Team:Exeter/lab book/gibs/wk3

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     <font face="Verdana" color="#57b947" size="2">
     <font face="Verdana" color="#57b947" size="2">
        
        
-
      <!--Project Division Links-->
+
    <!--Project Division Links-->
-
       <a href="https://2012.igem.org/Team:Exeter/lab_book/1gp/wk1"; style="color:#57b947">Single Gene Plasmids and Enzyme Characterisation</a>
+
      <a href="https://2012.igem.org/Team:Exeter/lab_book/proto"; style="color:#57b947">Protocols</a>
-
        &nbsp;|&nbsp;
+
       &nbsp;|&nbsp;
-
      <a href="https://2012.igem.org/Team:Exeter/lab_book/novpol/wk1"; style="color:#57b947">Showcasing Polysaccharide Production</a>
+
      <a href="https://2012.igem.org/Team:Exeter/lab_book/1gp/wk1"; style="color:#57b947">Single Gene Plasmids and Enzyme Characterisation</a>
-
        &nbsp;|&nbsp;
+
      &nbsp;|&nbsp;
-
      <a href="https://2012.igem.org/Team:Exeter/lab_book/3gip/wk1"; style="color:#57b947">The 3-Gene Inducible Plasmid</a>
+
      <a href="https://2012.igem.org/Team:Exeter/lab_book/novpol/wk1"; style="color:#57b947">Showcasing Polysaccharide Production</a>
-
        <p>  
+
      &nbsp;|&nbsp;
-
      <a href="https://2012.igem.org/Team:Exeter/lab_book/gibs/wk1"; style="color:#57b947">Operon Construction</a>       
+
      <a href="https://2012.igem.org/Team:Exeter/lab_book/3gip/wk1"; style="color:#57b947">The 3-Gene Inducible Plasmid</a>
-
        &nbsp;|&nbsp;
+
      <p>  
-
      <a href="https://2012.igem.org/Team:Exeter/lab_book/glyco/wk1"; style="color:#57b947">Glycobase</a>
+
      <a href="https://2012.igem.org/Team:Exeter/lab_book/gibs/wk1"; style="color:#57b947">Operon Construction</a>       
-
        </p>
+
      &nbsp;|&nbsp;
-
      <!--End Project Division Links-->
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      <a href="https://2012.igem.org/Team:Exeter/lab_book/glyco/wk1"; style="color:#57b947">Glycobase</a>
 +
      </p>
 +
    <!--End Project Division Links-->
 +
 
      
      
