Team:CSU Fort Collins/Notebook/Protocols=Gibson

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<title>CSU iGEM 2014</title>
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<title>Gibson Assembly Protocol</title>
<head>
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       <ul>
       <ul>
         <li><a href='/Team:CSU_Fort_Collins/Members/'><span>Members</span></a></li>
         <li><a href='/Team:CSU_Fort_Collins/Members/'><span>Members</span></a></li>
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         <li class='last'><a href='/Team:CSU_Fort_Collins/Sponsors/'><span>Sponsors</span></a></li>
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        <li><a href='/Team:CSU_Fort_Collins/Sponsors/'><span>Sponsors</span></a></li>
 +
         <li class='last'><a href='/Team:CSU_Fort_Collins/Acknowledgements/'><span>Acknowledgements</span></a></li>
       </ul>
       </ul>
   </li>
   </li>
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       <li class='has-sub'><a href='/Team:CSU_Fort_Collins/Notebook/DailyNotes'><span>Daily Notes</span></a>
       <li class='has-sub'><a href='/Team:CSU_Fort_Collins/Notebook/DailyNotes'><span>Daily Notes</span></a>
         <ul>
         <ul>
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         <li class='has-sub'><a href='/Team:CSU_Fort_Collins/Notebook/Biosensor/'><span>Biosensor</span></a>
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         <li class='has-sub'><a href='/Team:CSU_Fort_Collins/Notebook/Biosensor/Jun'><span>Biosensor</span></a>
             <ul>
             <ul>
-
               <li><a href="#"><span>June</span></a></li>
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               <li><a href="/Team:CSU_Fort_Collins/Notebook/Biosensor/Jun"><span>June</span></a></li>
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               <li><a href="#"><span>July</span></a></li>
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               <li><a href="/Team:CSU_Fort_Collins/Notebook/Biosensor/Jul"><span>July</span></a></li>
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              <li><a href='#'><span>August</span></a></li>
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               <li class='last'><a href='/Team:CSU_Fort_Collins/Notebook/Biosensor/Aug'><span>August</span></a></li>
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               <li class='last'><a href="#"><span>September</span></a></li>
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             </ul>
             </ul>
         </li>
         </li>
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         <li class='has-sub'><a href='/Team:CSU_Fort_Collins/Notebook/Breakdown/'><span>Breakdown</span></a>
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         <li class='has-sub'><a href='/Team:CSU_Fort_Collins/Notebook/Breakdown/Jul'><span>Breakdown</span></a>
             <ul>
             <ul>
-
               <li><a href="#"><span>July</span></a></li>
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               <li><a href="/Team:CSU_Fort_Collins/Notebook/Breakdown/Jul"><span>July</span></a></li>
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               <li><a href='#'><span>August</span></a></li>
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               <li><a href='/Team:CSU_Fort_Collins/Notebook/Breakdown/Aug'><span>August</span></a></li>
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               <li class='last'><a href="#"><span>September</span></a></li>
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               <li class='last'><a href="/Team:CSU_Fort_Collins/Notebook/Breakdown/Sep"><span>September</span></a></li>
             </ul>
             </ul>
         </li>
         </li>
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         <li class='has-sub'><a href='/Team:CSU_Fort_Collins/Notebook/HVP/'><span>High-Value Product</span></a>
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         <li class='has-sub'><a href='/Team:CSU_Fort_Collins/Notebook/HVP/Jun'><span>High-Value Product</span></a>
             <ul>
             <ul>
-
               <li><a href="#"><span>June</span></a></li>
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               <li><a href="/Team:CSU_Fort_Collins/Notebook/HVP/Jun"><span>June</span></a></li>
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              <li><a href="#"><span>July</span></a></li>
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               <li class='last'><a href="/Team:CSU_Fort_Collins/Notebook/HVP/Jul"><span>July</span></a></li>
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              <li><a href='#'><span>August</span></a></li>
