Difference between revisions of "Team:Munich/Parts"

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<h1>Parts</h1>
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<p>Each team will make new parts during iGEM and will submit them to the Registry of Standard Biological Parts. The iGEM software provides an easy way to present the parts your team has created. The <code>&lt;groupparts&gt;</code> tag (see below) will generate a table with all of the parts that your team adds to your team sandbox.</p>
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<p>Remember that the goal of proper part documentation is to describe and define a part, so that it can be used without needing to refer to the primary literature. Registry users in future years should be able to read your documentation and be able to use the part successfully. Also, you should provide proper references to acknowledge previous authors and to provide for users who wish to know more.</p>
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<font size=7 color=#51a7f9><b style="color: #51a7f9">Parts</b></font>
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Our team created new BioBricks for expressing and purifying the Cas13a protein used in our CascAID system and BioBricks for investigation of degradation tags with GFP.
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<h3>Lwa Cas13a</h3>
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<p>To express the core piece of our project, Cas13a, we cloned the protein sequence - in this set of biobricks for the version of Leptotrichia Wadei- into a psB1C3-backbone and fused it with several elements of our part collection.
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By equipping the Cas13a with a T7-promoter, a Tphi-Terminator , N-terminal 6xHis/Twin-strep tag for affinity-chromatography and Sumo tag for increased solubility, we created our favorite Biobrick: <a class="myLink" href="http://parts.igem.org/Part:BBa_K2323001">BBa_K2323004</a>, customized for expression and purification of Lwa Cas13a.
  
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Other, more basic versions of this construct we submitted are BBa_K2323000 and BBa_K2323001.
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The results gained by the use of our purified Cas13a enzymes is described in <a class="myLink" href="https://2017.igem.org/Team:Munich/Readouts">readouts</a>. </p>
  
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<tr><td colspan=6><h3>TEV protease</h3>
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<p> To independently provide a tool for the removal of the affinity tag for our other Cas13a versions from Lsh and Lbu, we improved BBa_K1319004, submitted by the Aachen team 2014, coding for Tobacco Etch Virus-(TEV) protease by inserting the sequence for an N-termianl 6xHis Tag, creating <a class="myLink" href="http://parts.igem.org/Part:BBa_K2323002">BBa_K2323002</a>. This way we were able to express and purify the protease ourselves and could also show that it posesses high cleavage activity with this <a class="myLink" href="https://2017.igem.org/Team:Munich/Improve">improved BioBrick</a>.This BioBrick will be useful for any future iGEM using proteins in a cell-free system.</p>
<h5>Note</h5>
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<p>Note that parts must be documented on the <a href="http://parts.igem.org/Main_Page"> Registry</a>. This page serves to <i>showcase</i> the parts you have made. Future teams and other users and are much more likely to find parts by looking in the Registry than by looking at your team wiki.</p>
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<tr><td colspan=6><h3>Degradation Tags</h3>
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<p>We created a library of GFP-containing constructs fused to different degradation tags which are targeted by the ClpP machinery of <i>E. coli</i>. The degradation tags for <a class="myLink" href="http://parts.igem.org/Part:BBa_K2323003">BBa_K2323003</a>, <a class="myLink" href="http://parts.igem.org/Part:BBa_K2323006">BBa_K2323006</a>, <a class="myLink" href="http://parts.igem.org/Part:BBa_K2323007">BBa_K232300</a>, <a class="myLink" href="http://parts.igem.org/Part:BBa_K2323008">BBa_K2323008</a>, and <a class="myLink" href="http://parts.igem.org/Part:BBa_K2323009">BBa_K2323009</a> were pdt2E, ASV, LAA, LVA, and pdt2B, respectively.
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Further, the constructs were put under control of a pTet promoter to make them inducable by aTc.
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After induction of protein expression in cell culure and stopping the translation with Chloramphenicol, the reaction rate of degradation for the different tags was measured <b>(Figure 1)</b>. </p>
  
  
 
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<h5>Adding parts to the registry</h5>
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<p>You can add parts to the Registry at our <a href="http://parts.igem.org/Add_a_Part_to_the_Registry">Add a Part to the Registry</a> link.</p>
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<p>We encourage teams to start completing documentation for their parts on the Registry as soon as you have it available. The sooner you put up your parts, the better you will remember all the details about your parts. Remember, you don't need to send us the DNA sample before you create an entry for a part on the Registry. (However, you <b>do</b> need to send us the DNA sample before the Jamboree. If you don't send us a DNA sample of a part, that part will not be eligible for awards and medal criteria.)</p>
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<h5>What information do I need to start putting my parts on the Registry?</h5>
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<p>The information needed to initially create a part on the Registry is:</p>
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<li>Part Name</li>
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<li>Part type</li>
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<li>Creator</li>
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<li>Sequence</li>
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<p>
We encourage you to put up <em>much more</em> information as you gather it over the summer. If you have images, plots, characterization data and other information, please also put it up on the part page. </p>
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<b>Figure 1</b>: First order kinetics of degradation for different protein-degradation tags.
 