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         -
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         </p>
         </p>
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         <a href="https://2012.igem.org/Team:Exeter/lab_book/gibs/wk10"; style="color:#1d1d1b">10th - 14th September</a>
+
         <a href="https://2012.igem.org/Team:Exeter/Results#usepoly"; style="color:#e30614" target="_blank"><font size="3"><b>Results: Part 1</b></font></a>
         <p>
         <p>
         -
         -
         </p>
         </p>
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         <a href="https://2012.igem.org/Team:Exeter/lab_book/gibs/wk11"; style="color:#1d1d1b">17th - 21st September</a>
+
         <a href="https://2012.igem.org/Team:Exeter/Results/GvsB"; style="color:#e30614" target="_blank"><font size="3"><b>Results: Part 2</b></font></a>
       </font>
       </font>
     </div>
     </div>
     <!--End Project Division Week Hyperlinks-->
     <!--End Project Division Week Hyperlinks-->
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   <td width="850" height="250">
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   <!------------INSERT WEEKLY IMAGE HERE------------>
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   <!------>
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     <img src="" alt="" title="" width="850" height="250">
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     <img src="https://static.igem.org/mediawiki/2012/9/94/Exe2012MaryIDT.jpg" alt="" title="" width="850" height="250">
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     <!<p><b>**Tuesday 24.7.12**</b></p><p>Mary, Freddie, Becca and Alex B.</p><br><p><b>9am</b></p><p>3A assembly of Pbad weak-RBS, Pbad strong-RBS and PlacI-RBS</p><br><p>
+
     <!<p><b>**Tuesday 24.7.12**</b></p>
 +
<p><b>9am</b></p><br>
 +
<p>Carried out <a href="https://2012.igem.org/Team:Exeter/lab_book/proto/4" style="color:#57b947"><u>3A BioBrick assembly</u></a> of pBAD weak-RBS (BBa_K764018) and pBAD strong-RBS (BBa_K764019)</p>
 +
<p><i> N.B. All volumes and concentrations from protocol halved. Used volumes of water and DNA shown below.</i></p><br>
-
<u>Upstream</u></p><p>
+
<p><u>Upstream</u></p><p>
-
For 500ng DNA:
+
<p>Plasmid DNA:</p>
-
<ul>Pbad Weak - (211.4 ng/µl)=2.37 µl</ul></p><p><ul>Pbad Strong -(130.4 ng/µl) =3.83 µl</ul></p><p><ul>PlacI - (299.2 ng/µl)=1.67 µl</ul></p><p>
+
<p><ul>(1) Pbad Weak - 2.37 µl</ul></p>
-
EcoRI-HF: <ul>0.5 µl (master mix volume 2 µl) </ul></p><p>
+
<p><ul>(2) Pbad Strong - 3.83 µl</ul></p><br>
-
SpeI: <ul>0.5 µl (master mix volume 2 µl) </ul></p><p>
+
-
10X NEBuffer 2: <ul>2.5 µl (master mix volume 10 µl) </ul></p><p>
+
-
100X BSA: <ul>0.25 µl (master mix volume 1 µl) </ul></p><p>
+
-
H2O (to 25 µl):</p><p>
+
-
<ul>Pbad Weak =18.88 µl</ul></p><p>
+
-
<ul>Pbad Strong =17.42 µl</ul></p><p>
+
-
<ul>PlacI =19.58 µl</ul></p><br>
+
-
<p><u>Downstream</u></p><p>
+
<p>MilliQ water:</p>
-
For 500 ng DNA: <ul>RBS (77.4 ng/µl)=6.46 µl</ul></p><p>
+
<p><ul>(1) Pbad Weak =18.88 µl</ul></p>
-
XbaI: <ul> 0.5 µl</ul></p><p>
+
<p><ul>(2) Pbad Strong =17.42 µl</ul></p><br>
-
PstI: <ul> 0.5 µl</ul></p><p>
+
-
10X NEBuffer 2:  <ul>2.5 µl</ul></p><p>
+
-
100X BSA:  <ul>0.25 µl</ul></p><p>
+
-
H2O to 25 µl:  <ul>14.79 µl</ul></p><br><p>
+
-
<u>Destination plasmid</u></p><p>
+
<p><u>Downstream</u></p>
-
Linear plasmid DNA (250ng): <ul>20 µl </ul></p><p>
+
<p> <ul>RBS (BBa_B0034) - 6.46 µl</ul></p>
-
EcoRI-HF:  <ul>0.5 µl (master mix vol. 2 µl) </ul></p><p>
+
<p>MilliQ water - 14.79 µl</ul></p><br>
-
PstI: <ul>0.5 µl (master mix vol. 2 µl) </ul></p><p>
+
-
10X NEBuffer 2: <ul>2.5 µl (master mix vol. 10 µl) </ul></p><p>
+
-
100X BSA: <ul>0.25 µl (master mix vol. 1 µl) </ul></p><p>
+
-
H2O to 25 µl</p><p>
+
-
Incubated 36 °C for 10 minutes</p><p>
+
-
Heat inactivated at 80 °C for 20 minutes</p><br><p>
+
-
<u>Ligation:</u></p><p>
+
<p><u>Destination plasmid</u></p>
-
Upstream part digest: <ul>2 µl</ul></p><p>
+
<p>Linear plasmid DNA - 20 µl</p>
-
Downstream part digest: <ul>2 µl </ul></p><p>
+
<p>MilliQ water -  1.25µl</p>
-
Destination plasmid digest: <ul>2 µl</ul></p><p>
+
<p>Incubated 36 °C for 10 minutes</p>
-
10X T4 DNA ligase buffer: <ul>2 µl</ul></p><p>
+
<p>Heat inactivated at 80 °C for 20 minutes</p><br>
-
T4 DNA ligase: <ul>1 µl</ul></p><p>
+
-
H2O: <ul>11 µl</ul></p><br><p>
+
-