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-
               <li class='last'><a href="#"><span>September</span></a></li>
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             </ul>
             </ul>
         </li>
         </li>
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         <li li class='has-sub'><a href='/Team:CSU_Fort_Collins/Notebook/KillSwitch/'><span>Kill Switch</span></a>
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         <li li class='has-sub'><a href='/Team:CSU_Fort_Collins/Notebook/KillSwitch/Jul'><span>Kill Switch</span></a>
             <ul>
             <ul>
-
               <li><a href="#"><span>July</span></a></li>
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               <li><a href="/Team:CSU_Fort_Collins/Notebook/KillSwitch/Jul"><span>July</span></a></li>
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              <li><a href='#'><span>August</span></a></li>
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               <li class='last'><a href="/Team:CSU_Fort_Collins/Notebook/KillSwitch/Sep"><span>September</span></a></li>
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               <li class='last'><a href="#"><span>September</span></a></li>
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             </ul>
             </ul>
         </li>
         </li>
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   </ul>
   </ul>
   </li>
   </li>
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   <li class='has-sub'><a href='/Team:CSU_Fort_Collins/HumPrac/'><span>Human Practices</span></a>
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   <li class='has-sub'><a href='/Team:CSU_Fort_Collins/Collab/'><span>Human Practices</span></a>
       <ul>
       <ul>
         <li><a href='/Team:CSU_Fort_Collins/Collab/'><span>Collaboration</span></a></li>
         <li><a href='/Team:CSU_Fort_Collins/Collab/'><span>Collaboration</span></a></li>
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       </ul>
       </ul>
   </li>
   </li>
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   <li class='has-sub'><a href='/Team:CSU_Fort_Collins/Achievements/'><span>Achievements</span></a>
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   <li class='has-sub'><a href='/Team:CSU_Fort_Collins/Parts/'><span>Achievements</span></a>
       <ul>
       <ul>
         <li><a href='/Team:CSU_Fort_Collins/Parts/'><span>Parts</span></a></li>
         <li><a href='/Team:CSU_Fort_Collins/Parts/'><span>Parts</span></a></li>
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       </ul>
       </ul>
   </li>
   </li>
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   <li><a href='/Team:CSU_Fort_Collins/Safety/'><span>Safety</span></a></li>
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   <li class='last'><a href='/Team:CSU_Fort_Collins/Safety/'><span>Safety</span></a></li>
</ul>
</ul>
</div>
</div>
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         <li>PCR using mini prepped plasmid DNA</li>
         <li>PCR using mini prepped plasmid DNA</li>
         <li>Add all components as described in Table 1-1</li>
         <li>Add all components as described in Table 1-1</li>
-
         TABLE 1-1 HERE
+
         <br>
 +
        <table id='mix' border='1'>
 +
          <tr>
 +
            <td colspan='3'><b>Table 1-1: PCR Mixture</b></td>
 +
          </tr>
 +
          <tr>
 +
            <td><b>Component</b></td>
 +
            <td><b>Volume (&#956;L)</b></td>
 +
          </tr>
 +
          <tr>
 +
            <td id='left'>5X Phusion Buffer</td>
 +
            <td>10</td>
 +
          </tr>
 +
          <tr>
 +
            <td id='left'>10mM dNTPs</td>
 +
            <td>1</td>
 +
          </tr>
 +
          <tr>
 +
            <td id='left'>Primer A</td>
 +
            <td>2.5</td>
 +
          </tr>
 +
          <tr>
 +
            <td id='left'>Primer B</td>
 +
            <td>2.5</td>
 +
          </tr>
 +
          <tr>
 +
            <td id='left'>Template DNA</td>
 +
            <td>01</td>
 +
          </tr>
 +
          <tr>
 +
            <td id='left'>Phusion DNA Polymerase</td>
 +
            <td>0.5</td>
 +
          </tr>
 +
          <tr>
 +
            <td id='left'>Nuclease-Free Water</td>
 +
            <td>Fill to 50 &#956;L</td>
 +
          </tr>
 +
          <tr>
 +
            <td id='left'><b>Total</b></td>
 +
            <td><b>50</b></td>
 +
          </tr>
 +
        </table><br>         
         <li>Pipette up and down to mix</li>
         <li>Pipette up and down to mix</li>
         <li>Run PCR Thermalcycler Program as described in Table 1-2</li>
         <li>Run PCR Thermalcycler Program as described in Table 1-2</li>
-
         TABLE 1-2 HERE
+
 
