Tianjin/FLIP-FLOP/More details
From 2007.igem.org
(→Experiment) |
Lovecarrot (Talk | contribs) (→Experiment) |
||
(16 intermediate revisions not shown) | |||
Line 4: | Line 4: | ||
==Experiment== | ==Experiment== | ||
|- | |- | ||
- | |width="960px" style="padding: 10px; background-color: # | + | |width="960px" style="padding: 10px; background-color: #FFFFCC" | |
<div id="part1"> | <div id="part1"> | ||
<ul> | <ul> | ||
- | <li><font size="4" color="#663366">E.coli | + | <li><font size="4" color="#663366">E.coli Cultivation</font></li> |
- | Solid LB | + | Solid LB medium is used for agar plate. For a typical cultivation, 5 ml or 100ml of appropriate medium is used, and the appopriate condition for cultivation in shakers is 37°C and 220rpm and the time depends on the reason for growing the cells. To miniprep plasmid DNA, an overnight culture is sufficient. To get the transformation colony, waiting for about 12-16 hours. |
<li><font size="4" color="#663366">Plasmid Extraction</font></li> | <li><font size="4" color="#663366">Plasmid Extraction</font></li> | ||
- | Using plasmid extracting kit we get the plasmid DNA for two purposes. One is | + | Using plasmid extracting kit we get the plasmid DNA for two purposes. One is to verify the plasmid using enzyme digesting and the other is to purify the fragments for ligation using enzyme digesting and gel recycle. |
+ | </ul> | ||
+ | </div> <!-- end of part1 --> | ||
+ | |- | ||
+ | |width="960px" style="padding: 10px; background-color: #FFFF99" | | ||
+ | |||
+ | <div id="part2"> | ||
+ | <ul> | ||
<li><font size="4" color="#663366">Verification</font></li> | <li><font size="4" color="#663366">Verification</font></li> | ||
- | Colony PCR can be used | + | Colony PCR can be used to screen colonies containing desired plasmid.But it always brings out the incorrect result, so under most conditions we use enzyme digesting to verify the desired palsmid. |
- | <li><font size="4" color="#663366">Restrication digestion<font></li> | + | <li><font size="4" color="#663366">Restrication digestion</font></li> |
- | 10μL digesting Mix | + | <table width="99%" cellpadding="0" cellspacing="20" style="padding: 10px; background-color: #FFFF99"> |
+ | <td><font size="3" color="#9966CC">10μL digesting Mix</font> | ||
<div id="10"> | <div id="10"> | ||
- | |||
<ul> | <ul> | ||
<li>1.0 μL 10X Enzyme buffer </li> | <li>1.0 μL 10X Enzyme buffer </li> | ||
<li>5 μL plasmid DNA</li> | <li>5 μL plasmid DNA</li> | ||
<li>0.5 μL Restriction Enzyme respectively</li> | <li>0.5 μL Restriction Enzyme respectively</li> | ||
- | <li>Add | + | <li>Add ddH<sub>2</sub>O to 10ul </li> |
- | + | </ul> | |
- | </ul> | + | </div> <!-- end of 10 --></td> |
- | </div> <!-- end of 10 --> | + | <td><font size="3" color="#9966CC">50μL digesting Mix</font> |
- | 50μL digesting Mix | + | |
<div id="50"> | <div id="50"> | ||
- | |||
<ul> | <ul> | ||
<li>5.0 μL 10X Enzyme buffer </li> | <li>5.0 μL 10X Enzyme buffer </li> | ||
<li>30 μL plasmid DNA</li> | <li>30 μL plasmid DNA</li> | ||
<li>2 μL Restriction Enzyme respectively</li> | <li>2 μL Restriction Enzyme respectively</li> | ||
- | <li>Add | + | <li>Add ddH<sub>2</sub>O to 50 ul </li> |
- | + | </ul> | |
- | </ul> | + | |
</div> <!-- end of 50 --> | </div> <!-- end of 50 --> | ||
- | + | </td></table> | |
</ul> | </ul> | ||
- | </div> <!-- end of | + | </div> <!-- end of part2 --> |
|- | |- | ||
- | |width="960px" style="padding: 10px; background-color: # | + | |width="960px" style="padding: 10px; background-color: #FFFFCC" | |
- | <div id=" | + | <div id="part3"> |
<ul> | <ul> | ||
- | + | <li><font size="4" color="#663366">Agarose gel electrophoresis</font></li> | |
<div id="agarose"> | <div id="agarose"> | ||
Line 58: | Line 62: | ||
</ul> | </ul> | ||
</div> <!-- end of agarose --> | </div> <!-- end of agarose --> | ||
- | <li>DNA ligation</li> | + | <li><font size="4" color="#663366">DNA ligation</font></li> |
- | The fragment usually is | + | The fragment usually is prepared from gel purification, sometimes from nucleic acid co-depositing.<br> |
