Difference between revisions of "Team:Edinburgh UG/Collaborations"

 
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                   <a class="dropdown-item" href="https://2018.igem.org/Team:Edinburgh_UG/Parts">Parts Overview</a>
 
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                 <a class="nav-link" href="https://2018.igem.org/Team:Edinburgh_UG/Safety">Safety <span class="sr-only">(current)</span></a>
 
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          Human Practices
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                  <a class="dropdown-item" href="https://2018.igem.org/Team:Edinburgh_UG/Human_Practices">Human Practices</a>
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                 <a class="nav-link" href="https://igem.org/2018_Judging_Form?team=Edinburgh_UG">Judging Form <span class="sr-only">(current)</span></a>
 
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<li class="nav-item active">
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                <a class="nav-link" href="https://2018.igem.org/Team:Edinburgh_UG/Medal_Criteria">Medal Criteria<span class="sr-only">(current)</span></a>
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               <h1 class="brand-heading">Collaborations</h1>
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               <h1 class="brand-heading" align="center">Collaborations</h1>
 
               <p class="intro-text"></p>
 
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             <h2 style="text-align:left">Let's do something together!</h2>
 
             <h2 style="text-align:left">Let's do something together!</h2>
             <p style="text-align:left"> Collaboration in science is one of the most important steps to succeed. You are very good at your field but struggling in the other? It is not a problem at all when you are open and you are not afraid to ask for help or you can help someone. Meeting other people while doing a science project is also essential. Other people with their fresh mind might easily notice why something may go wrong, suggest new ideas or just share their opinion. So, let's collaborate! </p>
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             <p style="text-align:left"> Collaboration in science is one of the most important steps to success. You are very good in your field but still, some piece of a puzzle is missing in order to see the whole picture? It is not a problem at all if you are open and not afraid to ask for help or to offer yours. Meeting other people while working on a science project is also essential. Other people with their fresh mind might easily notice a reason why something is not working properly, suggest solutions or inspire with a new direction. So, let's collaborate! </p>
  
 
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<hr></hr>
 
<hr></hr>
  
     <!-- Meetups section -->
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     <!-- Modelling Collaboration section -->
 
     <section id="about" class="content-section text-center">
 
     <section id="about" class="content-section text-center">
 
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             <h2 style="text-align:left">Meetups</h2>
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             <h2 style="text-align:left"><b>Team Vilnius-Lithuania Collaboration</b></h2>
             <p style="text-align:left">As one of the most important collaborations we attendend two meetups and hosted one as well. </p>
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             <p style="text-align:left"> We were fortunate to enjoy a productive collaboration with Team Vilnius-Lithuania over the summer. We were able to contribute a mechanistic model of the PURE cell free system which is documented in detail on our <a href="https://2018.igem.org/Team:Edinburgh_UG/Modelling_Collaboration">modelling collaboration page</a>. Team Vilnius-Lithuania worked with us on wet lab protocols for the characterisation of DNA degrading switch which are outlined here.</p>
 +
 
 +
            <h2 style="text-align:left">DNA Degradation Switch Protocols</h2>
 +
  
             <h2 style="text-align:left">iGEM UK Meetup</h2>
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             <h2 style="text-align:left">1. Introduction </h2>
            <p style="text-align:left"> As our first meetup we attended iGEM meetup UK which was organised by SynBioUK and hosted by University of Oxford iGEM team agt 12th-13th July 2018. It was an amazing experience to talk with other people from the same field about our project getting very valuable feedback. Moreover, it was one of the first experience to present our project as well. Useful workshops made us to stop for a bit and rethink some of the aspects about or project. We are still excited about it. </p>
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                <img src="https://static.igem.org/mediawiki/2018/5/5e/T--Edinburgh_UG--ukmeet.jpeg" style="width:100%">
 
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    </section>
 
  
 
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             <p style="text-align:left"> Our DNA Degrading Switch requires the transformation of 2 plasmids prior to maxicell induction in order to function.</p>
<hr></hr>
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              <ul><li style="text-align:left">Construct pImm contains a coding sequence for DNase Colicin E2’s immunity protein Imm2 and an upstream recognition site for homing endonuclease I-SceI.</li>
 