 +
         <table id='mix' border='1'>
 +
          <tr>
 +
            <td colspan='4'><b>Table 1-2: PCR Thermalcycler Program</b></td>
 +
          </tr>
 +
          <tr>
 +
            <td><b>Step</b></td>
 +
            <td><b>Temperature (C)</b></td>
 +
            <td><b>Time</b></td>
 +
            <td><b>Cycles</b></td>
 +
          </tr>
 +
          <tr>
 +
            <td id='left'>Initial denaturation</td>
 +
            <td>98</td>
 +
            <td>30 s</td>
 +
            <td>1</td>
 +
          </tr>
 +
          <tr>
 +
            <td id='left'>Denaturation</td>
 +
            <td>98</td>
 +
            <td>10 s</td>
 +
            <td>5</td>
 +
          </tr>
 +
          <tr>
 +
            <td id='left'>Annealing</td>
 +
            <td>Lower 2nd half Tm + 3</td>
 +
            <td>15 s</td>
 +
            <td>5</td>
 +
          </tr>
 +
          <tr>
 +
            <td id='left'>Extension</td>
 +
            <td>72</td>
 +
            <td>30 s/1 kb</td>
 +
            <td>5</td>
 +
          </tr>
 +
          <tr>
 +
            <td id='left'>Denaturation</td>
 +
            <td>98</td>
 +
            <td>10 s</td>
 +
            <td>25</td>
 +
          </tr>
 +
          <tr>
 +
            <td id='left'>Anneal + Extension</td>
 +
            <td>72</td>
 +
            <td>30 s/1 kb</td>
 +
            <td>25</td>
 +
          </tr>
 +
          <tr>
 +
            <td id='left'>Final Extension</td>
 +
            <td>72</td>
 +
            <td>10 min</td>
 +
            <td>1</td>
 +
          </tr>
 +
          <tr>
 +
            <td id='left'>Final Hold</td>
 +
            <td>4</td>
 +
            <td>hold</td>
 +
            <td>2-</td>
 +
          </tr>
 +
        </table><br> 
 +
 
         <li>Save 5 &#956;L PCR product for gel electrophoresis</li>
         <li>Save 5 &#956;L PCR product for gel electrophoresis</li>
-
         <li>Digest with DpnI to remove methylated DNA as described in Table 1-3</li>
+
         <li>Digest with DpnI to remove methylated DNA as described in Manual</li>
-
        TABLE 1-3 HERE
+
       </ul>
       </ul>
       <li>For genes not in plasmids:</li>
       <li>For genes not in plasmids:</li>
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     <h4>Prepare Gibson Reaction</h4>
     <h4>Prepare Gibson Reaction</h4>
     <ol>
     <ol>
-
       <li>Use Equation 1 to calculate the fragment concentration</li>
+
       <li>Use Equation in manual to calculate the fragment concentration</li>
         <ul>
         <ul>
           <li>For 2 - 3 fragments, the total DNA should be 0.05 - 0.2 pmols</li>
           <li>For 2 - 3 fragments, the total DNA should be 0.05 - 0.2 pmols</li>
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         </ul>
         </ul>
-
      Equation 1: EQUATION 1 HERE
 
