Team:Tsinghua/Parts

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      <li><a href="https://2014.igem.org/Team:Tsinghua/Main_page">MAIN PAGE</a></li>
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      <li><a href="https://2014.igem.org/Team:Tsinghua/Introduction">INTRODUCTION</a>
 +
<ul>
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          <li><a href="https://2014.igem.org/Team:Tsinghua/Introduction">Overview</a></li>     
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          <li><a href="https://2014.igem.org/Team:Tsinghua/Introduction/Diabetes">Diabetes Type I</a></li>
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          <li><a href="https://2014.igem.org/Team:Tsinghua/Introduction/Gene_therapy">Gene Therapy</a></li>
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      </ul>       
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      </li>
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      <li><a href="https://2014.igem.org/Team:Tsinghua/Project">PROJECT</a>
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<ul>
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<li><a href="https://2014.igem.org/Team:Tsinghua/Project">Overview</a></li>     
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<li><a href="https://2014.igem.org/Team:Tsinghua/Project/Virus">The Virus</a></li>     
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<li><a href="https://2014.igem.org/Team:Tsinghua/Project/Drug">The Drug</a></li>
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<li><a href="https://2014.igem.org/Team:Tsinghua/Project/Microbe">The Microbe</a></li>
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<li><a href="https://2014.igem.org/Team:Tsinghua/Project/Cocktail">The Cocktail</a></li>
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</ul>
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      </li>
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      <li><a href="https://2014.igem.org/Team:Tsinghua/Modeling">Modeling</a></li>
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      <li><a href="https://2014.igem.org/Team:Tsinghua/Parts">Parts</a></li>
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      <li><a href="https://2014.igem.org/Team:Tsinghua/Safety">SAFETY</a></li>
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      <li><a href="https://2014.igem.org/Team:Tsinghua/Notebook">NOTEBOOK</a>
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<ul>
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        <li><a href="https://2014.igem.org/Team:Tsinghua/Notebook">OVERVIEW</a></li>
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        <li><a href="https://2014.igem.org/Team:Tsinghua/Notebook/Protocol">PROTOCOL</a></li>
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        <li><a href="https://2014.igem.org/Team:Tsinghua/Notebook/Lablog">LABLOG</a></li>
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      <li><a href="https://2014.igem.org/Team:Tsinghua/Human_practice">HUMAN PRACTICE</a>
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<ul>
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  <li><a href="https://2014.igem.org/Team:Tsinghua/Human_practice">OVERVIEW</a></li>
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          <li><a href="https://2014.igem.org/Team:Tsinghua/Human_practice/Gallery">GALLERY</a></li>
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          <li><a href="https://2014.igem.org/Team:Tsinghua/Human_practice/Outreach">OUTREACH</a></li>
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          <li><a href="https://2014.igem.org/Team:Tsinghua/Human_practice/Video">VIDEO</a></li>         
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  <article class="content">
 +
    <h1>Notebook: Protocol</h1>
 +
    <section>
 +
<p style="text-align: right;">Return to: <a href="https://2014.igem.org/Team:Tsinghua/Notebook/Protocol">Notebook -> Protocol</a></p>
 +
    <h2>Molecular Cloning</h2>
 +
    <h3>&nbsp;</h3>
 +
    <h3>Polymerase Chain Reaction (PCR)</h3>
 +
      <p>1. The master mix for reactions with FastPfu DNA polymerase contained:</p>
 +
      <div align="center"><table style="margin-left:50px" border="1" cellspacing="0" cellpadding="0" width="0">
 +
        <tr>
 +
          <td width="0"><p align="left">Reagent</p></td>
 +
          <td width="0"><p align="left">Volume</p></td>
 +
          <td width="0"><p align="left">Final Concentration</p></td>
 +
        </tr>
 +
        <tr>
 +
          <td width="0"><p align="left">5x FastPfu Buffer</p></td>
 +
          <td width="0"><p align="left">10 ul</p></td>
 +
          <td width="0"><p align="left">1X</p></td>
 +
        </tr>
 +
        <tr>
 +
          <td width="0"><p align="left">10 mM</p></td>
 +
          <td width="0"><p align="left">1 ul</p></td>
 +
          <td width="0"><p align="left">0.2 mM</p></td>
 +
        </tr>
 +
        <tr>
 +
          <td width="0"><p align="left">Primer 1 (25 pmol/ul)</p></td>
 +
          <td width="0"><p align="left">1 ul</p></td>
 +
          <td width="0"><p align="left">0.5 pmol/ul</p></td>
 +
        </tr>
 +
        <tr>
 +
          <td width="0"><p align="left">Primer 2 (25 pmol/ul)</p></td>
 +
          <td width="0"><p align="left">1 ul</p></td>
 +
          <td width="0"><p align="left">0.5 pmol/ul</p></td>
 +
        </tr>
 +
        <tr>
 +
          <td width="0"><p align="left">FastPfu (5U/ul)</p></td>
 +
          <td width="0"><p align="left">0.4 ul</p></td>
