them. We did not submit any parts for the special prizes Best Basic Part and Best Composite Part. Parts we submit for the <b>medal criterion contribution</b> are also marked with <b>this symbol:</b> &hearts;.
 
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             <a  class="anchor" id="Basic_Parts"></a>
 
             <a  class="anchor" id="Basic_Parts"></a>
<h1><b> Basic Parts </b></h1>
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<h2>Basic Parts</h2>
 
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         <div class="containertext">
 
         <div class="containertext">
 
              
 
              
All <b>basic parts</b> we implemented into the design of our are listed in the table below.  
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All <b>basic parts</b> we implemented into the design of our constructs are listed in the table below.  
 
         </div>
 
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     </div>
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     </tr>
 
     </tr>
 
  <tr>
 
  <tr>
       <td scope="row"><a href="http://parts.igem.org/Part:BBa_K3429011" target="_blank">BBa_K3429011</a></th>
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       <td scope="row"><a href="http://parts.igem.org/Part:BBa_K3429011" target="_blank">BBa_K3429011</a>&hearts;</th>
 
       <td>Coding Sequence</td>
 
       <td>Coding Sequence</td>
 
       <td>Laccase CotA</td>
 
       <td>Laccase CotA</td>
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     </tr>
 
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  <tr>
 
  <tr>
       <td scope="row"><a href="http://parts.igem.org/Part:BBa_K3429012" target="_blank">BBa_K3429012</a></th>
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       <td scope="row"><a href="http://parts.igem.org/Part:BBa_K3429012" target="_blank">BBa_K3429012</a>&hearts;</th>
 
       <td>Coding Sequence</td>
 
       <td>Coding Sequence</td>
 
       <td>Blue copper oxidase CueO</td>
 
       <td>Blue copper oxidase CueO</td>
       <td>1587</td>
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       <td>1551</td>
 
     </tr>
 
     </tr>
  
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</table>
 
</table>
 
             <a  class="anchor" id="Composite_Parts"></a>
 
             <a  class="anchor" id="Composite_Parts"></a>
<h1><b> Composite Parts </b></h1>
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<h2>Composite Parts</h2>
 
<div class="headlinebar">
 
<div class="headlinebar">
 
                 </div>
 
                 </div>
 
             <a  class="anchor" id="invitro_Characterization"></a>
 
             <a  class="anchor" id="invitro_Characterization"></a>
<h1> For <i>in vitro</i> Characterization </h1>
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<h4> For <i>in vitro</i> Characterization </h4>
 
<div class="TFcontainer">
 
<div class="TFcontainer">
 
         <div class="containertext" id=Chapter1 >
 
         <div class="containertext" id=Chapter1 >
For purification and <a href="https://2020.igem.org/Team:TU_Darmstadt/Project/Biofilm#Displaying_Enzymes" target="_blank"><i>in vitro</i> characterization</a> of our enzymes we <b> designed the following Composite Parts </b>: <i>cotA</i>, <i> cueO</i>, and <i> ereB</i>. All of these Composite Parts contain a strep-tag for purification and are optimized for <I> E. coli</I>.  
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For purification and <a href="https://2020.igem.org/Team:TU_Darmstadt/Project/Pharmaceutical_Degradation#Experimentalapproach" target="_blank"><i>in vitro</i> characterization</a> of our enzymes we <b> designed the following Composite Parts </b>: <i>cotA</i>, <i> cueO</i>, and <i> ereB</i>. All of these Composite Parts contain a strep-tag for purification and are optimized for <I> E. coli</I>.  
 
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<div class="containerimg" id=Chapter2>
 
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<figure>
 
<figure>
                 <a href="https://static.igem.org/mediawiki/2020/5/58/T--TU_Darmstadt--Composite_Pharmies.png" target="_blank"><img src="https://static.igem.org/mediawiki/2020/5/58/T--TU_Darmstadt--Composite_Pharmies.png" alt="figure" width="1000"></a>
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                 <a href="https://static.igem.org/mediawiki/2020/5/58/T--TU_Darmstadt--Composite_Pharmies.png" target="_blank"><img style="width:800px;" src="https://static.igem.org/mediawiki/2020/5/58/T--TU_Darmstadt--Composite_Pharmies.png" alt="figure"></a>
                 <figcaption id="Figure#">Figure 1: Composite parts for <i> in&nbsp;vitro</i> characterization of our enzymes </figcaption>
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                 <figcaption id="Figure#"><b>Figure 1:</b> Composite parts for <i>in &nbsp;vitro</i> characterization of our enzymes. Composite parts formed by T7 promoter, <i>lac</i> operator, the respective enzyme (including purification tag), and T7 terminator. Composite parts would have been introduced into the pET24(+) expression vector.</figcaption>
 