Incubated at room temperature for 10 minutes</p><p>Heat inactivated at 80 °C for 20 minutes</p><p>Stored at -20°C prior to afternoon transformation</p><br><p><b>2.45pm</b></p><p>
+
-
Resuspended DNA according to IDT resuspension protocol (Alex B. and Becca then transformed them)</p><p>
+
-
<ul><b><i>1.</i></b>2 µl of DNA from Pbad S-RBS and PlacI-RBS ligations added to 25 µl top10 competent cells</p><p>
+
-
<b><i>2.</i></b>Incubated on ice for 30 minutes</p><p>
+
-
<b><i>3.</i></b>Heat shocked 42 °C 30 seconds</p><p>
+
-
<b><i>4.</i></b>Placed on ice for 2 minutes</p><p>
+
-
<b><i>5.</i></b>Aseptically added 250 µl S.O.C. medium (pre-warmed)</p><p>
+
-
<b><i>6.</i></b>Shaken at 220 rpm, 37 °C, 1 hour</p><p>
+
-
<b><i>7.</i></b>Spread plates of 20 and 100 µl made</p>
+
-
<p><b><i>8.</i></b>incubated at 37 °C overnight</ul><br>
+
-
<b>**Wednesday 25.7.12**</b></p><p>
+
<p>Ligation as from <a href="https://2012.igem.org/Team:Exeter/lab_book/proto/4" style="color:#57b947"><u>protocol,</u></a> with full volumes and concentrations.</p>
-
Mary and Freddie</p><br><p>
+
<p>DNA stored at -20°C prior to afternoon transformation</p><br>
-
<b>9.45 am</b></p><p>
+
-
Biobricking attempt 2</p><p>
+
-
To make Pbad Strong-RBS and PlacI-RBS (n.b. placI-RBS relevant only to 3 gene part of project)</p><p>
+
-
3A assembly</p><p>
+
-
<u>Upstream</u></p><p>
+
-
For 500ng DNA:</p><p>
+
-
<p><ul>Pbad Strong -(130.4 ng/µl) =3.8 µl </ul></p><p><ul>PlacI - (299.2 ng/µl)=1.7 µl</ul></p><p>
+
-
EcoRI-HF: <ul>1 µl (master mix vol. 3 µl) </ul></p><p>
+
-
SpeI: <ul>1 µl (master mix vol. 3 µl)</ul></p><p>
+
-
10X NEBuffer 2: <ul>5 µl (master mix vol. 15 µl) </ul></p><p>
+
-
100X BSA: <ul>0.5 µl (master mix vol 1.5 µl) </ul></p><p>
+
-
H2O (to 50 µl): <ul>Pbad strong: 38.7 µl </ul></p><p>
+
-
<ul>PlacI: 40.8 µl</ul></p><br><p>
+
-
<p><u>Downstream</u></p><p>
+
<p><b>2.45pm</b></p>
-
For 500 ng DNA:<ul>RBS (77.4 ng/µl)=6.5 µl</ul></p><p>
+
<p>Resuspended DNA of synthesised genes according to <a href="https://2012.igem.org/Team:Exeter/lab_book/proto/11" style="color:#57b947"><u>IDT resuspension protocol</u></a> (Alex B. and Becca then transformed it.)</p><br>
-
XbaI:  <ul>0.5 µl (master mix vol. 3 µl) </ul> </p><p>
+
-
PstI: <ul>0.5 µl (master mix vol. 3µl)</ul></p><p>
+
-
10X NEBuffer 2:  <ul>2.5 µl (master mix vol. 15 µl) </ul> </p><p>
+
-
100X BSA:  <ul>0.25 µl (master mix vol. 1.5 µl) </ul></p><p>
+
-
H2O:  <ul>6.7 µl</ul></p><br><p>
+
-
<u>Destination plasmid (pSB1T3 - tetracycline resistance)</u></p><p>
+
<p>Using 3A assembled DNA (BBa_K764019) <a href="https://2012.igem.org/Team:Exeter/lab_book/proto/1" style="color:#57b947"><u>competent cells were transformed.</u></a></p>
-
Linear plasmid DNA (250ng): <ul>20 µl </ul></p><p>
+
<p>2 µl of DNA from Pbad S-RBS added to 25 µl top10 competent cells</p>
-
EcoRI-HF: <ul>1 µl (master mix vol. 3 µl) </ul></p><p>
+
<p>Spread plates of 20 and 100 µl made</p><br>
-
PstI: <ul> 1 µl (master mix vol. 3 µl) </ul></p><p>
+
-
10X NEBuffer 2: <ul>5 µl (master mix vol. 15 µl) </ul></p><p>
+
-
100X BSA: <ul>0.5 µl (master mix vol. 1.5 µl) <ul></p><p>
+
-
H2O to 50 µl: <ul>22.5 µl</ul></p><br><p>
+
-
Incubated 36 °C for 10 minutes</p><p>
+
-
Heat inactivated at 80 °C for 20 minutes</p><br><p>
+
-
<u>Ligation:</u></p><p>
+
<p><b>**Wednesday 25.7.12**</b></p>
-
Upstream part digest: <ul>2 µl</ul></p><p>
+
<p><b>9.45 am</b></p><br>
-
Downstream part digest: <ul>2 µl </ul></p><p>
+
-
Destination plasmid digest: <ul>2 µl</ul></p><p>
+
-
10X T4 DNA ligase buffer: <ul>2 µl</ul></p><p>
+
-
T4 DNA ligase: <ul>1 µl</ul></p><p>
+
-
H2O: <ul>11 µl</ul></p><br>
+
-
Incubated at room temperature for 10 minutes</p><p>
+
<p>Biobricking attempt 2</p>
-
Heat inactivated at 80 °C for 20 minutes</p><p>
+
<p>To make Pbad Strong-RBS (BBa_K764019)</p>
-
Stored at -20°C prior to afternoon transformation</p><br><p>
+
<p>From <a href="https://2012.igem.org/Team:Exeter/lab_book/proto/4" style="color:#57b947"><u>3A BioBrick assembly protocol</u></a></p><br>
-
Standard assembly run in parallel to 3A</p><p>
+
<p><u>Upstream</u></p><p>
-
<u> Upstream:</u></p><p>
+
<p>Pbad Strong (BBa_K206000) - 3.8 µl</p>
-
DNA (500ng):<ul>Pbad Strong: 15.3 µl</ul></p><p><ul>PlacI :6.7 µl</ul>
+
<p>MilliQ water - 38.7 µl</p><br>
-
EcoRI-HF:<ul>1 µl (master mix vol. 3 µl) </ul></p><p>
+
-
SpeI:<ul>1 µl (master mix vol. 3 µl) </ul></p><p>
+
-
10X NEBuffer 2:<ul>5 µl (master mix vol. 15 µl) </ul></p><p>
+
-
100X BSA:<ul>0.5 µl (master mix vol. 1.5 µl) </ul></p><p>
+
-
H2O (to 40 µl):<ul>Pbad Strong: 17.2 µl</ul></p><p><ul>PlacI : 25.8 µl</ul></p><br><p>