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                  <li style="text-align:left">Construct pCol contains a coding sequence for DNase Colicin E2.</li>  
    <!-- Results Section -->
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                </ul> 
    <section id="about" class="content-section text-center">
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<p style="text-align:left">By transforming pImm into DL2524 (maxicell progenitor strain) culturing successful transformants, transforming construct pCol and carrying out maxicell induction the DNA degrading switch becomes active. By exposing DL2524 to arabinose homing endonuclease <i>I-SceI</i> is induced, this degrades the chromosome of DL2524 and linearises pImm preventing further expression of <i>imm2</i>. With its immunity protein no longer being expressed Colicin E2 should become active around 24 hrs later degrading the DNA remaining within our Maxicell.</p>
      <div class="container">
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             <h2 style="text-align:left">2. Edinburgh to Vilnius Delivery Contents</h2>
        <div class="row">
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             <p style="text-align:left"> </p>
          <div class="col-lg-8 mx-auto">
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             <h2 style="text-align:left">Results</h2>
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            <h2 style="text-align:left">Calibration</h2>
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            <h2 style="text-align:left">OD600 Reference Point</h2>
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            <p style="text-align:left">Absorbance of 0.051 of LUDOX CL-X was obtained with standard deviation of 0.005 while double distilled water had all four replicates at the same value of 0.034, implying that both measurements were done precisely.</p>
+
             <h2 style="text-align:left">Particle Standard Curve</h2>
+
             <p style="text-align:left">Particle standard curve was obtained with R<sup>2</sup> value of 0.998 (Figure 1). However, logarithmic scale graph (Figure 2) represented less accurate measurement than linear curve (R<sup>2</sup>=0.993, red line), as linear graph was obtained only in high concentration of particles. Not very high precision may be due to the low absorbance values that is not in a plate reader range or when the absorbance is less than 0.1. Analysing the calibration curve in higher concentrations only, linear fit represented high accuracy in logarithmic scale with R<sup>2</sup>=0.998. </p>
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             <figure class="figure">
 
             <figure class="figure">
   <img src="https://static.igem.org/mediawiki/2018/1/15/T--Edinburgh_UG--interlab1.jpg" class="figure-img img-fluid rounded">
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<div class="container">         
  <figcaption class="figure-caption">Figure 1. Particle standard curve obtained of a dilution series of monodisperse silica microspheres by measuring OD<sub>600</sub></figcaption>
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   <table class="table">
 +
    <thead>
 +
      <tr>
 +
        <th><b>Tube Label</b></th>
 +
        <th><b>Contents</b></th>
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      </tr>
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    </thead>
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    <tbody>
 +
      <tr>
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        <td>DL2524 Culture</td>
 +
        <td align="left">Liquid culture of the strain DL2524 (LB with chloramphenicol and 0.5% glucose).</td>
 +
      </tr>
 +
      <tr>
 +
        <td>DL2524 STAB </td>
 +
        <td align="left">DL2524 in nutrient agar with chloramphenicol and 0.5% glucose.</td>
 +
      </tr>
 +
      <tr>
 +
        <td>ISce-1 Imm2 1 </td>
 +
        <td align="left">pSB1C3 with ISce-1 site and Imm2 genes.</td>
 +
      </tr>
 +
      <tr>
 +
        <td>ISce-1 Imm2 8</td>
 +
        <td align="left">pSB1C3 with ISce-1 site and Imm2 genes.</td>
 +
      </tr>
 +
      <tr>
 +
        <td>E2 2</td>
 +
        <td align="left">Full Colicin E2 gene with BioBrick prefix and suffix</td>
 +
      </tr>
 +
      <tr>
 +
        <td>E2 4 </td>
 +
        <td align="left">Full Colicin E2 gene with BioBrick prefix and suffix </td>
 +
      </tr>
 +
      <tr>
 +
        <td>1st </td>
 +
        <td align="left">gBlock of 1st half of Colicin E2 gene (with over lap for 2nd part)</td>
 +
      </tr>
 +
      <tr>
 +
        <td>2nd</td>
 +
        <td align="left">gBlock of 2nd half of Colicin E2 gene </td>
 +
      </tr>
 +
 