- | Reagents | + | <font size="3" color="#9966CC">Reagents</font> |
<div id="reagents"> | <div id="reagents"> | ||
Line 66: | Line 70: | ||
<li>T4 DNA ligase </li> | <li>T4 DNA ligase </li> | ||
<li>10x T4 DNA Ligase Buffer</li> | <li>10x T4 DNA Ligase Buffer</li> | ||
- | <li>Deionized, sterile | + | <li>Deionized, sterile H<sub>2</sub>O</li> |
<li>Purified, linearized vector in EB</li> | <li>Purified, linearized vector in EB</li> | ||
<li>Purified, linearized insert in EB</li> | <li>Purified, linearized insert in EB</li> | ||
Line 73: | Line 77: | ||
</div> <!-- end of reagents --> | </div> <!-- end of reagents --> | ||
- | Calculating<br> | + | <font size="3" color="#9966CC">Calculating</font><br> |
- | The amount of vector and insert fragment is decided by formula given by openwetware. | + | The amount of vector and insert fragment needed for a successful ligation is decided by formula given by openwetware. |
- | Reaction<br> | + | <font size="3" color="#9966CC">Reaction</font><br> |
- | Ligate reaction is taken by TaKaRa DNA Ligation Kit Ver.2.0. Total volume is 10μL, one half is DNA solution and | + | Ligate reaction is taken by TaKaRa DNA Ligation Kit Ver.2.0. Total reaction volume is 10μL, one half of which is DNA solution and another half is Solution I containing T4 ligation enzyme. Typical reaction temperature is 16°C. Reaction time varies from 45 minutes to 6 hours depending on the specific condition. |
+ | </ul> | ||
+ | </div> <!-- end of part3 --> | ||
+ | |- | ||
+ | |width="960px" style="padding: 10px; background-color: #FFFF66" | | ||
- | + | <div id="part4"> | |
- | Using | + | <ul> |
- | + | <li><font size="4" color="#663366">E.coli Transformation</font></li> | |
- | + | Using CaCl<sub>2</sub> solution to make competent cells, and foreign DNA is transformed chemically to competent cells. If foreign DNA is plasmid, using 2-3 μL to transform 100 μL competent cells. If it is ligation product, transform the total 10 μL product to 100 μL competent cells. | |
+ | <li><font size="4" color="#663366">Detection</font></li> | ||
+ | Opening the bottle of medium and flame the mouth, bringing 2 ml to 10 ml Eppendorf Tube.Centrifugate the tube and pipette in 5 ml of the suspension to another tube for detecting the extracellular AHL.Then the deposit is used to detect GFP using fluorometer. The concentration of AHL is detected by the detector used in Bio-Diode. | ||
</ul> | </ul> | ||
- | </div> <!-- end of | + | </div> <!-- end of part4 --> |
Latest revision as of 03:17, 27 October 2007
Experiment | ||
Solid LB medium is used for agar plate. For a typical cultivation, 5 ml or 100ml of appropriate medium is used, and the appopriate condition for cultivation in shakers is 37°C and 220rpm and the time depends on the reason for growing the cells. To miniprep plasmid DNA, an overnight culture is sufficient. To get the transformation colony, waiting for about 12-16 hours. Using plasmid extracting kit we get the plasmid DNA for two purposes. One is to verify the plasmid using enzyme digesting and the other is to purify the fragments for ligation using enzyme digesting and gel recycle. | ||
Colony PCR can be used to screen colonies containing desired plasmid.But it always brings out the incorrect result, so under most conditions we use enzyme digesting to verify the desired palsmid.
| ||
The fragment usually is prepared from gel purification, sometimes from nucleic acid co-depositing. Calculating Reaction | ||
Using CaCl2 solution to make competent cells, and foreign DNA is transformed chemically to competent cells. If foreign DNA is plasmid, using 2-3 μL to transform 100 μL competent cells. If it is ligation product, transform the total 10 μL product to 100 μL competent cells. Opening the bottle of medium and flame the mouth, bringing 2 ml to 10 ml Eppendorf Tube.Centrifugate the tube and pipette in 5 ml of the suspension to another tube for detecting the extracellular AHL.Then the deposit is used to detect GFP using fluorometer. The concentration of AHL is detected by the detector used in Bio-Diode. |