Difference between revisions of "Team:Dundee/Lab Book/FluID"

 
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           <a href="#section1" class="scroll"><span class="glyphicon glyphicon-briefcase"></span></a>  
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           <a href="#section1" class="scroll"><span class="glyphicon glyphicon-briefcase" onclick="location.href='https://2015.igem.org/Team:Dundee/Lab_Book/FluID';" ></span></a>  
 
           <h3>FluID</h3>
 
           <h3>FluID</h3>
 
           <p class="about-content">FluID is a cell free, all in one spray which will be used to detect and dinstiguish between body fluids found at crime scenes.</p>
 
           <p class="about-content">FluID is a cell free, all in one spray which will be used to detect and dinstiguish between body fluids found at crime scenes.</p>
 
         </div>
 
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         <div class="col-lg-4">
 
         <div class="col-lg-4">
           <a href="#section2"><span class="glyphicon glyphicon-search" type="button"></span></a>
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           <a href="#section2"><span class="glyphicon glyphicon-search" type="button" onclick="location.href='https://2015.igem.org/Team:Dundee/Lab_Book/Chromate_Detector';"></span></a>
 
           <h3>Chromate Biosensor</h3>
 
           <h3>Chromate Biosensor</h3>
 
           <p class="about-content">Our chromate biosensor is a device that will be used to detect stainless steel residues left behind on bones in blunt or sharp force trauma cases.</p>
 
           <p class="about-content">Our chromate biosensor is a device that will be used to detect stainless steel residues left behind on bones in blunt or sharp force trauma cases.</p>
 
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           <a href="#section3"><span class="glyphicon glyphicon-eye-open"></span></a>  
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           <a href="#section3"><span class="glyphicon glyphicon-eye-open" onclick="location.href='https://2015.igem.org/Team:Dundee/Lab_Book/Fingerprints';"></span></a>  
 
           <h3>Fingerprint Ageing</h3>
 
           <h3>Fingerprint Ageing</h3>
 
           <p class="about-content">This device will search for the presence of a specifc component found in fingerprint deposits whose presence/absence will indicate approximate fingerprint age.</p>
 
           <p class="about-content">This device will search for the presence of a specifc component found in fingerprint deposits whose presence/absence will indicate approximate fingerprint age.</p>
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         <span id="biospray-title">Saliva</span>
 
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<!-- WEEK 1 -->
 
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         <div class="labtitle">Week Beginning 1/6/2015</div>
 
         <div class="labtitle">Week Beginning 1/6/2015</div>
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           </a></p>
 
           </a></p>
 
                   <p><b>Results:</b> N/A
 
                   <p><b>Results:</b> N/A
                   <p><b>Next Steps:</b> A miniprep will be performed on the overnight cultures and a pre-sequence digest test performed tomorrow.  
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                   <p><b>Next Steps:</b> A miniprep will be performed tomorrow on the overnight cultures.  
 
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             <span class="box-title">5/6: Plasmid Purification and Pre-Sequencing Digest Check</span>
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             <span class="box-title">5/6: Plasmid Purification of JM110 <i>E.coli</i> containing pSB1C3-<i>LbpA</i></span>
 
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                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#miniprep-modal" class="journal-protocol"> Plasmid Purification (QIAprep® Spin Miniprep Kit) </a>
 
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#miniprep-modal" class="journal-protocol"> Plasmid Purification (QIAprep® Spin Miniprep Kit) </a>
 
           </a></p>
 
           </a></p>
                   <p><b>Results:</b> N/A
+
                   <p><b>Results:</b> N/A </p>
 
                   <p><b>Next Steps:</b> The miniprep with the highest concentration will be sent for sequencing.                </div>
 
                   <p><b>Next Steps:</b> The miniprep with the highest concentration will be sent for sequencing.                </div>
 
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         </div>
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                   <p><b>Aim of experiment:</b> To amplify <i>LbpA</i> for subsequent cloninng into the pQE80-L vector.</p>
 
                   <p><b>Aim of experiment:</b> To amplify <i>LbpA</i> for subsequent cloninng into the pQE80-L vector.</p>
 
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#PCR-modal" class="journal-protocol"> PCR </a></p>
 
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#PCR-modal" class="journal-protocol"> PCR </a></p>
                   <p><b>Results:</b><a data-toggle="modal" data-target="#lbpa-figure2-modal" class="journal-protocol"> Figure 2 </a></p>
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                   <p><b>Results: </b>N/A</p>
 
<p><b> Next Steps:</b> The PCR product will be digested and ligated into pQE80-L tomorrrow.</p>
 
<p><b> Next Steps:</b> The PCR product will be digested and ligated into pQE80-L tomorrrow.</p>
 
                 </div>
 
                 </div>
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                   <p><b>Protocols Used: </b><a data-toggle="modal" data-target="#restrictiondigest-modal" class="journal-protocol"> Restriction Digests </a> <a data-toggle="modal" data-target="#ligation-modal" class="journal-protocol"> Ligations</a></p>
 
                   <p><b>Protocols Used: </b><a data-toggle="modal" data-target="#restrictiondigest-modal" class="journal-protocol"> Restriction Digests </a> <a data-toggle="modal" data-target="#ligation-modal" class="journal-protocol"> Ligations</a></p>
 
                   <p><b>Results:</b> N/A </p>
 
                   <p><b>Results:</b> N/A </p>
<p><b>Next Steps:</b> The ligations will be transformed into M15pREP4 <i>E.coli</i>. </p>
+
<p><b>Next Steps:</b> The ligations will be transformed into M15[<i>pREP4</i>] <i>E.coli</i>. </p>
  
 
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             <span class="box-title">24/6: Transformations of pQE80-L-<i>LbpA</i> into M15pREP4 <i>E.coli</i></span>
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             <span class="box-title">24/6: Transformations of pQE80-L-<i>LbpA</i> into M15[<i>pREP4</i>] <i>E.coli</i></span>
 
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                   <p><b>Aim of experiment:</b> To transform pQE80-L-<i>LbpA</i> into M15pREP4 <i>E.coli</i>. </p>
+
                   <p><b>Aim of experiment:</b> To transform pQE80-L-<i>LbpA</i> into M15[<i>pREP4</i>] <i>E.coli</i>. </p>
 
                   <p><b>Protocols Used: </b><a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol"> Transformations</a></p>
 
                   <p><b>Protocols Used: </b><a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol"> Transformations</a></p>
 
                   <p><b>Results:</b> N/A </p>
 
                   <p><b>Results:</b> N/A </p>
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             <span class="box-title">25/6: Overnight Cultures of M15pREP4  <i>E.coli</i> containing pQE80-L-<i>LbpA</i> </span>
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             <span class="box-title">25/6: Overnight Cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>LbpA</i> </span>
 
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                   <p><b>Aim of experiment:</b> To set up overnight cultures of M15pREP4 <i>E.coli</i> containing pQE80-L-<i>LbpA</i>. </p>
+
                   <p><b>Aim of experiment:</b> To set up overnight cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>LbpA</i>. </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol">Overnight Cultures </a></p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol">Overnight Cultures </a></p>
 
                   <p><b>Results:</b> N/A </p>
 
                   <p><b>Results:</b> N/A </p>
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             <span class="box-title">26/6: Plasmid Purification of the M15pREP4 <i>E.coli</i> Overnight Cultures containing pQE80-L-<i>LbpA</i> </span>
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             <span class="box-title">26/6: Plasmid Purification of the M15[<i>pREP4</i>] <i>E.coli</i> Overnight Cultures containing pQE80-L-<i>LbpA</i> </span>
 
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             <span class="box-title">1/7: M15pREP4 <i>E.coli</i> Overnight Cultures containing pQE80-L-<i>LbpA</i> </span>
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             <span class="box-title">1/7: M15[<i>pREP4</i>] <i>E.coli</i> Overnight Cultures containing pQE80-L-<i>LbpA</i> </span>
 
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                   <p><b>Aim of experiment:</b> To set up further tests to optimize expression of LbpA using different concentrations of IPTG.</p>
+
                   <p><b>Aim of experiment:</b> To set up further tests to optimize expression of <i>LbpA</i> using different concentrations of IPTG.</p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> Protein Expression Optimization </a> Note: An SDS gel was not ran, instead the OD<sub>600</sub> readings were recorded for the uninduced and induced cultures at 20 minute intervals for 2 hours, 1 and half hours after the cultures were induced. </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> Protein Expression Optimization </a> Note: An SDS gel was not ran, instead the OD<sub>600</sub> readings were recorded for the uninduced and induced cultures at 20 minute intervals for 2 hours, 1 and half hours after the cultures were induced. </p>
 
               <p><b>Results:</b> <a data-toggle="modal" data-target="#lbpa-figure5-modal" class="journal-protocol"> Figure 5 </a> </p>
 
               <p><b>Results:</b> <a data-toggle="modal" data-target="#lbpa-figure5-modal" class="journal-protocol"> Figure 5 </a> </p>
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             <span class="box-title">27/7: Overnight Cultures of M15pREP4 <i>E.coli</i> containing pQE80-L-<i>LbpA</i> </span>
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             <span class="box-title">27/7: Overnight Cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>LbpA</i> </span>
 
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                   <p><b>Aim of experiment:</b> To set up a 150 ml overnight culture for sub-culturing tomorrow.</p>
 
                   <p><b>Aim of experiment:</b> To set up a 150 ml overnight culture for sub-culturing tomorrow.</p>
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a> Note: 150ml of LB was used and 150µl of each antibiotic. </p>
+
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a> Note: 150 ml of LB was used and 150 µl of each antibiotic. </p>
 
               <p><b>Results:</b> N/A </p>
 
               <p><b>Results:</b> N/A </p>
<p><b>Next Steps:</b>150ml of fresh LB will be inoculated tomorrow with 7.5 ml of the overnight cultures. </p>
+
<p><b>Next Steps:</b> 150 ml of fresh LB will be inoculated tomorrow with 7.5 ml of the overnight cultures. </p>
 
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             <span class="box-title">29/7: Overnight Cultures of M15pREP4 <i>E.coli</i> containing pQE80-L-<i>LbpA</i> for 3L Culture</span>
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             <span class="box-title">29/7: Overnight Cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>LbpA</i> for 3L Culture</span>
 
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             <span class="box-title">30/7: 3 L Culture of M15pREP4 <i>E.coli</i> containing pQE80-L-<i>LbpA</i> for Purification of LbpA</span>
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             <span class="box-title">30/7: 3 L Culture of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>LbpA</i> for Purification of LbpA</span>
 
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             <span class="box-title">5/8: Overnight Cultures of M15pREP4 <i>E.coli</i> containing pQE80-L-<i>LbpA</i> </span>
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             <span class="box-title">5/8: Overnight Cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>LbpA</i> </span>
 
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             <span class="box-title">6/8: 6 L Day Cultures of M15pREP4 <i>E.coli</i> containing pQE80-L-<i>LbpA</i></span>
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             <span class="box-title">6/8: 6 L Day Cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>LbpA</i></span>
 
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                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification </a> Note: The protocol was stopped at Step 6.</p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification </a> Note: The protocol was stopped at Step 6.</p>
 
               <p><b>Results:</b> N/A </p>
 
               <p><b>Results:</b> N/A </p>
<p><b>Next Steps:</b>Purification of LbpA will be continued on Monday. </p>
+
<p><b>Next Steps:</b> Purification of LbpA will be continued on Monday. </p>
 
</div>
 
</div>
 
         </div>
 
         </div>
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                   <p><b>Aim of experiment:</b> To continue with purification of LbpA.</p>
 
                   <p><b>Aim of experiment:</b> To continue with purification of LbpA.</p>
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification</a> Note: The protocol was continued from Step 7</p>
+
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification</a> Note: The protocol was continued from Step 7.</p>
 
               <p><b>Results:</b> N/A </p>
 
               <p><b>Results:</b> N/A </p>
 
<p><b>Next Steps:</b> Purification of LbpA will be continued tomorrow. </p>
 
<p><b>Next Steps:</b> Purification of LbpA will be continued tomorrow. </p>
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         <div class="labtitle">Week Beginning 25/5/2015</div>
 
         <div class="labtitle">Week Beginning 25/5/2015</div>
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            <span class="box-title">16/6: Gel Extraction of <i>PotD</i> PCR Product</span>
+
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                  <p><b>Aim of experiment:</b> To gel extract the <i>PotD</i> PCR product.</p>
+
                  <p><b>Protocols Used: </b><a data-toggle="modal" data-target="#PCR-modal" class="journal-protocol"> PCR</a></p>
+
                  <p><b>Results:</b> <a data-toggle="modal" data-target="#lbpa-figure3-modal" class="journal-protocol">Figure 3</a></b> </p>
+
<p><b>Next Steps:</b> The gel shows that <i>PotD</i> has been successfully amplified so it will be digested and ligated into the pQE80-L vector tomorrow.  </p>
+
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             <span class="box-title">30/6: Overnight Cultures of MC1061 <i>E.coli</i> containing pSB1C3 + <i>SBP</i>, pQE80-L + <i>SBP</i> and pQE80-L + <i>PotD</i> </span>
+
             <span class="box-title">30/6: Overnight Cultures of MC1061 <i>E.coli</i> containing pSB1C3-<i>SBP</i>, pQE80-L-<i>SBP</i> and pQE80-L-<i>PotD</i> </span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#secollapsiblew5-2"></span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#secollapsiblew5-2"></span>
 
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                   <p><b>Aim of experiment:</b> To set up overnight cultures of MC1061 <i>E.coli</i> containing pSB1C3 + <i>SBP</i>. To set up overnight cultures  of pQE80-L + <i>SBP</i> and pQE80-L + <i>PotD</i> in MC1061 <i>E.coli</i> for overexpression assays to be performed tomorrow. </p>
+
                   <p><b>Aim of experiment:</b> To set up overnight cultures of MC1061 <i>E.coli</i> containing pSB1C3-<i>SBP</i>. To set up overnight cultures  of pQE80-L-<i>SBP</i> and pQE80-L + <i>PotD</i> in MC1061 <i>E.coli</i> for overexpression assays to be performed tomorrow. </p>
 
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a></p>
 
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a></p>
 
         <p><b>Results:</b> N/A
 
         <p><b>Results:</b> N/A
       <p><b>Next Steps:</b> The MC1061 <i>E.coli</i> overnight cultures containing pSB1C3 + <i> SBP</i> will be miniiprepped tomorrow. The MC1061 <i>E.coli</i> overnight cultures containing pQE80-L + <i> SBP</i> and pQE80-L + <i>PotD</i> will be subcultured tomorrow in order to perform overexpression assays.</p>
+
       <p><b>Next Steps:</b> The MC1061 <i>E.coli</i> overnight cultures containing pSB1C3-<i> SBP</i> will be miniiprepped tomorrow. The MC1061 <i>E.coli</i> overnight cultures containing pQE80-L-<i> SBP</i> and pQE80-L-<i>PotD</i> will be subcultured tomorrow in order to perform overexpression assays.</p>
 
                 </div>
 
                 </div>
 
         </div>
 
         </div>
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             <span class="box-title">1/7: Plasmid Purification of the Overnight Cultures of MC1061 <i>E.coli</i> containing pSB1C3 + <i>SBP</i>. <i>PotD</i> and <i>SBP</i> Expression Optimization</span>
+
             <span class="box-title">1/7: Plasmid Purification of the Overnight Cultures of MC1061 <i>E.coli</i> containing pSB1C3-<i>SBP</i>. <i>PotD</i> and <i>SBP</i> Expression Optimization</span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#secollapsiblew5-3"></span>
 
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                 <div id="secollapsiblew5-3" class="collapse box-content">
                   <p><b>Aim of experiment:</b> To miniprep the overnight cultures of MC1061 <i>E.coli</i> containing pSB1C3 + <i>SBP</i>. To start protein expression optimization for PotD and SBP.</p>
+
                   <p><b>Aim of experiment:</b> To miniprep the overnight cultures of MC1061 <i>E.coli</i> containing pSB1C3-<i>SBP</i>. To start protein expression optimization for PotD and SBP.</p>
 
                   <p><b>Protocols Used:</b> <i>SBP</i>: <a data-toggle="modal" data-target="#miniprep-modal" class="journal-protocol"> Plasmid Purification (QIAprep® Spin Miniprep Kit)</a> <i>SBP</i> and <i>PotD</i>: <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> Protein Expression Optimization</a> Note: Protocol was stopped at Step 8. Samples will be ran on an SDS gel tomorrow.</p>
 
                   <p><b>Protocols Used:</b> <i>SBP</i>: <a data-toggle="modal" data-target="#miniprep-modal" class="journal-protocol"> Plasmid Purification (QIAprep® Spin Miniprep Kit)</a> <i>SBP</i> and <i>PotD</i>: <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> Protein Expression Optimization</a> Note: Protocol was stopped at Step 8. Samples will be ran on an SDS gel tomorrow.</p>
 
         <p><b>Results:</b> N/A
 
         <p><b>Results:</b> N/A
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                 <div id="secollapsiblew6-1" class="collapse box-content">
 
                   <p><b>Aim of experiment:</b> To set up further tests to optimize expression of <i>SBP</i> using different concentrations of IPTG.</p>
 
                   <p><b>Aim of experiment:</b> To set up further tests to optimize expression of <i>SBP</i> using different concentrations of IPTG.</p>
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> Protein Expression Optimization </a> Note: Cultures were induced with o.5mM, 1mM and 2mM IPTG. The Western Blot was left to block overnight. </p>
+
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> Protein Expression Optimization </a> Note: Cultures were induced with 0.5 mM, 1 mM and 2 mM IPTG. The Western Blot was left to block overnight. </p>
 
               <p><b>Results:</b> <a data-toggle="modal" data-target="#sbp-figure4-modal" class="journal-protocol"> Figure 4 </a> </p>
 
               <p><b>Results:</b> <a data-toggle="modal" data-target="#sbp-figure4-modal" class="journal-protocol"> Figure 4 </a> </p>
 
<p><b>Next Steps:</b> The Western Blot will be completed tomorrow.</p>
 
<p><b>Next Steps:</b> The Western Blot will be completed tomorrow.</p>
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             <span class="box-title">15/7: Overnight Cultures for 3L Culture for PotD Purification</span>
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             <span class="box-title">15/7: Overnight Cultures for 3 L Culture for PotD Purification</span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#secollapsiblew7-2"></span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#secollapsiblew7-2"></span>
 
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                 <div id="secollapsiblew7-2" class="collapse box-content">
                   <p><b>Aim of experiment:</b> To set up overnight cultures that will be used tomorrow to set up 3L cultures for <i>PotD</i> purification. </p>
+
                   <p><b>Aim of experiment:</b> To set up overnight cultures that will be used tomorrow to set up 3 L cultures for PotD purification. </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a></p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a></p>
 
               <p><b>Results:</b> N/A </p>
 
               <p><b>Results:</b> N/A </p>
<p><b>Next Steps:</b> The 3L day culture will be set up tomorrow.</p>
+
<p><b>Next Steps:</b> The 3 L day culture will be set up tomorrow.</p>
 
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             <span class="box-title">16/7: Sample Preparation for Western Blot of SBP and 3L Day Culture for PotD Purification</span>
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             <span class="box-title">16/7: Sample Preparation for Western Blot of SBP and 3 L Day Culture for PotD Purification</span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#secollapsiblew7-3"></span>
 
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                   <p><b>Aim of experiment:</b> To check if the cells in the induced cultures ~7 hours after being induced are producing SBP. To set up 3L Day Culture for <i> PotD</i> Purification </p>
+
                   <p><b>Aim of experiment:</b> To check if the cells in the induced cultures ~7 hours after being induced are producing SBP. To set up 3 L Day Culture for <i> PotD</i> Purification </p>
 
                   <p><b>Protocols Used: </b> <i>SBP</i>: <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> Western Blot Sample Preparation </a> Note: The day cultures were grown for 7 hours after they were induced and then the samples were frozen, to be blotted on Monday. <i>PotD</i>:  <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification </a>Note: Cultures were left to grow overnight after being induced. </p>
 
                   <p><b>Protocols Used: </b> <i>SBP</i>: <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> Western Blot Sample Preparation </a> Note: The day cultures were grown for 7 hours after they were induced and then the samples were frozen, to be blotted on Monday. <i>PotD</i>:  <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification </a>Note: Cultures were left to grow overnight after being induced. </p>
 
               <p><b>Results:</b> N/A</p>
 
               <p><b>Results:</b> N/A</p>
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             <span class="box-title">21/7: 3L Day Cultures for PotD Purification</span>
+
             <span class="box-title">21/7: 3 L Day Cultures for PotD Purification</span>
 
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                   <p><b>Aim of experiment:</b> To continue purification of PotD and to check if the cells begin to die after inducing expression of <i>SBP</i> with IPTG after having already grown to an OD<sub>600</sub> of 0.5. </p>
 
                   <p><b>Aim of experiment:</b> To continue purification of PotD and to check if the cells begin to die after inducing expression of <i>SBP</i> with IPTG after having already grown to an OD<sub>600</sub> of 0.5. </p>
 
                   <p><b>Protocols Used: </b> <i>PotD</i>: <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification </a> Note: The protocol was continued from Step 13. <i>SBP</i>: <a data-toggle="modal" data-target="#platereader2-modal" class="journal-protocol"> Growth Curve Assay </a></p>
 
                   <p><b>Protocols Used: </b> <i>PotD</i>: <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification </a> Note: The protocol was continued from Step 13. <i>SBP</i>: <a data-toggle="modal" data-target="#platereader2-modal" class="journal-protocol"> Growth Curve Assay </a></p>
               <p><b>Results:</b><a data-toggle="modal" data-target="#sbp-figure6-modal" class="journal-protocol"> Figure 6 </a> </p>
+
               <p><b>Results:</b> <a data-toggle="modal" data-target="#sbp-figure6-modal" class="journal-protocol"> Figure 6 </a> </p>
<p><b>Next Steps:</b>The samples from the size exclusion chromatography performed on PotD will be prepared tomorrow for blotting next week. For <i> SBP</i> further overexpression tests will be set up next week.</p>
+
<p><b>Next Steps:</b> The samples from the size exclusion chromatography performed on PotD will be prepared tomorrow for blotting next week. For <i> SBP</i> further overexpression tests will be set up next week.</p>
 
</div>
 
</div>
 
         </div>
 
         </div>
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                   <p><b>Aim of experiment:</b> To run SDS-PAGE of the elutions obtained on Friday after SEC.</p>
 
                   <p><b>Aim of experiment:</b> To run SDS-PAGE of the elutions obtained on Friday after SEC.</p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> SDS-PAGE</a></p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> SDS-PAGE</a></p>
               <p><b>Results:</b><a data-toggle="modal" data-target="#sbp-figure7-modal" class="journal-protocol"> Figure 7 </a> </p>
+
               <p><b>Results:</b> <a data-toggle="modal" data-target="#sbp-figure7-modal" class="journal-protocol"> Figure 7 </a> </p>
<p><b>Next Steps:</b>The same samples will be Western Blotted on Monday to confirm that the bands oberved are PotD.</p>
+
<p><b>Next Steps:</b> The same samples will be Western Blotted on Monday to confirm that the bands oberved are PotD.</p>
 
</div>
 
</div>
 
         </div>
 
         </div>
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               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#secollapsiblew9-1"></span>
 