             </figure>
 
             </figure>
 
</div>
 
</div>
 
             <a  class="anchor" id="Immobilization"></a>         
 
             <a  class="anchor" id="Immobilization"></a>         
<h1> For Immobilization on our Biofilm </h1>
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<h4> For Immobilization on our Biofilm </h4>
 
<div class="TFcontainer">
 
<div class="TFcontainer">
 
         <div class="containertext" id=Chapter1 >
 
         <div class="containertext" id=Chapter1 >
The following parts were designed for immobilization of our enzymes on the TasA matrix protein of our <a href="https://2020.igem.org/Team:TU_Darmstadt/Project/Biofilm#Displaying_Enzymes" target="_blank"><I>B. subtilis </I> biofilm</a>. In these composite parts the <b> enzymes are genetically fused to TasA</b>. We <a href="https://2020.igem.org/Team:TU_Darmstadt/Model/Enzyme_Modeling" target="_blank">modeled</a> the structure of the TasA-EreB fusion protein via MD simulation to see whether the enzyme remains stable (<a href="http://parts.igem.org/Part:BBa_K3429013" target="_blank">BBa_K3429013</a>).  
+
The following parts were designed for immobilization of our enzymes on the <a href="https://2020.igem.org/Team:TU_Darmstadt/Project/Biofilm#Displaying_Enzymes" target="_blank">TasA matrix protein</a> of our <i>B. subtilis </i> biofilm. In these composite parts the <b> enzymes are genetically fused to TasA</b>. We <a href="https://2020.igem.org/Team:TU_Darmstadt/Model/Enzyme_Modeling" target="_blank">modeled</a> the structure of the TasA-EreB fusion protein via MD simulation to see whether the enzyme remains stable (<a href="http://parts.igem.org/Part:BBa_K3429013" target="_blank">BBa_K3429013</a>&hearts;).  
 
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<div class="containerimg" id=Chapter2>
 
<div class="containerimg" id=Chapter2>
 
         <figure>
 
         <figure>
         <a href="https://static.igem.org/mediawiki/2020/1/1d/T--TU_Darmstadt--Composite_Filmies.png" target="_blank"><img src="https://static.igem.org/mediawiki/2020/1/1d/T--TU_Darmstadt--Composite_Filmies.png" width="1000"></a>
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         <a href="https://static.igem.org/mediawiki/2020/1/1d/T--TU_Darmstadt--Composite_Filmies.png" target="_blank"><img style="width:800px;" src="https://static.igem.org/mediawiki/2020/1/1d/T--TU_Darmstadt--Composite_Filmies.png"></a>
                 <figcaption id="Figure#">Figure 2: Composite parts for immobilization on biofilm matrix </figcaption>
+
                 <figcaption id="Figure#"><b>Figure 2:</b> Composite parts for immobilization on biofilm matrix. TasA fusion proteins are flanked by the P<sub>grac</sub> promoter, <i>lacO</i> operator, and <i>trpA</i> terminator. Composite parts would have been introduced into the pSEVA3b67Rb shuttle vector.</figcaption>
 
             </figure>
 
             </figure>
 
         </div>
 
         </div>
 
             <a  class="anchor" id="Kill_Switch"></a>
 
             <a  class="anchor" id="Kill_Switch"></a>
<h1> For our Kill Switch </h1>
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<h4> For our Kill Switch </h4>
 
