Team:Goettingen/Project/Methods
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<h2><b><a name="Standard_PCR"></a>Standard PCR</b></h2> | <h2><b><a name="Standard_PCR"></a>Standard PCR</b></h2> | ||
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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 | 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 | 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 | ||
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<h2><b><a name="QuikChange_Protocol"></a>QuikChange Protocol</b></h2> | <h2><b><a name="QuikChange_Protocol"></a>QuikChange Protocol</b></h2> | ||
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To remove disturbing restriction sites within the gene for the successful usage of BioBrick system, the QuikChange reaction is used.<br><br> | To remove disturbing restriction sites within the gene for the successful usage of BioBrick system, the QuikChange reaction is used.<br><br> | ||
<u>-> 20 μl / reaction:</u> <br> | <u>-> 20 μl / reaction:</u> <br> |
Revision as of 21:53, 20 September 2012
Deutsch / English |
Language: English
| Agarose Gel Electrophoresis
For the analysis of PCR-amplified products, agarose gel electrophoresis is the method of choice. This method takes advantage of the separation
of DNA in dependance of the charge-mass ratio. The separation is based on the electric attraction of the negative charged DNA which is guided towards
the positive charged anode upon application of a current. The PCR samples are run on agarose gels with different percentages according to the product sizes:
small products run faster than bigger products.
Later on, these fragments within the gel are made visible by examination under the UV light to ensure the correct DNA fragment length synthesized in the PCR reaction.
Prior to UV analysis, a staining method of the DNA, here using ethidium bromide (EtBr), is obligatory. EtBr is an intercalating agent which embeddes itself within
the DNA helix. Thus, the absorption spectrum is biased so that it is suitable for DNA detection. The determination of separated molecule sizes is done accodrding
to a common DNA size standard. Cloning Protocols
Cloning Protocols: Chemical Transformation
Competent CellsPreparation of CaCl2 buffer for competent cells! Before you start make sure that the CaCl2 buffer is ice-cold when needed and the centrifuge is cooled to 4°C.
Library Selection
The library containing vectors with the mutagenized tar-gene was transformed into the E. coli strain Bl21. In order to determine certain receptor derivates that enables chemotaxis to a certain molecule a "Library Selection" protocol was determined.
- Cut the yellow eppendorf tips of to the first mark (approx 1 cm) - The first cut off is shortly befor the swimming front --> I - The second cut off is on the swimming front -->II - The third cut off is shortly behind the swimming front --> III - Place each cut off either with or without the tip in at least 0.5 ml LB media in an test tube or an E-cup
- Incubate the cultures for at least 1 h at 37 °C with approx. 180 rpm - Meanwhile fill 7 + 1 control (whatmanpaper with H2O) 12 cm petridishes with 0.3% tryptone-swimming agar with chloramphenicol - Apply 100µl of the attractant to a steril 2x2 cm whatmanpaper respectivly and position it in the center of a petridish - Transfer the culturesinto an E-cup and spin them down with 1.5 X g for 10 minutes - Discard the supernatant and the resuspend the pellet in the remaining medium - Drop 5 µl of the 3 different library cut offs and 5 µl of the reference strain (Bl21 with the parent plasmid) respectively on each plate - Let the drops dry for at least 20 minutes before inverting the plates and placing them in the incubator at 33°C over night Third round of selection - See second round of selection Plating of the selected clones - The plates of the third round of selection are treated as described before, but the cultures are not spun down - 100 µl of a 10-2 dilution is plated on LB-plates containing chloramphenicol respectively - Incubate the plates in an incubator over night at 33 °C Minipreparation and sequencing of plasmid DNA - A suitable amount of clones are selected from each plate and used to inoculate 5 ml LB media with chloramphenicol respectively - Incubate the cultures over night at 37 °C with approx. 180 rpm - Isolate the plasmid DNA according to the instructions of the the peqlab kit - Sequence the plasmid DNAas described Retransformation of the plasmid DNA In order 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 Determination of the swimming behaviour of the freshly transformed BL21 cells - Colonies of the freshly transformed BL21 cells (Retrafo) as well as of the selected BL21 clones (Trafo) are used to inoculate 5 ml LB-media with chloramphenicol, respectively and grown over night at 37 °C with approx. 180 rpm - Pour 7 x 2 x 3 0.3% tryptone-swimming agar plates - Each attractant has 2 additional controls: one time the whatmanpaper is soaked with H2Odest. and the other time with aspartate - The whole approach is conducted for the "Trafos" as well as for the "Retrafos"
- Treat and drop the cultures as described- Let the drops dry for at least 20 minutes before inverting the plates and placing them in the incubator at 33°C over night Separation AssayOne of our goals was to be able to separate two strains that swim with a different speed from each other when they are in a mixed culture. Only when they are in a mixed culture they are incubated at the exacly same conditions and thus the true effect of an attractant molecule can be determined. - Alternatively M9 agar can be used
- Apply 100µl of the to be tested attractant to a steril 2x2 cm whatmanpaper respectivly and position it in the center of the petridish - When the strains Δtar+pSB1C3 and Δtar+pSB1C3_tar_QC_18C were tested aspartate was used as a attractant
- Measure the OD600 of the over night cultures- calculate the neccessary amout you have to take from each culture to gain a cell ratio of 1:1 - Mix the cultures - Spin down the mixed culture and 1 ml of the not mixed ultures repectively with 1.5 X g for 10 minutes - No change in the results were observed when this step was not conducted
- Remove the supernatant completly and add 100 µl of fresh LB broth- Discard the supernatant and resuspend the pellet in the remaining medium, this can only be applied, when the cultures are dropped on the plated immediatly
- Drop two times 5 µl of the mixed culture and once 5 µl of each of the not mixed strains (references) - Let the drops dry for at least 20 minutes until inverting the plates and placing in the incubator at 33°C over night Separation of the different strains - Determine the drop of the mixed culture with the fastes and most directed swimming behaviour on each plate - In order to determine the faster strain and to separate them the agar is cut of at three different positions: - Cut the yellow eppendorf tips of to the first mark (approx 1 cm) - The first cut off is at the swimming front --> I - The second cut off is between the swimming front and the center od the original drop -->II - The third cut off is in the center of the original drop --> III - Place each cut off either with or without the tip in at least 0.5 ml LB media in an test tube or an E-cup
- Incubate the cultures for at least 1 h at 37 °C with approx. 180 rpm - Meanwhile prepare the same amout of LB agar plates (9 cm) with the different selection makers - When the strains Δtar+pSB1C3 and Δtar+pSB1C3_tar_QC_18C were tested LB agar plates containing either chloramphenicol or ampicillin were poured
- Prepare a dilution series from 10-1 to 10-5 of each of the three cultures
- Plate 100 µl of the dilutions 10-3, 10-4 and 10-5 on LB agar plates with the two different selection markers respectively- Plate the -2 and the 10-4 dilution but dependent on the incubation time a bacterial lawn will be observed on the 10-2 plates
- Incubate the plates in an incubator over night at 33 °C- Count out the colonies SequencingUnder process... Standard PCR
The polymerase chain reaction (PCR) is a method for in vitro-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:
http://barricklab.org/twiki/bin/view/Lab/ProtocolsTaq; 06/30/2012. QuikChange Protocol
To remove disturbing restriction sites within the gene for the successful usage of BioBrick system, the QuikChange reaction is used.
Program: -> 1 min 96°C
-> 5 min 72°C -> Store at 4-8°C After PCR add 1 μl DpnI directly into PCR tube. Incubate reaction 1-2 h at 37°C. Transform 5 µl into 50 µl competent cells. |
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