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                   <p><b>Aim of experiment:</b> To set up a 150ml overnight culture containing pQE80-L-<i>SBP</i> for sub-culturing tomorrow and to run an SDS-PAGE and Western Blot the PotD samples from Friday.</p>
+
                   <p><b>Aim of experiment:</b> To set up a 150 ml overnight culture containing pQE80-L-<i>SBP</i> for sub-culturing tomorrow and to run an SDS-PAGE and Western Blot the PotD samples from Friday.</p>
 
                   <p><b>Protocols Used: </b><i>SBP</i>: <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a> Note: 150 ml of LB was used and 150 µl of each antibiotic. <i>PotD</i>: <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> SDS-PAGE and Western Blotting</a> Note: The membrane was left blocking overnight.</p>
 
                   <p><b>Protocols Used: </b><i>SBP</i>: <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a> Note: 150 ml of LB was used and 150 µl of each antibiotic. <i>PotD</i>: <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> SDS-PAGE and Western Blotting</a> Note: The membrane was left blocking overnight.</p>
 
               <p><b>Results:</b> N/A </p>
 
               <p><b>Results:</b> N/A </p>
<p><b>Next Steps:</b>150 ml of fresh LB will be inoculated tomorrow with 7.5 ml of the overnight cultures containing pQE80-L-<i>SBP</i>. The PotD Western Blot will be completed tomorrow. </p>
+
<p><b>Next Steps:</b> 150 ml of fresh LB will be inoculated tomorrow with 7.5 ml of the overnight cultures containing pQE80-L-<i>SBP</i>. The PotD Western Blot will be completed tomorrow. </p>
 
</div>
 
</div>
 
         </div>
 
         </div>
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                 <div id="secollapsiblew9-2" class="collapse box-content">
 
                   <p><b>Aim of experiment:</b> To set up day cultures using the overnight cultures from yesterday and test for expression of LbpA 6 hours after induction.</p>
 
                   <p><b>Aim of experiment:</b> To set up day cultures using the overnight cultures from yesterday and test for expression of LbpA 6 hours after induction.</p>
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> Protein Expression Test </a> Note: 150 ml of fresh LB was innoculated with 7.5ml of the overnight cultures. Only an uninduced control and an 1mM IPTG induced culture was set up. The samples were not blotted, they were only ran on an SDS gel. </p>
+
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> Protein Expression Test </a> Note: 150 ml of fresh LB was innoculated with 7.5ml of the overnight cultures. Only an uninduced control and an 1 mM IPTG induced culture was set up. The samples were not blotted, they were only ran on an SDS gel. </p>
 
               <p><b>Results:</b> <i>SBP</i>: Nothing was observable on the SDS gel. <i>PotD</i>: <a data-toggle="modal" data-target="#sbp-figure8-modal" class="journal-protocol"> Figure 8 </a> </p>
 
               <p><b>Results:</b> <i>SBP</i>: Nothing was observable on the SDS gel. <i>PotD</i>: <a data-toggle="modal" data-target="#sbp-figure8-modal" class="journal-protocol"> Figure 8 </a> </p>
 
<p><b>Next Steps:</b> Since PotD has now been successful purified, the next step is to attach a fluorescent nanobead to the protein. Hopefully, this will be attempted in the coming weeks. Even though SBP was not visible on the SDS gel, 3 L cultures will be set up this week to try and harvest the protein since the culture size may be too small. </p>
 
<p><b>Next Steps:</b> Since PotD has now been successful purified, the next step is to attach a fluorescent nanobead to the protein. Hopefully, this will be attempted in the coming weeks. Even though SBP was not visible on the SDS gel, 3 L cultures will be set up this week to try and harvest the protein since the culture size may be too small. </p>
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             <span class="box-title">30/7: 3L Culture for Purification of SBP</span>
+
             <span class="box-title">30/7: 3 L Culture for Purification of SBP</span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#secollapsiblew9-4"></span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#secollapsiblew9-4"></span>
 
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                 <div id="secollapsiblew9-4" class="collapse box-content">
                   <p><b>Aim of experiment:</b> To set up 3L day cultures for purifying SBP.</p>
+
                   <p><b>Aim of experiment:</b> To set up 3 L day cultures for purifying SBP.</p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification</a> Note: The procedure was stopped at Step 6 and the pellets were frozen at -20<sup>o</sup>C. </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification</a> Note: The procedure was stopped at Step 6 and the pellets were frozen at -20<sup>o</sup>C. </p>
 
               <p><b>Results:</b> N/A  </p>
 
               <p><b>Results:</b> N/A  </p>
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                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification</a> Note: The protocol was continued from Step 7</p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification</a> Note: The protocol was continued from Step 7</p>
 
               <p><b>Results:</b> N/A </p>
 
               <p><b>Results:</b> N/A </p>
<p><b>Next Steps:</b>Size exclusion chromatography will be carried out tomorrow. </p>
+
<p><b>Next Steps:</b> Size exclusion chromatography will be carried out tomorrow. </p>
 
</div>
 
</div>
 
         </div>
 
         </div>
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                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> Western Blot </a></p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> Western Blot </a></p>
 
               <p><b>Results:</b> <a data-toggle="modal" data-target="#sbp-figure9-modal" class="journal-protocol"> Figure 9 </a> </p>
 
               <p><b>Results:</b> <a data-toggle="modal" data-target="#sbp-figure9-modal" class="journal-protocol"> Figure 9 </a> </p>
<p><b>Next Steps: There was still some contamination in the gel filtrated samples so this will have to be removed before a nanobead can be attached to the protein. </b> </p>
+
<p><b>Next Steps:</b> There was still some contamination in the gel filtrated samples so this will have to be removed before a nanobead can be attached to the protein. </b> </p>
 
</div>
 
</div>
 
         </div>
 
         </div>
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                   <p><b>Aim of experiment:</b> To analyse the interaction of PotD and spermidine using tryptophan fluorescence. </p>
 
                   <p><b>Aim of experiment:</b> To analyse the interaction of PotD and spermidine using tryptophan fluorescence. </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#tf-modal" class="journal-protocol"> Tryptophan Fluorescence</a> </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#tf-modal" class="journal-protocol"> Tryptophan Fluorescence</a> </p>
               <p><b>Results:</b> N/A </p>
+
               <p><b>Results:</b> <a data-toggle="modal" data-target="#sbp-figure10-modal" class="journal-protocol"> Figure 10 </a> </p>
<p><b>Next Steps:</b></p>
+
<p><b>Next Steps:</b> To continue characterization of the spermidine/ PotD interaction using tryptophan fluorescence and other methods. </p>
 
</div>
 
</div>
 
         </div>
 
         </div>
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<!-- WEEK 1 -->
 
<!-- WEEK 1 -->
 
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         <div class="labtitle">Week Beginning 10/6/2015</div>
 
         <div class="labtitle">Week Beginning 10/6/2015</div>
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         </div>
 
         </div>
 
     </div>
 
     </div>
 +
  </div>
 
   </div>
 
   </div>
  
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                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#PCR-modal" class="journal-protocol">PCR</a></p>
 
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#PCR-modal" class="journal-protocol">PCR</a></p>
 
         <p><b>Results:</b> <a data-toggle="modal" data-target="#bl-figure2-modal" class="journal-protocol"> Figure 2 </a>
 
         <p><b>Results:</b> <a data-toggle="modal" data-target="#bl-figure2-modal" class="journal-protocol"> Figure 2 </a>
       <p><b>Next Steps:</b> Sequencing of pSB1c3-<i>hHBA</i> and pSB1c3-<i>hHBB</i> showed that pSB1c3-<i>hHBA</i> had a 1 bp deletion so one of the other minipreps was sent for sequencing. pSB1c3-<i>hHBB</i>, however, was successful so tHe band for <i>hHBB</i> will be gel extracted and digested tomorrow. </p>
+
       <p><b>Next Steps:</b> Sequencing of pSB1C3-<i>hHBA</i> and pSB1C3-<i>hHBB</i> showed that pSB1c3-<i>hHBA</i> had a 1 bp deletion so one of the other minipreps was sent for sequencing. pSB1C3-<i>hHBB</i>, however, was successful so the band for <i>hHBB</i> will be gel extracted and digested tomorrow. </p>
 
                 </div>
 
                 </div>
 
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               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#blcollapsiblew3-1"></span>
 
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                 <div id="blcollapsiblew3-1" class="collapse box-content">
                   <p><b>Aim of experiment:</b> To transform pUT18-<i>hHBB</i> into BTH101 <i>E.coli</i>.</p>
+
                   <p><b> Aim of experiment:</b> To transform pUT18-<i>hHBB</i> into BTH101 <i>E.coli</i>.</p>
                   <p><b>Protocols Used: </b><a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol"> Transformations</a></p>
+
                   <p><b> Protocols Used: </b><a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol"> Transformations</a></p>
                   <p><b>Results:</b>N/A </p>
+
                   <p><b> Results:</b>N/A </p>
<p><b>Next Steps:</b>If transformations are successful, overnight cultures will be set up tomorrow. Sequencing showed the sequence for pSB1C3-<i>hHBA</i> was incorrect again, a third miniprep will be sent for sequencing.</p>
+
<p><b>Next Steps:</b> If transformations are successful, overnight cultures will be set up tomorrow. Sequencing showed the sequence for pSB1C3-<i>hHBA</i> was incorrect again, a third miniprep will be sent for sequencing.</p>
 
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               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#blcollapsiblew3-2"></span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#blcollapsiblew3-2"></span>
 
                 <div id="blcollapsiblew3-2" class="collapse box-content">
 
                 <div id="blcollapsiblew3-2" class="collapse box-content">
                   <p><b>Aim of experiment:</b> To set up overnight cultures of BTH101 <i>E.coli</i> containing pUT18-<i>hHBB</i> from the transformations carried out yesterday.</p>
+
                   <p><b> Aim of experiment:</b> To set up overnight cultures of BTH101 <i>E.coli</i> containing pUT18-<i>hHBB</i> from the transformations carried out yesterday.</p>
                   <p><b>Protocols Used: </b><a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures</a></p>
+
                   <p><b> Protocols Used: </b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures</a></p>
                   <p><b>Results:</b> N/A </p>
+
                   <p><b> Results:</b> N/A </p>
 
<p><b>Next Steps:</b> The overnight cultures will be miniprepped and sent for sequencing tomorrow. </p>
 
<p><b>Next Steps:</b> The overnight cultures will be miniprepped and sent for sequencing tomorrow. </p>
 
</div>
 
</div>
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               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#blcollapsiblew3-4"></span>
 
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                 <div id="blcollapsiblew3-4" class="collapse box-content">
                   <p><b>Aim of experiment:</b> To amplify <i>hHBA</i> for Cloning into pT25</p>
+
                   <p><b>Aim of experiment:</b> To amplify <i>hHBA</i> for cloning into pT25</p>
 
                   <p><b>Protocols Used: </b><a data-toggle="modal" data-target="#PCR-modal" class="journal-protocol"> PCR</a></p>
 
                   <p><b>Protocols Used: </b><a data-toggle="modal" data-target="#PCR-modal" class="journal-protocol"> PCR</a></p>
 
                   <p><b>Results:</b> <a data-toggle="modal" data-target="#bl-figure3-modal" class="journal-protocol"> Figure 3 </a> </p>
 
                   <p><b>Results:</b> <a data-toggle="modal" data-target="#bl-figure3-modal" class="journal-protocol"> Figure 3 </a> </p>
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                 <div id="blcollapsiblew4-1" class="collapse box-content">
 
                   <p><b>Aim of Experiment:</b> To transform pT25-<i>hHBA</i> into  BTH101 <i>E.coli</i>.</p>
 
                   <p><b>Aim of Experiment:</b> To transform pT25-<i>hHBA</i> into  BTH101 <i>E.coli</i>.</p>
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol"> Transformations</a>></p>
+
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol"> Transformations</a></p>
 
         <p><b>Results: </b>N/A</p>  
 
         <p><b>Results: </b>N/A</p>  
 
                   <p><b>Next Steps:</b> Overnight cultures will be set up tomorrow for the pT25-<i>hHBA</i> transformations if successful. Sequencing confirmed <i>hHBB</i> has been successfully inserted into pUT18. </p>
 
                   <p><b>Next Steps:</b> Overnight cultures will be set up tomorrow for the pT25-<i>hHBA</i> transformations if successful. Sequencing confirmed <i>hHBB</i> has been successfully inserted into pUT18. </p>
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                 <div id="blcollapsiblew4-2" class="collapse box-content">
 
                   <p><b>Aim of experiment:</b> To set up overnight cultures of MC1061 <i>E.coli</i> containing pT25-<i>hHBA</i>. To amplify <i>hHBA</i>.and <i>hHBB</i> for cloning into pQE80-L.</p>
 
                   <p><b>Aim of experiment:</b> To set up overnight cultures of MC1061 <i>E.coli</i> containing pT25-<i>hHBA</i>. To amplify <i>hHBA</i>.and <i>hHBB</i> for cloning into pQE80-L.</p>
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a>  <a data-toggle="modal" data-target="#pcr-modal" class="journal-protocol"> Transformations </a><a data-toggle="modal" data-target="#restrictiondigest-modal" class="journal-protocol"> Restriction Digests </a> <a data-toggle="modal" data-target="#ligation-modal" class="journal-protocol"> Ligations </a></p>
+
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a>  <a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol"> Transformations </a><a data-toggle="modal" data-target="#restrictiondigest-modal" class="journal-protocol"> Restriction Digests </a> <a data-toggle="modal" data-target="#ligation-modal" class="journal-protocol"> Ligations </a></p>
 
         <p><b>Results:</b> <a data-toggle="modal" data-target="#bl-figure4-modal" class="journal-protocol"> Figure 4 </a> </p>
 
         <p><b>Results:</b> <a data-toggle="modal" data-target="#bl-figure4-modal" class="journal-protocol"> Figure 4 </a> </p>
 
       <p><b>Next Steps:</b> The BTH101 <i>E.coli</i> overnight cultures containing pT25-<i>hHBB</i> will be miniiprepped tomorrow. The PCR products will be digested and ligate dinto pQE80-L tomorrow.</p>
 
       <p><b>Next Steps:</b> The BTH101 <i>E.coli</i> overnight cultures containing pT25-<i>hHBB</i> will be miniiprepped tomorrow. The PCR products will be digested and ligate dinto pQE80-L tomorrow.</p>
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                   <p><b>Protocols Used:</b><a data-toggle="modal" data-target="#miniprep-modal" class="journal-protocol"> Plasmid Purification (QIAprep® Spin Miniprep Kit)</a> <a data-toggle="modal" data-target="#restrictiondigest-modal" class="journal-protocol"> Restriction Digests </a> <a data-toggle="modal" data-target="#ligation-modal" class="journal-protocol"> Ligations </a> </p>
 
                   <p><b>Protocols Used:</b><a data-toggle="modal" data-target="#miniprep-modal" class="journal-protocol"> Plasmid Purification (QIAprep® Spin Miniprep Kit)</a> <a data-toggle="modal" data-target="#restrictiondigest-modal" class="journal-protocol"> Restriction Digests </a> <a data-toggle="modal" data-target="#ligation-modal" class="journal-protocol"> Ligations </a> </p>
 
         <p><b>Results:</b> N/A
 
         <p><b>Results:</b> N/A
       <p><b>Next Steps:</b> The miniprep with the highest concentration for pT25-<i>hHBA</i> will be sent for sequencing. The pQE80-L-<i>hHBA</i> and pQE80-L-<i>hHBB</i> will be transformed into M15[pREP4] <i>E.coli</i> tomrorrow.</p>  
+
       <p><b>Next Steps:</b> The miniprep with the highest concentration for pT25-<i>hHBA</i> will be sent for sequencing. The pQE80-L-<i>hHBA</i> and pQE80-L-<i>hHBB</i> will be transformed into M15[<i>pREP4</i>] <i>E.coli</i> tomrorrow.</p>  
 
                 </div>
 
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             <span class="box-title">2/7: Transformations of pQE80-L-<i>hHBA</i> and pQE80-L-<i>hHBB</i> Ligations into M15[pREP4] <i>E.coli</i></span>
+
             <span class="box-title">2/7: Transformations of pQE80-L-<i>hHBA</i> and pQE80-L-<i>hHBB</i> Ligations into M15[<i>pREP4</i>] <i>E.coli</i></span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#blcollapsiblew4-4"></span>
 
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                   <p><b>Aim of experiment:</b> To transform the pQE80-L-<i>hHBA</i> and pQE80-L-<i>hHBB</i> ligations into M15[pREP4] <i>E.coli</i>.</p>
+
                   <p><b>Aim of experiment:</b> To transform the pQE80-L-<i>hHBA</i> and pQE80-L-<i>hHBB</i> ligations into M15[<i>pREP4</i>] <i>E.coli</i>.</p>
 
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol"> Transformations </a></p>
 
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol"> Transformations </a></p>
 
         <p><b>Results:</b> N/A
 
         <p><b>Results:</b> N/A
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             <span class="box-title">6/7: Overnight Cultures of m15[pREP4] <i>E.coli</i> containing pQE80-L-<i>hHBA</i> and pQE80-L-<i>hHBB</i></span>
+
             <span class="box-title">6/7: Overnight Cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>hHBA</i> and pQE80-L-<i>hHBB</i></span>
 
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             <span class="box-title">7/7: Plasmid Purification of m15[pREP4] <i>E.coli</i> Overnight Cultures containing pQE80-L-<i>hHBA</i> and pQE80-L-<i>hHBB</i></span>
+
             <span class="box-title">7/7: Plasmid Purification of M15[<i>pREP4</i>] <i>E.coli</i> Overnight Cultures containing pQE80-L-<i>hHBA</i> and pQE80-L-<i>hHBB</i></span>
 
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             <span class="box-title">13/7: Ligations of <i>hHBN</i> into pSB1C3 and Overnight Cultures of M15[pREP4] <i>E.coli</i> containing pQE80-L-<i>hHBA</i> and pQE80-L-<i>hHBB</i></span>
+
             <span class="box-title">13/7: Ligations of <i>hHBN</i> into pSB1C3 and Overnight Cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>hHBA</i> and pQE80-L-<i>hHBB</i></span>
 
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               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#blcollapsiblew6-1"></span>
 
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                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a> <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> Western Blotting</a> </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a> <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> Western Blotting</a> </p>
 
               <p><b>Results:</b> <a data-toggle="modal" data-target="#bl-figure7-modal" class="journal-protocol"> Figure 7 </a> </p>
 
               <p><b>Results:</b> <a data-toggle="modal" data-target="#bl-figure7-modal" class="journal-protocol"> Figure 7 </a> </p>
<p><b>Next Steps:</b> The blot shows that characterization of hHBB has been successful. Unfortunately, nothing was visible on the blot for hHBA. 3L cultures for purification of hHBB will be set up this week. Characterization of hHBA may be reattempted. The overnight cultures will be miniprepped tomorrow.</p>
+
<p><b>Next Steps:</b> The blot shows that characterization of hHBB has been successful. Unfortunately, nothing was visible on the blot for hHBA. 3 L cultures for purification of hHBB will be set up this week. Characterization of hHBA may be reattempted. The overnight cultures will be miniprepped tomorrow.</p>
 
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         </div>
 
         </div>
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             <span class="box-title">16/7: Plasmid Purification of pSB1C3-<i>hHBN</i> and Overnight Cultures of M15[pREP4] <i>E.coli</i> containing pQE80-L-<i>hHBB</i> </span>
+
             <span class="box-title">16/7: Plasmid Purification of pSB1C3-<i>hHBN</i> and Overnight Cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>hHBB</i> </span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#blcollapsiblew6-4"></span>
 
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                 <div id="blcollapsiblew6-4" class="collapse box-content">
                   <p><b>Aim of experiment:</b> To miniprep the MC1061 <i>E.coli</i> overnight cultures containing pSB1C3-<i>hHBN</i> and set up overnight cultures of M15[pREP4] <i>E.coli</i> containing pQE80-L-<i>hHBB</i> for 3L cultures. </p>
+
                   <p><b>Aim of experiment:</b> To miniprep the MC1061 <i>E.coli</i> overnight cultures containing pSB1C3-<i>hHBN</i> and set up overnight cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>hHBB</i> for 3L cultures. </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#miniprep-modal" class="journal-protocol"> Plasmid Purification (QIAprep® Spin Miniprep Kit)</a> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a> </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#miniprep-modal" class="journal-protocol"> Plasmid Purification (QIAprep® Spin Miniprep Kit)</a> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a> </p>
 
               <p><b>Results:</b> N/A </p>
 
               <p><b>Results:</b> N/A </p>
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             <span class="box-title">17/7: 3L Cultures of M15[pREP4] <i>E.coli</i> containing pQE80-L-<i>hHBB</i> </span>
+
             <span class="box-title">17/7: 3 L Cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>hHBB</i> </span>
 
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                 <div id="blcollapsiblew6-5" class="collapse box-content">
                   <p><b>Aim of experiment:</b> To set up 3L day cultures of M15[pREP4] <i>E.coli</i> containing pQE80-L-<i>hHBB</i> for purification of hHBB. </p>
+
                   <p><b>Aim of experiment:</b> To set up 3 L day cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>hHBB</i> for purification of hHBB. </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification </a> Note: The protocol was stopped at Step 6. </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification </a> Note: The protocol was stopped at Step 6. </p>
 
               <p><b>Results:</b> N/A</p>
 
               <p><b>Results:</b> N/A</p>
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                   <p><b>Aim of experiment:</b> To amplify <i>hHBN</i> for cloning into pQE80-L and continuation of hHBB purification.</p>
 
                   <p><b>Aim of experiment:</b> To amplify <i>hHBN</i> for cloning into pQE80-L and continuation of hHBB purification.</p>
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#PCR-modal" class="journal-protocol"> PCR </a> <b>Protocols Used: </b> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification </a> Note: Protocol was continued from Step 6 <a data-toggle="modal" data-target="#pcr-modal" class="journal-protocol"> PCR</a></p>
+
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#PCR-modal" class="journal-protocol"> PCR </a> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification </a> Note: Protocol was continued from Step 6. </p>
 
               <p><b>Results:</b> <a data-toggle="modal" data-target="#bl-figure8-modal" class="journal-protocol"> Figure 8</a> </p>
 
               <p><b>Results:</b> <a data-toggle="modal" data-target="#bl-figure8-modal" class="journal-protocol"> Figure 8</a> </p>
 
<p><b>Next Steps:</b> The fractions from the affinity chromatography will be consolidated and concentrated tomorrow. Size exclusion chromatography will also be performed. The <i>hHBN</i> PCR product will be digested and ligated into pQE80-L tomorrow. </p>
 
<p><b>Next Steps:</b> The fractions from the affinity chromatography will be consolidated and concentrated tomorrow. Size exclusion chromatography will also be performed. The <i>hHBN</i> PCR product will be digested and ligated into pQE80-L tomorrow. </p>
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                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification </a> <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> SDS </a> Note: An SDS gel was ran of the SEC fractions which corresponded to the observed peak. Western blotting was stopped at the blocking stage. <a data-toggle="modal" data-target="#restrictiondigest-modal" class="journal-protocol"> Restriction Digests </a> <a data-toggle="modal" data-target="#ligation-modal" class="journal-protocol"> Ligations </a></p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification </a> <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> SDS </a> Note: An SDS gel was ran of the SEC fractions which corresponded to the observed peak. Western blotting was stopped at the blocking stage. <a data-toggle="modal" data-target="#restrictiondigest-modal" class="journal-protocol"> Restriction Digests </a> <a data-toggle="modal" data-target="#ligation-modal" class="journal-protocol"> Ligations </a></p>
 
