Paris/PROTOCOLS
From 2007.igem.org
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* Store the remaining transformation reaction at 4°C | * Store the remaining transformation reaction at 4°C | ||
* Incubate plates overnight at 37°C | * Incubate plates overnight at 37°C | ||
+ | |||
+ | == Glycerol Stock == | ||
+ | |||
+ | * add 1mL of 40% glycerol into cryogenic tube | ||
+ | * add 1mL of overnight bacterial culture | ||
+ | * vortex gently | ||
+ | * stock at -80°C | ||
== Fluorescent single cells visualisation == | == Fluorescent single cells visualisation == |
Revision as of 11:18, 25 July 2007
For newcomers in wetlab: see also the course by D. Endy [http://openwetware.org/wiki/20.109%28S07%29:Lab_tourlink Laboratory Fundamentals of Biological Engineering].
Contents |
Getting started
This topic is adressed to all our informatics-physics-I'm-afraid-of-the-bench fellows. So, if you finally found the courage to dare the pipettes, PCRs and nicely smelling bacteria, welcome!
- What a pipette is?
Pipettes dispense various volumes. The plunger button indicates the maximum volume (microliters) that the pipette is designed to handle. For example, P-20 will handle up to 20 microliters.
The digital volume indicator is read from top to bottom. For P-2, P-10, P-20, P-100, and P-200, black digits indicate microliters and red digits tenths and hundredths of microliters. For P-1000, red digits indicate milliliters and black digits microliters.
What to do when you have it in you hand?
-Hold the pipette in one hand (it doesn't bite...). With the other hand, turn the volume adjustment knob counterclockwise so the volume indicator is 1/3 revolution above the desired setting, then slowly turn clockwise until the indicator shows the desired volume.
-Attach a new disposable tip to the pipette shaft.
-Press the plunger to the FIRST stop. This part of the stroke is the volume displayed by the indicator.
-Holding the pipette vertically, immerse the tip a few millimeters into the sample.
-Allow the pushbutton to return slowly to the UP position. Avoid to blurt out the plunger button abruptly : there are bulls appearing and your volume is false...
-Ensure that the full volume of sample was properly drawn into the tip.
-Withdraw the tip from the sample.
-To dispense the liquid, gently touch the tip to the side of the receiving vessel, immersing the tip into liquid within the vessel. Press the plunger to the SECOND stop.
-With the plunger fully pressed, withdraw the tip carefully, wiping residual drops against the vessel wall.
-Allow plunger to return to the UP position.
-Discard the tip by depressing the tip ejector button.
Note down that different tips exist : ensure that you have the right one (labels will indicate you the size, etc.). It's better to use filter tips.
To train, you can simply pipette water : it's important to know how much 1 µl is...
To be continued...
- Growing bacteria in liquid medium
-Light the Bunsen burner. It permits you to keep a 10 cm perimeter sterile et thus not to contaminate your future colonies.
-Get a 50mL Falcon tube and put into 5 mL of LB medium. Add supplementary stuff if needed (antibiotics, metabolites, etc.).
-Pick up a sterile toothpick. Use it to gather a single colony of cells (you know, a white point on your Petri dish...).
-Place the toothpick with the colony into the solution.
-Incubate overnight at 37°C with shaking (at about 200 rpm).
Next morning, after a cup of coffee and a croissant, you can check up .
<<home
Strains
Here you can find the list of strains we have.
E. Coli MG1655
WT
E. Coli w121
We got the w121 strain from a lab in Pasteur Institute. This strain is [DapA-; Erythromycin R], but also has a couple of other mutations we are not interested in.
E. Coli Ftsz -TS84
Three clones are available : 121.1, 121.2, 121.3. More details soon
Acinetobacter: dehydrated strain
Transduction with P1 bacteriophage
Preparation of the P1 stock on the w121 strain.
Step of Tuesday, July 3
To be completed...
Transduction to MG1655 using the P1 stock made on w121.
Step of Wednesday, July 4
To be completed...
Titration of bacteriophages
- Take your stock of bacteriophage
- make several dilution of your stock, for example :
- 10µL of stock in 990µL MgSO4 0.1M -> d2
- 10µL of former solution in 990µL MgSO4 0.1M ->d4
- 10µL of former solution in 990µL MgSO4 0.1M ->d6
- 10µL of former solution in 990µL MgSO4 0.1M ->d8
- In a petri dish containing LB, spread a solution of 100µL of E. Coli MG1655 in stationnary phase + warm top agar 900µL (TA,7)
- Spread this mix over a petri dish
- add droplets (7µL) of your phages dilution on the petri dish, mark the places where you put these droplets
- Incubate ON at 37°C
- check for lyse plaque
Preparation of DAP solution from the powder (50mM)
Step of Friday, July 6
- M(DAP)=190.2g/mol
- I put 0.285g of DAP in 30ml water
- Aliquoted by 15ml
- Stored in the freezer at -20°C
- the stock is 166x
Preparing growth media
Making 10 petri dish (LB+tet+citrate+DAP)
- take 250ml of LB
- warm it up in the microwave for ~ 6min
- wait until you can handle the bottle for 2sec
- add 5ml of citrate 1M
- add 1.5ml of DAP
- add 250µL of tetracycline (stored in freezer at 1000x)
- spread the medium in about 10 petri dish
Making 10 petri dish (LB+erythromycin+citrate+DAP)
- take 250ml of LB
- warm it up in the microwave for ~ 6min
- wait until you can handle the bottle for 2sec
- add 5ml of citrate 1M
- add 1.5ml of DAP
- add 1.9mL of erythromycin (stored in the freezer at 133x)
- spread the medium in about 10 petri dish
Low Nitrogen Minimum Medium
The LNMM medium contains:
- 2g KH2PO4
- 1.18g succinic acid
- 0.1g NH4SO4
- 980mL H2O
- water adjudted to pH 7.0 with KOH
After autoclaving, 20mL of sterile MgSO4 2% (w/v) are added.