-
       <li>Make Gibson reaction mixture according to Table 1-4</li>
+
       <li>Make Gibson reaction mixture according to manual</li>
-
      TABLE 1-4 HERE
+
         <ul>
         <ul>
           <li>Pipette up and down to mix</li>
           <li>Pipette up and down to mix</li>
         </ul>
         </ul>
-
       <li>Run thermalcycler program as described in Table 1-5</li>
+
       <li>Run thermalcycler program as described in manual</li>
-
      TABLE 1-5 HERE
+
     </ol>
     </ol>
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     <ol>
     <ol>
       <li>30 minutes before the end of the Gibson reaction, thaw competent cells on ice and set water bath to 42 DEGC</li>
       <li>30 minutes before the end of the Gibson reaction, thaw competent cells on ice and set water bath to 42 DEGC</li>
-
       <li>Add 2.5 MICROL Gibson product to cells</li>
+
       <li>Add 2.5 uL Gibson product to cells</li>
-
       <li>Heat shock cells for 30 seconds at 42 DEGC without shaking</li>
+
       <li>Heat shock cells for 30 seconds at 42 C without shaking</li>
       <li>Place on ice for 2 minutes</li>
       <li>Place on ice for 2 minutes</li>
-
       <li>Aseptically (in hood) add 250 MICROL appropriate media to the tube and cap tightly</li>
+
       <li>Aseptically (in hood) add 250 uL appropriate media to the tube and cap tightly</li>
-
       <li>Place tubes horizontally in incubator; incubate at 37 DEGC and 225 rpm for 1 hour</li>
+
       <li>Place tubes horizontally in incubator; incubate at 37 C and 225 rpm for 1 hour</li>
-
       <li>In the hood, spread 100 MICROL on plate</li>
+
       <li>In the hood, spread 100 uL on plate</li>
-
       <li>Incubate overnight at 37 DEGC; store remaining culture at 4 DEGC</li>
+
       <li>Incubate overnight at 37 C; store remaining culture at 4 C</li>
     </ol>
     </ol>
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     <ol>
     <ol>
       <li>Choose primers that flank multiple fragments of the assembled DNA</li>
       <li>Choose primers that flank multiple fragments of the assembled DNA</li>
-
       <li>Set up PCR reaction (follow reaction mixture from above for 50 MICROL)</li>
+
       <li>Set up PCR reaction (follow reaction mixture from above for 50 uL)</li>
       <li>To add template DNA:</li>
       <li>To add template DNA:</li>
         <ul>
         <ul>
-
           <li>Using a sterile toothpick or pipette tip, touch colony, rotate 180 DEG, and touch colony again</li>
+
           <li>Using a sterile toothpick or pipette tip, touch colony, rotate 180 degrees, and touch colony again</li>
           <li>Streak on LB plate with appropriate antibiotics so that you can use colony for future steps</li>
           <li>Streak on LB plate with appropriate antibiotics so that you can use colony for future steps</li>
           <li>Swirl toothpick/pipette tip in the PCR tube to resuspend the cells</li>
           <li>Swirl toothpick/pipette tip in the PCR tube to resuspend the cells</li>
           <li>Pipette up and down to mix</li>
           <li>Pipette up and down to mix</li>
         </ul>
         </ul>
-
       <li>Run PCR thermalcycler program as described in Table 1-6</li>
+
       <li>Run PCR thermalcycler program as described in manual.</li>
-
      TABLE 1-6 HERE
+
       <li>Run gel electrophoresis to verify PCR product and confirm plasmid by sequencing if desired</li>
       <li>Run gel electrophoresis to verify PCR product and confirm plasmid by sequencing if desired</li>
       </ol>
       </ol>