               <p><b>Results:</b> <a data-toggle="modal" data-target="#bl-figure9-modal" class="journal-protocol"> Figure 9 </a> </p>
 
               <p><b>Results:</b> <a data-toggle="modal" data-target="#bl-figure9-modal" class="journal-protocol"> Figure 9 </a> </p>
<p><b>Next Steps:</b> Western blotting will be completed tomorrow and will confirm if the bands observed on the SDS gel are indeed hHBB. The pQE80-L<i>hHBN</i> ligations will be transformed into M15[pREP4] <i>E.coli</i> tomorrrow. </p>
+
<p><b>Next Steps:</b> Western blotting will be completed tomorrow and will confirm if the bands observed on the SDS gel are indeed hHBB. The pQE80-L<i>hHBN</i> ligations will be transformed into M15[<i>pREP4</i>] <i>E.coli</i> tomorrrow. </p>
 
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             <span class="box-title">22/7: Western Blot of hHBB and Transformations of m15[pREP4] <i>E.coli</i> with pQE80-L<i>hHBN</i> Ligations</i> </span>
+
             <span class="box-title">22/7: Western Blot of hHBB and Transformations of M15[<i>pREP4</i>] <i>E.coli</i> with pQE80-L<i>hHBN</i> Ligations</i> </span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#blcollapsiblew7-3"></span>
 
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                   <p><b>Aim of experiment:</b> To complete the Western blot of hHBB and transform pQE80-L<i>hHBN</i> into m15[pREP4] <i>E.coli</i>. </p>
+
                   <p><b>Aim of experiment:</b> To complete the Western blot of hHBB and transform pQE80-L<i>hHBN</i> into M15[<i>pREP4</i>] <i>E.coli</i>. </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> Western Blotting </a> <a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol"> Transformations </a>  </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#sds-modal" class="journal-protocol"> Western Blotting </a> <a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol"> Transformations </a>  </p>
 
               <p><b>Results:</b><a data-toggle="modal" data-target="#bl-figure10-modal" class="journal-protocol"> Figure 10 </a></p>
 
               <p><b>Results:</b><a data-toggle="modal" data-target="#bl-figure10-modal" class="journal-protocol"> Figure 10 </a></p>
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             <span class="box-title">23/7: Overnight Cultures of m15[pREP4] <i>E.coli</i> containing pQE80-L<i>hHBN</i></span>
+
             <span class="box-title">23/7: Overnight Cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L<i>hHBN</i></span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#blcollapsiblew7-4"></span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#blcollapsiblew7-4"></span>
 
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                 <div id="blcollapsiblew7-4" class="collapse box-content">
                   <p><b>Aim of experiment:</b> To set up overnight cultures of m15[pREP4] <i>E.coli</i> containing pQE80-L<i>hHBN</i>. </p>
+
                   <p><b>Aim of experiment:</b> To set up overnight cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L<i>hHBN</i>. </p>
 
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a> </p>
 
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a> </p>
 
               <p><b>Results:</b> N/A</p>
 
               <p><b>Results:</b> N/A</p>
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             <span class="box-title">24/7: Plasmid Purification of Overnight Cultures of m15[pREP4] <i>E.coli</i> containing pQE80-L<i>hHBN</i></span>
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             <span class="box-title">24/7: Plasmid Purification of Overnight Cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L<i>hHBN</i></span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#blcollapsiblew7-5"></span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#blcollapsiblew7-5"></span>
 
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                 <div id="blcollapsiblew7-5" class="collapse box-content">
                   <p><b>Aim of experiment:</b> To miniprep m15[pREP4] <i>E.coli</i> overnight cultures containing pQE80-L<i>hHBN</i>. </p>
+
                   <p><b>Aim of experiment:</b> To miniprep M15[<i>pREP4</i>] <i>E.coli</i> overnight cultures containing pQE80-L<i>hHBN</i>. </p>
 
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#miniprep-modal" class="journal-protocol"> Plasmid Purification (QIAprep® Spin Miniprep Kit)</a> </p>
 
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#miniprep-modal" class="journal-protocol"> Plasmid Purification (QIAprep® Spin Miniprep Kit)</a> </p>
 
               <p><b>Results:</b> N/A</p>
 
               <p><b>Results:</b> N/A</p>
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         <div class="box">
 
             <span class="box-title">27/7: Restriction Digests and Ligations of <i>hHBN</i> into pQE80-L</span>
 
             <span class="box-title">27/7: Restriction Digests and Ligations of <i>hHBN</i> into pQE80-L</span>
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+
                 <div id="blcollapsiblew8-1" class="collapse box-content">
 
                   <p><b>Aim of experiment:</b> To digest <i>hHBN</i> again with BamHI and KpnI and set up ligations with pQE80-L.</p>
 
                   <p><b>Aim of experiment:</b> To digest <i>hHBN</i> again with BamHI and KpnI and set up ligations with pQE80-L.</p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#restrictiondigest-modal" class="journal-protocol"> Resriction Digests </a> <a data-toggle="modal" data-target="#ligation-modal" class="journal-protocol"> Ligations </a> </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#restrictiondigest-modal" class="journal-protocol"> Resriction Digests </a> <a data-toggle="modal" data-target="#ligation-modal" class="journal-protocol"> Ligations </a> </p>
 
               <p><b>Results:</b> N/A</p>
 
               <p><b>Results:</b> N/A</p>
<p><b>Next Steps:</b> Ligations will be transformed into M15[pREP4] <i>E.coli</i> tomorrow. </p>
+
<p><b>Next Steps:</b> Ligations will be transformed into M15[<i>pREP4</i>] <i>E.coli</i> tomorrow. </p>
 
</div>
 
</div>
 
         </div>
 
         </div>
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             <span class="box-title">28/7: Transformation of M15[pREP4] <i>E.coli</i> with pQE80-L-<i>hHBN</i> </span>
+
             <span class="box-title">28/7: Transformation of M15[<i>pREP4</i>] <i>E.coli</i> with pQE80-L-<i>hHBN</i> </span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#blcollapsiblew8-2"></span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#blcollapsiblew8-2"></span>
 
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                   <p><b>Aim of experiment:</b> To transform M15[pREP4] <i>E.coli</i> with pQE80-L-<i>hHBN</i>. </p>
+
                   <p><b>Aim of experiment:</b> To transform M15[<i>pREP4</i>] <i>E.coli</i> with pQE80-L-<i>hHBN</i>. </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol"> Transformations </a></p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol"> Transformations </a></p>
 
               <p><b>Results:</b> N/A </p>
 
               <p><b>Results:</b> N/A </p>
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             <span class="box-title">29/7: Overnight Cultures of M15[pREP4] <i>E.coli</i> containing pQE80-L-<i>hHBN</i>  </span>
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             <span class="box-title">29/7: Overnight Cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>hHBN</i>  </span>
 
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                   <p><b>Aim of experiment:</b> To set up overnight cultures of M15[pREP4] <i>E.coli</i> containing pQE80-L-<i>hHBN</i> </p>
+
                   <p><b>Aim of experiment:</b> To set up overnight cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>hHBN</i> </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a> </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a> </p>
 
               <p><b>Results:</b> N/A </p>
 
               <p><b>Results:</b> N/A </p>
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             <span class="box-title">30/7: Plasmid Purification of M15[pREP4] <i>E.coli</i> Overnight Cultures containing pQE80-L-<i>hHBN</i> </span>
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             <span class="box-title">30/7: Plasmid Purification of M15[<i>pREP4</i>] <i>E.coli</i> Overnight Cultures containing pQE80-L-<i>hHBN</i> </span>
 
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                   <p><b>Aim of experiment:</b> To miniprep the M15[pREP4] <i>E.coli</i> Overnight Cultures containing pQE80-L-<i>hHBN</i>. </p>
+
                   <p><b>Aim of experiment:</b> To miniprep the M15[<i>pREP4</i>] <i>E.coli</i> Overnight Cultures containing pQE80-L-<i>hHBN</i>. </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#miniprep-modal" class="journal-protocol"> Plasmid Purification (QIAprep® Spin Miniprep Kit)</a> </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#miniprep-modal" class="journal-protocol"> Plasmid Purification (QIAprep® Spin Miniprep Kit)</a> </p>
 
               <p><b>Results:</b> N/A </p>
 
               <p><b>Results:</b> N/A </p>
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                   <p><b>Aim of experiment:</b> To amplfy <i>hHBN</i> for cloning into the two hybrid vector pT25.</p>
 
                   <p><b>Aim of experiment:</b> To amplfy <i>hHBN</i> for cloning into the two hybrid vector pT25.</p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#PCR-modal" class="journal-protocol"> PCR</a></p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#PCR-modal" class="journal-protocol"> PCR</a></p>
               <p><b>Results:</b><a data-toggle="modal" data-target="#bl-figure11-modal" class="journal-protocol"> Figure 11 </a> </p>
+
               <p><b>Results:</b><a data-toggle="modal" data-target="#bl-figure15-modal" class="journal-protocol"> Figure 11 </a> </p>
 
<p><b>Next Steps:</b>The PCR product will be digested and ligated into pT25 on Monday.</p>
 
<p><b>Next Steps:</b>The PCR product will be digested and ligated into pT25 on Monday.</p>
 
</div>
 
</div>
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               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#blcollapsiblew10-1"></span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#blcollapsiblew10-1"></span>
 
                 <div id="blcollapsiblew10-1" class="collapse box-content">
 
                 <div id="blcollapsiblew10-1" class="collapse box-content">
                   <p><b>Aim of experiment:</b> To set up overnight cultures of M15[pREP4] <i>E.coli</i> containing pQE80-L-<i>hHBN</i>. </p>
+
                   <p><b>Aim of experiment:</b> To set up overnight cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>hHBN</i>. </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a></p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures </a></p>
 
               <p><b>Results:</b> N/A </p>
 
               <p><b>Results:</b> N/A </p>
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             <span class="box-title">12/8: Overnight Cultures of M15[pREP4] <i>E.coli</i> containing pQE80-L-<i>hHBN</i></span>
+
             <span class="box-title">12/8: Overnight Cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>hHBN</i></span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#blcollapsiblew10-3"></span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#blcollapsiblew10-3"></span>
 
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                 <div id="blcollapsiblew10-3" class="collapse box-content">
                   <p><b>Aim of experiment:</b> To set up overnight cultures of M15[pREP4] <i>E.coli</i> containing pQE80-L-<i>hHBN</i> which will be used to set up a 3 L day culture tomorrow.</p>
+
                   <p><b>Aim of experiment:</b> To set up overnight cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>hHBN</i> which will be used to set up a 3 L day culture tomorrow.</p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures</a> Note: A 150 ml overnight culture was set up. </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol"> Overnight Cultures</a> Note: A 150 ml overnight culture was set up. </p>
 
               <p><b>Results:</b> N/A </p>
 
               <p><b>Results:</b> N/A </p>
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         <div class="box">
             <span class="box-title">13/8: 3L Day Cultures of M15[pREP4] <i>E.coli</i> containing pQE80-L-<i>hHBN</i></span>
+
             <span class="box-title">13/8: 3 L Day Cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>hHBN</i></span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#blcollapsiblew10-4"></span>
 
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                 <div id="blcollapsiblew10-4" class="collapse box-content">
                   <p><b>Aim of experiment:</b> To set up 3L day cultures of M15[pREP4] <i>E.coli</i> containing pQE80-L-<i>hHBN</i> using the overnight culture set up yesterday.</p>
+
                   <p><b>Aim of experiment:</b> To set up 3 L day cultures of M15[<i>pREP4</i>] <i>E.coli</i> containing pQE80-L-<i>hHBN</i> using the overnight culture set up yesterday.</p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification</a> Note: The cultures were grown to OD<sub>600</sub>=0.9, then induced with 1 mM IPTG and allowed to grow for a further 8 hours. A 1 ml sample was taken before the cultures were spun down. </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification</a> Note: The cultures were grown to OD<sub>600</sub>=0.9, then induced with 1 mM IPTG and allowed to grow for a further 8 hours. A 1 ml sample was taken before the cultures were spun down. </p>
 
               <p><b>Results:</b> N/A </p>
 
               <p><b>Results:</b> N/A </p>
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                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification </a> Note: The protocol was stopped at Step 13.</p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification </a> Note: The protocol was stopped at Step 13.</p>
 
               <p><b>Results:</b> N/A </p>
 
               <p><b>Results:</b> N/A </p>
<p><b>Next Steps:</b>The samples corresponding to the peak observed in the chromatogram will be combined and purified using SEC tomorrow. </p>
+
<p><b>Next Steps:</b> The samples corresponding to the peak observed in the chromatogram will be combined and purified using SEC tomorrow. </p>
 
</div>
 
</div>
 
         </div>
 
         </div>
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                   <p><b>Aim of experiment:</b> To continue purification of hHBN by performing size exclusion chromatography. </p>
 
                   <p><b>Aim of experiment:</b> To continue purification of hHBN by performing size exclusion chromatography. </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification</a> </p>
 
                   <p><b>Protocols Used: </b> <a data-toggle="modal" data-target="#pp-modal" class="journal-protocol"> Protein Purification</a> </p>
               <p><b>Results:</b> </p>
+
               <p><b>Results:</b> N/A </p>
<p><b>Next Steps</b>:The gel shows bands corresponding to 45kDa, the expected size of hHBN. This will be checked via Western Blotting to ensure it is the correct protein. </p>
+
<p><b>Next Steps</b>: The gel shows bands corresponding to 45 kDa, the expected size of hHBN. This will be checked via Western Blotting to ensure it is the correct protein. </p>
 
</div>
 
</div>
 
         </div>
 
         </div>
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                   <p><b>Aim of experiment:</b> To amplify <i>hHBA</i> for subsequent cloning into the two hybrid vector pT25.</p>
 
                   <p><b>Aim of experiment:</b> To amplify <i>hHBA</i> for subsequent cloning into the two hybrid vector pT25.</p>
 
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#PCR-modal" class="journal-protocol">PCR</a></p>
 
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#PCR-modal" class="journal-protocol">PCR</a></p>
         <p><b>Results:</b> N/A
+
         <p><b>Results:</b> <a data-toggle="modal" data-target="#bl-figure16-modal" class="journal-protocol"> Figure 15</a>
 
       <p><b>Next Steps:</b> The gel extracted PCR product will be digested and ligated into pT25 tomorrow. </p>
 
       <p><b>Next Steps:</b> The gel extracted PCR product will be digested and ligated into pT25 tomorrow. </p>
 
                 </div>
 
                 </div>
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                 <div id="blcollapsiblew13-1" class="collapse box-content">
 
                   <p><b>Aim of experiment:</b> To amplify <i>hHBN</i> for subsequent cloning into the two hybrid vector pUT18.</p>
 
                   <p><b>Aim of experiment:</b> To amplify <i>hHBN</i> for subsequent cloning into the two hybrid vector pUT18.</p>
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#pcr-modal" class="journal-protocol">PCR</a></p>
+
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#PCR-modal" class="journal-protocol">PCR</a></p>
         <p><b>Results:</b> N/A
+
         <p><b>Results:</b> <a data-toggle="modal" data-target="#bl-figure17-modal" class="journal-protocol"> Figure 16</a> </p>
 
       <p><b>Next Steps:</b> The gel extracted PCR product will be digested and ligated into pT25 tomorrow. </p>
 
       <p><b>Next Steps:</b> The gel extracted PCR product will be digested and ligated into pT25 tomorrow. </p>
 
                 </div>
 
                 </div>
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                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol">Transformations </a></p>
 
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol">Transformations </a></p>
 
         <p><b>Results:</b> N/A
 
         <p><b>Results:</b> N/A
       <p><b>Next Steps:</b> If transformations are successful, colonies will be pick for setting up overnight cultures tomorrow.  </p>
+
       <p><b>Next Steps:</b> If transformations are successful, colonies will be picked for setting up overnight cultures tomorrow.  </p>
 
                 </div>
 
                 </div>
 
         </div>
 
         </div>
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<!-- WEEK 1 -->
 
<!-- WEEK 1 -->
 
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 +
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         <div class="labtitle">Week Beginning 15/6/2015</div>
 
         <div class="labtitle">Week Beginning 15/6/2015</div>
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             <span class="box-title">17/6: Transformation of pIDT-<i>OBP2A</i> in MC1610 <i>E.coli</i> strain </span>
+
             <span class="box-title">17/6: Transformation of pIDT-<i>OBP2A</i> in MC1610 <i>E.coli</i> </span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#nmcollapsiblew1-1"></span>
 
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                 <div id="nmcollapsiblew1-1" class="collapse box-content">
                   <p><b>Aim of Experiment:</b> To transform pIDT-<i>OBP2A</i> into MC1061 <i> E.coli</i> strain. </p>
+
                   <p><b>Aim of Experiment:</b> To transform pIDT-<i>OBP2A</i> into MC1061 <i> e.coli</i> strain. </p>
 
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol">Transformation </a> </p>
 
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol">Transformation </a> </p>
 
         <p><b>Results: </b> N/A </a></p>  
 
         <p><b>Results: </b> N/A </a></p>  
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</div>
 
</div>
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             <span class="box-title">27/6: Plasmid purification and presequence digest of pSB1C3-<I>OBP2A</I>  </span>
+
             <span class="box-title">27/6: Plasmid Purification and Presequence Digest of pSB1C3-<I>OBP2A</I>  </span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#nmcollapsiblew2-6"></span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#nmcollapsiblew2-6"></span>
 
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                 <div id="nmcollapsiblew2-6" class="collapse box-content">
 
                   <p><b>Aim of experiment:</b> To perform a plasmid purification of the overnight cultures of pSB1C3-<i>OBP2A</i> from the 26/6. Then to subsequently perform a presequence digest of those plasmid purification.   
 
                   <p><b>Aim of experiment:</b> To perform a plasmid purification of the overnight cultures of pSB1C3-<i>OBP2A</i> from the 26/6. Then to subsequently perform a presequence digest of those plasmid purification.   
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#miniprep-modal" class="journal-protocol">Plasmid Purification <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol">Presequence digest</a></p>
+
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#miniprep-modal" class="journal-protocol">Plasmid Purification <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol">Restriction Digests</a></p>
 
         <p><b>Results: </b> <a data-toggle="modal" data-target="#nm-figure4-modal" class="journal-protocol"> Figure 4 </a>
 
         <p><b>Results: </b> <a data-toggle="modal" data-target="#nm-figure4-modal" class="journal-protocol"> Figure 4 </a>
 
 
        <table border="1" style="width:20%">
 
  <tr>
 
    <th>Sample</th>
 
    <th>Concentration(ng/ul)</th>
 
  </tr>
 
  <tr>
 
    <td>1</td>
 
    <td>308.74</td>
 
  </tr>
 
  <tr>
 
    <td>2</td>
 
    <td>342.3</td>
 
  </tr>
 
  <tr>
 
    <td>3</td>
 
    <td>369.90</td>
 
  </tr>
 
  <tr>
 
    <td>4</td>
 
    <td>321.97</td>
 
  </tr>
 
  <tr>
 
    <td>5</td>
 
    <td>460.78</td>
 
  </tr>
 
  <tr>
 
    <td>6</td>
 
    <td>261.61</td>
 
  </tr>
 
</table>
 
 
  
 
               <p><b>Next Steps:</b> It was concluded from the results of these experiments that sample 5 of pSB1C3-<i>OBP2A</i> will be sent for sequencing.
 
               <p><b>Next Steps:</b> It was concluded from the results of these experiments that sample 5 of pSB1C3-<i>OBP2A</i> will be sent for sequencing.
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             <span class="box-title">20/7: Gel extraction and restriction of <I>OBP2A</I> from the PCR done on the 17/7  </span>
+
             <span class="box-title">20/7: Gel Extraction and Restriction Digest of <I>OBP2A</I> from the PCR performed on 17/7  </span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#nmcollapsiblew5-1"></span>
 
               <span type="button" class="chevron_toggleable box-btn glyphicon glyphicon-chevron-down" data-toggle="collapse" data-target="#nmcollapsiblew5-1"></span>
 
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                 <div id="nmcollapsiblew5-1" class="collapse box-content">
                   <p><b>Aim of Experiment:</b> To perform a gel extraction and then subsequently a restriction of <I>OBP2A</I> from the PCR produced on the 17/7 using primers designed for the insertion of <I>OBP2A</I> into the vectors for the bacterial two hybrid system, pUT18 and pT25.  </p>
+
                   <p><b>Aim of Experiment:</b> To perform a gel extraction and then subsequently a restriction of <I>OBP2A</I> from the PCR produced on the 17/7 using primers designed for the insertion of <i>OBP2A</i> into the vectors for the bacterial two hybrid system, pUT18 and pT25.  </p>
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#GelExtraction-modal" class="journal-protocol">Gel Extraction</a> <a data-toggle="modal" data-target="#restrictiondigest-modal" class="journal-protocol">Restriction Digest </a></p>
+
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#restrictiondigest-modal" class="journal-protocol">Restriction Digest </a></p>
 
         <p><b>Results: </b>N/A</p>  
 
         <p><b>Results: </b>N/A</p>  
 
                   <p><b>Next Steps:</b> If the gel extraction and subsequent restriction is successful, then the next step will be to ligate the restricted <i>OBP2A</i> into the bacterial two hybrid vector, pUT18 and pT25.  </p>
 
                   <p><b>Next Steps:</b> If the gel extraction and subsequent restriction is successful, then the next step will be to ligate the restricted <i>OBP2A</i> into the bacterial two hybrid vector, pUT18 and pT25.  </p>
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             <span class="box-title">21/7: Ligation and transformation of <I>OBP2A</I> into pUT18 and pT25.    </span>
+
             <span class="box-title">21/7: Ligation and Transformation of <I>OBP2A</I> into pUT18 and pT25.    </span>
 
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                   <p><b>Aim of Experiment:</b> To perform a ligation and  then subsequently a transformation  of <I>OBP2A</I> into the vectors for the bacterial two hybrid system, pUT18 and pT25. Whilst using JM110 <I>E.coli</I> cells as a chassis for transformation. </p>
 
                   <p><b>Aim of Experiment:</b> To perform a ligation and  then subsequently a transformation  of <I>OBP2A</I> into the vectors for the bacterial two hybrid system, pUT18 and pT25. Whilst using JM110 <I>E.coli</I> cells as a chassis for transformation. </p>
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#liagtion-modal" class="journal-protocol">Ligation</a> <a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol">Transformation </a></p>
+
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#ligation-modal" class="journal-protocol">Ligation</a> <a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol">Transformation </a></p>
 
         <p><b>Results:  N/A </b></p>  
 
         <p><b>Results:  N/A </b></p>  
 
                   <p><b>Next Steps:</b> The results from the transformation will be seen tomorrow. If successful and positive colonies form on the antibiotic plates, then the next step will be to grow overnight colonies in preparation for purification and sequencing.    </p>
 
                   <p><b>Next Steps:</b> The results from the transformation will be seen tomorrow. If successful and positive colonies form on the antibiotic plates, then the next step will be to grow overnight colonies in preparation for purification and sequencing.    </p>
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             <span class="box-title">22/7: Re-ligation and transformation of <I>OBP2A</I> into pUT18 and PT25.
+
             <span class="box-title">22/7: Re-ligation and Transformation of <I>OBP2A</I> into pUT18 and PT25.
 
