Imperial/Wet Lab/Protocols/CBD1.3
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==Preparation of reactions== | ==Preparation of reactions== | ||
#First collect all equipment and reagents and ensure that the fluorometer and the PC connected has a data collection protocol installed. | #First collect all equipment and reagents and ensure that the fluorometer and the PC connected has a data collection protocol installed. | ||
- | #Place the | + | #Place the 96-well plates into the 37°C incubator. |
#For the cell extract, get the following out of the cell extract kit: | #For the cell extract, get the following out of the cell extract kit: | ||
#*A.A's from kits | #*A.A's from kits | ||
#*Premix tube | #*Premix tube | ||
#*S30 tubes | #*S30 tubes | ||
- | #To prepare the commercial E.coli Cell Extract, carry out the following | + | #To prepare the commercial E.coli Cell Extract, carry out the following procedure, two times:<br> |
##First prepare a complete amino acid mixture for the extract solution: Add the 25µl volume of two amino acid minus mixtures into an labeled eppendorf to give a volume of 50µl. Each amino acid minus mixture is missing one type of amino acid. | ##First prepare a complete amino acid mixture for the extract solution: Add the 25µl volume of two amino acid minus mixtures into an labeled eppendorf to give a volume of 50µl. Each amino acid minus mixture is missing one type of amino acid. | ||
##Take an eppendorf tube and add the 50µl of the E.coli complete amino acid mixture. | ##Take an eppendorf tube and add the 50µl of the E.coli complete amino acid mixture. | ||
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#Each cell extract will be used to test one of the constructs. Label the tubes, identifying which construct it will be used for. | #Each cell extract will be used to test one of the constructs. Label the tubes, identifying which construct it will be used for. | ||
#Incubate cell extract mixture for CBD in the 37°C incubator. | #Incubate cell extract mixture for CBD in the 37°C incubator. | ||
- | #Prepare the different DNA concentrations for pTet construct(concentration of pTet DNA = 500ng/µl): | + | #Prepare the different DNA concentrations for pTet construct (concentration of pTet DNA = 500ng/µl): |
##Concentration 1 = 1µg: Add 4µl of DNA in 36µl nuclease free water. | ##Concentration 1 = 1µg: Add 4µl of DNA in 36µl nuclease free water. | ||
##Concentration 2 = 2µg: Add 8µl of DNA in 32µl nuclease free water. | ##Concentration 2 = 2µg: Add 8µl of DNA in 32µl nuclease free water. | ||
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#Each file with the reading should be named as the following: | #Each file with the reading should be named as the following: | ||
#*construct-temp-time-date | #*construct-temp-time-date | ||
- | #Place the plate in the fluorometer to measure its initial | + | #Place the plate in the fluorometer to measure its initial fluorescence reading. |
#After the measurement, place the sticky tape across the plate, and put the plate in the 25oC water bath. | #After the measurement, place the sticky tape across the plate, and put the plate in the 25oC water bath. | ||
#Start on the next plate, and repeat procedures 2-6. | #Start on the next plate, and repeat procedures 2-6. |
Latest revision as of 02:33, 27 October 2007
Protocols for DNA concentration experiments
Experiments to be carried out are to determine the optimum concentration of the CBD construct, in-vitro, so that we get the highest level of protein expression after a period of 6hours. The construct to be tested is pTet-GFP.
The concentrations of DNA that will be tested are: 1, 2, 4 and 6µg. Samples will be kept at 37°C.
Aims
- To determine the concentration of pTet construct for which output is optimum, in terms of the reponse time and the output fluorescence at the end of the experiment time.
Equipment
- Fluorometer + PC
- 37°C incubator
- Fluorometer plate (black)
- Sticky seal tape
- Gilson pipettes 200, 20, 10
- Eppendorf Tubes x 7
- Stopwatch
- Foil
Reagents
- Commercial S30 E.coli extract. Including:
- 175µl Amino Acid Mixture Minus Cysteine, 1mM
- 175µl Amino Acid Mixture Minus Methionine, 1mM
- 175µl Amino Acid Mixture Minus Leucine, 1mM
- 450µl S30 Extract, Circular (3 × 150µl)
- 750µl S30 Premix Without Amino Acids
- Nuclease Free water x1ml
- DNA pTet-GFP from midiprep
Preparation of reactions
- First collect all equipment and reagents and ensure that the fluorometer and the PC connected has a data collection protocol installed.
