Difference between revisions of "Team:Glasgow/Project/Overview/RBS"

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  <div  class="container3  scrollTop">
 
  <div class="sign">
 
      <div class="neon-blue" id="title">Glas<span id="fade">glow</span> </div>
 
      <div class="neon-blue"><br><span class="neon-purple"><strong>RBS library</strong></span></div>
 
  </div>
 
  </div>
 
</div>
 
        <!--<div class='leftContainer'>-->
 
        <p class="links scrollOverview"><a style="color:blue;" href="https://2015.igem.org/Team:Glasgow"> Home</a> > <a style="color:blue;" href="https://2015.igem.org/Team:Glasgow/Project/Overview">Project</a> > RBS libray</p>
 
        <div id="sidebar"class="widget widget-categories">
 
        <table>
 
            <tr><td class="overview">Summary</td></tr>
 
            <tr><td class="sensor">Motivation</td></tr>
 
            <tr><td class="release">Design</td></tr>
 
            <tr><td class="survivability">Strategy and Approaches</td></tr>
 
            <tr><td class="conclusion">Results</td></tr>
 
            <tr><td class="firstuse">References</td></tr> 
 
            <tr><td class="top">Top</td></tr>   
 
        </table>
 
      </div>
 
       
 
      <!-- </div> -->
 
        <div class='containerRight'>
 
              <h2 style="margin-top:13vh;">Summary</h2>
 
<div class="row">
 
<div class="col-md-6">
 
<h5 style="font-size:25px">Aim</h5>
 
<p>To optimise bioluminescence in <i>Escherichia coli</i> by creating a range of Ribosome Binding Sites (RBS) for each of the six genes in the <i>luxCDABEG</i> operon from <i>Aliivibrio fisheri</i>, originally submitted to the registry as a single BioBrick (<a href="http://parts.igem.org/Part:BBa_K325909">K325909</a>) in 2010 by the Cambridge team.</p>
 
<h5 style="font-size:25px">Results</h5>
 
<p>
 
- Designed RBS library with 32 variants for each <i>lux</i> gene
 
</br>
 
</br>
 
- Made <i>luxABG</i> and <i>luxCDE</i> constructs from the RBS library – over 1000 RBS variantions for each construct
 
</br>
 
</br>
 
- Showed that cells are able to uptake decanal from the environment and produce light when <i>luxAB</i> or <i>luxABG</i> is expressed
 
</br>
 
</br>
 
- Visualised RBS library for <i>luxAB</i>, <i>luxABG</i> and <i>luxCDE</i> constructs and determined optimal RBS arrangements for E. coli
 
</p>
 
</div>
 
<div class="col-md-6">
 
<h5 style="font-size:25px">Biobricks</h5>
 
<p>
 
Documented and submitted:
 
<ul>
 
<li>BBa_K1725340: </br> I0500-RBS-<i>luxA</i>-RBS-<i>luxB</i>-RBS-<i>luxG</i> </li>
 
<li>BBa_K1725341: </br> I0500-RBS-<i>luxA</i>-RBS-<i>luxB</i>-RBS-<i>luxG</i>-K1725080-RBS-<i>luxC</i>-RBS-<i>luxD</i>-RBS-<i>luxE</i></li>
 
</ul>
 
Documented only:
 
<ul>
 
<li> BBa_K1725301-BBa_K1725332: </br> RBS library</li>
 
<li> BBa_K1725342: </br> K1725080-RBS-<i>luxC</i>-RBS-<i>luxD</i>-RBS-<i>luxE</i> </br> (High decanal production)</li>
 
<li> BBa_K1725343: </br> K1725080-RBS-<i>luxC</i>-RBS-<i>luxD</i>-RBS-<i>luxE</i> </br> (Low decanal production)</li>
 
</ul>
 
</br>
 
-    insert appropriate biobrick numbers instead of RBS
 
</p>
 
</div>
 
</div>
 
<div class="scrollSensor"><div>
 
</br>
 
</br>
 
 
   
 
    <h2>Motivation</h2>
 
   
 
            <p class="mainText">For the Bioluminescence part of our project we used the <i>luxCDABEG</i> operon from <i>A. fischeri</i> introduced to the iGEM by Cambridge team in 2010. Five <i>lux<i> genes are known to be essential for the bioluminescence production:  <i>luxA<i> and <i>luxB<i> encoding bacterial luciferase and <i>luxC<i>, <i>luxD<i> and <i>luxE<i> encoding enzyme complex that synthesises tetradecanal, a substrate for the luciferase. Sixth gene, <i>luxG<i> encodes a flavin reductase that provides reduced flavin mononucleotide for the bioluminescence reaction resulting in an enhanced light ouptput.
 