 +
    </tbody>
 +
  </table>
 +
</div>
 +
  <figcaption class="figure-caption">Table 1: Delivery Contents</figcaption>
 
</figure>
 
</figure>
             <figure class="figure">
+
             <h2 style="text-align:left">3. Protocols</h2>
  <img src="https://static.igem.org/mediawiki/2018/4/41/T--Edinburgh_UG--interlab2.jpg" class="figure-img img-fluid rounded">
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            <p style="text-align:left"> <b>3.1 Make DL2524 Competent</b></p>
  <figcaption class="figure-caption">Figure 2. Particle standard curve (logarithmic scale) obtained of a dilution series of monodisperse silica microspheres by measuring OD<sub>600</sub> </figcaption>
+
             <p style="text-align:left"> DL2524 needs to be made competent before it can be transformed.</p>
</figure>
+
<p style="text-align:left"> • Inoculate a single colony of DL2524 into 10 ml LB and culture overnight</p>
       
+
<p style="text-align:left"> • Inoculate 100 ml LB with 1 ml overnight culture.</p>
             <h2 style="text-align:left">Fluoresence Standard Curve</h2>
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<p style="text-align:left"> • Incubate at 37 °C, 220rpm until OD<sub>600</sub> = 0.3-0.6 (approx. 2 hrs).</p>
            <p style="text-align:left">Fluoresence measurement may be considered as accurate as the data in both graphs (Figure 3 and Figure 4 for logarithmic scale) fit to a line with a value of R2 very close to 1. The slope on logarithmic scale is very close to 1 as well (slope = 0.969, Figure 4) which suggest that the data is considerably good. </p>
+
<p style="text-align:left"> • Transfer to 2 x 50 ml Falcon and leave on ice for 30 mins.</p>
 
+
<p style="text-align:left"> • Centrifuge at 400 x g, 5 mins, 4 °C.</p>
            <figure class="figure">
+
<p style="text-align:left"> • Resuspend pellet gently in 25 ml ice cold 0.1 M CaCl<sub>2</sub></p>
  <img src="https://static.igem.org/mediawiki/2018/b/bd/T--Edinburgh_UG--interlab3.jpg" class="figure-img img-fluid rounded">
+
<p style="text-align:left"> • Incubate on ice for 30 min.</p>
  <figcaption class="figure-caption">Figure 3. Fluorescein standard curve obtained by making a series of dilutions of fluorescein</figcaption>
+
<p style="text-align:left"> • Centrifuge at 4000 x g, 5 min, 4 °C.</p>
</figure>
+
<p style="text-align:left"> • Resuspend pellet gently in 1.25 mLice cold CaCl<sub>2</sub>/Glycerol solution (1.7 mL 0.1 M CaCl<sub>2</sub>, 0.3 ml 100 % glycerol).</p>
            <figure class="figure">
+
<p style="text-align:left"> • Aliquot 100 µl and flash freeze on dry ice. Store at – 80 °C. Aliquot 100 µl and flash freeze on dry ice. Store at – 80 °C.
  <img src="https://static.igem.org/mediawiki/2018/e/e4/T--Edinburgh_UG--interlab4.jpg" class="figure-img img-fluid rounded">
+
</p>
  <figcaption class="figure-caption">Figure 4. Fluorescein standard curve obtained by making a series of dilutions of fluorescein (logarithmic scale) </figcaption>
+
</figure>
+
       
+
            <h2 style="text-align:left">Cell Measurement</h2>
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            <h2 style="text-align:left">Absorbance and fluorescence measurement using a plate reader </h2>
+
            <p style="text-align:left">As the absorbance increased in time in all devices and both (positive and negative) controls (Figure 5), it suggests that cells grew in all devices during 6 hours time period, indicating that negative control grew slowest, then TD1 and TD4 grew slightly faster, while all the other devices were similar in the speed of growth. There is no significant relation between cells growth and fluorescence as an order of increasing absorbance or fluorescence varies among different test devices. As expected, negative control has no significant fluorescence. Least measurement of fluorescence was obtained in Test Device 4 and highest was obtained in Test Device 2.</p>
+
          <figure class="figure">
+
  <img src="https://static.igem.org/mediawiki/2018/1/18/T--Edinburgh_UG--interlab5.jpg" class="figure-img img-fluid rounded">
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  <figcaption class="figure-caption">Figure 5. FLuorescence and optical density measurement (600 nm) for all devices tested. </figcaption>
+
</figure>
+
     
