Team:Freiburg/Notebook/Methoden

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(First Extension PCR (Toolkit))
 
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__NOTOC__
__NOTOC__
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= Methods =
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----
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<br>
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[[File:notebooksymbolT.png|center|180px|link=]]
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<br>
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<div align="justify">In this section we want to give you a chance to take a look at our protocols. From simple Agarose Gel over Colony PCR to transfection and SEAP measurement. All of our protocols are extensivly tested, sometimes a couple hundred times, so we are confident that they are perfectly working. Feel free to use the protocols for your own labwork and don't hesitate to contact us if you have any questions or problems regarding the protocols.
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==<span style="color:#000000"> First Extension PCR (Toolkit)==
 
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<p>
 
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This step is necessary to add the the necessary restriction sites to the Direpeats.
 
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<br/>
 
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Pipette the following volumes into a PCR- tube:
 
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{|cellpadding="5" cellspacing="0" border="1"
 
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|'''Component'''
 
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|'''Volume'''
 
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|-
 
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|Water, nuclease-free
 
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|15,75 µl
 
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|-
 
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|DMSO
 
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|0,75 µl
 
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|-
 
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|dNTPs
 
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|0,5 µl
 
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|-
 
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|Phusion Buffer
 
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|5,0 µl
 
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|-
 
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|Phusion Polymerase
 
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|0,25 µl
 
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|-
 
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|Primer forward
 
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|1,25 µl
 
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|-
 
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|Primer reverse
 
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|1,25 µl
 
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|-
 
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|Template
 
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|0,25 µl
 
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|-
 
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|'''Total'''
 
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|25 µl
 
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|}
 
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<br/>
 
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</p><br>
 
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==<span style="color:#000000">Second Extension PCR (Toolkit)==
 
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<p>
 
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This step is necessary to add enzyme- binding –sites to the outer restriction sites.
 
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Use the product of the first extension- PCR as template.
 
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<br/>
 
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Pipette the following volumes into a PCR- tube:
 
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</p><br>
 
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==<span style="color:#000000">PCR Purification==
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== PCR Methods ==
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<p>
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----
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<br>
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<html>
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<div style=text-indent:0px>
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<a href="https://static.igem.org/mediawiki/2012/7/74/First_Extension_PCR.pdf">First Extension PCR.</a><br>
 +
</html>
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bla
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In this protocol you can find the ingeredients and the thermocycler program for a working extension PCR. If you are thinking about doing a own extension PCR, you need to set the reaction conditions according to your experiment design. This means to adjust annealing temperature for your primers as well as the extension time for the lenght of your template. You can find instructions inside the manual of your polymerase on how to do this ajustments.<br> As you can see, our PCR program has two-steps, the first step is to extend the template and the second to amplificate the now longer template. The two steps are neccesary due to the different annealing conditions for extension and amplification. During extensions only a short part of the primer binds to the template which needs a lower temperature, at the amplification step the complete primer binds so you need a higher temperature.<br>
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</p><br>
 
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==<span style="color:#000000">Gel Run==
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<html>
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<p>
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<div style=text-indent:0px>
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<a href="https://static.igem.org/mediawiki/2012/9/96/Second_Extension_PCR.pdf">Second Extension PCR.</a><br>
 +
</html>
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bla
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This protocol is essentially the same as the first extension PCR. It is just here for completeness<br>
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</p><br>
 
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==<span style="color:#000000">Ligation==
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<html>
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<p>
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<div style=text-indent:0px>
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<a href="https://static.igem.org/mediawiki/2012/c/c0/Colony-PCR.pdf">Colony PCR.</a><br>
 +
</html>
-
bla
+
Colony PCR is one of the standard methods in molecular biology and you need it at almost every project. Essentally you pick a colony after transfection put a bit of it into a PCR tube and use it as template for a PCR. The PCR amplifies the part between the primers and you should be able to make it visible on an agarose gel. Together with a gel  ladder you can now tell the lenght of the amplificated part and with this make suggestions if your transfection worked out. <br>
-
</p><br>
 
