Team:Alberta/Protocols
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- | The following procedure is to be used to find values related to diffusion. All time values should be converted to seconds, from when the antibiotic was plated, and all distance values should be recorded in centimeters, from the edge of the well to the first sign of life at the edge of the “kill zone”. | + | The following procedure is to be used to find values related to diffusion. All time values should be converted to seconds, from when the antibiotic was plated, and all distance values should be recorded in centimeters, from the edge of the well to the first sign of life at the edge of the “kill zone”. Ensure that all materials are sterile before starting. |
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- | <li> | + | <li>Inoculate cells into culture tube containing 5 mL LB medium |
<li>Shake overnight at 37°C | <li>Shake overnight at 37°C | ||
- | <li> | + | <li>Plate 200 µL of culture on separate LB plates |
<li>Incubate overnight at 37°C | <li>Incubate overnight at 37°C | ||
<li>Add 1.5 mL of 50 µM CaCl<sub>2</sub> into microcentrifuge tube | <li>Add 1.5 mL of 50 µM CaCl<sub>2</sub> into microcentrifuge tube | ||
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- | <li> | + | <li>Inoculate cells into two culture tubes, each with 5 mL LB medium (one culture tube may be used if large enough for aeration) |
<li>Shake overnight at 37°C | <li>Shake overnight at 37°C | ||
<li>Add both cultures to a flask containing 250 mL LB medium | <li>Add both cultures to a flask containing 250 mL LB medium | ||
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<li>Incubate in shaker at 37°C for a minimum of 12 hours | <li>Incubate in shaker at 37°C for a minimum of 12 hours | ||
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- | PCR (50 | + | PCR (50 µL reaction) |
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- | <li>Create a working stock (5 ng/µL) of template DNA, and add 1 | + | <li>Create a working stock (5 ng/µL) of template DNA, and add 1 µL to PCR tube |
- | <li>Add 2.5 | + | <li>Add 2.5 µL each of 10 µM forward and reverse primers to PCR tube |
- | <li>Add 1 | + | <li>Add 1 µL of 25 µM dNTPs |
- | <li>Add 10 | + | <li>Add 10 µL of 5X HF Phusion buffer, along with 0.5 µL Phusion enzyme |
- | <li>Adjust final tube volume to 50 | + | <li>Adjust final tube volume to 50 µL with highly purified water |
<li>Try to minimize bubble formation, as this can hinder Phusion from functioning optimally | <li>Try to minimize bubble formation, as this can hinder Phusion from functioning optimally | ||
<li>Set the PCR machine with appropriate denature, annealing, and extension temperatures, as well as appropriate durations and cycles | <li>Set the PCR machine with appropriate denature, annealing, and extension temperatures, as well as appropriate durations and cycles | ||
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<li>Create a 1 L 1X TAE buffer | <li>Create a 1 L 1X TAE buffer | ||
<li>Mix 100 mL of 1X TAE buffer with 1 g of agarose to create gel mixture | <li>Mix 100 mL of 1X TAE buffer with 1 g of agarose to create gel mixture | ||
- | <li>Microwave for 45 | + | <li>Microwave for 45 seconds, or until solution turns transparent and no agarose is visible |
<li>Let solution cool down until comfortable to touch, and pour exactly 16 mL onto a 7.7x6.5 cm glass plate | <li>Let solution cool down until comfortable to touch, and pour exactly 16 mL onto a 7.7x6.5 cm glass plate | ||
<li>Ensure that gel mixture spreads evenly and covers entire plate without touching the ground | <li>Ensure that gel mixture spreads evenly and covers entire plate without touching the ground | ||
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<li>Create loading solutions of DNA and loading dye, then insert into gel lanes alongside the DNA ladder | <li>Create loading solutions of DNA and loading dye, then insert into gel lanes alongside the DNA ladder | ||
<li>Run gel using 150 V, then turn off machine when DNA bands reach 2 cm from end (~20 minutes) | <li>Run gel using 150 V, then turn off machine when DNA bands reach 2 cm from end (~20 minutes) | ||
- | <li> | + | <li>Make an ethidium bromide solution with 2.5 µL ethidium bromide and 50 mL 1X TAE |
- | <li>Remove the gel from the plate, and transfer only gel to | + | <li>Remove the gel from the plate, and transfer only gel to ethidium bromide solution |
- | <li>After soaking gel for 10 minutes, view banding patterns using | + | <li>After soaking gel for 10 minutes, view banding patterns using UV machine |
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Latest revision as of 04:16, 21 September 2012
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The following procedure is to be used to find values related to diffusion. All time values should be converted to seconds, from when the antibiotic was plated, and all distance values should be recorded in centimeters, from the edge of the well to the first sign of life at the edge of the “kill zone”. Ensure that all materials are sterile before starting.
- Draw a central cross on the lid of a Petri dish
- Sterilize a tall cylindrical magnet of a height near, but not at the depth of the plate (a well that reaches the bottom of the plate will allow the antibiotic in question to seep under the agar rather than diffuse through it) and radius 0.25 cm. Place the sterilized magnet on the inside of the Petri dish lid and, from outside the lid, adjust and secure the sterilized magnet with another magnet.
- Melt and pipette 25 mL of LB agar into the Petri dish, and place the lid on top, allowing the magnet to rest in the molten agar. Let agar rest until solid and cool, then remove the cap and allow the surface to dry until it is free of excess moisture.
Steps 4 and 5 may be completed in any desired order, depending on the approximate amount of time the substance is meant to diffuse for.
- Pipette 50 µL of antibiotic (at a concentration high above the minimum inhibitory concentration) into the centre well. Be careful not to spill. Immediately place the plate in a 37ºC incubator.
- Evenly plate 200 µL of cells with a resistance to the antibiotic over the flat surface of the plate. Immediately place the plate in a 37ºC incubator.
- Begin watching for results within 2 hours of plating. These will come in the form of a slight difference in texture between the zone in which cells are growing, and the zone in which they are not. It will be very subtle, and may need to be observed by shining light through the agar, or placing the plate on a black backdrop. As soon as it is observed, the radius of the zone must be measured from the edge of the well. The zone may expand. Continue recording the size and time until it stops changing.
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The protocols described below were used to create competent cells of Top10 and TG-1 Escherichia coli strains. The Calcium Chloride protocol uses less steps, is easier to perform, and produces competent cells faster than the Liquid Nitrogen procedure. However, we found that the competence efficiency was higher using the Liquid Nitrogen protocol.
Calcium chloride
Liquid Nitrogen
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The following protocol is taken from the instructions provided by Qiagen’s QIAprep Spin Miniprep Kit. We changed the rpm of centrifuge from 13,000 to 14,000, and used a vacuum apparatus for select steps, instead of centrifuge.
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Refer to Chemically-induced Competence for making competent cells.
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