   </span>
 
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                   <p><b>Aim of Experiment:</b> To perform a re-ligation and transformation of <i>OBP2A</i> into pUT18 and pT25 - since the transformation performed on the 21/7 failed.  
 
                   <p><b>Aim of Experiment:</b> To perform a re-ligation and transformation of <i>OBP2A</i> into pUT18 and pT25 - since the transformation performed on the 21/7 failed.  
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#ligation-modal" class="journal-protocol">ligation</a> <a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol">Transformation </a></p>
+
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#ligation-modal" class="journal-protocol"> Ligation</a> <a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol">Transformation </a></p>
 
         <p><b>Results: N/A </b></p>  
 
         <p><b>Results: N/A </b></p>  
 
                   <p><b>Next Steps:</b> If transformation is successful and positive colonies form on the antibiotic plates, then the next step will be to grow overnight colonies in preparation for purification and sequencing.  </p>
 
                   <p><b>Next Steps:</b> If transformation is successful and positive colonies form on the antibiotic plates, then the next step will be to grow overnight colonies in preparation for purification and sequencing.  </p>
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                   <p><b>Aim of Experiment:</b>  To produce overnight cultures of pUT18-<i>OBP2A</i>. Unfortunately no positive colonies were produced from the transformation of <i>OBP2A</i> into pT25.    </p>
 
                   <p><b>Aim of Experiment:</b>  To produce overnight cultures of pUT18-<i>OBP2A</i>. Unfortunately no positive colonies were produced from the transformation of <i>OBP2A</i> into pT25.    </p>
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol">Overnight Culture </a> p>
+
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol">Overnight Culture </a> </p>
 
         <p><b>Results: </b> N/A </a></p>  
 
         <p><b>Results: </b> N/A </a></p>  
 
                   <p><b>Next Steps:</b> Once the cells have been given ample time to grow, they will undergo plasmid purification for subsequent sequencing.  </p>
 
                   <p><b>Next Steps:</b> Once the cells have been given ample time to grow, they will undergo plasmid purification for subsequent sequencing.  </p>
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             <span class="box-title">24/7: Plasmid purification and subsequent presequence digest of pUT18-<I>OBP2A</I></span>
+
             <span class="box-title">24/7: Plasmid Purification and subsequent Presequence digest of pUT18-<I>OBP2A</I></span>
 
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                   <p><b>Aim of Experiment:</b> To perform a plasmid purification of  the overnight cultures of pUT18-<i>OBP2A</i> and then a subsequent presequence digest.   
 
                   <p><b>Aim of Experiment:</b> To perform a plasmid purification of  the overnight cultures of pUT18-<i>OBP2A</i> and then a subsequent presequence digest.   
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#miniprep-modal" class="journal-protocol">Plasmid Purification</a> <a data-toggle="modal" data-target="#presqunce digest-modal" class="journal-protocol">Presequence digest</a></p>
+
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#miniprep-modal" class="journal-protocol">Plasmid Purification</a> <a data-toggle="modal" data-target="#presqunce digest-modal" class="journal-protocol">Restriction Digest</a></p>
         <p><b>Results: <a data-toggle="modal" data-target="#nm-figure5-modal" class="journal-protocol"> Figure 5 </a></p>  
+
         <p><b>Results:</b> <a data-toggle="modal" data-target="#nm-figure5-modal" class="journal-protocol"> Figure 5 </a></p>  
 
                   <p><b>Next Steps:</b> If sequencing comes back positive for pUT18-<I>OBP2A</I> then this can now be implemented into the bacterial two hybrid system. Another attempt at cloning <I>OBP2A</I> into pT25 will be done next week.  </p>    </div>     
 
                   <p><b>Next Steps:</b> If sequencing comes back positive for pUT18-<I>OBP2A</I> then this can now be implemented into the bacterial two hybrid system. Another attempt at cloning <I>OBP2A</I> into pT25 will be done next week.  </p>    </div>     
 
                 </div>
 
                 </div>
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             <span class="box-title">27/7: PCR  and gel extraction of <I>OBP2A</I> for preparation of insertion into  pT25.  </span>
+
             <span class="box-title">27/7: PCR  and Gel extraction of <I>OBP2A</I> for Preparation of Insertion into  pT25.  </span>
 
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             <span class="box-title">28/7: Restriction of <I>OBP2A</I> for pT25 and positive sequencing of pUT18-<I>OBP2A</I>    </span>
+
             <span class="box-title">28/7: Restriction Digest of <I>OBP2A</I> for pT25 and Positive Sequencing of pUT18-<I>OBP2A</I>    </span>
 
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                   <p><b>Aim of Experiment:</b> To perform a restriction of <I>OBP2A</I> for subsequent ligation into PT25. Also, sequencing came back positive for pUT18-<I>OBP2A</I>, so pUT18-<I>OBP2A</I> can now be implemented in the bacterial two hybrid system.  </p>
+
                   <p><b>Aim of Experiment:</b> To perform a restriction digest of <I>OBP2A</I> for subsequent ligation into PT25. Also, sequencing came back positive for pUT18-<I>OBP2A</I>, so pUT18-<I>OBP2A</I> can now be implemented in the bacterial two hybrid system.  </p>
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#restrictiondigest-modal" class="journal-protocol">Restriction Digestion</a> </p>
+
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#restrictiondigest-modal" class="journal-protocol">Restriction Digests</a> </p>
 
         <p><b>Results: </b>N/A </a></p>  
 
         <p><b>Results: </b>N/A </a></p>  
 
                   <p><b>Next Steps:</b> The next stage of experimentation will be to ligate <I>OBP2A</I> into the pT25 vector.    </p>
 
                   <p><b>Next Steps:</b> The next stage of experimentation will be to ligate <I>OBP2A</I> into the pT25 vector.    </p>
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             <span class="box-title">30/7: Ligation and transformation of <I>OBP2A</I> into pT25.    </span>
+
             <span class="box-title">30/7: Ligation and Transformation of <I>OBP2A</I> into pT25.    </span>
 
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                 <div id="nmcollapsiblew6-3" class="collapse box-content">
 
                   <p><b>Aim of Experiment:</b> To perform a ligation and transformation of <I>OBP2A</I> into the bacterial two hybrid vector pT25, so that the interaction between the two constituents of <i>OBP2A</i> can be observed using the bacterial two hybrid system.  </p>
 
                   <p><b>Aim of Experiment:</b> To perform a ligation and transformation of <I>OBP2A</I> into the bacterial two hybrid vector pT25, so that the interaction between the two constituents of <i>OBP2A</i> can be observed using the bacterial two hybrid system.  </p>
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#ligation-modal" class="journal-protocol">ligation</a><a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol">Transformation</a> </p>
+
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#ligation-modal" class="journal-protocol"> Ligation</a><a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol">Transformation</a> </p>
         <p><b>Results: </b><a data-toggle="modal" data-target="#lbpa-figure1-modal" class="journal-protocol"> N/A </a></p>  
+
         <p><b>Results: N/A</p>  
 
                   <p><b>Next Steps:</b> If the transformation is successful and positive colonies form on the antibiotic plates, then the next step will be to grow overnight cultures of those colonies in preparation for purification and sequencing.  </p>
 
                   <p><b>Next Steps:</b> If the transformation is successful and positive colonies form on the antibiotic plates, then the next step will be to grow overnight cultures of those colonies in preparation for purification and sequencing.  </p>
 
                 </div>
 
                 </div>
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             <span class="box-title">31/7: Overnight cultures of pT25-<I>OBP2A</I> from positive colonies. </span>
+
             <span class="box-title">31/7: Overnight Cultures of pT25-<I>OBP2A</I> from Positive Colonies. </span>
 
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                   <p><b>Aim of Experiment:</b> To produce overnight cultures of pT25-<i>OBP2A</i> from the transformation done on the 30/7. </p>
 
                   <p><b>Aim of Experiment:</b> To produce overnight cultures of pT25-<i>OBP2A</i> from the transformation done on the 30/7. </p>
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol">Overnight Culture </a> p>
+
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#onc-modal" class="journal-protocol">Overnight Culture </a>  
 
         <p><b>Results: </b> N/A </a></p>  
 
         <p><b>Results: </b> N/A </a></p>  
 
                   <p><b>Next Steps:</b> Once the cells have grown overnight they will undergo plasmid purification for subsequent sequencing.  </p>
 
                   <p><b>Next Steps:</b> Once the cells have grown overnight they will undergo plasmid purification for subsequent sequencing.  </p>
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             <span class="box-title">1/8: Plasmid purification and subsequent presequence digest of pT25-<I>OBP2A</I> </span>
+
             <span class="box-title">1/8: Plasmid Purification and Subsequent Presequence Restriction Digest of pT25-<I>OBP2A</I> </span>
 
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                   <p><b>Aim of Experiment:</b> To perform a plasmid purification of pT25-<i>OBP2A</i>  from the overnight cultures done on the 31/7 and then a subsequent presequence digest.    </p>
 
                   <p><b>Aim of Experiment:</b> To perform a plasmid purification of pT25-<i>OBP2A</i>  from the overnight cultures done on the 31/7 and then a subsequent presequence digest.    </p>
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#miniprep-modal" class="journal-protocol">Plasmid Purification</a><a data-toggle="modal" data-target="#pre-sequence digest-modal" class="journal-protocol">Presequence digest</a> p>
+
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#miniprep-modal" class="journal-protocol">Plasmid Purification</a><a data-toggle="modal" data-target="#pre-sequence digest-modal" class="journal-protocol"> Restriction Digest</a>
         <p><b>Results: </b> <a data-toggle="modal" data-target="#nm-figure7-modal" class="journal-protocol"> Figure 7
+
         <p><b>Results: </b> <a data-toggle="modal" data-target="#nm-figure7-modal" class="journal-protocol"> Figure 7 </a></p>  
        <table border="1" style="width:20%">
+
  <tr>
+
    <th> Purified Plasmid Sample</th>
+
    <th>Concentration(ng/ul)</th>
+
  </tr>
+
  <tr>
+
    <td>1</td>
+
    <td>50.37</td>
+
  </tr>
+
  <tr>
+
    <td>2</td>
+
    <td>42.36</td>
+
  </tr>
+
  <tr>
+
    <td>3</td>
+
    <td>37.13</td>
+
  </tr>
+
  <tr>
+
    <td>4</td>
+
    <td>14.87</td>
+
  </tr>
+
  <tr>
+
    <td>5</td>
+
    <td>80.02</td>
+
  </tr>
+
  <tr>
+
    <td>6</td>
+
    <td>44.34</td>
+
  </tr>
+
  <tr>
+
    <td>7</td>
+
    <td>22.83</td>
+
  </tr>
+
</table> </b>  </a></p>  
+
 
                   <p><b>Next Steps:</b> If sequencing comes back positive for pT25-<I>OBP2A</I> then this can now be implemented into the bacterial two hybrid system. The results from the sequencing should arrive early on the 3/8.</div>     
 
                   <p><b>Next Steps:</b> If sequencing comes back positive for pT25-<I>OBP2A</I> then this can now be implemented into the bacterial two hybrid system. The results from the sequencing should arrive early on the 3/8.</div>     
 
                   </div>
 
                   </div>
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                   <p><b>Aim of Experiment:</b>  To prepare cultures for use in the  β-galactosidase assay, this requires a small subsample of each overnight to be inoculated into fresh LB, two done for each colony. Then left to grow until the O.D of each culture is between 0.3-0.5. Once an O.D of 0.3-0.5 has been reached then 3 replicas of 1 ml samples are taken from each culture before being spun down, the supernatant then subsequently removed and the pellet frozen.      </p>
 
                   <p><b>Aim of Experiment:</b>  To prepare cultures for use in the  β-galactosidase assay, this requires a small subsample of each overnight to be inoculated into fresh LB, two done for each colony. Then left to grow until the O.D of each culture is between 0.3-0.5. Once an O.D of 0.3-0.5 has been reached then 3 replicas of 1 ml samples are taken from each culture before being spun down, the supernatant then subsequently removed and the pellet frozen.      </p>
                   <p><b>Protocols Used:</b> </a><a data-toggle="modal" data-target="#Assay Preparation-modal" class="journal-protocol"> Assay Preparation</a> </p>
+
                   <p><b>Protocols Used:</b> </a><a data-toggle="modal" data-target="#ap-modal" class="journal-protocol"> Assay Preparation</a> </p>
 
         <p><b>Results: </b> N/A </a></p>  
 
         <p><b>Results: </b> N/A </a></p>  
 
                   <p><b>Next Steps:</b> These samples are now ready for the β-galactosidase assay.  </p>
 
                   <p><b>Next Steps:</b> These samples are now ready for the β-galactosidase assay.  </p>
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                   <p><b>Aim of Experiment:</b> To determine the millers activity of the two interacting subunits of <I>OBP2A</I> in vivo as a basis of the level of interaction between them. This was done using the β-galactosidase assay. </p>
 
                   <p><b>Aim of Experiment:</b> To determine the millers activity of the two interacting subunits of <I>OBP2A</I> in vivo as a basis of the level of interaction between them. This was done using the β-galactosidase assay. </p>
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#β-galactosidase-modal" class="journal-protocol">β-galactosidase assay</a>  
+
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#bga-modal" class="journal-protocol">β-galactosidase assay</a>  
 
         <p><b>Results: </b> <a data-toggle="modal" data-target="#nm-figure8-modal" class="journal-protocol"> Figure 8 </a></p>  
 
         <p><b>Results: </b> <a data-toggle="modal" data-target="#nm-figure8-modal" class="journal-protocol"> Figure 8 </a></p>  
 
                   <p><b>Next Steps:</b> As it was the first attempt at a β-galactosidase assay, subsequent assays will be performed utilizing more controls. </p>
 
                   <p><b>Next Steps:</b> As it was the first attempt at a β-galactosidase assay, subsequent assays will be performed utilizing more controls. </p>
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                   <p><b>Aim of Experiment:</b> To prepare cultures for use in the  β-galactosidase assay, this requires a small subsample of each overnight to be inoculated into fresh LB, two done for each colony. Then left to grow until the O.D of each culture is between 0.3-0.5. Once an O.D of 0.3-0.5 has been reached then 3 replicas of 1 ml samples are taken from each culture before being spun down, the supernatant then subsequently removed and the pellet frozen. </p>
 
                   <p><b>Aim of Experiment:</b> To prepare cultures for use in the  β-galactosidase assay, this requires a small subsample of each overnight to be inoculated into fresh LB, two done for each colony. Then left to grow until the O.D of each culture is between 0.3-0.5. Once an O.D of 0.3-0.5 has been reached then 3 replicas of 1 ml samples are taken from each culture before being spun down, the supernatant then subsequently removed and the pellet frozen. </p>
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol">β-galactosidase assay  </a> </p>
+
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#bga-modal" class="journal-protocol">β-galactosidase assay  </a> </p>
 
         <p><b>Results: </b>N/A </a></p>  
 
         <p><b>Results: </b>N/A </a></p>  
 
                   <p><b>Next Steps:</b> The next stage of experimentation will be to perform the second β-galactosidase assay on the interaction between the two subunits of <i>OBP2A</i>      </p>
 
                   <p><b>Next Steps:</b> The next stage of experimentation will be to perform the second β-galactosidase assay on the interaction between the two subunits of <i>OBP2A</i>      </p>
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                   <p><b>Aim of Experiment:</b> To perform a second attempt at the β-galactosidase assay that will aid in the determination of the level of interaction that the two separated subunits of <i>OBP2A</i> are inflicting on one another. </p>
 
                   <p><b>Aim of Experiment:</b> To perform a second attempt at the β-galactosidase assay that will aid in the determination of the level of interaction that the two separated subunits of <i>OBP2A</i> are inflicting on one another. </p>
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#transformation-modal" class="journal-protocol">β-galactosidase assay  </a> </p>
+
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#bga-modal" class="journal-protocol">β-Galactosidase assay  </a> </p>
 
         <p><b>Results: </b><a data-toggle="modal" data-target="#nm-figure11-modal " class="journal-protocol"> Figure 10 </a></p>  
 
         <p><b>Results: </b><a data-toggle="modal" data-target="#nm-figure11-modal " class="journal-protocol"> Figure 10 </a></p>  
 
                   <p><b>Next Steps:</b> The next stage of experimentation will be to switch the positioning of the two subunits of <i>OBP2A</i> in pUT18 and pT25 by having the smaller subunit in pUT18 and the large subunit in pT25. Along with this another β-galactosidase assay will be performed however this time it will be done under anaerobic conditions to see if that has any appreciable effect on the interaction of the two subunits of <i>OBP2A</i>.      </p>
 
                   <p><b>Next Steps:</b> The next stage of experimentation will be to switch the positioning of the two subunits of <i>OBP2A</i> in pUT18 and pT25 by having the smaller subunit in pUT18 and the large subunit in pT25. Along with this another β-galactosidase assay will be performed however this time it will be done under anaerobic conditions to see if that has any appreciable effect on the interaction of the two subunits of <i>OBP2A</i>.      </p>
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                   <p><b>Aim of Experiment:</b> A second attempt at preparing <i>OBP2A</i> for insertion into the two vectors of the bacterial two hybrid system(pUT18 and pT25) has failed! As a result this will be left until next week, so that the rest of the week can be dedicated to preparing and undertaking  another β-galactosidase assay, that will be done under anaerobic conditions.  </p>
 
                   <p><b>Aim of Experiment:</b> A second attempt at preparing <i>OBP2A</i> for insertion into the two vectors of the bacterial two hybrid system(pUT18 and pT25) has failed! As a result this will be left until next week, so that the rest of the week can be dedicated to preparing and undertaking  another β-galactosidase assay, that will be done under anaerobic conditions.  </p>
                   <p><b>Protocols Used:</b> N/A </a> p>
+
                   <p><b>Protocols Used:</b> N/A </a></p>
 
         <p><b>Results: </b> N/A </a></p>  
 
         <p><b>Results: </b> N/A </a></p>  
 
                   <p><b>Next Steps:</b> The next stage of experimentation is to prepare for a anaerobic β-galactosidase assay of <i>OBP2A</i> in the bacterial two hybrid vectors; pUT18 and pT25.  </p></div>
 
                   <p><b>Next Steps:</b> The next stage of experimentation is to prepare for a anaerobic β-galactosidase assay of <i>OBP2A</i> in the bacterial two hybrid vectors; pUT18 and pT25.  </p></div>
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                   <p><b>Aim of Experiment:</b> To prepare the  samples and controls of <i>OBP2A</i> for the anaerobic β-galactosidase assay, so they can be frozen overnight in preparation for the assay itself.    </p>
 
                   <p><b>Aim of Experiment:</b> To prepare the  samples and controls of <i>OBP2A</i> for the anaerobic β-galactosidase assay, so they can be frozen overnight in preparation for the assay itself.    </p>
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#AssayPreperation-modal" class="journal-protocol">Assay Preparation</a> </p>
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                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#ap-modal" class="journal-protocol">Assay Preparation</a> </p>
 
         <p><b>Results: </b> </a></p>  
 
         <p><b>Results: </b> </a></p>  
 
                   <p><b>Next Steps:</b> The next stage of experimentation will be to perform the β-galactosidase assay itself.  
 
                   <p><b>Next Steps:</b> The next stage of experimentation will be to perform the β-galactosidase assay itself.  
 +
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                   <p><b>Aim of Experiment:</b> Performed an anaerobic β-galactosidase assay of <i>OBP2A</i> in the bacterial two hybrid vectors: pUT18 and pT25. This is to determine the level of interaction that the smaller subunit of <i>OBP2A</i> has with its larger subunit in vivo. This particular assay has two positive controls, two negative controls and one regulatory control.  </p>
 
                   <p><b>Aim of Experiment:</b> Performed an anaerobic β-galactosidase assay of <i>OBP2A</i> in the bacterial two hybrid vectors: pUT18 and pT25. This is to determine the level of interaction that the smaller subunit of <i>OBP2A</i> has with its larger subunit in vivo. This particular assay has two positive controls, two negative controls and one regulatory control.  </p>
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#β-galactosidaseassay-modal" class="journal-protocol"> β-galactosidase assay </a> </p>
+
                   <p><b>Protocols Used:</b> <a data-toggle="modal" data-target="#bga-modal" class="journal-protocol"> β-galactosidase assay </a> </p>
 
         <p><b>Results: </b><a data-toggle="modal" data-target="#nm-figure12-modal" class="journal-protocol"> Figure 12 </a></p>  
 
         <p><b>Results: </b><a data-toggle="modal" data-target="#nm-figure12-modal" class="journal-protocol"> Figure 12 </a></p>  
 
                   <p><b>Next Steps:</b> The results have shown that the two subunits of <i>OBP2A</i> in fact don't seem to be interacting in vivo - a possible reason for this might be aggregation of the two subunits preventing interaction. The  next stage of experimentation will be to test out the interaction when the subunit are switch in relation to heir positions on the vectors: pUT18 and pT25.    </p>
 