 +
          <td width="0"><p align="left">2U/50ul</p></td>
 +
        </tr>
 +
        <tr>
 +
          <td width="0"><p align="left">Template DNA</p></td>
 +
          <td width="0"><p align="left">variable</p></td>
 +
          <td width="0"><p align="left">50 pg – 1 ug</p></td>
 +
        </tr>
 +
        <tr>
 +
          <td width="0"><p align="left">ddH2O</p></td>
 +
          <td width="0"><p align="left">To 50 ul</p></td>
 +
          <td width="0"></td>
 +
        </tr>
 +
      </table></div>
 +
<p>2. The master mix for reactions with Phusion DNA polymerase contained:</p>
 +
<div align="center"><table style="margin-left:50px" border="1" cellspacing="0" cellpadding="0" width="0">
 +
<tr>
 +
<td width="0"><p align="left">Reagent</p></td>
 +
<td width="0"><p align="left">Volume</p></td>
 +
<td width="0"><p align="left">Final Concentration</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">Phusion DNA Polymerase</p></td>
 +
<td width="0"><p align="left">0.5 ul</p></td>
 +
<td width="0"><p align="left">1.0 units/50 ul PCR</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">DMSO (optional)</p></td>
 +
<td width="0"><p align="left">(1.5 ul)</p></td>
 +
<td width="0"><p align="left">3%</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">Template DNA</p></td>
 +
<td width="0"><p align="left">variable</p></td>
 +
<td width="0"><p align="left">250 ng</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">10 uM Forward Primer</p></td>
 +
<td width="0"><p align="left">2.5 ul</p></td>
 +
<td width="0"><p align="left">0.5 uM</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">10 uM Reverse Primer</p></td>
 +
<td width="0"><p align="left">2.5 ul</p></td>
 +
<td width="0"><p align="left">0.5 uM</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">10 mM dNTPs</p></td>
 +
<td width="0"><p align="left">1 ul</p></td>
 +
<td width="0"><p align="left">200 uM</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">5X Phusion HF Buffer</p></td>
 +
<td width="0"><p align="left">10 ul</p></td>
 +
<td width="0"><p align="left">1X</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">ddH2O</p></td>
 +
<td width="0"><p align="left">To 50 ul</p></td>
 +
<td width="0"></td>
 +
</tr>
 +
</table></div>
 +
<p>3. The master mix for reactions with Taq DNA polymerase contained:</p>
 +
<div align="center"><table style="margin-left:50px" border="1" cellspacing="0" cellpadding="0" width="0">
 +
<tr>
 +
<td width="0"><p align="left">Reagent</p></td>
 +
<td width="0"><p align="left">Volume</p></td>
 +
<td width="0"><p align="left">Final Concentration</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">10X Standard Taq Buffer</p></td>
 +
<td width="0"><p align="left">5 ul</p></td>
 +
<td width="0"><p align="left">1X</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">10 mM dNTPs</p></td>
 +
<td width="0"><p align="left">1 ul</p></td>
 +
<td width="0"><p align="left">200 uM</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">10 uM Forward Primer</p></td>
 +
<td width="0"><p align="left">1 ul</p></td>
 +
<td width="0"><p align="left">0.2 uM</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">10 uM Reverse Primer</p></td>
 +
<td width="0"><p align="left">1 ul</p></td>
 +
<td width="0"><p align="left">0.2 uM</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">Template DNA</p></td>
 +
<td width="0"><p align="left">Variable</p></td>
 +
<td width="0"><p align="left">Variable</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">Taq DNA polymerase</p></td>
 +
<td width="0"><p align="left">0.25 ul</p></td>
 +
<td width="0"><p align="left">1.25 units/50 ul PCR</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">ddH2O</p></td>
 +
<td width="0"><p align="left">To 50 ul</p></td>
 +
<td width="0"></td>
 +
</tr>
 +
</table></div>
 +
<p>4. All temperature profiles were optimized according to manufacturer&rsquo;s  protocol, the melting temperature of primers, and the length of the desired PCR  products.<br>
 +
Basic temperature profiles:</p>
 +
<div align="center"><table style="margin-left:50px" border="1" cellspacing="0" cellpadding="0" width="0">
 +
<tr>
 +
<td width="0"><p align="left">Step</p></td>
 +
<td width="0"><p align="left">Temperature</p></td>
 +
<td width="0"><p align="left">Time</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">Initial Denaturation</p></td>
 +
<td width="0"><p align="left">95℃ </p></td>
 +
<td width="0"><p align="left">3 min</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0" rowspan="3"><p align="left">30 Cycles</p></td>
 +
<td width="0"><p align="left">95℃ </p></td>
 +
<td width="0"><p align="left">30 sec</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">55℃ </p></td>
 +
<td width="0"><p align="left">30 sec</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">72℃ </p></td>
 +
<td width="0"><p align="left">1 min</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">Final Extension</p></td>
 +
<td width="0"><p align="left">72℃ </p></td>
 +
<td width="0"><p align="left">5 min</p></td>
 +
</tr>
 +
<tr>
 +
<td width="0"><p align="left">Hold</p></td>
 +
<td width="0"><p align="left">4℃ </p></td>
 +
<td width="0"></td>
 +
</tr>
 +
</table></div>
 +
<p align="left">&nbsp;</p>
 +
<p align="left"><strong>Gel purification of  DNA</strong> <strong>Fragment</strong></p>
 +
<blockquote>
 +
<p align="left">Agarose Electrophoresis:<br>
 +
1. A mixture of various sized DNA fragments were separated in an agarose gel (from 0.8 to 1.5% agarose in 1x TAE buffer ethidium bromide) at a constant voltage of 150 V.<br>