</br>
 
</br>
 
Initially we decided to optimise bioluminescence in <i>E. coli</i> by rearranging whole Lux operon and placing a defined relatively-weak (REF) ribosome binding site – B0032 – upstream of each of the six lux genes, as described on our <a href="https://2015.igem.org/Team:Glasgow/Project/Overview/Bioluminesence">Bioluminescnce</a> page. Taking this approach further, we thought of adjusting bioluminescence in <i>E. coli</i> by creating a B0032-derived Ribosome Binding Site library for each <i>lux<i> gene. The idea behind this was to create a range of RBS combinations in a <i>lux<i> operon and therefore, generate <i>E. coli</i> strains of different bioluminescence intensity. We assumed that the most favourable RBS arrangements in <i>lux<i> operon should be observed in the <i>E. coli</i> colonies emitting the most light.
 
<div style="visibility:hidden; height:0;width:0;" class="scrollrelease"></div> </p>
 
</br>
 
</br>
 
 
<h2>Design</h2>
 
For the construction of the RBS library, we used a master sequence based on the RBS B0032 (Figure 1). 4 nucleotides within the actual ribosome binding site were randomised giving 32 different B0032-derived RBS variants. The predicted efficiency of each RBS library member was estimated using RBS Library Calculator (ref: http://msb.embopress.org/content/10/6/731) for every <i>lux<i> gene. Theoritically, with 32 different RBS variants for each of the six <i>lux<i> genes, final RBS library for <i>lux<i> operon would have over a billion different RBS arrangements.
 
<div class="scrollSurvivability"></div>
 
</br>
 
</br>
 
 
        <h2>Strategy and approaches</h2>
 
<div class="box">
 
<h5>Randomised PCR and Cloning, Cloning, Cloning</h5>
 
<div class="text">
 
For construction of the RBS library, each <i>lux<i> gene was amplified by randomised PCR using primers with a B0032-derived master sequence for RBS. PCR products were then ligated into plasmid pSB1C3 and transformed to <i>E. coli</i> strain TOP10 which is a <i>recA-</i> mutant meaning that any unwanted gene rearrangements between chromosomal DNA and plasmid DNA can be avoided.
 
</br>
 
</br>
 
In order to induce expression of <i>luxABG</i> and <i>luxCDE</i>, <i>luxA</i> and <i>luxC</i> PCR products were inserted downstream the pBAD (<a href="http://parts.igem.org/Part:BBa_I0500">BBA_ I0500</a>) and R0011N (<a href="http://parts.igem.org/Part:BBa_K1725080">BBa_K1725080</a>) promoters, respectively. pBAD is a widely used promoter inducible by L-arabinose, in our assays we have used 1% arabinose to activate the promoter. R0011N promoter is similar to IPTG-regulated, LacI-repressed R0011 promoter (BBa_R0011) but contains an extra NheI site to make Biobrick insertion identification easier in the restriction digests. Since we have used <i>lacI-</i> Top10 cells for our transformations, R0011N was constitutively active.
 
</br>
 
</br>
 
Colonies from the transformation plates were then washed and plasmid DNA was purified and sequenced to ensure that all 32 RBS library members were present in the sample (Figure 2). A similar approach was applied to the subsequent ligations in the assemblies of pBAD.<i>luxABG</i> and R0011N.<i>luxCDE</i>.
 
</div>
 
</div>
 
 
 
</br>
 
<div class="box">
 
<h5>Testing pBAD.<i>luxAB</i></h5>
 
<div class="text">
 
</br>
 
<img src="https://static.igem.org/mediawiki/2015/2/2a/2015-Glasgow-RBS1.png" align="right" height="40%" width="40%">
 
Once we have assembled <i>luxA</i> and <i>luxB</i> together with a pBAD promoter upstream, we wanted to determine if the construct allows cells to respond to the decanal in the environment. In addition to that, we also aimed to screen the RBS library in the construct as RBS of different strengths should cause variability in bioluminescence intensity between colonies. To start, we grew transformed cells on the L-agar with 1% arabinose and then exposed them to the 5% decanal solution. Several 10μl drops of solution were applied on the lid of the Petri dish and the lids were then immediately placed on the plates with cells and kept for a few minutes. Lids were then taken off and plates were photographed in the dark room with the 30s exposure at the ISO 64000.
 
</br>
 
</br>
 
As seen in the FigureX, colonies that grew on the plate containing arabinose (ara+) show bioluminescence activity in the dark while control plate with no arabinose (ara-) does not contain any bioluminescent colonies. More importantly, in the ara+ plate we observe that, for a human eye, colonies vary in bioluminescence intensity from very bright to absolutely blank colonies. Therefore, here we show that <i>E. coli</i> is able to uptake decanal from the environment and produce light when the expression of <i>luxAB</i> is turned on. Moreover, we demonstrate that some of the RBS arrangements in the pBAD.<i>luxAB</i> construct are more efficient than others in terms of stimulating translation initiation.
 