                   <p><b>Next Steps:</b> The results have shown that the two subunits of <i>OBP2A</i> in fact don't seem to be interacting in vivo - a possible reason for this might be aggregation of the two subunits preventing interaction. The  next stage of experimentation will be to test out the interaction when the subunit are switch in relation to heir positions on the vectors: pUT18 and pT25.    </p>
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        <div class="modal-title" id="myModalLabel">Figure 1: <b>LbpA PCR. Lane 1: LbpA PCR Lane 2: 1kb Ladder and Marker. </b> The image shows the gel ran of the LbpA PCR product. The expected size of the fragment was 2832 bp which corresponds to the observed band on the gel.</div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/8/85/Dundee15-LbpAPCR-pSB1C3.jpg" style="width:400px;height:auto"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 2: LbpA PCR. Lane 1: PCR Product, Lane 2: 1kb Ladder and Marker.</b> The image shows the gel ran of the LbpA PCR product. The expected size of the fragment was 2832 bp which corresponds to the observed band on the gel.</div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/d/d4/LbpA_PCR_pqe80_.jpg" style="width:400px;height:auto"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 3: LbpA PCR for Cloning into pQE80-L. Lane 1: LbpA PCR Product, Lane 2: 1kb Ladder and Marker</b> The image shows the gel ran of the LbpA PCR product. The expected size of the fragment was 2832 bp which corresponds to the observed band on the gel.</div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/d/d4/LbpA_PCR_pqe80_.jpg" style="width:400px;height:auto"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 4: LbpA Culture Samples. Lane 1: Sample from uninduced culture. Lane 2: Sample from culture induced with 1mM IPTG.</b> It seems that on comparison of the two cultures, that inducing expression of LbpA causes the cells to die given the significant reduction of protein levels visible on the gel. </div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/a/a6/LbpA_sds_030715.png" style="width:150px;height:auto"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 5: OD<sub>600</sub> Readings from Uninduced Culture and Induced Cultures (0.5 mM, 1 mM and 2 mM IPTG).</b> The table shows that after being induced with IPTG the cultures stop growing since their OD<sub>600</sub> readings are notably lower than that of the uninduced control. </div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/f/f4/LbpA_table_070715.jpg" style="width:500px;height:auto"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 6: Growth Curve of Uninduced and Induced Cultures (0.5 mM, 1 mM and 2 mM IPTG)</b> The graph shows that on comparison with the uninduced control, the induced cultures stop growing when LbpA expression is induced. After ~7 hours, it is possible that the emergence of mutants causes the the OD to rise again or the cells have adapted to the production of the foreign protein. </div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/b/bc/Lbpa_growth_curve_140715.png" style="width:500px;height:auto"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 7: Growth Curve of Uninduced and Induced Cultures (0.5 mM, 1 mM and 2 mM IPTG)</b> The graph shows that on comparison with the uninduced control, after reaching an OD<sub>600</sub> of 0.6,  the induced cultures stop growing when LbpA starts to be expressed. Similar to the previous growth curve assay, after ~7 hours, it is possible that the emergence of mutants causes the the OD to rise again or the cells have dealt with the production of the foreign protein. </div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/1/1c/Lbpa_growth_curve_230715.png" style="width:500px;height:auto"> </center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 8: SDS Gel of Samples Taken from Uninduced Control and 1 mM IPTG Induced Culture 6 hours After Induction</b> For the induced culture, a faint band just above the 100 kDa marker is observable on the gel which corresponds to the expected size of LbpA.</div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/f/ff/Lbpa_sds_280715.png" style="width:300px;height:auto"> </center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 1: Gel of <i>SBP</i> PCR Product for Cloning into pQE80-L. Lane 1: <i>SBP</i> PCR Product 1 Lane 2: 1kb Ladder and Marker Lane 3: <i>SBP</i> PCR Product 2</b> Both bands observable on the gel correspond to the expected size of <i>SBP</i> which is ~600 bp.</div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/e/ef/Sbp_pqe80l_pcr_220615.png" style="width:300px;height:auto"> </center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 2: SDS Gel of Uninduced and 1 mM IPTG Induced Cultures of PotD and SBP.</b> For PotD, it is clear from the gel that it is being successfully overexpressed since there is an intense band present at the 37 kDa marker which corresponds to the expected size of PotD in the induced culture sample. For SBP, there is no band present which suggests SBP is being overexpressed. </div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/8/8d/Potd_sbp_sds_020715.png" style="width:300px;height:auto"> </center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 3: Characterisation of PotD.</b> Single colonies of MC1061 <i>E.coli</i> containing pQE80-L encoding <i>PotD</i> were used to inoculate 5ml of fresh LB growth medium supplemented with ampicillin. Once cultures reached an OD<sub>600</sub> of 0.6, one was induced with 1 mM IPTG and one was left uninduced as a control. They were left to grow for a further three hours, after which a 1ml sample was taken and the cells pelleted. The cells were resuspended in 100µl of Laemmli buffer, 20µl of which was separated by SDS-PAGE and transferred to a nitrocellulose membrane and probed with an anti-His antibody.  </div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/0/09/Potd_wb_030715.png" style="width:300px;height:auto"> </center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 4: SDS Gel of Uninduced and 0.5mM, 1mM and 2mM IPTG Induced Cultures of SBP.</b> It appears that upon induction of <i>SBP</i> with any concentration of IPTG the cells are dying given that there is a significant drop in protein levels observable on the gel.</div>
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 5: Growth Curve of Uninduced and Induced Cultures (0.5 mM, 1 mM and 2 mM IPTG)</b> The graph shows that on comparison with the uninduced control, the induced cultures stop growing when SBP expression is induced. After ~7 hours, it is possible that the emergence of mutants causes the the OD to rise again or the cells have adapted to the production of the foreign protein. </div>
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 6: Growth Curve of Uninduced and Induced Cultures (0.5 mM, 1 mM and 2 mM IPTG)</b> The graph shows that on comparison with the uninduced control, after reaching an OD<sub>600</sub> of 0.6,  the induced cultures stop growing when <i>SBP</i> starts to be expressed. Similar to the previous growth curve assay, after ~7 hours, it is possible that the emergence of mutants causes the the OD to rise again or the cells have adapted to the production of the foreign protein.  </div>
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 7: SDS-PAGE of Fractions Obtained After Size Exclusion Chromatography of PotD</b> 10 µl of each fraction was mixed with 10 µl of 2x Laemmli buffer and loaded onto an SDS gel which was ran for 1 hour at 100 V. The two bands observable on the gel correspond to the expected size of PotD of 38 kDa. Western Blotting will confirm if these proteins are PotD. </div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/6/63/Potd_sds_240715.png"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 8: Characterisation of PotD following Purification.</b> 10 µl of each fraction was mixed with 10 µl of 2x Laemmli buffer and loaded onto an SDS gel which was ran for 1 hour at 100V. It was then transferred to a nitrocellulose membrane and probed with an anti-His antibody.  </div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/8/83/Potd_wb_280715.png"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 9: Characterisation of SBP following Purification.</b> 10 µl of each fraction was mixed with 10 µl of 2x Laemmli buffer and loaded onto an SDS gel which was ran for 1 hour at 100V. It was then transferred to a nitrocellulose membrane and probed with an anti-His antibody.  </div>
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 1: pSB1C3-<i>hHBA</i> and pSB1C3-<i>hHBB</i> (respectively) Pre-Sequencing Digest</b> pSB1C3-<i>hHBA</i> and pSB1C3-<i>hHBB</i> minipreps were digested with EcoRI and PstI to check for presence of each insert. The bands observable on the gel correspond to the expected sizes for the pSB1C3 vector and both inserts.</div>
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 2: Amplification of <i>hHBA</i> and <i>hHBB</i> </b> <i>hHBA</i> and <i>hHBB</i> were amplified from the pSB1c3-<i>hHBA</i> and pSB1c3-<i>hHBB</i> minipreps obtained yesterday using primers to allow cloning of the genes into pT25 and pUT18 respectively. Although the band is fainter in the case of <i>hHBA</i>, the gel indicates the PCR has been successful. </div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/4/4f/Hhba%2Bhhbb_for_pt25%2Bput18.png"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 3: Amplification of <i>hHBA</i></b> <i>hHBA</i> was amplified from the pSB1C3-<i>hHBA</i> using primers to allow cloning of the genes into pT25. The gel indicates that the PCR has been successful. </div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/4/41/PCR_HgA_PT25.png"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 4: Amplification of <i>hHBA</i> and <i>hHBB</i> </b> <i>hHBA</i> and <i>hHBB</i> were amplified from the pSB1c3-<i>hHBA</i> and pSB1C3-<i>hHBB</i> minipreps using primers to allow cloning of the genes into pQE80-L. The gel indicates that the PCR has been successful. </div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/4/41/PCR_HgA_PT25.png"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 5: Pre-Sequence Digest of pQE80-L-<i>hHBA</i> and pQE80-L-<i>hHBB</i> </b> Both pQE80-L-<i>hHBA</i> and pQE80-L-<i>hHBB</i> minipreps were digested with BamHI and KpnI to check for the presence of the inserts. The gel indicates that both inserts have been successfully cloned into pQE80-L. </div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/4/4f/Hhba%2Bhhbb_for_pt25%2Bput18.png"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b> Overexpression of <i>hHBB</i> and <i>hHBA</i>.</b> Single colonies of M15[pREP4] <i>E.coli</i> containing pQE80-L encoding <i>hHBB</i> and pQE80-L encoding <i>hHBA</i> were used to inoculate 5ml of fresh LB growth medium supplemented with ampicillin and kanamycin. Once cultures reached an OD<sub>600</sub> of 0.6, they were induced with a range of IPTG concentrations. They were left to grow for a further three hours, after which a 1 ml sample was taken and the cells pelleted. The cells were resuspended in 100 µl of 2x Laemmli buffer, 20 µl of which was separated by SDS-PAGE. </div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/a/aa/Hhbb_hhba_sds_100715.png"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 7: Characterisation of hHBB.</b> Single colonies of M15[pREP4] <i>E.coli</i> containing pQE80-L encoding <i>hHBB</i> were used to inoculate 5 ml of fresh LB growth medium supplemented with ampicillin and kanamycin. Once cultures reached an OD<sub>600</sub> of 0.6, they were induced with a range of IPTG concentrations. They were left to grow for a further three hours, after which a 1 ml sample was taken and the cells pelleted. The cells were resuspended in 100 µl of Laemmli buffer, 20 µl of which was separated by SDS-PAGE. The cells were resuspended in 100 µl of Laemmli buffer, 20 µl of which was separated by SDS-PAGE and transferred to a nitrocellulose membrane and probed with an anti-His antibody. </div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/8/87/Hhbb_wb_160715.png"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 8: Amplification of <i>hHBN</i> for Cloning into pQE80-L </b> PCR product from amplification of <i>hHBN</i> from IDT plasmid using primers for cloninig into pQE80-L. The gel indicates <i>hHBN</i> has been amplified successfully since the observed band corresponds to the expected size of 1200 bp.</div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/c/c1/Hhbn_pcr_pqe80-l_200715.png"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 9: SDS-PAGE of Fractions Obtained After Size Exclusion Chromatography of hHBB</b> 10 µl of each fraction was mixed with 10 µl of laemmli buffer and loaded onto an SDS gel which was ran for 1 hour at 100V. The four bands observable on the gel correspond to the expected size of PotD of 16 kDa. Western Blotting will confirm if these proteins are hHBB. </div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/d/d1/Hhbb_sds_purified_2107152.png"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 10: Characterisation of hHBB following Purification.</b> 10 µl of each fraction was mixed with 10 µl of 2x Laemmli buffer and loaded onto an SDS gel which was ran for 1 hour at 100V. It was then transferred to a nitrocellulose membrane and probed with an anti-His antibody. </div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/1/16/Hhbb_wb_purified_220715.png"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 11: Amplification of <i>hHBN</i> for Cloning into pT25 </b> PCR product from amplification of <i>hHBN</i> from IDT plasmid using primers for cloninig into pT25. The gel indicates <i>hHBN</i> has been amplified successfully since the observed band corresponds to the expected size of 1200 bp. </div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/1/16/Hhbb_wb_purified_220715.png"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"><b>Figure 14: Characterisation of hHBN following Purification.</b> 10 µl of each fraction was mixed with 10 µl of 2x Laemmli buffer and loaded onto an SDS gel which was ran for 1 hour at 100V. It was then transferred to a nitrocellulose membrane and probed with an anti-His antibody. </div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/1/1a/Hhbn-pqe80-l_purified_200815.png"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"> <b> Figure 1: Amplification of <i>OBP2A</i> for insertion into pSB1C3 vector </b>. This is the PCR product from the amplification of <i>OBP2A</i> from the IDT plasmid using primers for cloning into pSB1C3. The gel indicates <i>OBP2A</i> has been amplified successfully since the observed band corresponds to the expected size of 500 bp. The concentration of the gel extracted <i>OBP2A</i> is 335.53 ng/ul. </div>
 
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        <div class="modal-title" id="myModalLabel"> <b> Figure 2: A subsequent gel was run of the amplified <i>OBP2A</i> after it was first excised from the gel in <i>figure 1 </i> - this was to determine if the gel extraction was successful. The gel indicates that <i>OBP2A</i> has been extracted from the gel successfully, since the observed band corresponds to the expected size of 500 bp. This can now be restricted in preparation for ligation into pSB1C3. </div>
 
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        <div class="modal-title" id="myModalLabel"> <b> Figure 3: A gel analysis of my restriction digest from the 24/6. This gel analysis was done to determine if the reason for the failed transformation was an improperly digested <i>OBP2A</i>. This gel indicates that the restricted product hasn't been lost as the <i>OBP2A<i> gene fragment can be seen as a distinct band at 500 bp. A re-ligation of <i>OBP2A</i> into the pSB1C3 backbone will now occur. </div>
 
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        <div class="modal-title" id="myModalLabel"> <b> Figure 4: Presequence Digest of pSB1C3-<i>OBP2A<i>. All seven plasmid purifications of the overnight cultures done on the 26/6 were digested to see if they contained the <i>OBP2A<i> insert. It is clear from the gel that all but sample 3 contain the insert for <i>OBP2A</i> as they all have faint bands at 500 bp's which corresponds to the size of <i>OBP2A<i>. It also appears that sample 5 contains the highest concentration, so that will be the sample that is sent for sequencing.  </div>
 
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        <div class="modal-title" id="myModalLabel"> <b> Figure 5: Presequence digest of pUT18-<i>OBP2A<i> to determine if any samples contain the <i>OBP2A<i> insert. It can be seen from this gel that of the  5 samples that were digested only two are show to have the <i>OBP2A<i> insert, therefore sample 2 will be sent for sequencing.</div>
 
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        <div class="modal-title" id="myModalLabel"> <b> Figure 6: Amplification of <i>OBP2A</i> for insertion into pT25 vector </b>. This is the PCR product from the amplification of <i>OBP2A</i> for cloning into pT25. The gel indicates <i>OBP2A</i> has been amplified successfully since the observed band corresponds to the expected size of 100 bp. </div>
 
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      <center><img src="https://static.igem.org/mediawiki/2015/8/89/Nm-figure6.png"></center>
 
         
 
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        <div class="modal-title" id="myModalLabel"> <b> Figure 7: Presequence Digest of pT25-<i>OBP2A<i>, in order to determine if any of the samples contain the <i>OBP2A<i> insert. It can be seen from this gel that samples 5, 6 and 7 may have inserts in them as they each have two distinct bands, one of which corresponds to the 100 bp size for the <I>OBP2A<i> for pT25. As a result all three samples will be sent for sequencing.    </div>
 
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        <div class="modal-title" id="myModalLabel"> <b> Figure 8: A graph of the results from the first attempt at a β-galactosidase assay that aimed to characterize the interaction between the two separated parts of <i>OBP2A<i>. As it can be seen that the positive result has failed(far left) not much can be inferred from the interaction of the two parts of <i>OBP2A<i>. However it looks like the two subunits of <i>OBP2A</i> may not be interacting. As this was a first attempt, subsequent assays will be performed in order to determine if in fact the two separated parts of OBP2A aren't interacting in vivo - like these results suggests.      </div>
 
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        <div class="modal-title" id="myModalLabel"> <b> Figure 9: A graph of the results from the second attempt at a β-galactosidase assay that aimed to characterize the interaction between the two separated parts of <i>OBP2A<i>.  It can also be inferred from this graph that the two parts of <I>OBP2A<i> don't seem to be interacting as it has a low millers activity when compared to the controls. Further assays will be performed in order to determine if the two separated parts of <i>OBP2A</i> aren't interacting in vivo like these results suggests.    </div>
 
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        <div class="modal-title" id="myModalLabel"> <b> Figure 11: A graph of the results from the anaerobic β-galactosidase assay aimed to characterize the interaction between the two separated parts of <i>OBP2A</i>. The graph seems to suggest that the two subunits of <i>OBP2A</i> may not be interacting in vivo. This can be inferred from the fact that the millers activity of the <i>OBP2A<i> sample lies lower than the negative controls from within the experiment. As a result of this information, one more assay will be prepared in which the two subunits will be switched with regards to the bacterial two hybrid vectors to eliminate any possibility of this being a factor effecting the interaction between the two subunits.    </div>
 
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Latest revision as of 19:31, 18 September 2015

K2CrO4, K2Cr2O7, CrCl3, and K2SO4


FluID Detector

Lab Book

FluID

FluID is a cell free, all in one spray which will be used to detect and dinstiguish between body fluids found at crime scenes.

Chromate Biosensor

Our chromate biosensor is a device that will be used to detect stainless steel residues left behind on bones in blunt or sharp force trauma cases.

Fingerprint Ageing

This device will search for the presence of a specifc component found in fingerprint deposits whose presence/absence will indicate approximate fingerprint age.

Saliva
Week Beginning 1/6/2015

Summary

Lactoferrin binding protein A (LbpA) was successfully cloned into the vector pSB1C3.

1/6: Amplification of LbpA for Cloning into pSB1C3

Aim of Experiment: Amplify LbpA from MC58 N.meningitidis template chromosome.

Protocols Used: PCR

Results: Figure 1

Next Steps: Since the LbpA gene was amplified successfully, it was ready to be digested for subsequent cloning into pSB1C3.

2/6: Restriction Digests and Ligations with pSB1C3

Aim of experiment: To digest LbpA with BamHI and EcoRI and then ligate it into pSB1C3.

Protocols Used: Restriction Digests Ligations

Results: N/A

Next Steps: Ligations of pSB1C3-LbpA were left overnight until the next day when they would be transformed into the JM110 E.coli.

3/6: Transformations of pSB1C3-LpbA into JM110 E.coli

Aim of experiment: To transform the pSB1C3-LbpA ligations into JM110 E.coli.

Protocols Used: Transformations

Results: N/A

Next Steps: Transformations will be checked tomorrow and if successful, overnight cultures will be set up.

4/6: Overnight Cultures of JM110 E.coli containing pSB1C3-LbpA

Aim of experiment: To set up overnight cultures of JM110 E.coli containing pSB1C3-LbpA.

Protocols Used: Overnight Cultures

Results: N/A

Next Steps: A miniprep will be performed tomorrow on the overnight cultures.

5/6: Plasmid Purification of JM110 E.coli containing pSB1C3-LbpA

Aim of experiment: To miniprep the JM110 E.coli overnight cultures containing pSB1C3-LbpA.

Protocols Used: Plasmid Purification (QIAprep® Spin Miniprep Kit)

Results: N/A

Next Steps: The miniprep with the highest concentration will be sent for sequencing.

Week Beginning 8/6/2015

Summary

Sequencing confirmed that LbpA had been successfully cloned into pSB1C3 therefore this week cloning was attempted to put LbpA into the high expression vector pQE80-L.

8/6: Amplification of LbpA for Cloning into pQE80-L

Aim of experiment: To amplify LbpA for subsequent cloninng into the pQE80-L vector.

Protocols Used: PCR

Results: N/A

Next Steps: The PCR product will be digested and ligated into pQE80-L tomorrrow.

9/6: Restriction Digests and Ligations of LbpAinto pQE80-L

Aim of experiment: To restrict and ligate the LbpA gene into the pQE80-L plasmid.

Protocols Used: Restriction Digests Ligations

Results:: N/A

Next Steps: Transformations of pQE80-L-LbpA into JM110 E.coli will be carried out tomorrow.

10/6: Transformations of pQE80-L-LpbA into JM110 E.coli

Aim of experiment: To transform pQE80-L-LpbA into JM110 E.coli.

Protocols Used: Transformations

Results: N/A

Next Steps: If the transformations are successful, colonies will be picked to set up overnight cultures.

Week Beginning 15/6/15

Summary

This week, cloning of LbpA into pQE80-L was continued due to last week's failed attempts.

15/6: PCR of LbpA for Cloning into pQE80-L

Aim of experiment: To re-amplify the LbpA gene for cloning into the pQE80-L vector.

Protocols Used: PCR

Results: Figure 3

Next Steps: The gel shows that LbpA has been successfully amplified so it will be digested and ligated into the pQE80-L vector tomorrow.

Week Beginning 22/6/15

Summary

LbpA was successfully cloned into the high expression vector pQE80-L.

23/6: Restriction Digest and Ligation of LbpA into pQE80-L

Aim of experiment: To digest the amplified LbpA gene with BamHI and KpnI and subsequently ligate it into the pQE80-L vector.

Protocols Used: Restriction Digests Ligations

Results: N/A

Next Steps: The ligations will be transformed into M15[pREP4] E.coli.

24/6: Transformations of pQE80-L-LbpA into M15[pREP4] E.coli

Aim of experiment: To transform pQE80-L-LbpA into M15[pREP4] E.coli.

Protocols Used: Transformations

Results: N/A

Next Steps: Overnight cultures will be set up tomorrow if the transformations are successful.

25/6: Overnight Cultures of M15[pREP4] E.coli containing pQE80-L-LbpA

Aim of experiment: To set up overnight cultures of M15[pREP4] E.coli containing pQE80-L-LbpA.

Protocols Used: Overnight Cultures

Results: N/A

Next Steps: Overnight cultures will be miniprepped and a pre-sequence restriction digest will be performed to check for the presence of the LbpA gene.

26/6: Plasmid Purification of the M15[pREP4] E.coli Overnight Cultures containing pQE80-L-LbpA

Aim of experiment: To miniprep the overnight cultures from yesterday and perform a pre-sequencing restriction digest using BamHI and KpnI to check for presence of LbpA gene.

Protocols Used: Plasmid Purification (QIAprep® Spin Miniprep Kit)

Results: N/A

Next Steps: A sample of the miniprep was sent for sequencing to confirm the presence of LbpA in the pQE80-L vector.

Week Beginning 29/6/15

Summary

Protein expression optimization experiments were performed on LbpA to assay protein production levels. However, cell growth seems to cease when LbpA expression is induced.

1/7: M15[pREP4] E.coli Overnight Cultures containing pQE80-L-LbpA

Aim of experiment: To set up overnight cultures in preparation for protein expression experiments tomorrow.

Protocols Used: Overnight Cultures

Results: N/A

Next Steps: The overnight cultures will be used to set up day cultures tomorrow which will be used to test expression of LbpA.

2/7: Optimization of LbpA Expression

Aim of experiment: To set up day cultures and induce expression of LbpA using different concentrations of IPTG and check levels of protein production via SDS-PAGE.

Protocols Used: Protein Expression Optimization

Results: N/A

Next Steps: The samples were stored in the -20 oC freezer overnight and will be ran on a gel tomorrow.

3/7: Continuation of Optimization of LbpA Expression

Aim of experiment: To test the samples obtained yesterday on an SDS gel.

Protocols Used: Protein Expression Optimization

Results: Figure 4

Next Steps: Further optimization experiments will be set up next week using different concentrations of IPTG.

Week Beginning 6/7/15

Summary

Further protein expression optimization experiments were set up, this time using a range of IPTG concentrations to induce expression of LbpA.

7/7: Further Optimization of LbpA Expression

Aim of experiment: To set up further tests to optimize expression of LbpA using different concentrations of IPTG.

Protocols Used: Protein Expression Optimization Note: An SDS gel was not ran, instead the OD600 readings were recorded for the uninduced and induced cultures at 20 minute intervals for 2 hours, 1 and half hours after the cultures were induced.

Results: Figure 5

Next Steps: A plate reader experiment will be set up next week to monitor the growth rate of the the cells over a longer period of time after LbpA expression has been induced.

Week Beginning 13/7/15

Summary

Protein expression optimization experiments were continued this week. A growth curve assay was carried out to assess the effect of LbpA expression over a longer period of time.

14/7: Plate Reader Growth Curve Assay

Aim of experiment: To induce expression of LbpA using different concentration of IPTG and allow cells to grow for 16 hours in order to monitor cell growth.

Protocols Used: Growth Curve Assay

Results: Figure 6

Next Steps: A plate reader experiment will be set up next week to monitor the growth rate of the the cells over a longer period of time after LbpA expression has been induced.

17/7: Sample Preparation for Western Blot

Aim of experiment: To check if the cells in the induced cultures ~7 hours after being induced are producing LbpA.

Protocols Used: Western Blot Sample Preparation Note: The day cultures were grown for 7 hours after they were induced and then the samples were frozen, to be blotted on Monday.