Latest revision as of 01:48, 18 October 2014

Gibson Assembly Protocol

Gibson Assembly Protocol

Show Table of Contents

Design Primers

  1. Create the gene sequence using KEGG and ApE
  2. Design primers using IDT's Oligo Analyzer
  3. Considerations:
    • Primers should be at least 40 base pairs (bp) long and contain approximately 20 bp from each joining fragment
    • For each primer pair (that is, primers amplifying the same gene), the melting temperature (Tm) of the entire primer should be close as well as the 2nd half Tm
    • The highest hairpin Tm should be less than 50 °C
    • Avoid repeats of 4 or more
    • At the 3' end, you should end with a G or C, avoid a T or mismatches, and avoid runs of 3 or more G/Cs in the last 5 bps at the 3' end
    • G/C content should be 40-60%

PCR Gibson Fragments

  1. For genes in plasmids:
    • Start overnight cultures from glycerol stocks
    • Miniprep overnight cultures
    • PCR using mini prepped plasmid DNA
    • Add all components as described in Table 1-1

    • Table 1-1: PCR Mixture
      Component Volume (μL)
      5X Phusion Buffer 10
      10mM dNTPs 1
      Primer A 2.5
      Primer B 2.5
      Template DNA 01
      Phusion DNA Polymerase 0.5
      Nuclease-Free Water Fill to 50 μL
      Total 50

    • Pipette up and down to mix
    • Run PCR Thermalcycler Program as described in Table 1-2
    • Table 1-2: PCR Thermalcycler Program
      Step Temperature (C) Time Cycles
      Initial denaturation 98 30 s 1
      Denaturation 98 10 s 5
      Annealing Lower 2nd half Tm + 3 15 s 5
      Extension 72 30 s/1 kb 5
      Denaturation 98 10 s 25
      Anneal + Extension 72 30 s/1 kb 25
      Final Extension 72 10 min 1
      Final Hold 4 hold 2-

    • Save 5 μL PCR product for gel electrophoresis
    • Digest with DpnI to remove methylated DNA as described in Manual
  2. For genes not in plasmids:
    • Follow genomic DNA PCR thermal cycler protocol (see Tables 1-1 and 1-2)

Check and Clean Up PCR Products

  1. Check size of each PCR product by gel electrophoresis
  2. If any PCR reaction was unsuccessful, repeat the PCR of the Gibson Fragments
  3. Clean up PCR products of correct size with the PCR clean-up kit and determine DNA concentrations

Prepare Gibson Reaction

  1. Use Equation in manual to calculate the fragment concentration
    • For 2 - 3 fragments, the total DNA should be 0.05 - 0.2 pmols
    • For 4 - 6 fragments, the total DNA should be 0.2 - 1.0 pmols
  2. Make Gibson reaction mixture according to manual
    • Pipette up and down to mix
  3. Run thermalcycler program as described in manual

Transformation

Note: It is important to transform as soon as possible
  1. 30 minutes before the end of the Gibson reaction, thaw competent cells on ice and set water bath to 42 DEGC
  2. Add 2.5 uL Gibson product to cells
  3. Heat shock cells for 30 seconds at 42 C without shaking
  4. Place on ice for 2 minutes
  5. Aseptically (in hood) add 250 uL appropriate media to the tube and cap tightly
  6. Place tubes horizontally in incubator; incubate at 37 C and 225 rpm for 1 hour
  7. In the hood, spread 100 uL on plate
  8. Incubate overnight at 37 C; store remaining culture at 4 C

Confirm Correct Construction of Plasmid (Colony PCR)

  1. Choose primers that flank multiple fragments of the assembled DNA
  2. Set up PCR reaction (follow reaction mixture from above for 50 uL)
  3. To add template DNA:
    • Using a sterile toothpick or pipette tip, touch colony, rotate 180 degrees, and touch colony again
    • Streak on LB plate with appropriate antibiotics so that you can use colony for future steps
    • Swirl toothpick/pipette tip in the PCR tube to resuspend the cells
    • Pipette up and down to mix
  4. Run PCR thermalcycler program as described in manual.
  5. Run gel electrophoresis to verify PCR product and confirm plasmid by sequencing if desired



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