+
            <h2 style="text-align:left">Colony forming units</h2>
+
            <p style="text-align:left">No correlation was observed among colony forming units (CFU) and absorption as only in the highest dilution factor (8 *10<sup>8</sup>) concentration of the overnight cultures  was countable (less than 300 colonies formed). </p>
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          </div>
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      </div>
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    </section>
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+
<hr></hr>
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+
 
+
  
 +
            <p style="text-align:left"> <b>3.2 Constructing pCol</b></p>
 +
            <p style="text-align:left"> The first step is to digest product from tube E2 2 to give BioBrick overhangs. By using the digestion protocol from <a href="http://parts.igem.org/Help:Protocols/Linearized_Plasmid_Backbones"> Linearized Plasmid Backbones </a> but substituting 4 ul of linearized plasmid backbone this part can be obtained and will now to referenced as E2. Having obtained E2 this needs to be inserted into plasmid pSB1T3 from the iGEM distribution kit again using the digestion protocol and now the ligation protocol from <a href="http://parts.igem.org/Help:Protocols/Linearized_Plasmid_Backbones"> here </a> </p>
  
 +
            <p style="text-align:left"> <b>3.3 Transforming pImm </b></p>
 +
            <p style="text-align:left"> pImm needs to be transformed into strain DL2524 allowing Imm2 to build up in cells before transformation of pCol and production of DNase Colicin E2.</p>
 +
<p style="text-align:left">• Add 8ul of pImm to 50 uL of competent DL2524 culture.</p>
 +
<p style="text-align:left">• Incubate on ice for 30 minutes.</p>
 +
<p style="text-align:left">• Heat shock for 60 seconds in 45 °C water bath.</p>
 +
<p style="text-align:left">• Incubate on ice for 2 minutes.</p>
 +
<p style="text-align:left">• Incubate at 37 °C for 1 hour.</p>
 +
<p style="text-align:left">• Plate on agar supplemented with 25 µg/ml ampicillin and add to 37 °C incubator. </p>
  
 +
            <p style="text-align:left"> <b>3.4 Transforming pCol </b></p>
 +
            <p style="text-align:left"> Having allowed Immunity Protein Imm2 to build up in cells overnight it is now possible to transform pCol into cells which will have an immunity to DNase activity due to build up of Imm2. Firstly we need to pick colonies that have been transformed with pImm previously and add to LB prepared with 0.5% glucose. Incubate at 37 °C for 1 hour. We can now follow the same transformation protocol as previously.</p>
 +
<p style="text-align:left">• Add 8 µl of pCol to 50 µl of DL2524 culture.</p>
 +
<p style="text-align:left">• Incubate on ice for 30 minutes.</p>
 +
<p style="text-align:left">• Heat shock for 60 seconds in 45 °C water bath.</p>
 +
<p style="text-align:left">• Incubate on ice for 2 minutes.</p>
 +
<p style="text-align:left">• Incubate at 37 °C for 1 hour.</p>
 +
<p style="text-align:left">• Plate on agar supplemented with 25 µg/ml Tetracycline and 25 µg/ml Ampicillin and add to the 37 °C incubator. Having grown overnight pick colonies once again and prepare 1.5 ml overnight culture in LB with 25 µg/ml Tetracycline 25 µg/mL Ampicillin and 0.5% glucose in falcon tube shaking in 37 °C water bath. </p>
  
  
 +
            <p style="text-align:left"> <b>3.5 Maxicell Induction </b></p>
 +
            <p style="text-align:left"> Our maxicell progenitor strain has now been transformed with all the parts necessary for operation of our DNA degrading switch. Maxicell induction will activate the kill switch due to expression of homing endonuclease I-SceI linearizing pImm. To perform DL2524 maxicell induction:</p>
 +
<p style="text-align:left">• Measure OD<sub>600</sub> of overnight culture.</p>
 +
<p style="text-align:left">• Dilute culture at 0.025 OD<sub>600</sub> in LB with 0.2 % glucose.</p>
 +
<p style="text-align:left">• Grow for 80 minutes at 37 °C.</p>
 +
<p style="text-align:left">• Dilute culture 10 times with 0.5% arabinose and LB.</p>
 +
<p style="text-align:left">• Incubate at 37 °C shaking gently. </p>
  