</br>
 
</br>
 
For further testing, we have selected 12 colonies that exhibited different bioluminescence intensity: a range from very bright to dim or blank colonies. We tested if the construct sizes are similar in all 12 colonies by gel electrophoresis of single restriction digests (GEL Picture). As the gel results suggest, plasmid sizes in all 12 colonies are similar which allows us assume that the main difference is in the ribosome binding sites. In addition, we have made short streaks of each colony on ara+ plate in order to compare their brightness on a bigger resolution (Picture of streaks + colonies plate with tagged locations of colonies picked). From the picture we can clearly see colony F being the brightest colony on the plate and some of the colonies producing very little of visible bioluminescence. This again supports our hypothesis about some RBS combinations being more favourable by the <i>E. coli</i> translation machinery.
 
</br>
 
<img src="https://static.igem.org/mediawiki/2015/c/c2/2015-Glasgow-RBS2.png" height="70%" width="70%">
 
</div>
 
</div>
 
</br>
 
<div class="box">
 
<h5>Inviting Mr. Bright to the party: <i>luxG</i>  </h5>
 
<div class="text">
 
</br>
 
As mentioned before, <i>luxG</i> is a known flavin reductase and provides reduced flavin mononucleotide to luciferase <i>luxAB</i> resulting in increased bioluminescent activity. Therefore, having the pBAD.<i>luxAB</i> construct ready we have inserted <i>luxG</i> gene downstream the <i>luxAB</i> in order to increase the bioluminescence in cells. Transformed cells were grown on both ara+ and ara- plates and treated with decanal as described earlier. 
 
</br>
 
</br>
 
As can be seen in the FigureX, only colonies that have grown on the ara+ plates exhibit luminescence while control plates remain blank in the dark. Similarly to the results observed in pBAD.<i>luxAB</i> testing, here we also see a range of luminescence between colonies on ara+ plate most likely corresponding to the different ribosome binding sites. However, on the ara+ plates we observe only half as many colonies as on the ara- plates suggesting <i>luxG</i> possibly having a negative role for cell growth. To test this, we have picked 136 random colonies from the ara- plate and streaked them on new ara+ and ara-plates to see difference in survivability. Results are presented in the FigureX where short streaks appear to be similar on both ara+ and ara- plates with no bacterial growth disruption on the ara+ plate. Therefore, we assume that the negative <i>luxG</i> effect is not very severe and may be only observable on the transformation plates where colonies are formed from a single cell.
 
</br>
 
</br>
 
<img src="https://static.igem.org/mediawiki/2015/2/27/2015-Glasgow-RBS3.png">
 
<img src="https://static.igem.org/mediawiki/2015/c/c0/2015-Glasgow-RBS4.png">
 
</br>
 
</br>
 
Additionally, in order to compare bioluminescence between cells where <i>luxG</i> is expressed and in cells where it is not, we also streaked previously described 12 pBAD.<i>luxAB</i> colonies and 12 brightest pBAD.<i>luxABG</i> colonies on the same ara+ plate. As can be seen from the FigureX, most of the pBAD.<i>luxABG</i> colonies appear to exhibit brighter luminescence than the pBAD.<i>luxAB</i> colonies which is what we expect to see.
 
</br>
 
<img src="https://static.igem.org/mediawiki/2015/9/90/2015-Glasgow-RBS5.png">
 
</br>
 
</br>
 
We have picked up the brightest pBAD.<i>luxABG</i> colony, determined RBS for each gene by sequencing and submitted the construct as the biobrick BBa_K17252340.
 
</div>
 
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<div class="box">
 
<h5>Story about <i>luxCDE</i></h5>
 
<div class="text">
 
Simultaneously with the assembly of pBAD.<i>luxABG</i> we have also assembled R0011N.<i>luxCDE</i> construct using similar approaches. In order to test our RBS library in <i>luxCDE</i> we employed two strategies. Firstly, we wanted to test if two cells, one expressing <i>luxABG</i> and other expressing <i>luxCDE</i>, are able to produce luminescence when mixed and if so, does the bioluminescence depend on the amount of produced tetradecanal. We selected 24 random R0011N.<i>luxCDE</i> colonies from the transformation plate and grew them overnight in the eppendorf shaker. The following day we mixed equal volumes of 24 R0011N.<i>luxCDE</i> and pBAD.<i>luxABG</i> (BBa_K17252340) overnight cultures in a 96-well plate. pBAD.<i>luxABG</i> overnight culture was added with 1% arabinose and grown for two hours in order to induce pBAD promoter. 96-well plate was then photographed and no visible bioluminescence was observed.
 
</br>
 
</br>
 
Paragraph on generating strain with <i>luxABG</i> in pSB1C3 and <i>luxCDE</i> in pSB3K3
 
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<div class="scrollConclusion"></div>
 
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<h2>Results</h2>
 
- Cell-cell comunication
 
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- Decanal experiments
 
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- Spectrum experiments and comparison to Cambridge operon
 
 
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    <h2>References</h2>
 
   
 
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Latest revision as of 10:42, 17 September 2015