 +
2. UV light (λ = 254 nm) was used to visualize DNA with intercalated ethidium bromide.<br>
 +
</p>
 +
<p align="left">Gel Purification of DNA fragment:<br>
 +
1. The band with the desired DNA fragments were excised from the gel, using a clean scalpel.<br>
 +
2. DNA was isolated from the gel slice with Gel Extraction Kit according to the manufacturer’s protocol.<br>
 +
3. Purity and amount of DNA was determined using NanoDrop.</p>
 +
</blockquote>
 +
<p align="left"><strong>Restriction Digestion</strong></p>
 +
<ol>
 +
<p align="left">1. To digest the desired DNA restriction reactions were prepared as follows:<br>
 +
For analysis of cloned DNA <br>
 +
2µl of the appropriate restriction buffer (10X) <br>
 +
0.5 µL restriction enzyme <br>
 +
Bring volume to 20 µL with nuclease-free water. <br>
 +
Or<br>
 +
For isolation of specific DNA <br>
 +
2µl of the appropriate restriction buffer (10X) <br>
 +
Up to 2 µL restriction enzyme <br>
 +
Bring volume to 50 µL with nuclease-free water. <br>
 +
2. The sample was incubated at optimal temperature for the restriction enzymes.<br>
 +
3. Analysis of fragmented DNA was done by gel electrophoresis.<br>
 +
4. Desired DNA fragment was excised and purified using suitable DNA purification kit.</p>
 +
<p align="left">
 +
<section></section>
 +
</p>
 +
</ol>
 +
<p align="left"><strong>Ligation</strong></p><ol>
 +
<p>T4 ligase ligates the 5' phosphate and the 3'-hydroxyl groups of DNA.<br>
 +
Vector and insert concentrations were estimated and insert and vector  fragments joined in a molar ratio of 3:1 (100-150ng Vector DNA).<br>
 +
A ligation mixture was prepared:<br>
 +
1X ligase buffer (10X)&nbsp;<br>
 +
1 µL T4 ligase (3 U/µL)&nbsp;<br>
 +
Bring volume to 10 µL with nuclease-free water.&nbsp;<br>
 +
Reactions were incubated at 17 °C for 4 to 18 hours.&nbsp;</p>
 +
<p>After  incubation part of the ligation mixture was used for the transformation of  bacterial cells (see: transformation of bacteria). </p>
 +
</ol>
 +
<p align="left"><strong>Culturing bacteria</strong></p>
 +
<blockquote>
 +
<p>For plasmid DNA propagation two bacterial strains were used: DH5alpha and  TransT1.</p>
 +
<p><br>
 +
Growth media for bacteria:<br>
 +
Luria Broth (LB) : 10 g/L tryptone, 5 g/L yeast extract, 10 g/L NaCl,  media is supplemented with suitable antibiotics depending on the selection  marker on the transfected plasmid: ampicilin 100 mg/L or kanamycin 50 mg/L.</p>
 +
<p><br>
 +
LB agar plates: LB with 1.5% agar, media is supplemented with suitable  antibiotics depending on the selection marker on the transfected plasmid.</p>
 +
</blockquote>
 +
<p align="left">&nbsp;</p>
 +
<p align="left"><strong> Bacteria </strong><strong>transformation</strong></p>
 +
<blockquote>
 +
<p>E. coli DH5alpha and TransT1 competent cells were used for the propagation  of plasmid DNA.</p>
 +
<p>  100  µL of competent cells were thawed on ice.&nbsp;<br>
 +
50 – 400 ng DNA solution was added to competent bacterial cells (depending on  the concentration of the DNA solution).&nbsp;<br>
 +
A mixture of cells and DNA solution was incubated on ice for 30-60 minutes.&nbsp;<br>
 +
The mixture was heat-shocked for 3 minutes at 42 °C.&nbsp;<br>
 +
Cooled for 3 minutes on ice.&nbsp;<br>
 +
500 µL of preheated antibiotic free LB-medium was added and incubated for one  hour at 37 °C with agitation for the purpose of inducing antibiotic resistance.&nbsp;<br>
 +
The selection for plasmid containing and therefore antibiotic resistant  bacteria was conducted by plating them on antibiotic containing LB-agar plates.
 +
</p>
 +
</blockquote>
 +
<p align="left">&nbsp;</p>
 +
<p align="left"><strong>Plasmid DNA isolation</strong></p>
 +
<blockquote>
 +
<p>MINI PREPs for analysis and sequencing:<br>
 +
A single colony was picked from a LB-agar plate or glycerol stock and  inoculated in 10 mL of LB-medium with the appropriate antibiotic for selection  (100 mg/L ampicillin, 50 mg/L kanamycin, 35 mg/L chloramphenicol).&nbsp;<br>
 +
Bacteria were grown over night at 37 °C with agitation.&nbsp;<br>
 +
Plasmid DNA was isolated from 6-10 mL of over-night culture with plasmid miniprep  kit according to the manufacturer's protocol.&nbsp;<br>
 +
Amounts ranging from 6-10 µg of plasmid DNA were obtained.&nbsp;<br>
 +
The purity and concentration of the isolated DNA was analyzed using NanoDrop.</p>
 +
</blockquote>
 +
<p>&nbsp;</p>
 +
<p style="text-align: right;">Return to: <a href="https://2014.igem.org/Team:Tsinghua/Notebook/Protocol">Notebook -> Protocol</a></p>
 +
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<a href="https://2014.igem.org/Team:Tsinghua/Project"style="color:#000000"> Project</a></td>
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<td style="border:1px solid black;" align="center"  height ="45px" onMouseOver="this.bgColor='#d3d3d3'" onMouseOut="this.bgColor='#e7e7e7'" bgColor=#e7e7e7>
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<a href="https://2014.igem.org/Team:Tsinghua/Parts"style="color:#000000"> Parts</a></td>
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<a href="https://2014.igem.org/Team:Tsinghua/Modeling"style="color:#000000"> Modeling</a></td>
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<td style="border:1px solid black;" align="center" height ="45px" onMouseOver="this.bgColor='#d3d3d3'" onMouseOut="this.bgColor='#e7e7e7'" bgColor=#e7e7e7> 
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<a href="https://2014.igem.org/Team:Tsinghua/Notebook"style="color:#000000"> Notebook</a></td>