 +
<p style="text-align:left"> <b>3.6 Validation </b></p>
 +
<p style="text-align:left"> In order to observe the DNA degradation as a result of our switches activation we propose to run gel electrophoresis periodically over the 24hours after maxicell induction. We would expect to see a number of small DNA fragments from the maxicells degraded chromosome and bands corresponding to our 2 constructs pImm and pCol. After degradation switch activation we would expect to observe the bands corresponding to our plasmid constructs dissapear as Colicin E2 degrades maxicell DNA. Due to our need to visualise potentially very small DNA fragments we propose to use SYBR Green I Nucleic Acid Gel Stain or some similar high sensitivity strain.</p>
  
  
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    </section>
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</div>
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 +
<hr></hr>
  
  
  
  
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    <!-- Meetups section -->
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    <section id="about" class="content-section text-center">
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            <h2 style="text-align:left"><b>Meetups</b></h2>
 +
            <p style="text-align:left">iGEM teams meetups was some of the most useful collaborations we had. Constructive critique we got during meetups and new ideas ideas we heard from meetups attendees and organisers had a huge impact on our project.</p>
  
 +
            <h2 style="text-align:left">Scottish iGEM Meetup</h2>
 +
            <p style="text-align:left"> As our first meetup we attended Scottish iGEM Meetup which was held at The University of St Andrews and hosted by St Andrews iGEM 2018 team at 3rd of July. Hence, all three Scottish teams participated (St Andrews, Edinburgh_OG and us). We first presented our projects, had a discussion about them and as well we had some talks on useful topics as human practices, collaborations, etc. We were delighted to talk with Will Wright, Europen Ambassador of iGEM  community.</p>
  
  
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        <td> <img src="https://static.igem.org/mediawiki/2018/c/c6/T--Edinburgh_UG--standre.jpeg" style="width:100%"></td>
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        <td> <img src="https://static.igem.org/mediawiki/2018/1/13/T--Edinburgh_UG--stpres.jpeg" style="width:100%"></td>
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            <h2 style="text-align:left">iGEM UK Meetup</h2>
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            <p style="text-align:left"> We attended iGEM meetup UK which was organised by SynBioUK and hosted by University of Oxford iGEM team at 12th-13th July 2018. It was an amazing experience to meet almost all UK teams and talk with our collegues from the same field about projects, and getting very valuable feedback. Moreover, it was one of the first experience to present our project as well. We attended a number of workshops and talks of speakers, some of them being Dr. John Collins, Dr. Tom Ellis, Dr. Piers Millet, and Dr. Karen Polizzi. </p>
  
  
  
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            <h2 style="text-align:left">Hosting Meetup with Newcastle team</h2>
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            <p style="text-align:left">If you have ever heard about The Edinburgh Festival Fringe (the world's largest arts festival) you probably know how crazy it gets with hundreds of thousands of people hanging around. Thus, on 20th of August, we decided to step back for one day from wet lab work and invited Newcastle iGEM team to talk and discuss our projects and then to see some comedy shows afterwards. Both teams had some comments for each other, and we were very happy to share the experience. </p>
  
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    <!-- All the other collaborations  -->
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            <h2 style="text-align:left">Bits and pieces</h2>
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            <p style="text-align:left">Besides meetups, labwork, we also had talks and chats with many other iGEM teams, as it always nice to have a chat about something different. </p>
  
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            <h2 style="text-align:left">Mike the Microbe</h2>
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            <p style="text-align:left"> Mike the microbe from Carroll iGEM team visited us. It was so nice to have a picture of a beautiful sciency bacteria on our lab bench that kept reminding us of importance of lab safety! </p>
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Latest revision as of 01:01, 18 October 2018

Edinburgh iGEM 2018

Collaborations

Let's do something together!