Results: N/A

Next Steps: The samples will be ran on an SDS gel on Monday and blotted.

Week Beginning 20/7/15

Summary

Samples from the growth curve assay were blotted to see if LbpA is being produced at the later stages of the growth curve. A further growth curve assay was also performed which monitored cell growth until a certain OD600 was reached, at which point the cultures were induced.

20/7: Western Blot LpbA Culture Samples

Aim of experiment: To western blot the LbpA culture samples from Friday.

Protocols Used: Western Blot

Results: Nothing was visible on the blot.

Next Steps: Another plate reader experiment will be set up on Thursday where the cultures will be monitored for three hours before induction with IPTG and then for a further 20 hours afterwards.

23/7: Growth Curve Assay

Aim of experiment: To check if the cells begin to die after induction with IPTG after having already grown to an OD600 of 0.5.

Protocols Used: Growth Curve Assay

Results: Figure 7

Next Steps: Samples of these cultures will be taken 6 hours after induction to check for the presence of LbpA.

Week Beginning 27/7/15

Summary

The presence of LbpA was confirmed in the culture 6 hours after induction with IPTG so protein purification was started this week.

27/7: Overnight Cultures of M15[pREP4] E.coli containing pQE80-L-LbpA

Aim of experiment: To set up a 150 ml overnight culture for sub-culturing tomorrow.

Protocols Used: Overnight Cultures Note: 150 ml of LB was used and 150 µl of each antibiotic.

Results: N/A

Next Steps: 150 ml of fresh LB will be inoculated tomorrow with 7.5 ml of the overnight cultures.

28/7: LbpA Expression Assay

Aim of experiment: To set up day cultures using the overnight cultures from yesterday and test for expression of LbpA 6 hours after induction.

Protocols Used: Protein Expression Test Note: 150 ml of fresh LB was inoculated with 7.5 ml of the overnight cultures. Only an uninduced control and an 1 mM IPTG induced culture was set up. The samples were not blotted, they were only ran on an SDS gel.

Results: Figure 8

Next Steps: A 3 L culture will be set up on Thursday under the same conditions as the overnight cultures in order to try and purify LbpA.

29/7: Overnight Cultures of M15[pREP4] E.coli containing pQE80-L-LbpA for 3L Culture

Aim of experiment: To set up overnight cultures for the 3L day cultures that will be grown tomorrow.

Protocols Used: Overnight Cultures Note: One 150 ml overnight culture was set up using 150 µl of each antibiotic.

Results: N/A

Next Steps: The 3 L culture will be set up tomorrow allowed to grow to OD600 of 0.6-1 and then induced with 1 mM IPTG and grown for 6 hours.

30/7: 3 L Culture of M15[pREP4] E.coli containing pQE80-L-LbpA for Purification of LbpA

Aim of experiment: To set up 3 L day cultures for purifying LbpA.

Protocols Used: Protein Purification Note: The procedure was stopped at Step 6 and the pellets were frozen at -20 oC.

Results: N/A

Next Steps: Protein purification will be continued on Monday.

Week Beginning 3/8/15

Summary

The first round of LbpA purification failed at the affinity chromatography stage so another 6 L culture was grown this week to attempt purification again.

3/8: Continuation of LbpA Purification

Aim of experiment: To continue with purification of LbpA.

Protocols Used: Protein Purification Note: The protocol was continued from Step 7

Results: N/A

Next Steps:Size exclusion chromatography was not carried out since an SDS gel showed LbpA was not present after performing affinity chromatography. Another 6L culture will be set up this week.

5/8: Overnight Cultures of M15[pREP4] E.coli containing pQE80-L-LbpA

Aim of experiment: To set up overnight cultures for the 6 L culture that will be set up tomorrow.

Protocols Used: Overnight Cultures Note: One 150 ml overnight culture was set up using 150 µl of each antibiotic.

Results: N/A

Next Steps:The overnight cultures will be used to set up the 6 L day culture tomorrow.

6/8: 6 L Day Cultures of M15[pREP4] E.coli containing pQE80-L-LbpA

Aim of experiment: To set up 6 L day cultures for purifying LbpA and begin the purification process.

Protocols Used: Protein Purification Note: The protocol was stopped at Step 6.

Results: N/A

Next Steps: Purification of LbpA will be continued on Monday.

Week Beginning 10/8/15

Summary

Purification of LbpA was continued but unfortunately was unsuccessful. If time permits, another round of purification may be reattempted.

10/8: Continuation of LbpA Purification

Aim of experiment: To continue with purification of LbpA.

Protocols Used: Protein Purification Note: The protocol was continued from Step 7.

Results: N/A

Next Steps: Purification of LbpA will be continued tomorrow.

11/8: Continuation of LbpA Purification

Aim of experiment: To purify LbpA using affinity chromatography.

Protocols Used: Protein Purification Note: The protocol was stopped at Step 13.

Results: N/A

Next Steps:Since no peaks were observed, purification of LbpA was abadoned at this stage. Purification may be retried.

Semen
Week Beginning 25/5/2015

Summary

Cloning of PotD into the biobrick vector, pSB1C3, was started this week.

28/5: PCR of PotD from MG1655 E.coli gDNA

Aim of Experiment: To amplify PotD from MG1655 E.coli gDNA.

Protocols Used: PCR

Results: N/A

Next Steps: The PCR product will be gel extracted, digested and ligated into the biobrick vector pSB1C3 tomorrow.

29/5: Gel Extraction, Restriction Digest and Ligation of SBP into pSB1C3

Aim of experiment: To gel extract the PotD PCR product and digest it with PstI and EcoRI. A ligation will then be set up with pSB1C3.

Protocols Used: Restriction Digest Ligation

Results: N/A

Next Steps: Ligations will be transformed into JM110 E.coli on Monday.

Week Beginning 1/6/2015

Summary

Cloning of PotD into the biobrick vector was completed this week.

1/6: Transformation of pSB1C3-PotD into JM110 E.coli

Aim of experiment: To transform pSB1C3-PotD into JM110 E.coli.

Protocols Used: Transformations

Results:N/A

Next Steps: If the transformations are successful, overnight cultures will be set up tomorrow.

2/6: Overnight Cultures of pSB1C3-PotD in JM110 E.coli

Aim of experiment: To set up overnight cultures of pSB1C3-PotD in JM110 E.coli

Protocols Used: Overnight Cultures

Results:: N/A

Next Steps: The overnight cultures will be miniprepped tomorrow.

3/6: Plasmid Purification of pSB1C3-PotD from Overnight Cultures

Aim of experiment: To miniprep the overnight cultures from yesterday.

Protocols Used: Plasmid Purification (QIAprep® Spin Miniprep Kit)

Results: N/A

Next Steps: The miniprep with the highest concentration will be sent for sequencing to confirm PotD has been inserted into pSB1C3 successfully.

Week Beginning 15/6/15

Summary

This week, cloning of PotD into pQE80-L was started. The gene for Spermine Binding Protein (SBP) also arrived in a plasmid so it was transformed into MC1061 E.coli and plasmid purified.

15/6: PCR of PotD for Cloning into pQE80-L

Aim of experiment: To amplify the PotD gene for cloning into the pQE80-L vector.

Protocols Used: PCR

Results: Figure 3

Next Steps: The gel shows that PotD has been successfully amplified so it will be digested and ligated into the pQE80-L vector tomorrow.

17/6: Restriction Digest and Ligation of PotD into pQE80-L. Transformation of IDT Plasmid containing SBP into MC1061 E.coli

Aim of experiment: To digest the PotD PCR product with KpnI and BamHI and then ligate it into pQE80-L. To transform MC1061 E.coli with the IDT plasmid containing SBP.

Protocols Used:

PotD: Restriction Digests Ligations SBP:Transformations

Results: N/A

Next Steps: The pQE80-L-PotD ligations will be transformed into MC1061 E.coli. Overnight cultures of the transformations will be set up tomorrow.

18/6: Transformations of PotD + pQE80-L into MC1061 E.coli. Overnight Cultures of MC1061 E.coli with SBP + IDT Plasmid

Aim of experiment: To transform the pQE80-L-PotD ligations into MC1061 E.coli. To set up overnight cultures of the transformations of MC1061 E.coli with SBP + IDT Plasmid that were set up yesterday.

Protocols Used: PotD: Transformations SBP: Overnight Cultures

Results:N/A

Next Steps: If transformations are successful, overnight cultures will be set up tomorrow.

19/6: Repeat of Ligation of PotD into pQE80-L. Plasmid Purification of the IDT Plasmid Containing SBP

Aim of experiment: To repeat ligations of PotD into pQE80-L since transformations did not work. To miniprep the overnight cultures that were set up yesterday.

Protocols Used: PotD: Ligations SBP: Plasmid Purification (QIAprep® Spin Miniprep Kit)

Results: N/A

Next Steps: Ligations will be left over the weekend and transformed on Monday.

Week Beginning 22/6/15

Summary

Cloning of PotD into the high expression vector pQE80-L was completed. Cloning of SBP into pSB1C3 and pQE80-L was started this week.

22/6: Transformation of pQE80-L-PotD Ligations. PCR and Gel Extraction of SBP for Cloning into pQE80-L and Restriction Digests and Ligation of SBP for Cloning into pSB1C3

Aim of Experiment: To transform pQE80-L-PotD into MC1061E.coli. To set up a PCR of SBP using the purified plasmid from Friday and to gel extract the PCR product for cloning into pQE80-L. To digest SBP out of the same plasmid using EcoRI and PstI and subsequently ligate it into pSB1C3.

Protocols Used: PotD: Transformations SBP: PCR Restriction Digests Ligations

Results: SBP : Figure 1

Next Steps: Overnight cultures will be set up tomorrow for the PotD transformations. The SBP PCR product will be digested and ligated into pQE80-L tomorrow. The pSB1C3-SBP ligations will be transformed into MC1061 E.coli.

23/6: Overnight Cultures of MC1061 E.coli containing pSB1C3-PotD. Transformations of MC1061 E.coli with pSB1C3 + SBP. Restriction Digests and Ligations of SBP into pQE80-L and Transformations into MC1061 E.coli

Aim of experiment: To set up overnight cultures of MC1061 E.coli containing pSB1C3 + PotD. To transform MC1061 E.coli with pSB1C3 + SBP. To digest the SBP PCR product with BamHI and Kpn I, ligate it into pQE80-L and transform these ligations into MC1061 E.coli.

Protocols Used: PotD: Overnight Cultures SBP: Transformations Restriction Digests Ligations

Results: N/A

Next Steps: The MC1061 E.coli overnight cultures containing pQE80-L + PotD will be miniiprepped tomorrow. Overnight cultures will be set up of the MC1061 E.coli transformations with pSB1C3 + SBP and pQE80-L + SBP.

24/6: Plasmid Purification of the Overnight Cultures of MC1061 E.coli containing pSB1C3-PotD. Overnight Cultures of the Transformations of MC1061 E.coli with pSB1C3 + SBP and pQE80-L + SBP.

Aim of experiment: To miniprep the overnight cultures of MC1061 E.coli containing pSB1C3-PotD. To set up overnight cultures of the transformations of MC1061 E.coli with pSB1C3-SBP and pQE80-L-SBP

Protocols Used: PotD: Plasmid Purification (QIAprep® Spin Miniprep Kit) SBP: Overnight Cultures

Results: N/A

Next Steps: The miniprep with the highest concentration for pQE80-L + PotD was sent for sequencing. The SBP overnight cultures will be miniprepped tomorrow.

25/6: Plasmid Purification of the Overnight Cultures of MC1061 E.coli containing pSB1C3-SBP and pQE80-L-SBP

Aim of experiment: To miniprep the overnight cultures of MC1061 E.coli containing pSB1C3-SBP and pQE80-L + SBP.

Protocols Used: SBP: Plasmid Purification (QIAprep® Spin Miniprep Kit)

Results: N/A

Next Steps: The miniprep with the highest concentration for both pSB1C3-SBP and pQE80-L-SBP were sent for sequencing.

Week Beginning 29/6/15

Summary

Sequencing showed SBP failed to insert successfully into pSB1C3 so cloning was repeated from the ligation stage this week. However, SBP and PotD were successfully inserted into the high expression vector pQE80-L, so overexpression assays were started this week for both.

29/6: Ligations of SBP into pSB1C3 and Transformations into MC1061 E.coli

Aim of Experiment: To ligate SBP into pSB1C3 and transform the ligations into MC1061 E.coli.

Protocols Used: SBP: Ligations Transformations

Results: SBP : Figure 1

Next Steps: Overnight cultures will be set up tomorrow if transformations are successful.

30/6: Overnight Cultures of MC1061 E.coli containing pSB1C3-SBP, pQE80-L-SBP and pQE80-L-PotD

Aim of experiment: To set up overnight cultures of MC1061 E.coli containing pSB1C3-SBP. To set up overnight cultures of pQE80-L-SBP and pQE80-L + PotD in MC1061 E.coli for overexpression assays to be performed tomorrow.

Protocols Used: Overnight Cultures

Results: N/A

Next Steps: The MC1061 E.coli overnight cultures containing pSB1C3- SBP will be miniiprepped tomorrow. The MC1061 E.coli overnight cultures containing pQE80-L- SBP and pQE80-L-PotD will be subcultured tomorrow in order to perform overexpression assays.

1/7: Plasmid Purification of the Overnight Cultures of MC1061 E.coli containing pSB1C3-SBP. PotD and SBP Expression Optimization

Aim of experiment: To miniprep the overnight cultures of MC1061 E.coli containing pSB1C3-SBP. To start protein expression optimization for PotD and SBP.

Protocols Used: SBP: Plasmid Purification (QIAprep® Spin Miniprep Kit) SBP and PotD: Protein Expression Optimization Note: Protocol was stopped at Step 8. Samples will be ran on an SDS gel tomorrow.

Results: N/A

Next Steps: The miniprep with the highest concentration for pSB1C3 + SBP was sent for sequencing. The PotD and SBP samples will be ran on an SDS gel tomorrow.

2/7: Continuation of PotD and SBP Expression Optimization

Aim of experiment: To run the samples of PotD and SBP on an SDS gel and begin Western Blotting.

Protocols Used: PotD and SBP: Protein Expression Optimization Note: Protocol was continued from Step 9.

Results: Figure 2

Next Steps: The membrane for the Western blot has been left at the blocking stage so will be continued tomorrow.

3/7: Western Blot of PotD and SBP Day Culture Samples

Aim of experiment: To continue the Western Blot of PotD and SBP.

Protocols Used: PotD and SBP: Western Blot

Results: Figure 3

Next Steps: PotD has been successfully characterized so purification of this protein will be started next week. Further expression optimization experiments for SBP will be set up next week using different concentrations of IPTG, since its characterization was unsuccessful.

Week Beginning 6/7/15

Summary

Further protein expression optimization experiments were set up, this time using a range of IPTG concentrations to induce expression of SBP.

6/7: Further Optimization of SBP Expression

Aim of experiment: To set up further tests to optimize expression of SBP using different concentrations of IPTG.

Protocols Used: Protein Expression Optimization Note: Cultures were induced with 0.5 mM, 1 mM and 2 mM IPTG. The Western Blot was left to block overnight.

Results: Figure 4

Next Steps: The Western Blot will be completed tomorrow.

7/7: Western Blot of SBP

Aim of experiment: To complete the Western Blot that was started yesterday.

Protocols Used: Western Blot Note: Protocol was continued from Step 12.

Results: Nothing was visible on the blot.

Next Steps: A plate reader experiment will be set up next week to monitor the growth rate of the the cells over a longer period of time after SBP expression has been induced.

Week Beginning 13/7/15

Summary

Protein expression optimization experiments were continued this week. A growth curve assay was carried out to assess the effect of SBP expression over a longer period of time. Purification of PotD was also started this week.

14/7: Plate Reader Growth Curve Assay

Aim of experiment: To induce expression of SBP using different concentration of IPTG and allow cells to grow for 16 hours in order to monitor cell growth.

Protocols Used: Growth Curve Assay

Results: Figure 5

Next Steps: A plate reader experiment will be set up next week to monitor the growth rate of the the cells over a longer period of time after SBP expression has been induced.

15/7: Overnight Cultures for 3 L Culture for PotD Purification

Aim of experiment: To set up overnight cultures that will be used tomorrow to set up 3 L cultures for PotD purification.

Protocols Used: Overnight Cultures

Results: N/A

Next Steps: The 3 L day culture will be set up tomorrow.

16/7: Sample Preparation for Western Blot of SBP and 3 L Day Culture for PotD Purification

Aim of experiment: To check if the cells in the induced cultures ~7 hours after being induced are producing SBP. To set up 3 L Day Culture for PotD Purification

Protocols Used: SBP: Western Blot Sample Preparation Note: The day cultures were grown for 7 hours after they were induced and then the samples were frozen, to be blotted on Monday. PotD: Protein Purification Note: Cultures were left to grow overnight after being induced.

Results: N/A

Next Steps: The samples will be ran on an SDS gel on Monday and blotted. The PotD cultures will be harvested tomorrow.

17/7: Harvesting PotD Cultures

Aim of experiment: To harvest the day cultures grown yesterday for PotD purification.

Protocols Used: Protein Purification Note: After the cultures were spun down the pellets were frozen.

Results: N/A

Next Steps: Purification of PotD will continue on Monday.

Week Beginning 20/7/15

Summary

Samples from the growth curve assay were blotted to see if SBP is being produced at the later stages of the growth curve. A further growth curve assay was also performed which monitored cell growth until a certain OD600 was reached, at which point the cultures were induced. Purification of PotD was also continued this week.

20/7: Western Blot SBP Culture Samples

Aim of experiment: To western blot the SBP culture samples from Friday. To continue purfying PotD.

Protocols Used: SBP: Western Blot PotD: Protein Purification Note: Affinity chromatography was completed but no peaks were observable.

Results: Nothing was visible on the blot.

Next Steps: Another plate reader experiment will be set up on Thursday where the cultures will be monitored for three hours before induction with IPTG and then for a further 20 hours afterwards. Another 150 ml overnight culture was set up for PotD so 3 L cultures could be set up tomorrow.

21/7: 3 L Day Cultures for PotD Purification

Aim of experiment: To set up 3 L Day Culture for PotD Purification.

Protocols Used: Protein Purification Note: Cultures were left to grow overnight after being induced.

Results: N/A

Next Steps: Purification will be continued tomorrow.

22/7: Continuation of PotD Purification

Aim of experiment: To continue purification of PotD.

Protocols Used: Protein Purification Note: The protocol was continued from Step 4 and stopped at Step 13.

Results: N/A

Next Steps: Purification will be continued tomorrow.

23/7: Continuation of PotD Purification and Growth Curve Assay for SBP

Aim of experiment: To continue purification of PotD and to check if the cells begin to die after inducing expression of SBP with IPTG after having already grown to an OD600 of 0.5.

Protocols Used: PotD: Protein Purification Note: The protocol was continued from Step 13. SBP: Growth Curve Assay

Results: Figure 6

Next Steps: The samples from the size exclusion chromatography performed on PotD will be prepared tomorrow for blotting next week. For SBP further overexpression tests will be set up next week.

24/7: SDS-PAGE and Western Blot of PotD

Aim of experiment: To run SDS-PAGE of the elutions obtained on Friday after SEC.

Protocols Used: SDS-PAGE

Results: Figure 7

Next Steps: The same samples will be Western Blotted on Monday to confirm that the bands oberved are PotD.

Week Beginning 27/7/15

Summary

PotD was successfully purified and characterized this week. SBP was still unobservable in induced 150ml cultures so 3 L cultures containing pQE80-L-SBP were set up.

27/7: Overnight Cultures for SBP Expression Assays and SDS-PAGE and Western Blot of PotD

Aim of experiment: To set up a 150 ml overnight culture containing pQE80-L-SBP for sub-culturing tomorrow and to run an SDS-PAGE and Western Blot the PotD samples from Friday.

Protocols Used: SBP: Overnight Cultures Note: 150 ml of LB was used and 150 µl of each antibiotic. PotD: SDS-PAGE and Western Blotting Note: The membrane was left blocking overnight.

Results: N/A

Next Steps: 150 ml of fresh LB will be inoculated tomorrow with 7.5 ml of the overnight cultures containing pQE80-L-SBP. The PotD Western Blot will be completed tomorrow.

28/7: SBP Expression Assay and Completion of PotD Westen Blot

Aim of experiment: To set up day cultures using the overnight cultures from yesterday and test for expression of LbpA 6 hours after induction.

Protocols Used: Protein Expression Test Note: 150 ml of fresh LB was innoculated with 7.5ml of the overnight cultures. Only an uninduced control and an 1 mM IPTG induced culture was set up. The samples were not blotted, they were only ran on an SDS gel.

Results: SBP: Nothing was observable on the SDS gel. PotD: Figure 8

Next Steps: Since PotD has now been successful purified, the next step is to attach a fluorescent nanobead to the protein. Hopefully, this will be attempted in the coming weeks. Even though SBP was not visible on the SDS gel, 3 L cultures will be set up this week to try and harvest the protein since the culture size may be too small.

29/7: Overnight Cultures for 3L Culture

Aim of experiment: To set up overnight cultures containing pQE80-L-SBP for the 3L day cultures that will be grown tomorrow.

Protocols Used: Overnight Cultures Note: One 150ml overnight culture was set up using 150µl of each antibiotic.

Results: N/A

Next Steps: The 3L culture will be set up tomorrow allowed to grow to OD600 of 0.6-1 and then SBP expression induced with 1mM IPTG and grown for 6 hours.

30/7: 3 L Culture for Purification of SBP

Aim of experiment: To set up 3 L day cultures for purifying SBP.

Protocols Used: Protein Purification Note: The procedure was stopped at Step 6 and the pellets were frozen at -20oC.

Results: N/A

Next Steps: Protein purification will be continued on Monday.

Week Beginning 3/8/15

Summary

It seems that SBP has been successfully purified and characterized. However, there was still a lot of contamination in the samples after size eclusion chromatography was performed. .

3/8: Continuation of SBP Purification

Aim of experiment: To continue with purification of SBP.

Protocols Used: Protein Purification Note: The protocol was continued from Step 7

Results: N/A

Next Steps: Size exclusion chromatography will be carried out tomorrow.

4/8: Continuation of SBP Purification

Aim of experiment: To continue purification of SBP.

Protocols Used: Protein Purification Note: The protocol was continued from Step 14.

Results: N/A

Next Steps: The fractions corresponding to the peak observed during SEC, will be ran on an SDS gel and Western Blotted tomorrow.

6/8: Western Blot of SBP

Aim of experiment: To perform a Western Blot on the samples obtained from Size Exclusion Chromatography yesterday..

Protocols Used: Western Blot

Results: Figure 9

Next Steps: There was still some contamination in the gel filtrated samples so this will have to be removed before a nanobead can be attached to the protein.

Week Beginning 10/8/15

Summary

Interactions between PotD and spermidine were analysed via tryptophan fluorescence this week.

10/8: Tryptophan Fluorescence

Aim of experiment: To analyse the interaction of PotD and spermidine using tryptophan fluorescence.

Protocols Used: Tryptophan Fluorescence

Results: Figure 10

Next Steps: To continue characterization of the spermidine/ PotD interaction using tryptophan fluorescence and other methods.

Blood
Week Beginning 10/6/2015

Summary

Cloning of hHBA and hHBB into the biobrick vector, pSB1C3, was performed this week.