+
-
<u> Downstream:</u></p><p>
+
<p><u>Downstream</u></p>
-
DNA (500ng)<ul>RBS 2 (77.4 ng/µl): 25.8 µl</ul></p><p><ul>RBS 4 (63.0 ng/µl): 31.7 µl</ul></p><p> -
+
<p> RBS BBa_B0034 - 6.5 µl</p>
-
EcoRI-HF: <ul>1 µl (master mix vol. 3 µl) </ul></p><p>
+
<p>MilliQ water - 6.7 µl</p><br>
-
XbaI: <ul>1 µl (master mix vol. 3 µl) </ul></p><p>
+
-
10X NEBuffer 2: <ul>5 µl (master mix vol. 15 µl) </ul></p><p>
+
-
100X BSA: <ul>0.5 µl (master mix vol. 1.5 µl) </ul></p><p>
+
-
H2O : <ul>RBS 2: 6.7 µl</ul></p><p><ul>RBS 4: 0.8</ul></p><br><p>
+
-
Digested for 1 hour at 36 °C</p><p>
+
<p><u>Destination plasmid pSB1T3 - tetracycline resistance (n.b. this construct was later transferred to a chloramphenicol resistant vector to be sent to the registry)</u></p>
-
DNA cleanup from enzymatic reactions using microcentrifuge and Quiagen column (n.b. this was intended for gel electrophoresis of upstream fragments to be run in parallel, but the gel was unsuccessful. It later turned out we had the wrong sequences and had not realised the sequences were too short to show on a gel for gel purification.)</p><p>
+
<p>Linear plasmid DNA - 20 µl</p>
-
For RBS 2 and RBS 4 plasmids (post-digestion)</p><p>
+
<p>MilliQ water - 22.5 µl</p><br>
-
<ul><b><i>1.</i></b>40 µl digest  +  120 µl QG buffer  +  40 µl isopropanol mixed and transferred to column (n.b. RBS 2 may not have been adequately mixed before being transferred to column)</p><p>
+
-
<b><i>2.</i></b>Centrifuged for 1 minute, 13000 rpm, room temp.</p><p>
+
-
<b><i>3.</i></b>Flow through discarded</p><p>
+
-
<b><i>4.</i></b>500 µl buffer QG added to column</p><p>
+
-
<b><i>5.</i></b>Centrifuged for 1 minute, 13000 rpm, room temp.</p><p>
+
-
<b><i>6.</i></b>Flow through discarded</p><p>
+
-
<b><i>7.</i></b>750 µl buffer PE added to column</p><p>
+
-
<b><i>8.</i></b>Centrifuged for 1 minute, 13000 rpm, room temp.</p><p>
+
-
<b><i>9.</i></b>Flow through discarded</p><p>
+
-
<b><i>10.</i></b>Centrifuged for 1 minute, 13000 rpm, room temp.</p><p>
+
-
<b><i>11.</i></b>Moved column to fresh 1.5 ml eppendorf</p><p>
+
-
<b><i>12.</i></b>30 µl water added</p><p>
+
-
<b><i>13.</i></b>Left to stand for 1 minute</p><p>
+
-
<b><i>14.</i></b>Centrifuged 13000 rpm, 1 minute, room temp.</p><p>
+
-
<b><i>15.</i></b>DNA stored at -20 °C after analysis with a nanodrop spectrophotometer</ul></p><p><br>
+
-
Transformation of 3A assembled Pbad strong-RBS and PlacI-RBS</p><p>
+
<p>Incubated 36 °C for 10 minutes</p>
-
<ul><b><i>1.</i></b>2 µl DNA added to 50 µl top10 competent cells</p><p>
+
<p>Heat inactivated at 80 °C for 20 minutes</p><br>
-
<b><i>2.</i></b>Incubated on ice 30 minutes</p><p>
+
-
<b><i>3.</i></b>Heat shocked 42 °C, 30 seconds</p><p>
+
-
<b><i>4.</i></b>Ice 2 minutes</p><p>
+
-
<b><i>5.</i></b>Aseptically added 250 µl S.O.C. medium</p><p>
+
-
<b><i>6.</i></b>Shaken 220 rpm, 37 °C, 1 hour</p><p>
+
-
<b><i>7.</i></b>Spread plates of 20 µl and 100 µl made on LB(tetracycline) plates</p><p>
+
-
<b><i>8.</i></b>Plates incubated at 37 °C overnight</ul></p><br>
+
-
<b>**Thursday 26.7.12**</b></p><br><p>
+
<p>Ligation <a href="https://2012.igem.org/Team:Exeter/lab_book/proto/4" style="color:#57b947"><u>as in protocol</u></a></p><br>
-
Suspended sequencing primers (according to manufacturer’s instructed volumes) and prepared 50 µl aliquots for later</p><p>
+
-
Resuspended BBa_I0500 (large pbad promoter - selected as alternative to pbad strong due to sequence match with Gibson primers) in 10 µl water</p><p>
+
-
Left to stand for 5 minutes</p><p>
+
-
Transferred to eppendorf</p><p>
+
-
Centrifuged for 5 secs</p><p>
+
-
<ul><b><i>1.</i></b>2 µl DNA added to 50 µl top10 competent cells (remaining DNA stored at -20 °C)</p><p>
+
-
<b><i>2.</i></b>Incubated on ice 30 minutes</p><p>
+
-
<b><i>3.</i></b>Heat shocked 42 °C, 30 seconds</p><p>
+
-
<b><i>4.</i></b>Ice 2 minutes</p><p>
+
-
<b><i>5.</i></b>Aseptically added 250 µl S.O.C. medium</p><p>
+
-
<b><i>6.</i></b>Shaken 220 rpm, 37 °C, 1 hour</p><p>
+
-
<b><i>7.</i></b>Spread plates of 20 µl and 100 µl made on LB(kanamycin) plates</p><p>
+
-
<b><i>8.</i></b>Plates incubated at room temperature over weekend</ul></p><p><br>
+
-
Transferred colonies from plates prepared 25.7.12 into 5 ml LB(tetracycline) broth (1:1000)</p><p>
+
-
Incubated overnight at 220 rpm, 37 °C</p><br>
+
-
<b>**Friday 27.7.12**</b></p><br>
+
<p>Stored at -20°C prior to afternoon transformation</p><br>
-
<b>9 am</b></p><p>
+
 