<div class="TFcontainer">
 
<div class="TFcontainer">
         <div class="containertext" id=Chapter1 >Donec non mauris et orci rhoncus rutrum et et nulla. Suspendisse dignissim tristique nibh, sit amet placerat neque rhoncus in. Aliquam egestas sit amet massa sed finibus. Maecenas purus tortor, dapibus sed purus nec, aliquet auctor libero. Aenean tincidunt laoreet finibus. In vitae neque blandit, iaculis ante ut, porta nisi. Etiam ut interdum quam.
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         <div class="containertext" id=Chapter1 >
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For our <a href="https://2020.igem.org/Team:TU_Darmstadt/Project/Kill_Switch#FinalKillSwitch" target="_blank">kill switch</a>, we combined already  <a href="#Registry_Parts">existing iGEM parts</a> with genetic elements of the <i> B. subtilis</i> <a href="https://2020.igem.org/Team:TU_Darmstadt/Background#Quorum%20Sensing" target="_blank">quorum sensing system</a>. Thus, generating a novel kill switch variant.
 
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</div>
 
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<br>
 
<div class="containerimg" id=Chapter2>
 
<div class="containerimg" id=Chapter2>
 
         <figure>
 
         <figure>
         <a href="https://static.igem.org/mediawiki/2020/4/46/T--TU_Darmstadt--Switchies_Part.svg" target="_blank"><img src="https://static.igem.org/mediawiki/2020/4/46/T--TU_Darmstadt--Switchies_Part.svg" width="1000"></a>
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         <a href="https://static.igem.org/mediawiki/2020/4/46/T--TU_Darmstadt--Switchies_Part.svg" target="_blank"><img style="width:800px;" src="https://static.igem.org/mediawiki/2020/4/46/T--TU_Darmstadt--Switchies_Part.svg"></a>
                 <figcaption id="Figure#">Figure 3: Composite parts for the kill switch </figcaption>
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                 <figcaption id="Figure#"><b>Figure 3: </b> Composite parts for the kill switch. The essential gene rpsB is under control of the Pveg or PdegQ promoter. Because of the orientation of the lox 66 and lox 71 recombination sites, the sequence between them can be inverted by the Cre recombinase. The gene for the Cre recombinase is under control of the xylose induced PxylA promoter.</figcaption>
 
             </figure>
 
             </figure>
 
         </div>
 
         </div>
  
 
             <a  class="anchor" id="Registry_Parts"></a>
 
             <a  class="anchor" id="Registry_Parts"></a>
<h1><b>Registry Parts</b></h1>
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<h2>Registry Parts</h2>
 
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         <div class="containertext">For our project design we <b>took advantage of the iGEM registry</b> and took several parts from it. The parts are listed in the table below. For the well characterized part <a href="http://parts.igem.org/Part:BBa_K1159000" target="_blank">BBa_K1159000</a> from iGEM TU Munich 2013 we <b>generated the missing <a href="https://2020.igem.org/Team:TU_Darmstadt/Model/Enzyme_Modeling#EreB_CM" target="_blank">modelling data</a></b>. For <a href="http://parts.igem.org/Part:BBa_K1680007" target="_blank"> BBa_K1680007</a> we provide <b>further literature information</b>.
+
         <div class="containertext">For our project design we <b>took advantage of the iGEM registry</b> and took several parts from it. The parts are listed in the table below. For the well characterized part <a href="http://parts.igem.org/Part:BBa_K1159000" target="_blank">BBa_K1159000</a> from iGEM TU Munich 2013 we <b>generated the missing <a href="https://2020.igem.org/Team:TU_Darmstadt/Model/Enzyme_Modeling#EreB_CM" target="_blank">modelling data</a></b>. For <a href="http://parts.igem.org/Part:BBa_K1680007" target="_blank"> BBa_K1680007</a> we provide <b>further literature information</b>.  
</div>
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Kleiner Text zu
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       <td scope="row"><a href="http://parts.igem.org/Part:BBa_K1680007" target="_blank">BBa_K1680007</a></th>
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       <td scope="row"><a href="http://parts.igem.org/Part:BBa_K1680007" target="_blank">BBa_K1680007</a>&hearts;</th>
 
       <td>Coding Sequence</td>
 
       <td>Coding Sequence</td>
 
       <td>Cre recombinase</td>
 
       <td>Cre recombinase</td>
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       <td scope="row"><a href="http://parts.igem.org/Part:BBa_K1159000" target="_blank">BBa_K1159000</a></th>
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       <td scope="row"><a href="http://parts.igem.org/Part:BBa_K1159000" target="_blank">BBa_K1159000</a>&hearts; </th>
 