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<a href="https://2014.igem.org/Team:Tsinghua/Safety"style=" color:#000000"> Safety </a></td>
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<td style="border:1px solid black;" align="center"  height ="45px" onMouseOver="this.bgColor='#d3d3d3'" onMouseOut="this.bgColor='#e7e7e7'" bgColor=#e7e7e7>  
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<a href="https://2014.igem.org/Team:Tsinghua/Attributions"style="color:#000000"> Attributions </a></td>
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<td align ="center"> <a href="https://2014.igem.org/Main_Page"> <img src="https://static.igem.org/mediawiki/igem.org/6/60/Igemlogo_300px.png" width="55px"></a> </td>
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<!--end navigation menu -->
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<tr> <td colspan="3"  height="15px"> </td></tr>
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<tr><td bgColor="#e7e7e7" colspan="3" height="1px"> </tr>
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<tr> <td colspan="3"  height="5px"> </td></tr>
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<!--Parts Submitted to the Registry  -->
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<tr><td > <h3> Parts Submitted to the Registry </h3></td>
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<td ></td >
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<td > <h3>What information do I need to start putting my parts on the Registry? </h3></td>
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<p>
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An important aspect of the iGEM competition is the use and creation of standard  biological parts. Each team will make new parts during iGEM and will submit them to the <a href="http://partsregistry.org"> Registry of Standard Biological Parts</a>. The iGEM software provides an easy way to present the parts your team has created. The "groupparts" tag will generate a table with all of the parts that your team adds to your team sandbox. 
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<strong>Note that if you want to document a part you need to document it on the <a href="http://partsregistry.org Registry"> Registry</a>, not on your team wiki.</strong> Future teams and other users and are much more likely to find parts on the Registry than on your team wiki.
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Remember that the goal of proper part documentation is to describe and define a part, so that it can be used without a need to refer to the primary literature. Registry users in future years should be able to read your documentation and be able to use the part successfully. Also, you should provide proper references to acknowledge previous authors and to provide for users who wish to know more.
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<h3>When should you put parts into the Registry?</h3>
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As soon as possible! We encourage teams to start completing documentation for their parts on the Registry as soon as you have it available. The sooner you put up your parts, the better recall you will have of all details surrounding your parts. Remember you don't need to send us the DNA to create an entry for a part on the Registry. However, you must send us the sample/DNA before the Jamboree. Only parts for which you have sent us samples/DNA are eligible for awards and medal requirements.
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<td > </td>
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The information needed to initially create a part on the Registry is:
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<ol>
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<li>Part Name</li>
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<li>Part type</li>
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<li>Creator</li>
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<li>Sequence</li>
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<li>Short Description (60 characters on what the DNA does)</li>
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<li>Long Description (Longer description of what the DNA does)</li>
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<li>Design considerations</li>
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We encourage you to put up <em>much more</em> information as you gather it over the summer. If you have images, plots, characterization data and other information, please also put it up on the part page. Check out part <a href="http://parts.igem.org/Part:BBa_K404003">BBa_K404003</a> for an excellent example of a highly characterized part.
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You can add parts to the Registry at our <a href="http://parts.igem.org/Add_a_Part_to_the_Registry"> Add a Part to the Registry</a> link.
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<tr><td colspan="3" > <h3> Parts Table</h3></td></tr>
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<tr><td width="45%" colspan="3"  valign="top">
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Any parts your team has created will appear in this table below:</td></tr>
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</table>
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</html>
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<groupparts>iGEM013 Tsinghua</groupparts>
 