Collaboration in science is one of the most important steps to success. You are very good in your field but still, some piece of a puzzle is missing in order to see the whole picture? It is not a problem at all if you are open and not afraid to ask for help or to offer yours. Meeting other people while working on a science project is also essential. Other people with their fresh mind might easily notice a reason why something is not working properly, suggest solutions or inspire with a new direction. So, let's collaborate!


Team Vilnius-Lithuania Collaboration

We were fortunate to enjoy a productive collaboration with Team Vilnius-Lithuania over the summer. We were able to contribute a mechanistic model of the PURE cell free system which is documented in detail on our modelling collaboration page. Team Vilnius-Lithuania worked with us on wet lab protocols for the characterisation of DNA degrading switch which are outlined here.

DNA Degradation Switch Protocols

1. Introduction

Our DNA Degrading Switch requires the transformation of 2 plasmids prior to maxicell induction in order to function.

  • Construct pImm contains a coding sequence for DNase Colicin E2’s immunity protein Imm2 and an upstream recognition site for homing endonuclease I-SceI.
  • Construct pCol contains a coding sequence for DNase Colicin E2.

By transforming pImm into DL2524 (maxicell progenitor strain) culturing successful transformants, transforming construct pCol and carrying out maxicell induction the DNA degrading switch becomes active. By exposing DL2524 to arabinose homing endonuclease I-SceI is induced, this degrades the chromosome of DL2524 and linearises pImm preventing further expression of imm2. With its immunity protein no longer being expressed Colicin E2 should become active around 24 hrs later degrading the DNA remaining within our Maxicell.

2. Edinburgh to Vilnius Delivery Contents

Tube Label Contents
DL2524 Culture Liquid culture of the strain DL2524 (LB with chloramphenicol and 0.5% glucose).
DL2524 STAB DL2524 in nutrient agar with chloramphenicol and 0.5% glucose.
ISce-1 Imm2 1 pSB1C3 with ISce-1 site and Imm2 genes.
ISce-1 Imm2 8 pSB1C3 with ISce-1 site and Imm2 genes.
E2 2 Full Colicin E2 gene with BioBrick prefix and suffix
E2 4 Full Colicin E2 gene with BioBrick prefix and suffix
1st gBlock of 1st half of Colicin E2 gene (with over lap for 2nd part)
2nd gBlock of 2nd half of Colicin E2 gene
Table 1: Delivery Contents

3. Protocols

3.1 Make DL2524 Competent

DL2524 needs to be made competent before it can be transformed.

• Inoculate a single colony of DL2524 into 10 ml LB and culture overnight

• Inoculate 100 ml LB with 1 ml overnight culture.

• Incubate at 37 °C, 220rpm until OD600 = 0.3-0.6 (approx. 2 hrs).

• Transfer to 2 x 50 ml Falcon and leave on ice for 30 mins.

• Centrifuge at 400 x g, 5 mins, 4 °C.

• Resuspend pellet gently in 25 ml ice cold 0.1 M CaCl2

• Incubate on ice for 30 min.

• Centrifuge at 4000 x g, 5 min, 4 °C.

• Resuspend pellet gently in 1.25 mLice cold CaCl2/Glycerol solution (1.7 mL 0.1 M CaCl2, 0.3 ml 100 % glycerol).

• Aliquot 100 µl and flash freeze on dry ice. Store at – 80 °C. Aliquot 100 µl and flash freeze on dry ice. Store at – 80 °C.

3.2 Constructing pCol

The first step is to digest product from tube E2 2 to give BioBrick overhangs. By using the digestion protocol from Linearized Plasmid Backbones but substituting 4 ul of linearized plasmid backbone this part can be obtained and will now to referenced as E2. Having obtained E2 this needs to be inserted into plasmid pSB1T3 from the iGEM distribution kit again using the digestion protocol and now the ligation protocol from here

3.3 Transforming pImm

pImm needs to be transformed into strain DL2524 allowing Imm2 to build up in cells before transformation of pCol and production of DNase Colicin E2.

• Add 8ul of pImm to 50 uL of competent DL2524 culture.

• Incubate on ice for 30 minutes.

• Heat shock for 60 seconds in 45 °C water bath.

• Incubate on ice for 2 minutes.