       <td>Coding Sequence</td>
 
       <td>Coding Sequence</td>
 
       <td>Erythromycin Esterase Type II (EreB) in RFC[25]</td>
 
       <td>Erythromycin Esterase Type II (EreB) in RFC[25]</td>
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{{TU_Darmstadt/Footer}}
 
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Latest revision as of 13:24, 26 October 2020

image/svg+xml - O O



Basic Parts Composite Parts Registry Parts

Due to COVID-19 we were not able to test any of our designed parts in the lab. Nevertheless, we registered our basic parts, so future teams are easily able to characterize them. For our Composite Parts we only uploaded one for which we can provide modeling data. We refrained from uploading the others to the registry as there exists no primary literature on them, but we still provide schematic images on them. We did not submit any parts for the special prizes Best Basic Part and Best Composite Part. Parts we submit for the medal criterion contribution are also marked with this symbol: ♥.

Basic Parts

All basic parts we implemented into the design of our constructs are listed in the table below.
Part(BBa_) Type Description Length in bp
BBa_K3429000 Promoter Pgrac promoter 170
BBa_K3429001 Coding Sequence TasA matrix protein 783
BBa_K3429002 Coding Sequence Superfolder Green Fluorescent Protein (sfGFP) 712
BBa_K3429003 Coding Sequence Protein Linker for fusion proteins: ARGGGGSGGGGSGS 42
BBa_K3429004 Terminator trpA terminator 24
BBa_K3429005 Coding Sequence Ribosomal Protein S2 (rpsB) 721
BBa_K3429006 Promoter PdegQ promoter 192
BBa_K3429007 Terminator degQ terminator 36
BBa_K3429011Coding Sequence Laccase CotA 1542
BBa_K3429012Coding Sequence Blue copper oxidase CueO 1551

Composite Parts

For in vitro Characterization

For purification and in vitro characterization of our enzymes we designed the following Composite Parts : cotA, cueO, and ereB. All of these Composite Parts contain a strep-tag for purification and are optimized for E. coli.

figure
Figure 1: Composite parts for in  vitro characterization of our enzymes. Composite parts formed by T7 promoter, lac operator, the respective enzyme (including purification tag), and T7 terminator. Composite parts would have been introduced into the pET24(+) expression vector.

For Immobilization on our Biofilm

The following parts were designed for immobilization of our enzymes on the TasA matrix protein of our B. subtilis biofilm. In these composite parts the enzymes are genetically fused to TasA. We modeled the structure of the TasA-EreB fusion protein via MD simulation to see whether the enzyme remains stable (BBa_K3429013♥).

Figure 2: Composite parts for immobilization on biofilm matrix. TasA fusion proteins are flanked by the Pgrac promoter, lacO operator, and trpA terminator. Composite parts would have been introduced into the pSEVA3b67Rb shuttle vector.

For our Kill Switch

For our kill switch, we combined already existing iGEM parts with genetic elements of the B. subtilis quorum sensing system. Thus, generating a novel kill switch variant.

Figure 3: Composite parts for the kill switch. The essential gene rpsB is under control of the Pveg or PdegQ promoter. Because of the orientation of the lox 66 and lox 71 recombination sites, the sequence between them can be inverted by the Cre recombinase. The gene for the Cre recombinase is under control of the xylose induced PxylA promoter.

Registry Parts


For our project design we took advantage of the iGEM registry and took several parts from it. The parts are listed in the table below. For the well characterized part BBa_K1159000 from iGEM TU Munich 2013 we generated the missing modelling data. For BBa_K1680007 we provide further literature information.
Part(BBa_) Type Description Length in bp Part created by
BBa_K733002 Promoter PXylA promoter 1387 iGEM HKUST Hong Kong 2012
BBa_K823003 Promoter Pveg promoter 237 iGEM LMU Munich 2012
BBa_K1680007Coding Sequence Cre recombinase 1029 iGEM Tuebingen 2015
BBa_I718016 Recombination Site lox66 site 34 iGEM Paris 2007
BBa_I718017 Recombination Site lox71 site 34 iGEM Paris 2007
BBa_K1159000Coding Sequence Erythromycin Esterase Type II (EreB) in RFC[25] 1254 iGEM TU Munich 2013