- Place the 96-well plates into the 37°C incubator.
- For the cell extract, get the following out of the cell extract kit:
- A.A's from kits
- Premix tube
- S30 tubes
- To prepare the commercial E.coli Cell Extract, carry out the following procedure, two times:
- First prepare a complete amino acid mixture for the extract solution: Add the 25µl volume of two amino acid minus mixtures into an labeled eppendorf to give a volume of 50µl. Each amino acid minus mixture is missing one type of amino acid.
- Take an eppendorf tube and add the 50µl of the E.coli complete amino acid mixture.
- Add 200µl of S30 Premix (Without Amino Acid) into the eppendorf tube.
- Then add 150µl of S30 Extract Circular too.
- The final volume of cell extract is: 400µl
- Each cell extract will be used to test one of the constructs. Label the tubes, identifying which construct it will be used for.
- Incubate cell extract mixture for CBD in the 37°C incubator.
- Prepare the different DNA concentrations for pTet construct (concentration of pTet DNA = 500ng/µl):
- Concentration 1 = 1µg: Add 4µl of DNA in 36µl nuclease free water.
- Concentration 2 = 2µg: Add 8µl of DNA in 32µl nuclease free water.
- Concentration 3 = 4µg: Add 12µl of DNA in 28µl nuclease free water.
- Concentration 4 = 6µg: Add 16µl of DNA in 16µl nuclease free water.
- This will give a total volume of 40µl of each DNA concentration. Put each DNA into a seperate, labeled eppendorf tube and place them in the 37°C incubator.
Loading Plate
- Take the plate out of the incubation.
- Follow the schematic for the plate 1 (37°C incubator) and begin by loading 40µl of the in vitro expression system into the right wells.
- Tap down the top of the plate to bring down any solution to bottom of the well.
- Then add 20µl of purified DNA sample to each well, as indicated on the schematic. Be careful not to add to wells that DO NOT NEED DNA.
- Add 20µl of nuclease free water into the two negative control wells, as shown in the schematics.
- Put 60µl of water into some empty wells in the middle of each plate. These will be used to check for evaporation.
- After the DNA and the cell extract mixtures have been put into their respective wells, load the program on the PC to measure the fluorescence in the right wells.
- Create a file with name referring to the temperature of the plate, under: D:\IGEM\INSERT DATE\CBD\ OTR , for CBD construct. The data from the fluoreometer will be exported here.
- Each file with the reading should be named as the following:
- construct-temp-time-date
- Place the plate in the fluorometer to measure its initial fluorescence reading.
- After the measurement, place the sticky tape across the plate, and put the plate in the 25oC water bath.
- Start on the next plate, and repeat procedures 2-6.
- Place the plate in the 37oC incubator.
- Before placing them in the incubator, wrap aluminium foil around them to prevent photobleaching.
- Measure the temperature every 30 minutes for each temperature, for 6 hours.
Schematic
Plate 1
Well | Test Construct | Concentration of DNA | In vitro chassis |
---|---|---|---|
E5 | Nuclease Free Water (Negative control) | 0µg | Commercial E.coli extract |
E7 | Nuclease Free Water (Negative control) | 0µg | Commercial E.coli extract |
C3 | pTet-GFP | 1µg | Commercial E.coli extract |
C5 | pTet-GFP | 1µg | Commercial E.coli extract |
C7 | pTet-GFP (positive control) | 2µg | Commercial E.coli extract |
C9 | pTet-GFP (positive control) | 2µg | Commercial E.coli extract |
D4 | pTet-GFP | 4µg | Commercial E.coli extract |
D6 | pTet-GFP | 4µg | Commercial E.coli extract |
D8 | pTet-GFP | 6µg | Commercial E.coli extract |
D10 | pTet-GFP | 6µg | Commercial E.coli extract |