• Incubate at 37 °C for 1 hour.

• Plate on agar supplemented with 25 µg/ml ampicillin and add to 37 °C incubator.

3.4 Transforming pCol

Having allowed Immunity Protein Imm2 to build up in cells overnight it is now possible to transform pCol into cells which will have an immunity to DNase activity due to build up of Imm2. Firstly we need to pick colonies that have been transformed with pImm previously and add to LB prepared with 0.5% glucose. Incubate at 37 °C for 1 hour. We can now follow the same transformation protocol as previously.

• Add 8 µl of pCol to 50 µl of DL2524 culture.

• Incubate on ice for 30 minutes.

• Heat shock for 60 seconds in 45 °C water bath.

• Incubate on ice for 2 minutes.

• Incubate at 37 °C for 1 hour.

• Plate on agar supplemented with 25 µg/ml Tetracycline and 25 µg/ml Ampicillin and add to the 37 °C incubator. Having grown overnight pick colonies once again and prepare 1.5 ml overnight culture in LB with 25 µg/ml Tetracycline 25 µg/mL Ampicillin and 0.5% glucose in falcon tube shaking in 37 °C water bath.

3.5 Maxicell Induction

Our maxicell progenitor strain has now been transformed with all the parts necessary for operation of our DNA degrading switch. Maxicell induction will activate the kill switch due to expression of homing endonuclease I-SceI linearizing pImm. To perform DL2524 maxicell induction:

• Measure OD600 of overnight culture.

• Dilute culture at 0.025 OD600 in LB with 0.2 % glucose.

• Grow for 80 minutes at 37 °C.

• Dilute culture 10 times with 0.5% arabinose and LB.

• Incubate at 37 °C shaking gently.

3.6 Validation

In order to observe the DNA degradation as a result of our switches activation we propose to run gel electrophoresis periodically over the 24hours after maxicell induction. We would expect to see a number of small DNA fragments from the maxicells degraded chromosome and bands corresponding to our 2 constructs pImm and pCol. After degradation switch activation we would expect to observe the bands corresponding to our plasmid constructs dissapear as Colicin E2 degrades maxicell DNA. Due to our need to visualise potentially very small DNA fragments we propose to use SYBR Green I Nucleic Acid Gel Stain or some similar high sensitivity strain.


Meetups

iGEM teams meetups was some of the most useful collaborations we had. Constructive critique we got during meetups and new ideas ideas we heard from meetups attendees and organisers had a huge impact on our project.

Scottish iGEM Meetup

As our first meetup we attended Scottish iGEM Meetup which was held at The University of St Andrews and hosted by St Andrews iGEM 2018 team at 3rd of July. Hence, all three Scottish teams participated (St Andrews, Edinburgh_OG and us). We first presented our projects, had a discussion about them and as well we had some talks on useful topics as human practices, collaborations, etc. We were delighted to talk with Will Wright, Europen Ambassador of iGEM community.

iGEM UK Meetup

We attended iGEM meetup UK which was organised by SynBioUK and hosted by University of Oxford iGEM team at 12th-13th July 2018. It was an amazing experience to meet almost all UK teams and talk with our collegues from the same field about projects, and getting very valuable feedback. Moreover, it was one of the first experience to present our project as well. We attended a number of workshops and talks of speakers, some of them being Dr. John Collins, Dr. Tom Ellis, Dr. Piers Millet, and Dr. Karen Polizzi.

Hosting Meetup with Newcastle team

If you have ever heard about The Edinburgh Festival Fringe (the world's largest arts festival) you probably know how crazy it gets with hundreds of thousands of people hanging around. Thus, on 20th of August, we decided to step back for one day from wet lab work and invited Newcastle iGEM team to talk and discuss our projects and then to see some comedy shows afterwards. Both teams had some comments for each other, and we were very happy to share the experience.


Bits and pieces

Besides meetups, labwork, we also had talks and chats with many other iGEM teams, as it always nice to have a chat about something different.

Mike the Microbe

Mike the microbe from Carroll iGEM team visited us. It was so nice to have a picture of a beautiful sciency bacteria on our lab bench that kept reminding us of importance of lab safety!


Contact EdiGEM18

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