Revision as of 17:05, 17 October 2014

Team Tsinghua 2014 Return to iGEM 2014

Notebook: Protocol

Return to: Notebook -> Protocol

Molecular Cloning

 

Polymerase Chain Reaction (PCR)

1. The master mix for reactions with FastPfu DNA polymerase contained:

Reagent

Volume

Final Concentration

5x FastPfu Buffer

10 ul

1X

10 mM

1 ul

0.2 mM

Primer 1 (25 pmol/ul)

1 ul

0.5 pmol/ul

Primer 2 (25 pmol/ul)

1 ul

0.5 pmol/ul

FastPfu (5U/ul)

0.4 ul

2U/50ul

Template DNA

variable

50 pg – 1 ug

ddH2O

To 50 ul

2. The master mix for reactions with Phusion DNA polymerase contained:

Reagent

Volume

Final Concentration

Phusion DNA Polymerase

0.5 ul

1.0 units/50 ul PCR

DMSO (optional)

(1.5 ul)

3%

Template DNA

variable

250 ng

10 uM Forward Primer

2.5 ul

0.5 uM

10 uM Reverse Primer

2.5 ul

0.5 uM

10 mM dNTPs

1 ul

200 uM

5X Phusion HF Buffer

10 ul

1X

ddH2O

To 50 ul

3. The master mix for reactions with Taq DNA polymerase contained:

Reagent

Volume

Final Concentration

10X Standard Taq Buffer

5 ul

1X

10 mM dNTPs

1 ul

200 uM

10 uM Forward Primer

1 ul

0.2 uM

10 uM Reverse Primer

1 ul

0.2 uM

Template DNA

Variable

Variable

Taq DNA polymerase

0.25 ul

1.25 units/50 ul PCR

ddH2O

To 50 ul

4. All temperature profiles were optimized according to manufacturer’s protocol, the melting temperature of primers, and the length of the desired PCR products.
Basic temperature profiles:

