Difference between revisions of "Team:ETH Zurich/Experiments"
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<h2>Introduction</h2> | <h2>Introduction</h2> | ||
| − | <p>In the course of our project we performed a lot of different experiments, ranging from construction and transformations of plasmids into <i>E. | + | <p>In the course of our project we performed a lot of different experiments, ranging from construction and transformations of plasmids into <i>E. coli</i> over the testing their functionality and response measurements after induction of our circuit, up to experiments with mammalian cells which are the subjects of our analysis.</p> |
<p>Below you can find the protocols for all our experiments.</p> | <p>Below you can find the protocols for all our experiments.</p> | ||
Revision as of 16:08, 21 August 2015
- Project
- Modeling
- Lab
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Practices - Parts
- About Us
Experiments & Protocols
Introduction
In the course of our project we performed a lot of different experiments, ranging from construction and transformations of plasmids into E. coli over the testing their functionality and response measurements after induction of our circuit, up to experiments with mammalian cells which are the subjects of our analysis.
Below you can find the protocols for all our experiments.
Buffers and media
TFP1
100 mM RbCl
50 mM MnCl2
30mM potassium acetate
10mM CaCl2
15%glycerol
TFP2
100 mM MOPS
50 mM RbCl
75 mM CaCl2
15%glycerol
SOC medium
Tryptophane 20g/L
Yeast extract 5g/L
NaCl 0.5g/L
250mM KCl
1M MgCl2
50% (w/v) sterile glucose
Filter the solution through a 0.2 µm filter.
3T3 medium
D-MEM 1x: 500 mL
FBS 100%: 50 mL
GlutaMax 100x: 5 mL
Penicillin (10k units/mL) /Streptomyocin (10k µg/mL ): 5 mL
Jurkat medium
MEM 1x: 2 mL
FBS 100%: 20 mL
GlutaMax 100x: 2 mL
Penicillin (10k units/mL) /Streptomyocin (10k µg/mL ): 0.4 mL
RPMI: 200 mL
General useful things
Cryostock of bacteria
- Add 1 mL of 40% glycerol to a cryogenic vial.
- Add 1 mL sample from the bacterial culture.
- Vortex the vial.
- Store in -80ºC freezer.
Preparation of chemically competent cells
- Take a trace of Escherichia coli from a glycerol stock vial and put it on a LB plate with the correspondent antibiotic.
- Incubate overnight at 37ºC.
- Pick a colony and inoculate 10mL LB medium containing the relevant antibiotic. Grow overnight at 37ºC.
- Add 1mL overnight culture to 100mL prewarmed LB medium containing the relevant antibiotic in a 500mL flask, and shake at 37ºC until an OD600 of 0.5 is reached (usually 90-120 min).
- Cool the culture on ice 5min, and transfer the culture to a sterile, round-bottom centrifuge tube.
- Collect the cells by centrifugation at low speed (5 min, 4000 xg, 4ºC).
- Resuspend the cells gently in cold (4ºC) TFB1 buffer (30 mL for 100 mL culture) and keep the suspension on ice for 90min.
- Collect the cells by centrifugation (5min, 4000 xg, 4ºC).
- Discard the supernatant carefully. Always keep the cells on ice.
- Resuspend the cells carefully in 4 mL ice-cold TFB2 buffer
- Prepare aliquots of 100-200µL in sterile microcentrifuge tubes and freeze in dry-ice-ethanol mix. Store the competent cells at -70ºC
Transformation of chemically competent cells
- Take 1 µL DNA to be transformed and put into a cold sterile 1.5 mL microcentrifuge tube, and keep on ice.
- Thaw an aliquot of frozen competent cells on ice.
- Resuspend the cells and transfer 50 of the cell suspension into the microcentrifuge tube with the plasmid DNA, mix carefullu, and keep on ice for 20 min.
- Transfer the tube to a 42ºC water bath for 90 s.
- Add 500 µL SOC medium to the cells and incubate for 60-90 min at 37ºC. Shaking increases transformation efficiency.
- Plate 100 µL on LB-agar plates containing antibiotics. Incubate the plates overnight at 37ºC.