-
Miniprep of 3A assembled plasmid (from 25.7.12)</p><p>
+
<p>Standard assembly run in parallel to 3A</p><br>
-
<ul><b><i>1.</i></b>Transferred broth to fresh falcon tubes to remove pipette tips (tips and original tubes stored in fridge until same day streak-plates made)</p><p>
+
 
-
<b><i>2.</i></b>Centrifuged 5 minutes, 3901 rcf, 4 °C</p><p>
+
<p><u> Upstream:</u></p>
-
<b><i>3.</i></b>Supernatant discarded</p><p>
+
<p>pBAD Strong plasmid DNA: 15.3 µl</p>
-
<b><i>4.</i></b>250 µl resuspension solution added</p><p>
+
<p>EcoRI-HF: 1 µl</p>
-
<b><i>5.</i></b>Pipetted to mix and transferred to clean 1.5 ml eppendorf</p><p>
+
<p>SpeI: 1 µl</p>
-
<b><i>6.</i></b>250 µl lysis solution added</p><p>
+
<p>10X NEBuffer 2: 5 µl</p>
-
<b><i>7.</i></b>Inverted ~6 X</p><p>
+
<p>100X BSA: 0.5 µl</p>
-
<b><i>8.</i></b>350 µl neutralisation solution added</p><p>
+
<p>MilliQ water: 17.2 µl</p><br>
-
<b><i>9.</i></b>Inverted ~6 X</p><p>
+
 