10/6: Restriction Digests of hHBA and hHBB from IDT gBlocks and Ligation into pSB1C3

Aim of Experiment: To digest hHBA and hHBB from IDT gBlocks using EcoRI and PstI for ligation into pSB1C3.

Protocols Used: Restriction Digests Ligations

Results: N/A

Next Steps: The pSB1C3-hHBA and pSB1C3-hHBB ligations will be transformed into JM110 E.coli.

11/6: Transformations of pSB1C3-hHBA and pSB1C3-hHBB Ligations into JM110 E.coli

Aim of experiment: To transform the pSB1C3-hHBA and pSB1C3-hHBB ligations into JM1110 E.coli.

Protocols Used: Transformations

Results: N/A

Next Steps: If transformations are successful, overnight cultures will be set up.

Week Beginning 15/6/2015

Summary

The sequence for pSB1C3-hHBB was confirmed this week so cloning of hHBB into the two hybrid system vector pUT18 was started. Sequencing of pSB1C3-hHBA was incorrect so another miniprep was sent for sequencing.

15/6: Overnight Cultures of JM110 E.coli containing pSB1C3-hHBA and pSB1C3-hHBB

Aim of experiment: To set up overnight cultures of JM110 E.coli containing pSB1C3-hHBA and pSB1C3-hHBB from the transformations performed on Tuesday.

Protocols Used: Overnight Cultures

Results: N/A

Next Steps: Overnight cultures will be miniprepped tomorrow and a test restriction digest will be performed to check for the presence of the inserts.

16/6: Plasmid Purification of the JM110 E.coli Overnight Cultures containing pSB1C3-hHBA and pSB1C3-hHBB

Aim of experiment: To miniprep the JM110 E.coli overnight cultures containing pSB1C3-hHBA and pSB1C3-hHBB and perform a pre-sequence digest check.

Protocols Used: Plasmid Purification (QIAprep® Spin Miniprep Kit) Restriction Digests

Results: Figure 1

Next Steps: The gel indicates that hHBA and hHBB have inserted successfully into pSB1C3 so samples of the minipreps will be sent for sequencing to confirm this.

17/6: Amplification of hHBA and hHBB for Cloning into the Two Hybrid System Vectors

Aim of experiment: To amplify hHBA and hHBB for Cloning into the Two Hybrid System Vectors pT25 and pUT18, respectively.

Protocols Used: PCR

Results: Figure 2

Next Steps: Sequencing of pSB1C3-hHBA and pSB1C3-hHBB showed that pSB1c3-hHBA had a 1 bp deletion so one of the other minipreps was sent for sequencing. pSB1C3-hHBB, however, was successful so the band for hHBB will be gel extracted and digested tomorrow.

18/6: Gel Extraction and Restriction Digests hHBB for Cloning into pUT18

Aim of experiment: To gel extract and digest hHBB with BamHI and EcoRI.

Protocols Used: Restriction Digests

Results: N/A

Next Steps: Ligations of hHBB will be set up tomorrow.

19/6: Ligations of hHBB into pUT18

Aim of experiment: To set up ligations of pUT18-hHBB.

Protocols Used: Ligations

Results: N/A

Next Steps: Ligations will be left over the weekend and transformed into BTH101 E.coli.

Week Beginning 22/6/15

Summary

Cloning of hHBA and hHBB into pT25 and pUT18, respectively, was continued this week.

22/6: Transformations of pUT18-hHBB into BTH101 E.coli

Aim of experiment: To transform pUT18-hHBB into BTH101 E.coli.

Protocols Used: Transformations

Results:N/A

Next Steps: If transformations are successful, overnight cultures will be set up tomorrow. Sequencing showed the sequence for pSB1C3-hHBA was incorrect again, a third miniprep will be sent for sequencing.

23/6: Overnight Cultures of BTH101 E.coli containing pUT18-hHBB

Aim of experiment: To set up overnight cultures of BTH101 E.coli containing pUT18-hHBB from the transformations carried out yesterday.

Protocols Used: Overnight Cultures

Results: N/A

Next Steps: The overnight cultures will be miniprepped and sent for sequencing tomorrow.

24/6: Plasmid Purification of the BTH101 E.coli Overnight Cultures containing pUT18-hHBB

Aim of experiment: To miniprep the BTH101 E.coli Overnight Cultures containing pUT18-hHBB.

Protocols Used:

Plasmid Purification (QIAprep® Spin Miniprep Kit)

Results: N/A

Next Steps: The miniprep with the highest concentration will be sent for sequencing to confirm presence of insert. Sequencing for pSB1C3-hHBA came back correct so another PCR of hHBA will be set up tomorrow for cloning into pT25.

25/6: Amplification of hHBA for Cloning into pT25

Aim of experiment: To amplify hHBA for cloning into pT25

Protocols Used: PCR

Results: Figure 3

Next Steps: The PCR product digested and ligated into pT25 tomorrow.

26/6: Restriction Digests and Ligations of hHBA for Cloning into pT25

Aim of experiment: To digest the hHBA PCR product with BamHI and KpnI and set up ligations with pT25.

Protocols Used: Restriction Digests Ligations

Results: N/A

Next Steps: Ligations will be left over the weekend and transformed into BTH101 E.coli on Monday.

Week Beginning 29/6/15

Summary

Cloning of hHBA into pT25 was completed this week. Sequencing confirmed that hHBB has been successfully inserted into pUT18. Cloning of both hHBA and hHBB, individually, into the high expression vector pQE80-L was started this week.

29/6: Transformation of pT25-hHBA Ligations into BTH101 E.coli

Aim of Experiment: To transform pT25-hHBA into BTH101 E.coli.

Protocols Used: Transformations

Results: N/A

Next Steps: Overnight cultures will be set up tomorrow for the pT25-hHBA transformations if successful. Sequencing confirmed hHBB has been successfully inserted into pUT18.

30/6: Overnight Cultures of MC1061 E.coli containing pUT18-hHBA and Amplification of hHBA and hHBB for Cloning into pQE80-L

Aim of experiment: To set up overnight cultures of MC1061 E.coli containing pT25-hHBA. To amplify hHBA.and hHBB for cloning into pQE80-L.

Protocols Used: Overnight Cultures Transformations Restriction Digests Ligations

Results: Figure 4

Next Steps: The BTH101 E.coli overnight cultures containing pT25-hHBB will be miniiprepped tomorrow. The PCR products will be digested and ligate dinto pQE80-L tomorrow.

1/7: Plasmid Purification of the Overnight Cultures of BTH101 E.coli containing pT25-hHBA and Restriction Digests and Ligations of hHBA and hHBB into pQE80-L

Aim of experiment: To miniprep the overnight cultures of BTH101 E.coli containing pT25-hHBA. To digest hHBA and hHBB with BamHI and KpnI and set up ligations with pQE80-L.

Protocols Used: Plasmid Purification (QIAprep® Spin Miniprep Kit) Restriction Digests Ligations

Results: N/A

Next Steps: The miniprep with the highest concentration for pT25-hHBA will be sent for sequencing. The pQE80-L-hHBA and pQE80-L-hHBB will be transformed into M15[pREP4] E.coli tomrorrow.

2/7: Transformations of pQE80-L-hHBA and pQE80-L-hHBB Ligations into M15[pREP4] E.coli

Aim of experiment: To transform the pQE80-L-hHBA and pQE80-L-hHBB ligations into M15[pREP4] E.coli.

Protocols Used: Transformations

Results: N/A

Next Steps: If transformations are successful, overnight cultures will be set up on Monday.

Week Beginning 6/7/15

Summary

Cloning of hHBA and hHBB into pQE80-L was completed this week. Cloning of Haptoglobin (hHBN) was also started this week.

6/7: Overnight Cultures of M15[pREP4] E.coli containing pQE80-L-hHBA and pQE80-L-hHBB

Aim of Experiment: To set up overnight cultures of BTH101 E.coli containing pQE80-L-hHBA and pQE80-L-hHBB.

Protocols Used: Overnight Cultures

Results: N/A

Next Steps:The overnight cultures will be miniprepped tomorrow. Sequencing for pT25-hHBA was incorrect so cloning will be repeated from the restriction digest stage.

7/7: Plasmid Purification of M15[pREP4] E.coli Overnight Cultures containing pQE80-L-hHBA and pQE80-L-hHBB

Aim of experiment: To set up miniprep the BTH101 E.coli Overnight Cultures containing pQE80-L-hHBA and pQE80-L-hHBB.

Protocols Used: Plasmid Purification (QIAprep® Spin Miniprep Kit)

Results: Figure 5

Next Steps: The pre-sequence digest indicates that both hHBA and hHBB have been inserted into pQE80-L successfully. The minipreps with the highest concentration will be sent for sequencing. The sequence for Haptoglobin (hHBN) arrived in an IDT plasmid, work will be be started on this tomorrow.

8/7: Transformation of IDT Plasmid-hHBN into MC1061 E.coli

Aim of experiment: To transform the IDT Plasmid-hHBN into MC1061 E.coli.

Protocols Used: Transformations

Results: N/A

Next Steps: Overnight cultures will be set up tomorrow.

9/7: Overnight Cultures of MC1061 E.coli containing IDT Plasmid-hHBN

Aim of experiment: To set up overnight cultures of MC1061 E.coli containing IDT Plasmid-hHBN.

Protocols Used: Overnight Cultures

Results: N/A

Next Steps: The overnight cultures will be miniprepped tomorrow and hHBN will be amplified for cloning into pSB1C3.

10/7: Plasmid Purification of IDT Plasmid-hHBN and Digestion of hHBN for Cloning into pSB1C3

Aim of experiment: To miniprep the MC1061 E.coli containing IDT Plasmid-hHBN and to digest hHBN out of the plasmid using EcoRI and PstI.

Protocols Used: Plasmid Purification (QIAprep® Spin Miniprep Kit) Restriction Digests

Results: N/A

Next Steps: hHBN will be ligated into pSB1C3 on Monday. Sequencing also confirmed hHBA and hHBB have been successfully inserted into pQE80-L.

Week Beginning 13/7/15

Summary

hHBB was successfully characterized this week so protein purification was started. Cloning of hHBN into pSB1C3 was also completed.

13/7: Ligations of hHBN into pSB1C3 and Overnight Cultures of M15[pREP4] E.coli containing pQE80-L-hHBA and pQE80-L-hHBB

Aim of experiment: To ligate hHBN into pSB1C3.

Protocols Used: Ligations Overnight Cultures

Results:N/A

Next Steps: The pSB1C3-hHBN ligations will be transformed into MC1061 E.coli tomorrow. The overnight cultures will be subcultured tomorrow and induced with IPTG to test protein expression levels.

14/7: Transformation of pSB1C3-hHBN into MC1061 E.coli and Optmiization of hHBA and hHBB Expression

Aim of experiment: To transform pSB1C3-hHBN into MC1061 E.coli and set up expression optimization tests for hHBA and hHBB.

Protocols Used: Transformations Protein Expression Optimization

Results: Figure 6

Next Steps: If transformations are successful, overnight cultures will be set up tomorrow. Western Blotting will be continued tomorrow for hHBA and hHBB.

15/7: Overnight Cultures of MC1061 E.coli containing pSB1C3-hHBN and Western Blotting of hHBA and hHBB

Aim of experiment: To set up overnight culture of MC1061 E.coli containing pSB1C3-hHBN and finish Western Blotting of hHBA and hHBB.

Protocols Used: Overnight Cultures Western Blotting

Results: Figure 7

Next Steps: The blot shows that characterization of hHBB has been successful. Unfortunately, nothing was visible on the blot for hHBA. 3 L cultures for purification of hHBB will be set up this week. Characterization of hHBA may be reattempted. The overnight cultures will be miniprepped tomorrow.

16/7: Plasmid Purification of pSB1C3-hHBN and Overnight Cultures of M15[pREP4] E.coli containing pQE80-L-hHBB

Aim of experiment: To miniprep the MC1061 E.coli overnight cultures containing pSB1C3-hHBN and set up overnight cultures of M15[pREP4] E.coli containing pQE80-L-hHBB for 3L cultures.

Protocols Used: Plasmid Purification (QIAprep® Spin Miniprep Kit) Overnight Cultures

Results: N/A

Next Steps: The miniprep with the highest concentration will be sent for sequencing. The overnight cultures will be used to set up 3L day cultures tomorrow for purrification of hHBB.

17/7: 3 L Cultures of M15[pREP4] E.coli containing pQE80-L-hHBB

Aim of experiment: To set up 3 L day cultures of M15[pREP4] E.coli containing pQE80-L-hHBB for purification of hHBB.

Protocols Used: Protein Purification Note: The protocol was stopped at Step 6.

Results: N/A

Next Steps: Purification will be continued on Monday.

Week Beginning 20/7/15

Summary

hHBB was successfully purified this week and cloning of hHBN into pQE80-L was completed.

20/7: Amplification of hHBN for Cloning into pQE80-L and Purification of hHBB

Aim of experiment: To amplify hHBN for cloning into pQE80-L and continuation of hHBB purification.

Protocols Used: PCR Protein Purification Note: Protocol was continued from Step 6.

Results: Figure 8

Next Steps: The fractions from the affinity chromatography will be consolidated and concentrated tomorrow. Size exclusion chromatography will also be performed. The hHBN PCR product will be digested and ligated into pQE80-L tomorrow.

21/7: Size Exclusion Chromatography of hHBB and Restriction Digests and Ligations of hHBN into pQE80-L

Aim of experiment: To consolidate, concentrate and perform size exclusion chromatography on the hHBB samples. To digest the hHBN PCR product with BamHI and KpnI and subsequently ligate it into pQE80-L.

Protocols Used: Protein Purification SDS Note: An SDS gel was ran of the SEC fractions which corresponded to the observed peak. Western blotting was stopped at the blocking stage. Restriction Digests Ligations

Results: Figure 9

Next Steps: Western blotting will be completed tomorrow and will confirm if the bands observed on the SDS gel are indeed hHBB. The pQE80-LhHBN ligations will be transformed into M15[pREP4] E.coli tomorrrow.

22/7: Western Blot of hHBB and Transformations of M15[pREP4] E.coli with pQE80-LhHBN Ligations

Aim of experiment: To complete the Western blot of hHBB and transform pQE80-LhHBN into M15[pREP4] E.coli.

Protocols Used: Western Blotting Transformations

Results: Figure 10

Next Steps: The blot shows hHBB has been successfully purified. If the transformations are successful, overnight cultures will be set up tomorrow.

23/7: Overnight Cultures of M15[pREP4] E.coli containing pQE80-LhHBN

Aim of experiment: To set up overnight cultures of M15[pREP4] E.coli containing pQE80-LhHBN.

Protocols Used: Overnight Cultures

Results: N/A

Next Steps: The overnight cultures will be miniprepped tomorrow.

24/7: Plasmid Purification of Overnight Cultures of M15[pREP4] E.coli containing pQE80-LhHBN

Aim of experiment: To miniprep M15[pREP4] E.coli overnight cultures containing pQE80-LhHBN.

Protocols Used: Plasmid Purification (QIAprep® Spin Miniprep Kit)

Results: N/A

Next Steps: The miniprep with the highest concentration will be sent for sequencing.

Week Beginning 27/7/15

Summary

hHBN was successfully cloned into pQE80-L and cloning started for insertion into pT25.

27/7: Restriction Digests and Ligations of hHBN into pQE80-L

Aim of experiment: To digest hHBN again with BamHI and KpnI and set up ligations with pQE80-L.

Protocols Used: Resriction Digests Ligations

Results: N/A

Next Steps: Ligations will be transformed into M15[pREP4] E.coli tomorrow.

28/7: Transformation of M15[pREP4] E.coli with pQE80-L-hHBN

Aim of experiment: To transform M15[pREP4] E.coli with pQE80-L-hHBN.

Protocols Used: Transformations

Results: N/A

Next Steps: If transformations are successful, overnight cultures will be set up tomorrow.

29/7: Overnight Cultures of M15[pREP4] E.coli containing pQE80-L-hHBN

Aim of experiment: To set up overnight cultures of M15[pREP4] E.coli containing pQE80-L-hHBN

Protocols Used: Overnight Cultures

Results: N/A

Next Steps: The overnight cultures will be miniprepped tomorrow.

30/7: Plasmid Purification of M15[pREP4] E.coli Overnight Cultures containing pQE80-L-hHBN

Aim of experiment: To miniprep the M15[pREP4] E.coli Overnight Cultures containing pQE80-L-hHBN.

Protocols Used: Plasmid Purification (QIAprep® Spin Miniprep Kit)

Results: N/A

Next Steps:The miniprep with the highest concentration will be sent for sequencing.

31/7: Amplification of hHBN for Cloning into pT25

Aim of experiment: To amplfy hHBN for cloning into the two hybrid vector pT25.

Protocols Used: PCR

Results: Figure 11

Next Steps:The PCR product will be digested and ligated into pT25 on Monday.

Week Beginning 3/8/15

Summary

Cloning of hHBN into pT25 was completed this week but subsequent sequencing showed that it had not inserted successfully.

3/8: Restriction Digests and Ligations of hHBN for Cloning into pT25

Aim of experiment: To digest the hHBN PCR product with BamHI and KpnI and set up ligations with the pT25 vector.

Protocols Used: Restriction Digests Ligations

Results: N/A

Next Steps:The pT25-hHBN ligations will be transformed into MG1655 E.coli tomorrow.

4/8: Transformations of pT25-hHBN into MG1655 E.coli

Aim of experiment: To set up transformations of pT25-hHBN into MG1655 E.coli.

Protocols Used: Transformations

Results: N/A

Next Steps: If transformations are successful, overnight cultures will be set up tomorrow.

5/8: Overnight Cultures of MG1655 E.coli containing pT25-hHBN

Aim of experiment: To set up overnight cultures of MG1655 E.coli containing pT25-hHBN.

Protocols Used: Overnight Cultures

Results: N/A

Next Steps: The overnight cultures will be miniprepped tomorrow.

6/8: Plasmid Purification of MG1655 E.coli Overnight Cultures containing pT25-hHBN

Aim of experiment: To miniprep the MG1655 E.coli overnight cultures containing pT25-hHBN.

Protocols Used: Plasmid Purification (QIAprep® Spin Miniprep Kit)

Results: N/A

Next Steps: The miniprep with the highest concentration will be sent for sequencing.

Week Beginning 10/8/15

Summary

Overexpression assays of hHBN were set up this week and purification of the protein was begun.

10/8: Overnight Cultures for hHBN Overexpression Assays

Aim of experiment: To set up overnight cultures of M15[pREP4] E.coli containing pQE80-L-hHBN.

Protocols Used: Overnight Cultures

Results: N/A

Next Steps:The overnight cultures will be used to set up day cultures that will be induced with different concentrations of IPTG to assay hHBN expression levels.

11/8: Overexpression Assay of pQE80-L-hHBN

Aim of experiment: To assay hHBN expression levels when induced with a range of IPTG concentrations.

Protocols Used: Overexpression Assay Note: Day cultures were grown to an OD600 of 0.6 and then induced with 0.25 mM, 0.5 mM, 0.75 mM and 1 mM IPTG and allowed to grow for 6 hours.

Results: SDS gel

Next Steps: The gel indicates that hHBN is not being overexpressed in any of the cultures. Further optimization experiments will be set up to try and overexpress hHBN.

12/8: Overnight Cultures of M15[pREP4] E.coli containing pQE80-L-hHBN

Aim of experiment: To set up overnight cultures of M15[pREP4] E.coli containing pQE80-L-hHBN which will be used to set up a 3 L day culture tomorrow.

Protocols Used: Overnight Cultures Note: A 150 ml overnight culture was set up.

Results: N/A

Next Steps: The overnight cultures will be used to set up 3 L day cultures tomorrow.

13/8: 3 L Day Cultures of M15[pREP4] E.coli containing pQE80-L-hHBN

Aim of experiment: To set up 3 L day cultures of M15[pREP4] E.coli containing pQE80-L-hHBN using the overnight culture set up yesterday.

Protocols Used: Protein Purification Note: The cultures were grown to OD600=0.9, then induced with 1 mM IPTG and allowed to grow for a further 8 hours. A 1 ml sample was taken before the cultures were spun down.

Results: N/A

Next Steps: Protein purification will be continued next week.

Week Beginning 17/8/15

Summary

Purification of haptoglobin was completed this week and confirmed via Western Blotting.

17/8: hHBN Purification

Aim of experiment: To continue purification of hHBN by performing affinity chromatography.

Protocols Used: Protein Purification Note: The protocol was stopped at Step 13.

Results: N/A

Next Steps: The samples corresponding to the peak observed in the chromatogram will be combined and purified using SEC tomorrow.

18/8: hHBN Purification

Aim of experiment: To continue purification of hHBN by performing size exclusion chromatography.

Protocols Used: Protein Purification

Results: N/A

Next Steps: The gel shows bands corresponding to 45 kDa, the expected size of hHBN. This will be checked via Western Blotting to ensure it is the correct protein.

19/8: Western Blotting of Purified hHBN

Aim of experiment: To perform Western Blotting in order to verify the protein that was purified is indeed hHBN.

Protocols Used: Western Blotting Note: The membrane was left blocking in milk overnight.

Results: N/A

Next Steps: The blot will be completed tomorrow.

20/8: Western Blotting of Purified hHBN

Aim of experiment: To complete Western Blotting of hHBN.

Protocols Used: Western Blotting The protocol was continued from Step 12.

Results: Figure 14

Next Steps: The blot indicates that hHBN has been successfully purified.

Week Beginning 24/8/2015

Summary

Cloning of hHBA into pT25 was carried out this week.

24/8: Amplification of hHBA for Cloning into pT25

Aim of experiment: To amplify hHBA for subsequent cloning into the two hybrid vector pT25.

Protocols Used: PCR

Results: Figure 15

Next Steps: The gel extracted PCR product will be digested and ligated into pT25 tomorrow.

25/8: Restriction Digests of hHBA and Ligations into pT25

Aim of experiment: To digest the hHBA with BamHI and KpnI and set up ligations with pT25.

Protocols Used: Restriction Digests Ligations

Results: N/A

Next Steps:The ligations will be left overnight and transformed into MG1065∆cya E.coli tomorrow.

26/8: Transformations of pT25-hHBA into MG1065∆cya E.coli

Aim of experiment: To transform the pT25-hHBA ligations into MG1065∆cya E.coli.

Protocols Used: Transformations

Results: N/A

Next Steps: If transformations are successful, colonies will be pick for setting up overnight cultures tomorrow.

27/8: Overnight Cultures of MG1065∆cya E.coli containing pT25-hHBA

Aim of experiment: To set up overnight cultures of MG1065∆cya E.coli containing pT25-hHBA.

Protocols Used: Overnight Cultures

Results: N/A

Next Steps: The overnight cultures will be miniprepped tomorrow.

28/8: Plasmid Purification of MG1065∆cya E.coli containing pT25-hHBA Overnight Cultures

Aim of experiment: To miniprep the MG1065∆cya E.coli overnight cultures containing pT25-hHBA.

Protocols Used: Plasmid Purification (QIAprep® Spin Miniprep Kit)

Results: N/A

Next Steps: The miniprep with highest concentration was sent for sequencing to confirm if the insert has been cloned in successfully.

Week Beginning 7/9/2015

Summary

Cloning of hHBN into pUT18 was carried out this week.