Solid media were prepared by the addition of 1.5% (w/v) agar-agar.
Culture were incubated at 30°C aerobic.
Nile Red
Sigma (N3013)
The dye is used at 0.5µg / mL medium. (liquid or solid).
- make a solution of 0.25mg Nile red / mL DMSO
- take 0.002 mL/mL medium from the previous solution (final concentration 0.5µg Nile Red/ mL medium).
This dye is excited by light around 450-500 nm and the emission light is > 528 nm (red). It can be exited around 515-560 and emission light is >590.
Chemical transformation
This protocol is based on the Invitrogen protocol (Subcloning Efficiency Competent cells). It uses DH5alpha E.coli strain chimically competent.
- Put 50µL bacteria into 1.5mL microcentrifuge tube and incubate within ice.
- Add 1-5µL (1-10ng) of DNA to the cells and mix gently (do not mix by pipetting up and down!)
- Incubate on ice for 30 minutes
- Heat shock cells for 20 seconds in a 42°C water bath without shaking
- Place tubes on ice for 2 minutes
- Add 950µL of pre-warmed medium of choice to each tube
- Incubate tubes at 37°C for one hour at 225rpm
- Spread 20 to 200µL from each transformation on pre-warmed selective plate.
- Store the remaining transformation reaction at 4°C
- Incubate plates overnight at 37°C
Glycerol Stock
- add 1mL of 40% glycerol into cryogenic tube
- add 1mL of overnight bacterial culture
- vortex gently
- stock at -80°C
Fluorescent single cells visualisation
Slide preparation
- Make LB-agarose : 0.15g of agarose in 10ml LB
- warm it up in the microwave (a lot!!, to avoid cristal of agarose that could remain in the gel => ugly over microscope)
- wash the slide (special slide with "two holes" with ethanol)
- put ~80µL of LB-agarose in each hole
- spread the gel with another slide and wait for ~2 min
- remove extra gel with a cutter
- put a droplet on the gel:
- if you have a solid culture:
- - pick up some colonies
- - suspend within 100µL liquid medium (M9)
- - put 1-2 µL on the gel
- if you have an avernight liquid culture:
- - take 1mL of the culture
- - centrifugate 1000 rpm 1 min
- - resuspend into 150 µL of medium (M9)
- - put 1-2 µL on the gel slide
- spread it by moving the slide
- wait until you don't see the droplet anymore (2min)
- put a coverslip and attach it with nailpolish
- optionally : you can put wax around
Turning on the microscope
- turn on : the light, the microscope, the shutter, the joystick
- launch Metamorph
- turn up the condenser and the objectives in load position
- !! take care : not keeping the light on if we doesn't use it
- !! do not switch on short after
- wait 5 min (the microscope is checking the ranges of movement
Visualisation
Preparation
- put a droplet of immersion oil on your slide, and attach it on the slide
- Journal >> Show task bar
- Task bar
- >> Trans ON/OFF: turn on the halogen lamp
- >> Binocular/Camera: turn on the binocular or the camera
- >> Choose the fiter
- Move up the objective until oil touches the slides
- Turn on the binocular with trans filter
- Move up the stage with micrometric "screw" until you see your cells, or something moving
- Acquire:
- - Digitizer (10MHz!!)
- - Image >> New !!! ( without this, each image you take will overwrite)
- - Settings >> (trans ou fluo; choice of exposure time)
- Turn on the camera (Task bar >> Camera)
Trans Image
- Turn trans light on (Task bar >> Trans ON) and trans filter
- Acquire >> 100ms trans
- Acquire >> Show Live
- Acquire >> Acquire: acquire the trans image
Fluo image
- Task bar >> fluo filter; trans OFFOFF)
- Acquire >> 1s fluo
- Acquire >> Acquire: acquire the fluo image
- Acquire your images, etc, have fun
- save your images in E:\iGEM\YYYY-MM-DD\a_proper_name
Turning off the microscope
- Turn off the software, the microscope and the differents machines
NB : Nile Red, choose mRFP1/Texas Red filter