-
<b><i>10.</i></b>Centrifuged 5 mins, 13000 rpm, room temperature</p><p>
+
<p><u> Downstream:</u></p>
-
<b><i>11.</i></b>Transferred supernatant to spin column</p><p>
+
<p> RBS (BBa_B0034) plasmid DNA (500ng): 25.8 µl</ul></p>
-
<b><i>12.</i></b>Centrifuged for 1 minute, 13000 rpm, room temperature</p><p>
+
<p>EcoRI-HF: 1 µl</p>
-
<b><i>13.</i></b>Discarded flow-through</p><p>
+
<p>XbaI: 1 µl</p>
-
<b><i>14.</i></b>500 µl wash solution added</p><p>
+
<p>10X NEBuffer 2: 5 µl</p>
-
<b><i>15.</i></b>Centrifuged 1 minute, 13000 rpm, room temperature</p><p>
+
<p>100X BSA: 0.5 µl</p>
-
<b><i>16.</i></b>Discarded flow-through</p><p>
+
<p>MilliQ water: 6.7 µl</p><br>
-
<b><i>17.</i></b>500 µl wash solution added</p><p>
+
 
-
<b><i>18.</i></b>Centrifuged 1 minute, 13000 rpm, room temperature</p><p>
+
<p>Digested for 1 hour at 36 °C</p><br>
-
<b><i>19.</i></b>Discarded flow-through</p><p>
+
<p><b>DNA cleanup from enzymatic reactions using microcentrifuge and Quiagen column.</b><p>
-
<b><i>20.</i></b>Centrifuged 1 minute, 13000 rpm, room temperature</p><p>
+
<p>(In the meantime, Freddie ran the upstream fragments on an 8% low-melting agarose gel, but lack of bands meant standard assembly could not be completed. We later discovered the sequences we had were wrong, and in reality the sequences were too short to appear on a gel.)</p>
-
<b><i>21.</i></b>Transferred column to clean 1.5 ml eppendorf</p><p>
+
 
-
<b><i>22.</i></b>50 µl water added</p><p>
+
<p>For RBS plasmid (post-digestion)</p>
-
<b><i>23.</i></b>Centrifuged 1 minute, 13000 rpm, room temperature</p><p>
+
<p><ul><b><i>1.</i></b>40 µl digest  +  120 µl QG buffer  +  40 µl isopropanol mixed and transferred to column (n.b. RBS 2 may not have been adequately mixed before being transferred to column)</p>
-
<b><i>24.</i></b>5 µl water added</p><p>
+
<p><b><i>2.</i></b>Centrifuged for 1 minute, 13000 rpm, room temp.</p>
-
<b><i>25.</i></b>Centrifuged 1 minute, 13000 rpm, room temperature</p><p>
+
<p><b><i>3.</i></b>Flow through discarded</p>
-
<b><i>26.</i></b>Column discarded, DNA concentration measured and DNA stored in eppendorf at -20 °C</ul></p><p>
+
<p><b><i>4.</i></b>500 µl buffer QG added to column</p>
-
(n.b. digest gel was run for analysis, but for this part of the project is considered irrelevant due to inconclusive results from small fragment size and because BBa-I0500 was decided to be more useful for this part of the project)</p><p><br>
+
<p><b><i>5.</i></b>Centrifuged for 1 minute, 13000 rpm, room temp.</p>
-
Streak plates made from dregs of overnight culture (see above)</p><p>
+
<p><b><i>6.</i></b>Flow through discarded</p>
 +
<p><b><i>7.</i></b>750 µl buffer PE added to column</p>
 +
<p><b><i>8.</i></b>Centrifuged for 1 minute, 13000 rpm, room temp.</p>
 +
<p><b><i>9.</i></b>Flow through discarded</p>
 +
<p><b><i>10.</i></b>Centrifuged for 1 minute, 13000 rpm, room temp.</p>
 +
<p><b><i>11.</i></b>Moved column to fresh 1.5 ml eppendorf</p>
 +
<p><b><i>12.</i></b>30 µl water added</p>
 +
<p><b><i>13.</i></b>Left to stand for 1 minute</p>
 +
<p><b><i>14.</i></b>Centrifuged 13000 rpm, 1 minute, room temp.</p>
 +
<p><b><i>15.</i></b>DNA stored at -20 °C after analysis with a nanodrop spectrophotometer</ul></p><br>
 +
 
