Team:Goettingen/Project/Methods

From 2012.igem.org

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<h2><b><a name="Standard_PCR"></a>Standard PCR</b></h2>
 
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<p align="justify" style="line-height:1.6em">
 
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The polymerase chain reaction (PCR) is a method for <i>in vitro</i>-amplification of DNA sequences. For the amplification of a
 
-
DNA fragment the heat resistent enzyme DNA polymerase is responsible. There are several types of DNA polymerases purchaseable, e.g. some of which are very fast
 
-
or are not error-prone due to proof-reading activity. In order to choose the appropriate DNA polymerase, this link might be of interest: <a href="http://barricklab.org/twiki/bin/view/Lab/ProtocolsTaq">
 
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http://barricklab.org/twiki/bin/view/Lab/ProtocolsTaq; 06/30/2012.</a>  <br>
 
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To allow binding of the DNA polymerase primer are required. Thus, only the flanking sites for the sequence of interest needs to be known
 
-
to synthesize specific primer. Each primer has a specific annealing temperature according to it GC-content.
 
-
Primers used here were ordered by Sigma<sup>&#174;</sup>.
 
-
 
-
A single PCR cycle encompasses three steps: denaturation, annealing and elongation. In the first step the DNA double strands are separated at about 95°C.
 
-
Next hybridization of the primers at their annealing temperature happens and finally the DNA seqthesis takes place at the optimal working temperature of
 
-
the chosen DNA polymerase. This amplification cycle is normally conducted between 25-35 cycles depending on the amount of PCR product one wants to synthesize.
 
-
In one PCR reaction following components are mixed: DNA template, forward and reverse primer, DNA polymerase with appropriate buffer and deoxynucleotides.
 
-
Note that an increasing cycle number is prone to incorporate errors in the amplified DNA fragment. This is due to the fact that
 
-
the dNTPs will be depleted and the saturation phase is reached.
 
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</p>
 
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<h2><b><a name="Sequencing"></a>Sequencing</b></h2>
 
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<p align="justify" style="line-height:1.6em">
 