-
==<span style="color:#000000">Colony PCR==
 
-
<p>
 
-
bla
+
== Purification, Digest and Ligation ==
 +
----
 +
<br>
 +
<html>
 +
<div style=text-indent:0px>
 +
<a href="https://static.igem.org/mediawiki/2012/c/ca/PCR-Purification-Digest.pdf">Purification, Digest, Ligation and other</a><br>
 +
</html>
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</p><br>
+
In this protocol we combined all of the small processes we used during our project, for most of them like PCR purification or plasmid preparation we used commercial kits. These kits come with easy step by step explanations and do not need much practice. Even people that cannot be in the lab every day can do them without worrying about destroying precious samples.
 +
<br><br>
 +
== Transformation and Transfection ==
 +
----
 +
<br>
 +
<html>
 +
<div style=text-indent:0px>
 +
<a href="https://static.igem.org/mediawiki/2012/c/cd/Trafo.pdf">Transformation of E.coli</a><br>
 +
</html>
 +
Transformation is a thing in the lab for which everyone has a little trick to do it best and everybody tells you that their way is the right way because they do it since forever. As we can tell you, our protocol is perfectly working, its effective and gives you great transformation efficiency if you use it like it is written.
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==<span style="color:#000000">Mini-Prep==
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<html>
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<p>
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<div style=text-indent:0px>
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<a href="http://omnibus.uni-freiburg.de/~ds151/Transfection%20of%20HEK%20and%20SEAP%20measurement.pdf">Transfection and SEAP measurement.</a>
 +
</html>
-
bla
+
Transfection of HEK cells is almost as easy as transforming ''E.coli''. With this protocol we got great transfection efficiency - even when we used multiple plasmids. Please make sure you thought about your experiment design! We would advise to always do three replicates and implement multiple control experiments. This is especially important when you do co-transfections of multiple plasmids.
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</p><br>
+
<br>
 +
<br>
 +
[[#top|Back to top]]

Latest revision as of 09:51, 19 October 2012




Methods



NotebooksymbolT.png


In this section we want to give you a chance to take a look at our protocols. From simple Agarose Gel over Colony PCR to transfection and SEAP measurement. All of our protocols are extensivly tested, sometimes a couple hundred times, so we are confident that they are perfectly working. Feel free to use the protocols for your own labwork and don't hesitate to contact us if you have any questions or problems regarding the protocols.


PCR Methods



First Extension PCR.

In this protocol you can find the ingeredients and the thermocycler program for a working extension PCR. If you are thinking about doing a own extension PCR, you need to set the reaction conditions according to your experiment design. This means to adjust annealing temperature for your primers as well as the extension time for the lenght of your template. You can find instructions inside the manual of your polymerase on how to do this ajustments.
As you can see, our PCR program has two-steps, the first step is to extend the template and the second to amplificate the now longer template. The two steps are neccesary due to the different annealing conditions for extension and amplification. During extensions only a short part of the primer binds to the template which needs a lower temperature, at the amplification step the complete primer binds so you need a higher temperature.


Second Extension PCR.

This protocol is essentially the same as the first extension PCR. It is just here for completeness


Colony PCR.

Colony PCR is one of the standard methods in molecular biology and you need it at almost every project. Essentally you pick a colony after transfection put a bit of it into a PCR tube and use it as template for a PCR. The PCR amplifies the part between the primers and you should be able to make it visible on an agarose gel. Together with a gel ladder you can now tell the lenght of the amplificated part and with this make suggestions if your transfection worked out.


Purification, Digest and Ligation



Purification, Digest, Ligation and other

In this protocol we combined all of the small processes we used during our project, for most of them like PCR purification or plasmid preparation we used commercial kits. These kits come with easy step by step explanations and do not need much practice. Even people that cannot be in the lab every day can do them without worrying about destroying precious samples.

Transformation and Transfection



Transformation of E.coli

Transformation is a thing in the lab for which everyone has a little trick to do it best and everybody tells you that their way is the right way because they do it since forever. As we can tell you, our protocol is perfectly working, its effective and gives you great transformation efficiency if you use it like it is written.


Transfection and SEAP measurement.

Transfection of HEK cells is almost as easy as transforming E.coli. With this protocol we got great transfection efficiency - even when we used multiple plasmids. Please make sure you thought about your experiment design! We would advise to always do three replicates and implement multiple control experiments. This is especially important when you do co-transfections of multiple plasmids.



Back to top