 +
<p>3A assembled pBAD strong-RBS construct was <a href="https://2012.igem.org/Team:Exeter/lab_book/proto/1" style="color:#57b947"><u>transformed</u></a></p>
 +
<p> 2 µl DNA added to competent cells</p>
 +
<p>Spread plates of 20 µl and 100 µl made on LB(tetracycline) agar</p><br>
 +
 
 +
<p><b>**Thursday 26.7.12**</b></p><br>
 +
 
 +
<p>Suspended VF2 and VR sequencing primers (according to manufacturer’s instructed volumes) and prepared 50 µl aliquots for later</p>
 +
<p><a href="https://2012.igem.org/Team:Exeter/lab_book/proto/6" style="color:#57b947"><u>Resuspended</u></a> BBa_I0500 (large pBAD promoter - selected as alternative to pBAD strong due to sequence match with Gibson primers)</p>
 +
<p>2 µl of BioBrick DNA transformed according to <a href="https://2012.igem.org/Team:Exeter/lab_book/proto/1" style="color:#57b947"><u> protocol</u></a></p>
 +
<p>Spread plates of 20 µl and 100 µl made on LB(kanamycin) plates</p>
 +
<p>Plates incubated at room temperature over weekend</p><br>
 +
 
 +
<p><a href="https://2012.igem.org/Team:Exeter/lab_book/proto/2" style="color:#57b947"><u>Transferred colonies </u></a>from plates prepared 25.7.12 into LB(tetracycline) broth (1:1000)</p><br>
 +
 
 +
<p><b>**Friday 27.7.12**</b></p><br>
 +
<p><b>9 am</b></p>
 +
Centrifuged broth tubes for 5 minutes, 3901 rcf, 4 °C</p><p>
 +
Supernatant discarded</p><p>
 +
<p>Miniprep according to<a href="http://www.fermentas.com/templates/files/tiny_mce/coa_pdf/coa_k0502.pdf" style="color:#57B947" target="_blank"><u>Miniprep</u></a> of 3A assembled plasmid (from 25.7.12)</p>
 +
<p><b><i>Step 10</i></b> 50µl milli-Q water added in place of elution buffer</p>
 +
<p>Centrifuged 1 minute, 13000 rpm, room temperature</p><p>
 +
5 µl water added</p><p>
 +
Centrifuged 1 minute, 13000 rpm, room temperature</p><p>
 +
Column discarded, DNA concentration measured with nanodrop and DNA stored in eppendorf at -20 °C</ul></p>
 +
<p>(n.b. digest gel was run for analysis, but is considered irrelevant due to inconclusive results from small fragment size and because BBa-I0500 was decided to be more useful for this part of the project)</p><br>
 +
<p>Streak plates made from dregs of overnight culture (see above)</p>
      
      
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 +
  <font color="#57B947" size="1" face="Verdana">
 +
    <p><u>Website Designed and Built by: Ryan Edginton, James Lynch & Alex Clowsley</u> &nbsp;&nbsp;|&nbsp;&nbsp;
 +
    <a href="https://igem.org/Team.cgi?id=764" style="color:#57B947" target="_blank"><u>Contact Us</u></a>  &nbsp;&nbsp;|&nbsp;&nbsp;
 +
    <a href="https://2012.igem.org/Team:Exeter/site_map" style="color:#57B947"><u>Site Map</u></a></p>
 +
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Latest revision as of 00:09, 27 September 2012

ExiGEM2012 Lab Book Gibs wk3

Operon Construction: 23rd - 27th July 2012

 **Tuesday 24.7.12**

9am


Carried out 3A BioBrick assembly of pBAD weak-RBS (BBa_K764018) and pBAD strong-RBS (BBa_K764019)

N.B. All volumes and concentrations from protocol halved. Used volumes of water and DNA shown below.


Upstream

Plasmid DNA:

    (1) Pbad Weak - 2.37 µl

    (2) Pbad Strong - 3.83 µl


MilliQ water:

    (1) Pbad Weak =18.88 µl

    (2) Pbad Strong =17.42 µl


Downstream

    RBS (BBa_B0034) - 6.46 µl

MilliQ water - 14.79 µl


Destination plasmid

Linear plasmid DNA - 20 µl

MilliQ water - 1.25µl

Incubated 36 °C for 10 minutes

Heat inactivated at 80 °C for 20 minutes


Ligation as from protocol, with full volumes and concentrations.