Step

Temperature

Time

Initial Denaturation

95℃

3 min

30 Cycles

95℃

30 sec

55℃

30 sec

72℃

1 min

Final Extension

72℃

5 min

Hold

4℃

 

Gel purification of DNA Fragment

Agarose Electrophoresis:
1. A mixture of various sized DNA fragments were separated in an agarose gel (from 0.8 to 1.5% agarose in 1x TAE buffer ethidium bromide) at a constant voltage of 150 V.
2. UV light (λ = 254 nm) was used to visualize DNA with intercalated ethidium bromide.

Gel Purification of DNA fragment:
1. The band with the desired DNA fragments were excised from the gel, using a clean scalpel.
2. DNA was isolated from the gel slice with Gel Extraction Kit according to the manufacturer’s protocol.
3. Purity and amount of DNA was determined using NanoDrop.

Restriction Digestion

    1. To digest the desired DNA restriction reactions were prepared as follows:
    For analysis of cloned DNA
    2µl of the appropriate restriction buffer (10X)
    0.5 µL restriction enzyme
    Bring volume to 20 µL with nuclease-free water.
    Or
    For isolation of specific DNA
    2µl of the appropriate restriction buffer (10X)
    Up to 2 µL restriction enzyme
    Bring volume to 50 µL with nuclease-free water.
    2. The sample was incubated at optimal temperature for the restriction enzymes.
    3. Analysis of fragmented DNA was done by gel electrophoresis.
    4. Desired DNA fragment was excised and purified using suitable DNA purification kit.

Ligation

    T4 ligase ligates the 5' phosphate and the 3'-hydroxyl groups of DNA.
    Vector and insert concentrations were estimated and insert and vector fragments joined in a molar ratio of 3:1 (100-150ng Vector DNA).
    A ligation mixture was prepared:
    1X ligase buffer (10X) 
    1 µL T4 ligase (3 U/µL) 
    Bring volume to 10 µL with nuclease-free water. 
    Reactions were incubated at 17 °C for 4 to 18 hours. 

    After incubation part of the ligation mixture was used for the transformation of bacterial cells (see: transformation of bacteria).

Culturing bacteria

For plasmid DNA propagation two bacterial strains were used: DH5alpha and TransT1.


Growth media for bacteria:
Luria Broth (LB) : 10 g/L tryptone, 5 g/L yeast extract, 10 g/L NaCl, media is supplemented with suitable antibiotics depending on the selection marker on the transfected plasmid: ampicilin 100 mg/L or kanamycin 50 mg/L.


LB agar plates: LB with 1.5% agar, media is supplemented with suitable antibiotics depending on the selection marker on the transfected plasmid.

 

Bacteria transformation

E. coli DH5alpha and TransT1 competent cells were used for the propagation of plasmid DNA.

100 µL of competent cells were thawed on ice. 
50 – 400 ng DNA solution was added to competent bacterial cells (depending on the concentration of the DNA solution). 
A mixture of cells and DNA solution was incubated on ice for 30-60 minutes. 
The mixture was heat-shocked for 3 minutes at 42 °C. 
Cooled for 3 minutes on ice. 
500 µL of preheated antibiotic free LB-medium was added and incubated for one hour at 37 °C with agitation for the purpose of inducing antibiotic resistance. 
The selection for plasmid containing and therefore antibiotic resistant bacteria was conducted by plating them on antibiotic containing LB-agar plates.

 

Plasmid DNA isolation

MINI PREPs for analysis and sequencing:
A single colony was picked from a LB-agar plate or glycerol stock and inoculated in 10 mL of LB-medium with the appropriate antibiotic for selection (100 mg/L ampicillin, 50 mg/L kanamycin, 35 mg/L chloramphenicol). 
Bacteria were grown over night at 37 °C with agitation. 
Plasmid DNA was isolated from 6-10 mL of over-night culture with plasmid miniprep kit according to the manufacturer's protocol. 
Amounts ranging from 6-10 µg of plasmid DNA were obtained. 
The purity and concentration of the isolated DNA was analyzed using NanoDrop.

 

Return to: Notebook -> Protocol

 

Retrieved from "http://2014.igem.org/Team:Tsinghua/Parts"