7/9: Amplification of hHBN for Cloning into pUT18

Aim of experiment: To amplify hHBN for subsequent cloning into the two hybrid vector pUT18.

Protocols Used: PCR

Results: Figure 16

Next Steps: The gel extracted PCR product will be digested and ligated into pT25 tomorrow.

8/9: Restriction Digests of hHBN and Ligations into pUT18

Aim of experiment: To digest the hHBN with BamHI and KpnI and set up ligations with pUT18.

Protocols Used: Restriction Digests Ligations

Results: N/A

Next Steps:The ligations will be left overnight and transformed into MG1065∆cya E.coli tomorrow.

9/9: Transformations of pUT18-hHBN into MG1065∆cya E.coli

Aim of experiment: To transform the pUT18-hHBN ligations into MG1065∆cya E.coli.

Protocols Used: Transformations

Results: N/A

Next Steps: If transformations are successful, colonies will be picked for setting up overnight cultures tomorrow.

10/9: Overnight Cultures of MG1065∆cya E.coli containing pUT18-hHBN

Aim of experiment: To set up overnight cultures of MG1065∆cya E.coli containing pUT18-hHBN.

Protocols Used: Overnight Cultures

Results: N/A

Next Steps: The overnight cultures will be miniprepped tomorrow.

11/9: Plasmid Purification of MG1065∆cya E.coli containing pUT18-hHBN Overnight Cultures

Aim of experiment: To miniprep the MG1065∆cya E.coli overnight cultures containing pUT18-hHBN.

Protocols Used: Plasmid Purification (QIAprep® Spin Miniprep Kit)

Results: N/A

Next Steps: The miniprep with highest concentration was sent for sequencing to confirm if the insert has been cloned in successfully.

Nasal Mucus
Week Beginning 15/6/2015

Summary

Produced a purified plasmid of pIDT-OBP2A in order to use it as template in PCR.

17/6: Transformation of pIDT-OBP2A in MC1610 E.coli

Aim of Experiment: To transform pIDT-OBP2A into MC1061 e.coli strain.

Protocols Used: Transformation

Results: N/A

Next Steps: The result of this transformation can be seen tomorrow. If successful then the next step will be to produce an overnight culture in preparation of subsequent plasmid purification.

18/6: Overnight culture of pIDT-OBP2A plasmid in MC1061

Aim of experiment: To produce an overnight culture of pIDT-OBP2A from positive colonies of MC1061 from the transformation done on the 17/6.

Protocols Used: Overnight Culture

Results: N/A

Next Steps: If the overnight culture successfully grows then the next stage of experimentation will be to produce a plasmid purification of pIDT-OBP2A from that overnight culture.

19/6: Plasmid Purification of pIDT-OBP2A from the overnight culture

Aim of experiment: The overnight culture produced on the 18/6 will now undergo a plasmid purification in order to obtain the pIDT-OBP2A plasmid.

Protocols Used: Plasmid Purification

Results: The plasmid purification yielded a concentration of 305.53 ng/ul.

Next Steps: Assuming the plasmid purification has been successful, then the next stage of experimentation will be to run a PCR using this purified pIDT-OBP2A plasmid as the template for subsequent amplification.

Week Beginning 22/6/2015

Summary

Removal of the signaling peptide from OBP2A and insertion of OBP2A into the biobrick vector pSB1C3.

22/6: PCR of pIDT-OBP2A using primers designed for the removal of the signal peptide

Aim of Experiment: To perform a PCR of the purified pIDT-OBP2A plasmid using a set of primers that have been designed to remove the signaling peptide at the start of the OBP2A gene, whilst leaving the rest of the gene intact.

Protocols Used: PCR

Results: N/A

Next Steps: If the PCR is successful, then the next step will be to gel extract OBP2A from a the gel corresponding to the size of the OBP2A gene fragment.

23/6: Gel extraction of OBP2A from the PCR performed on the 22/6

Aim of experiment: To perform a gel extraction of OBP2A from a PCR reaction that was performed on the 22/6. Once gel extraction has been performed a subsequent gel will be done to determine if the gel extraction had been successful.

Protocols Used: Gel Extraction

Results: Figure 1 Figure 2

Next Steps: To perform a restriction of OBP2A in preparation for ligation.

24/6: Restriction, ligation and transformation of OBP2A into pSB1C3

Aim of experiment: To perform a restriction, ligation and subsequently a transformation of of the gel extracted OBP2A into the JM110 E.coli strain.

Protocols Used: Restriction Digest : Ligation : Transformation

Results: N/A

Next Steps: If the transformation is successful and positive colonies form then these colonies will then be grown overnight in preparation for plasmid purification.

25/6: Re-ligation and transformation of OBP2A into pSB1C3

Aim of experiment: The transformation performed on the 24/6 failed and as a result OBP2A will now be re-ligated into the biobrick vector pSB1C3 and subsequently transformed into the JM110 E.coli strain.

Protocols Used: Ligation: Transformation

Results: Figure 3

Next Steps:If the transformation is successful and positive colonies form then these colonies will then be grown overnight in preparation for plasmid purification.

26/6: Overnight cultures of pSB1C3-OBP2A

Aim of experiment: To produce overnight cultures of pSB1C3-OBP2A from a positive colony from the transformation done on the 25/6.

Protocols Used: Overnight Cultures

Results: N/A

Next Steps: Produce plasmid purifications from the overnight cultures of pSB1C3-OBP2A in preparation for presequence digest.

27/6: Plasmid Purification and Presequence Digest of pSB1C3-OBP2A

Aim of experiment: To perform a plasmid purification of the overnight cultures of pSB1C3-OBP2A from the 26/6. Then to subsequently perform a presequence digest of those plasmid purification.

Protocols Used: Plasmid Purification Restriction Digests

Results: Figure 4

Next Steps: It was concluded from the results of these experiments that sample 5 of pSB1C3-OBP2A will be sent for sequencing.

Week Beginning 29/6/2015

Summary

Positive Sequencing of pSB1C3-OBP2A and subsequent plasmid purification of pSB1C3-OBP2A.

29/6: Plasmid purified pSB1C3-OBP2A is sent for sequencing

Aim of Experiment: Sample 5 of the plasmid purified pSB1C3-OBP2A that was done on the 24/6 is sent for sequencing to determine if OBP2A has successfully ligated into pSB1C3.

Protocols Used: N/A

Results: N/A

Next Steps: If sequencing comes back positive, then the next step will be to clone OBP2A into the two vectors of the bacterial two hybrid system.

30/6: Overnight culture of pSB1C3-OBP2A from the sequenced colony

Aim of Experiment: Sequencing came back positive for pSB1C3-OBP2A. So an overnight culture of pSB1C3-OBP2A will be done in preparation for plasmid purification.

Protocols Used:Overnight Cultures

Results: N/A

Next Steps: Once the overnight culture has been given ample time to grow, the culture will then undergo a plasmid purification.

1/7: Plasmid Purification of pSB1C3-OBP2A

Aim of Experiment: To produce a plasmid purification of the sequenced pSB1C3-OBP2A from the overnight culture set up on the 30/6.

Protocols Used:Plasmid Purification

Results: The plasmid purified pSB1C3-OBP2A produced a concentration of 448.83 ng/ul.

Next Steps: The next stage of experimentation is to use the plasmid purification of pSB1C3-OBP2A as the template for PCR using primers that are designed to separate the gene for use in the two hybrid system.

Week Beginning 12/7/2015

Summary

Ran PCR of OBP2A using primers for insertion of OBP2A into pUT18 and pT25.

17/7: PCR of OBP2A for insertion into bacterial two hybrid vectors: pUT18 and pT25

Aim of Experiment: To perform a PCR of OBP2A for its insertion into the bacterial two hybrid vectors; pUT18 and pT25.

Protocols Used: PCR

Results: N/A

Next Steps:The next stage of experimentation will be to gel extract and then subsequently restrict the amplified gene fragments of OBP2A.

Week Beginning 20/7/2015

Summary

Attempted insertion of OBP2A into the vectors for the bacterial two hybrid system; pUT18 and pT25.

20/7: Gel Extraction and Restriction Digest of OBP2A from the PCR performed on 17/7

Aim of Experiment: To perform a gel extraction and then subsequently a restriction of OBP2A from the PCR produced on the 17/7 using primers designed for the insertion of OBP2A into the vectors for the bacterial two hybrid system, pUT18 and pT25.

Protocols Used: Restriction Digest

Results: N/A

Next Steps: If the gel extraction and subsequent restriction is successful, then the next step will be to ligate the restricted OBP2A into the bacterial two hybrid vector, pUT18 and pT25.

21/7: Ligation and Transformation of OBP2A into pUT18 and pT25.

Aim of Experiment: To perform a ligation and then subsequently a transformation of OBP2A into the vectors for the bacterial two hybrid system, pUT18 and pT25. Whilst using JM110 E.coli cells as a chassis for transformation.

Protocols Used: Ligation Transformation

Results: N/A

Next Steps: The results from the transformation will be seen tomorrow. If successful and positive colonies form on the antibiotic plates, then the next step will be to grow overnight colonies in preparation for purification and sequencing.

22/7: Re-ligation and Transformation of OBP2A into pUT18 and PT25.

Aim of Experiment: To perform a re-ligation and transformation of OBP2A into pUT18 and pT25 - since the transformation performed on the 21/7 failed.

Protocols Used: Ligation Transformation

Results: N/A

Next Steps: If transformation is successful and positive colonies form on the antibiotic plates, then the next step will be to grow overnight colonies in preparation for purification and sequencing.

23/7: Production of overnight cultures of pUT18-OBP2A.

Aim of Experiment: To produce overnight cultures of pUT18-OBP2A. Unfortunately no positive colonies were produced from the transformation of OBP2A into pT25.

Protocols Used: Overnight Culture

Results: N/A

Next Steps: Once the cells have been given ample time to grow, they will undergo plasmid purification for subsequent sequencing.

24/7: Plasmid Purification and subsequent Presequence digest of pUT18-OBP2A

Aim of Experiment: To perform a plasmid purification of the overnight cultures of pUT18-OBP2A and then a subsequent presequence digest.

Protocols Used: Plasmid Purification Restriction Digest

Results: Figure 5

Next Steps: If sequencing comes back positive for pUT18-OBP2A then this can now be implemented into the bacterial two hybrid system. Another attempt at cloning OBP2A into pT25 will be done next week.

Week Beginning 27/7/2015

Summary

Successful insertion of the two subunits of OBP2A into the vectors pUT18 and pT25.

27/7: PCR and Gel extraction of OBP2A for Preparation of Insertion into pT25.

Aim of Experiment: To perform a PCR and subsequent gel extraction of OBP2A for its insertion into pT25.

Protocols Used: PCR

Results: Figure 6

Next Steps: The next stage of experimentation will be to restrict OBP2A for subsequent ligation into pT25.

28/7: Restriction Digest of OBP2A for pT25 and Positive Sequencing of pUT18-OBP2A

Aim of Experiment: To perform a restriction digest of OBP2A for subsequent ligation into PT25. Also, sequencing came back positive for pUT18-OBP2A, so pUT18-OBP2A can now be implemented in the bacterial two hybrid system.

Protocols Used: Restriction Digests

Results: N/A

Next Steps: The next stage of experimentation will be to ligate OBP2A into the pT25 vector.

30/7: Ligation and Transformation of OBP2A into pT25.

Aim of Experiment: To perform a ligation and transformation of OBP2A into the bacterial two hybrid vector pT25, so that the interaction between the two constituents of OBP2A can be observed using the bacterial two hybrid system.

Protocols Used: LigationTransformation

Results: N/A

Next Steps: If the transformation is successful and positive colonies form on the antibiotic plates, then the next step will be to grow overnight cultures of those colonies in preparation for purification and sequencing.

31/7: Overnight Cultures of pT25-OBP2A from Positive Colonies.

Aim of Experiment: To produce overnight cultures of pT25-OBP2A from the transformation done on the 30/7.

Protocols Used: Overnight Culture

Results: N/A

Next Steps: Once the cells have grown overnight they will undergo plasmid purification for subsequent sequencing.

1/8: Plasmid Purification and Subsequent Presequence Restriction Digest of pT25-OBP2A

Aim of Experiment: To perform a plasmid purification of pT25-OBP2A from the overnight cultures done on the 31/7 and then a subsequent presequence digest.

Protocols Used: Plasmid Purification Restriction Digest

Results: Figure 7

Next Steps: If sequencing comes back positive for pT25-OBP2A then this can now be implemented into the bacterial two hybrid system. The results from the sequencing should arrive early on the 3/8.

Week Beginning 3/8/2015

Summary

Positive sequencing of pT25-OBP2A, subsequent transformation into the bacterial two hybrid system and plating onto MacConkey agar.

3/8: Transformation of pUT18-OBP2A into BTH101 E.coli strain.

Aim of Experiment: To perform a transformation of pUT18-OBP2A into BTH101, so that a subsequent transformation of pT25-OBP2A into the same chassis can occur as both plasmids are required to reside in the same chassis so that their interaction can be observed.

Protocols Used: Transformation

Results: N/A

Next Steps: If the transformation is successful, then the next stage of experimentation will be to re-transform this culture of cells using the pT25-OBP2A plasmid.

4/8:Day culture and transformation of BTH101 containing pUT18-OBP2A with pT25OBP2A

Aim of Experiment: To perform a day culture and then a subsequent transformation of the BTH101 chassis containing pUT18-OBP2A from the transformation performed on 3/8.

Protocols Used: Transformation

Results: N/A

Next Steps: If the transformation is successful then the next stage of experimentation will be to observe the protein interaction of the two subunits of OBP2A using MacConkey agar plates.

5/8:Day culture and plating of positive colonies from transformation onto MacConkey agar.

Aim of Experiment: To perform a day culture and then subsequent plating of positive colonies from the transformation performed on the 4/8. Positive colonies from this transformation contain both vectors of the bacterial two hybrid system along with the two subunits of OBP2A and so now the interaction can be observed. The day culture will be plated onto MacConkey agar which once the cells have been given enough time to grow will give a visual demonstration of the protein interaction through a color change.

Protocols Used: Transformation

Results: N/A

Next Steps: It has been decided that whilst the E.coli strain BTH101 that is being used in this experiment is useful for visualizing protein interaction, it is very unstable. A better E.coli strain called MG1655(Δcya) will be used instead as it is much more stable. This means that tomorrow overnights will be prepared of MG1655(Δcya)for transformation with pUT18-OBP2A and then subsequently pT25-OBP2A.

6/8: Overnight cultures of MG1655(Δcya)

Aim of Experiment: To perform an overnight culture of MG1655(Δcya)E.coli in preparation for transformation with pUT18-OBP2A and then pT25-OBP2A.

Protocols Used: Overnight Culture

Results: N/A

Next Steps: Once the overnight culture has been give sufficient time to grow these cells will then be transformed with pUT18-OBP2A and then subsequently re-transformed with pT25-OBP2A.

7/8: Results of MacConkey agar growth and transformation of MG1655(Δcya)with pUT18-OBP2A

Aim of Experiment: To perform a transformation of MG1655(Δcya)with pUT18-OBP2A. Also the results of plating of our bacterial two hybrid interaction onto MacConkey agar has produced promising results as the colonies appear to be taking up a small amount of red dye - an indicator of protein interaction. This suggests that the two separated parts of OBP2A may in fact be interacting in vivo. This interaction will need to be quantified through the use of the β-galactosidase assay.

Protocols Used: Transformation

Results: N/A

Next Steps: If the transformation of MG1655(Δcya) with pUT18-OBP2A is successful then the next step of experimentation will be re-transform positive colonies with pT25-OBP2A.

8/8: Transformation of MG1655(Δcya) containing pUT18-OBP2A with pT25-OBP2A

Aim of Experiment: To perform a transformation of MG1655(Δcya) containing pUT18-OBP2A with pT25-OBP2A. Positive colonies were produced from the transformation done on the 7/7 and so as a result a day culture was produced and subsequently re-transformed with pT25-OBP2A.

Protocols Used: Transformation

Results: N/A

Next Steps: If the transformation of MG1655(Δcya) with pT25-OBP2A is successful then the next step of experimentation will be to undertake the β-galactosidase assay

Week Beginning 10/8/2015

Summary

First attempt at determination of the protein interaction of the OBP2A subunits using the β-galactosidase assay.

10/8: Plating of Controls in preparation of the β-galactosidase assay

Aim of Experiment: To plate control interactions that are used in the β-galactosidase assay to aid in the interpretation of the results form the assay. This first assay attempt will consist of one positive control, one negative control and one regulatory control.

Protocols Used: N/A

Results: N/A

Next Steps: The next stage of experimentation will be to perform overnight cultures from positive colonies in preparation for the β-galactosidase assay.

11/8: Overnight cultures of controls and OBP2A in preparation for the β-galactosidase assay.

Aim of Experiment: To prepare overnight cultures of positive colonies of MG1655(Δcya) containing pUT18-OBP2A and pT25-OBP2A, along with the controls in preparation for the β-galactosidase assay.

Protocols Used: Overnight Cultures

Results: N/A

Next Steps: Once the cells have been given sufficient time to grow then the next stage of experimentation will be to inoculate those colonies into fresh liquid broth until they reach an O.D of 0.4 before being pellet and frozen for the assay.

12/8: Inoculation and preparation of cultures for the β-galactosidase assay.

Aim of Experiment: To prepare cultures for use in the β-galactosidase assay, this requires a small subsample of each overnight to be inoculated into fresh LB, two done for each colony. Then left to grow until the O.D of each culture is between 0.3-0.5. Once an O.D of 0.3-0.5 has been reached then 3 replicas of 1 ml samples are taken from each culture before being spun down, the supernatant then subsequently removed and the pellet frozen.

Protocols Used: Assay Preparation

Results: N/A

Next Steps: These samples are now ready for the β-galactosidase assay.

13/8: First attempt at the determination of the protein interaction of the two OBP2A subunits using the β-galactosidase assay

Aim of Experiment: To determine the millers activity of the two interacting subunits of OBP2A in vivo as a basis of the level of interaction between them. This was done using the β-galactosidase assay.

Protocols Used: β-galactosidase assay

Results: Figure 8

Next Steps: As it was the first attempt at a β-galactosidase assay, subsequent assays will be performed utilizing more controls.

14/8: Preparation of overnight cultures of controls and samples in preparation of performing a second β-galactosidase assay

Aim of Experiment: To perform overnight cultures of the controls and samples that will be necessary for doing this second β-galactosidase assay. This assay will include two positive controls which are known to have a high level of interaction - these are NarG-NarJ and Zip positive controls. There will also be two negative controls, an empty MG1655(Δcya) chassis and pUT18-OBP2A with NarJ. Finally there is one regulatory control: which contains two empty vectors of pUT18 and pT25.

Protocols Used:Overnight Cultures

Results: N/A

Next Steps: The next stage of experimentation will be to prepare samples for use in the β-galactosidase assay.

Week Beginning 17/8/2015

Summary

Second attempt at determining the protein interactions of the two OBP2A subunits using the β-galactosidase assay and subsequent cloning of OBP2A into the bacterial two hybrid vectors in switched order.

17/8: Preparation of the controls and samples for use in the second attempt of the β-galactosidase assay

Aim of Experiment: To prepare cultures for use in the β-galactosidase assay, this requires a small subsample of each overnight to be inoculated into fresh LB, two done for each colony. Then left to grow until the O.D of each culture is between 0.3-0.5. Once an O.D of 0.3-0.5 has been reached then 3 replicas of 1 ml samples are taken from each culture before being spun down, the supernatant then subsequently removed and the pellet frozen.

Protocols Used: β-galactosidase assay

Results: N/A

Next Steps: The next stage of experimentation will be to perform the second β-galactosidase assay on the interaction between the two subunits of OBP2A

18/8: Second attempt at determination of the protein interactions of the OBP2A subunits using the β-galactosidase assay

Aim of Experiment: To perform a second attempt at the β-galactosidase assay that will aid in the determination of the level of interaction that the two separated subunits of OBP2A are inflicting on one another.

Protocols Used: β-Galactosidase assay

Results: Figure 10

Next Steps: The next stage of experimentation will be to switch the positioning of the two subunits of OBP2A in pUT18 and pT25 by having the smaller subunit in pUT18 and the large subunit in pT25. Along with this another β-galactosidase assay will be performed however this time it will be done under anaerobic conditions to see if that has any appreciable effect on the interaction of the two subunits of OBP2A.

20/8: PCR of OBP2A in preparation of pUT18 and pT25 insertion

Aim of Experiment: To Perform a PCR of OBP2A using primers for pU1T18 and pT25 insertion which have been designed to place the smaller OBP2Asubunit into pUT18 and the larger subunit into pT25.

Protocols Used: PCR

Results: N/A

Next Steps: If PCR is successful then the next stage of experimentation will be to perform a gel extraction and restriction in perpetration for ligation and transformation of OBP2A into pUT18 and pT25.

21/8: Second attempt at a PCR of OBP2A in preparation of pUT18 and pT25 insertion

Aim of Experiment: The PCR performed on the 20/8 failed as no bands were found to be present on the gel during gel viewing. As a result of this a subsequent PCR was done today.

Protocols Used: PCR

Results: N/A

Next Steps: If PCR is successful then the next stage in experimentation will be to perform a gel extraction and restriction in perpetration for ligation and transformation of OBP2A in pUT18 and pT25.

22/8: Second attempt at PCR of OBP2A for insertion into pUT18 and pT25 failed

Aim of Experiment: A second attempt at preparing OBP2A for insertion into the two vectors of the bacterial two hybrid system(pUT18 and pT25) has failed! As a result this will be left until next week, so that the rest of the week can be dedicated to preparing and undertaking another β-galactosidase assay, that will be done under anaerobic conditions.

Protocols Used: N/A

Results: N/A

Next Steps: The next stage of experimentation is to prepare for a anaerobic β-galactosidase assay of OBP2A in the bacterial two hybrid vectors; pUT18 and pT25.

Week Beginning 24/8/2015

Summary

Performed an anaerobic β-galactosidase assay in order to determine the level of interaction between the two subunits of OBP2A.

24/8: Preparation of samples for the anaerobic β-galactosidase assay of OBP2A in pUT18 and pT25

Aim of Experiment: To prepare the samples and controls of OBP2A for the anaerobic β-galactosidase assay, so they can be frozen overnight in preparation for the assay itself.

Protocols Used: Assay Preparation

Results:

Next Steps: The next stage of experimentation will be to perform the β-galactosidase assay itself.

25/8: Performed an anaerobic β-galactosidase assay in order to determine the level of interaction of OBP2A in the bacterial two hybrid vectors: pUT18 and pT25.

Aim of Experiment: Performed an anaerobic β-galactosidase assay of OBP2A in the bacterial two hybrid vectors: pUT18 and pT25. This is to determine the level of interaction that the smaller subunit of OBP2A has with its larger subunit in vivo. This particular assay has two positive controls, two negative controls and one regulatory control.

Protocols Used: β-galactosidase assay

Results: Figure 12

Next Steps: The results have shown that the two subunits of OBP2A in fact don't seem to be interacting in vivo - a possible reason for this might be aggregation of the two subunits preventing interaction. The next stage of experimentation will be to test out the interaction when the subunit are switch in relation to heir positions on the vectors: pUT18 and pT25.