DNA stored at -20°C prior to afternoon transformation


2.45pm

Resuspended DNA of synthesised genes according to IDT resuspension protocol (Alex B. and Becca then transformed it.)


Using 3A assembled DNA (BBa_K764019) competent cells were transformed.

2 µl of DNA from Pbad S-RBS added to 25 µl top10 competent cells

Spread plates of 20 and 100 µl made


**Wednesday 25.7.12**

9.45 am


Biobricking attempt 2

To make Pbad Strong-RBS (BBa_K764019)

From 3A BioBrick assembly protocol


Upstream

Pbad Strong (BBa_K206000) - 3.8 µl

MilliQ water - 38.7 µl


Downstream

RBS BBa_B0034 - 6.5 µl

MilliQ water - 6.7 µl


Destination plasmid pSB1T3 - tetracycline resistance (n.b. this construct was later transferred to a chloramphenicol resistant vector to be sent to the registry)

Linear plasmid DNA - 20 µl

MilliQ water - 22.5 µl


Incubated 36 °C for 10 minutes

Heat inactivated at 80 °C for 20 minutes


Ligation as in protocol


Stored at -20°C prior to afternoon transformation


Standard assembly run in parallel to 3A


Upstream:

pBAD Strong plasmid DNA: 15.3 µl

EcoRI-HF: 1 µl

SpeI: 1 µl

10X NEBuffer 2: 5 µl

100X BSA: 0.5 µl

MilliQ water: 17.2 µl


Downstream:

RBS (BBa_B0034) plasmid DNA (500ng): 25.8 µl

EcoRI-HF: 1 µl

XbaI: 1 µl

10X NEBuffer 2: 5 µl

100X BSA: 0.5 µl

MilliQ water: 6.7 µl


Digested for 1 hour at 36 °C


DNA cleanup from enzymatic reactions using microcentrifuge and Quiagen column.

(In the meantime, Freddie ran the upstream fragments on an 8% low-melting agarose gel, but lack of bands meant standard assembly could not be completed. We later discovered the sequences we had were wrong, and in reality the sequences were too short to appear on a gel.)

For RBS plasmid (post-digestion)

    1.40 µl digest + 120 µl QG buffer + 40 µl isopropanol mixed and transferred to column (n.b. RBS 2 may not have been adequately mixed before being transferred to column)

    2.Centrifuged for 1 minute, 13000 rpm, room temp.

    3.Flow through discarded

    4.500 µl buffer QG added to column

    5.Centrifuged for 1 minute, 13000 rpm, room temp.

    6.Flow through discarded

    7.750 µl buffer PE added to column

    8.Centrifuged for 1 minute, 13000 rpm, room temp.

    9.Flow through discarded

    10.Centrifuged for 1 minute, 13000 rpm, room temp.

    11.Moved column to fresh 1.5 ml eppendorf

    12.30 µl water added

    13.Left to stand for 1 minute

    14.Centrifuged 13000 rpm, 1 minute, room temp.

    15.DNA stored at -20 °C after analysis with a nanodrop spectrophotometer


3A assembled pBAD strong-RBS construct was transformed

2 µl DNA added to competent cells

Spread plates of 20 µl and 100 µl made on LB(tetracycline) agar


**Thursday 26.7.12**


Suspended VF2 and VR sequencing primers (according to manufacturer’s instructed volumes) and prepared 50 µl aliquots for later

Resuspended BBa_I0500 (large pBAD promoter - selected as alternative to pBAD strong due to sequence match with Gibson primers)

2 µl of BioBrick DNA transformed according to protocol

Spread plates of 20 µl and 100 µl made on LB(kanamycin) plates

Plates incubated at room temperature over weekend


Transferred colonies from plates prepared 25.7.12 into LB(tetracycline) broth (1:1000)


**Friday 27.7.12**


9 am

Centrifuged broth tubes for 5 minutes, 3901 rcf, 4 °C

Supernatant discarded

Miniprep according toMiniprep of 3A assembled plasmid (from 25.7.12)

Step 10 50µl milli-Q water added in place of elution buffer

Centrifuged 1 minute, 13000 rpm, room temperature

5 µl water added

Centrifuged 1 minute, 13000 rpm, room temperature

Column discarded, DNA concentration measured with nanodrop and DNA stored in eppendorf at -20 °C

(n.b. digest gel was run for analysis, but is considered irrelevant due to inconclusive results from small fragment size and because BBa-I0500 was decided to be more useful for this part of the project)


Streak plates made from dregs of overnight culture (see above)

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