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<p> Since these tags promote degradation at different rates which are described here and in more detail on the respective  <a class="myLink" href="http://parts.igem.org/wiki/index.php?title=Part:BBa_K2323003">registry page</a>, this degradation tag library can be used by future teams for creation and fine-tuning of bacterial systems.
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<h5>Inspiration</h5>
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<p>We have a created  a <a href="http://parts.igem.org/Well_Documented_Parts">collection of well documented parts</a> that can help you get started.</p>
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<p> You can also take a look at how other teams have documented their parts in their wiki:</p>
 
<ul>
 
<li><a href="https://2014.igem.org/Team:MIT/Parts"> 2014 MIT </a></li>
 
<li><a href="https://2014.igem.org/Team:Heidelberg/Parts"> 2014 Heidelberg</a></li>
 
<li><a href="https://2014.igem.org/Team:Tokyo_Tech/Parts">2014 Tokyo Tech</a></li>
 
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<h5>Part Table </h5>
 
 
<p>Please include a table of all the parts your team has made during your project on this page. Remember part characterization and measurement data must go on your team part pages on the Registry. </p>
 
 
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<groupparts>iGEM17 Munich</groupparts>
 
<groupparts>iGEM17 Munich</groupparts>
 
 
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Latest revision as of 03:47, 2 November 2017

Description

Design

Demonstrate

Measurement

Applied Design

Final Results

Achievements

Protocols

Notebook

Safety

Parts

Improved Part

Part Collection

InterLab

Model

Software

Collaboration

Detector

Quake Valve

Paperstrips

Sample Processing

Silver

Gold

Engagement

Collaborations

Team members

Sponsors

Attributions

Gallery

Parts

Our team created new BioBricks for expressing and purifying the Cas13a protein used in our CascAID system and BioBricks for investigation of degradation tags with GFP.

Lwa Cas13a

To express the core piece of our project, Cas13a, we cloned the protein sequence - in this set of biobricks for the version of Leptotrichia Wadei- into a psB1C3-backbone and fused it with several elements of our part collection. By equipping the Cas13a with a T7-promoter, a Tphi-Terminator , N-terminal 6xHis/Twin-strep tag for affinity-chromatography and Sumo tag for increased solubility, we created our favorite Biobrick: BBa_K2323004, customized for expression and purification of Lwa Cas13a. Other, more basic versions of this construct we submitted are BBa_K2323000 and BBa_K2323001. The results gained by the use of our purified Cas13a enzymes is described in readouts.

TEV protease

To independently provide a tool for the removal of the affinity tag for our other Cas13a versions from Lsh and Lbu, we improved BBa_K1319004, submitted by the Aachen team 2014, coding for Tobacco Etch Virus-(TEV) protease by inserting the sequence for an N-termianl 6xHis Tag, creating BBa_K2323002. This way we were able to express and purify the protease ourselves and could also show that it posesses high cleavage activity with this improved BioBrick.This BioBrick will be useful for any future iGEM using proteins in a cell-free system.

Degradation Tags

We created a library of GFP-containing constructs fused to different degradation tags which are targeted by the ClpP machinery of E. coli. The degradation tags for BBa_K2323003, BBa_K2323006, BBa_K232300, BBa_K2323008, and BBa_K2323009 were pdt2E, ASV, LAA, LVA, and pdt2B, respectively. Further, the constructs were put under control of a pTet promoter to make them inducable by aTc. After induction of protein expression in cell culure and stopping the translation with Chloramphenicol, the reaction rate of degradation for the different tags was measured (Figure 1).

Figure 1: First order kinetics of degradation for different protein-degradation tags.

Since these tags promote degradation at different rates which are described here and in more detail on the respective registry page, this degradation tag library can be used by future teams for creation and fine-tuning of bacterial systems.

<groupparts>iGEM17 Munich</groupparts>