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Under process...</p>
 
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<h2><b><a name="Cloning_Protocols"></a>Cloning Protocols</b></h2>
<h2><b><a name="Cloning_Protocols"></a>Cloning Protocols</b></h2>
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<h2><b><a name="Sequencing"></a>Library Selection</b></h2>
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<p align="justify" style="line-height:1.6em">
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The library containing vectors with the mutagenized <i>tar</i>-gene was transformed into the <i>E. coli</i> strain Bl21. In order to determine certain receptor derivates that enables chemotaxis to a certain molecule a "Library Selection" protocol was determined.
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<b>Attractants</b><br>
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Coffein: stock solution x mM
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2-Ethyl-1-Hexanol: stock solution x mM
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<br>
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Geraniol: stock solution x mM
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<br>
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Sodium-Cyclamat: stock solution x mM
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<br>
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D-aspartic acid: stock solution x mM
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<br>
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L-aspartic acid 4-benzyl: stock solution x mM
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<br>
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Vanillin: stock solution x mM
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<br>
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<b>Media</b><br>
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- LB-media
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<br>
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- Tryptone-agar (1% tryptone, 0.5% NaCl, 0.3% agar)
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<br>
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<b>Execution</b><br>
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<u>First round of selection</u><br>
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- One 1 ml cryostock if the library in Bl21 is thawed and poured into a 200 ml flask filled with LB-media with chloramphenicol <br>
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- the BL21 strain with the parent plasmid is inoculated in 5 ml LB media with chloramphenicol
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- The cultures are grown over night at 37 °C with approx. 180 rpm <br>
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- 7 + 1 control (whatmanpaper with H2O) 12 cm petidishes are filled with thryptone-agar with chloramphenicol<br>
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- 100µl of the attractant are applied to a steril 2x2cm whatmanpaper respectivly and positioned in the center of a petridish <br>
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- at least 1.5 ml of the culture containing the library and at least 1.5 ml of the culture containing the BL21 strain with the parent plasmid are spun down with 1.5 x g for 10 minutes <br>
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- the supernatant is discarded and he pellet resuspended in the remaining medium <br>
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- 3 times 5 µl of the library and once 5 µl of the reference strain (Bl21 with the parent plasmid) are dropped respectively on each plate <br>
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- the dropps are allowed to dry for at least 20 minutes until the plates ware inverted and placed in the 33 °C incubator over night <br>
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<br>
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<u>Second round of selection</u><br>
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- on each plate the drop with the fastes and most directed swimming behaviour is determined <br>
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- in order to select the fastest Cells the cells conatining agar is cut out:
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<div style="text-indent:10px;">- the yellow eppendorf tips are cut of to the first mark (approx 1 cm)<br>
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<div style="text-indent:10px;">- the first cut off is shortly befor the swimming front --> I<br>
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<div style="text-indent:10px;">- the second one on the swimming front -->II<br>
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<div style="text-indent:10px;">- the third one shortly behind the swimming front --> III<br>
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<div style="text-indent:10px;">- each cut of is placed either with or without the tip in at least 0.5 ml LB media in an test glas or an E-cup<br></div>
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- the cultures are incubated for at least 1 h at 37 °C with approx. 180 rpm <br>
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- meanwhile 7 + 1 control (whatmanpaper with H2O) 12 cm petidishes are filled with thryptone-agar with chloramphenicol<br>
 +
- 100µl of the attractant are applied to a steril 2x2cm whatmanpaper respectivly and positioned in the center of a petridish <br>
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- the cultures are transferred in to an E-cup and are spun down with 1.5 x g for 10 minutes <br>
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the supernatant is discarded and he pellet resuspended in the remaining medium <br>
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- 5 µl of the 3 different library cutoffs and 5 µl of the reference strain (Bl21 with the parent plasmid) are dropped respectively on each plate <br>
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- the dropps are allowed to dry for at least 20 minutes until the plates ware inverted and placed in the 33 °C incubator over night <br>
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<br>
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<br>
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<u>Third round of selection </u><br>
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- see second round of selection
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<br>
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<u>Plating of the selected clones</u><br>
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- the plates of the third round of selection are treaded as described but the cultures are not spun down <br>
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- 100 µl of a 10^-2 dilution is plated on LB-plates containing chloramphenicol respeciively <br>
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- the plates are incubated over night at 33 °C<br>
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<br>
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<u>Minipreparation and sequencing of plasmid DNA</u><br>
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- a suitable amout of clones are selected from each plate and used to inoculate 5 ml LB media with chloramphenicol respectively <br>
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- the cultures are incubated over night at 37 °C with approx. 180 rpm <br>
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- the plasmid DNA is isolated according to the instructions of the the prequlab kit <br>
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- the plasmid DNA is sequenced as described <br>
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<br>
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<u>Retransformation of the plasmid DNA</u><br>
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In oreder to determine wether the observed chemotaxis is dependent on the cells themselfes or on the inserted vector the isolated plasmid DNA is transformed into fresh BL21 cells according to the described protocol <br>
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<u>Determination of the swimming behaviour of the freshly transformed BL21 cells</u><br>
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- colonies of the freshly transformed BL21 cells (Retrafo) as well as of the selected BL21 clones (Trafo) are inoculated in LB-media with chloramphenicol and grown over night at 37 °C with approx. 180 rpm
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- 7 x 2 x 3 traptone agar plates are poured
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<div style="text-indent:10px;">- each attractant has 2 additional contolls: one time the Whatmanpaper is soaked with H2Odest. and the other time with aspartate <br>
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<div style="text-indent:10px;">- the whole approach is conducted for the "Trafos" as well was for the "Retrafos" <br>
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</div>
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- the cultures are treated and dropped on the plates as described<br>
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- the dropps are allowed to dry for at least 20 minutes until the plates ware inverted and placed in the 33 °C incubator over night <br>
 +
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<br>
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 +
</p>
 +
<br>
 +
<br>
 +
 +
 +
<h2><b><a name="Sequencing"></a>Sequencing</b></h2>
 +
<p align="justify" style="line-height:1.6em">
 +
Under process...</p>
 +
<br>
 +
<br>
 +
 +
 +
<h2><b><a name="Standard_PCR"></a>Standard PCR</b></h2>
 +
<p align="justify" style="line-height:1.6em">
 +
The polymerase chain reaction (PCR) is a method for <i>in vitro</i>-amplification of DNA sequences. For the amplification of a
 +
DNA fragment the heat resistent enzyme DNA polymerase is responsible. There are several types of DNA polymerases purchaseable, e.g. some of which are very fast
 +
or are not error-prone due to proof-reading activity. In order to choose the appropriate DNA polymerase, this link might be of interest: <a href="http://barricklab.org/twiki/bin/view/Lab/ProtocolsTaq">
 +
http://barricklab.org/twiki/bin/view/Lab/ProtocolsTaq; 06/30/2012.</a>  <br>
 +
 +
To allow binding of the DNA polymerase primer are required. Thus, only the flanking sites for the sequence of interest needs to be known
 +
to synthesize specific primer. Each primer has a specific annealing temperature according to it GC-content.
 +
Primers used here were ordered by Sigma<sup>&#174;</sup>.
 +
 +
A single PCR cycle encompasses three steps: denaturation, annealing and elongation. In the first step the DNA double strands are separated at about 95°C.
 +
Next hybridization of the primers at their annealing temperature happens and finally the DNA seqthesis takes place at the optimal working temperature of
 +
the chosen DNA polymerase. This amplification cycle is normally conducted between 25-35 cycles depending on the amount of PCR product one wants to synthesize.
 +
In one PCR reaction following components are mixed: DNA template, forward and reverse primer, DNA polymerase with appropriate buffer and deoxynucleotides.
 +
Note that an increasing cycle number is prone to incorporate errors in the amplified DNA fragment. This is due to the fact that
 +
the dNTPs will be depleted and the saturation phase is reached.
 +
</p>
 +
<br>
 +
<br>
 +
 +
 +
 +
 +
 +
 +

Revision as of 20:22, 18 September 2012