Gel electophoresis and PCR purification: Difference between revisions
No edit summary |
|||
Line 1: | Line 1: | ||
== '''Pouring Gels''' == | |||
We need to check how well our assembly worked by running our PCR products (and controls) on an agarose gel to verify whether we have assembled a significant amount of the full-length gene. Remember, your positive controls should each produce a DNA product and your negative controls should not produce a DNA product. | |||
1. Weigh out 0.5 g of agarose on a piece of weigh paper. Transfer to an Erlenmeyer flask. Add 50 ml of 1X TAE.<br> | |||
2. Place the flask in the microwave and heat until the agarose is completely transparent and colorless. <br> | |||
3. Allow the agarose to cool -this will take about 10 min. <br> | |||
4. While the agarose is cooling, place the gel tray into the gel box and add the comb.<br> | |||
5. When the agarose is cool, add 1 ul of Gel Red to the melted agarose.<br> | |||
6. Swirl the agarose to incorporate the Gel Red and pour the agarose into the gel tray.<br> | |||
7. Allow the gel to solidify for 15-20 minutes. During this time, prepare your samples (below).<br> | |||
== '''Gel electrophoresis''' == | == '''Gel electrophoresis''' == | ||
'''Preparing your samples:''' | '''Preparing your samples:''' | ||
1. Gather your finish PCR products from last session. Transfer each to a 1.7 ml microcentrifuge tube and label each tube with your initials and either “GFP gene”, “F-PCR PC”, or “F-PCR NC. Obtain your templateless PCR controls that have been stored in the fridge.<br> | |||
1.Gather your finish PCR products from last session. Transfer each to a 1.7 ml microcentrifuge tube and label each tube with your initials and either “F-PCR PC”, “F-PCR | 2. Obtain 5 microcentrifuge tubes and label with numbers 1-5.<br> | ||
2.Obtain 5 microcentrifuge tubes and label with numbers 1-5. <br> | 3. To each tube, add 5 ul of water.<br> | ||
3.To each tube, add 5 ul of water.<br> | 4. To each tube, add 2 ul of 6X DNA loading dye.<br> | ||
4.To each tube, add 2 ul of 6X DNA loading dye.<br> | 5. To each tube, add 5 ul of the appropriate PCR product:<br> | ||
5.To each tube, add 5 ul of the appropriate PCR product:<br> | #T-PCR PC<br> | ||
#T-PCR NC<br> | |||
#F-PCR PC<br> | |||
#F-PCR NC<br> | |||
#GFP gene<br> | |||
'''Running a Gel:''' | '''Running a Gel:''' | ||
1. Into lanes 1-5, load 11 ul of each of your PCR products (mixed with water and dye).<br> | |||
1. Into lanes 1-5, load 11 ul of each of your PCR products (mixed with water and dye).<br> | 2. Into lane 6, load 5 ul of the DNA ladder (this is premixed with water and dye).<br> | ||
2. Into lane 6, load 5 ul of the DNA ladder.<br> | 3. Place the lid with electrodes onto the gel box, and set voltage to 100V. <br> | ||
3. Place the lid with electrodes onto the gel box, and set voltage to 100V. <br> | 4. Run gel approximately 30 minutes or until the dye is 2/3 of the way down the gel, then take a picture.<br> | ||
4. Run gel approximately 30 minutes or until the dye is 2/3 of the way down the gel, then take a picture.<br> | 5. When done, you want to check that:<br> | ||
5. When done, you want to check that:<br> | *There are no DNA bands in either of the NC lanes of the gel (lanes 2 and 4).<br> | ||
*There are no DNA bands in either of the NC lanes of the gel | *There are DNA bands in the PC lanes of the gel (lanes 1 and 3). These should be ~750 base pairs in length. Size can be estimated by comparing the migration of the DNA band with the DNA bands of the DNA ladder; the sizes of the DNA products on the reference ladder are pictured below.<br> | ||
*There are DNA bands in the PC lanes of the gel. These should be ~ | *The GFP gene has assembled and amplified. There should be a DNA band of ~750 base pairs in that lane of the gel (lane 5).<br> | ||
*The GFP gene has assembled and amplified. There should be a DNA band of ~750 base pairs in that lane of the gel | |||
Revision as of 07:46, 9 July 2014
Pouring Gels
We need to check how well our assembly worked by running our PCR products (and controls) on an agarose gel to verify whether we have assembled a significant amount of the full-length gene. Remember, your positive controls should each produce a DNA product and your negative controls should not produce a DNA product.
1. Weigh out 0.5 g of agarose on a piece of weigh paper. Transfer to an Erlenmeyer flask. Add 50 ml of 1X TAE.
2. Place the flask in the microwave and heat until the agarose is completely transparent and colorless.
3. Allow the agarose to cool -this will take about 10 min.
4. While the agarose is cooling, place the gel tray into the gel box and add the comb.
5. When the agarose is cool, add 1 ul of Gel Red to the melted agarose.
6. Swirl the agarose to incorporate the Gel Red and pour the agarose into the gel tray.
7. Allow the gel to solidify for 15-20 minutes. During this time, prepare your samples (below).
Gel electrophoresis
Preparing your samples:
1. Gather your finish PCR products from last session. Transfer each to a 1.7 ml microcentrifuge tube and label each tube with your initials and either “GFP gene”, “F-PCR PC”, or “F-PCR NC. Obtain your templateless PCR controls that have been stored in the fridge.
2. Obtain 5 microcentrifuge tubes and label with numbers 1-5.
3. To each tube, add 5 ul of water.
4. To each tube, add 2 ul of 6X DNA loading dye.
5. To each tube, add 5 ul of the appropriate PCR product:
- T-PCR PC
- T-PCR NC
- F-PCR PC
- F-PCR NC
- GFP gene
Running a Gel:
1. Into lanes 1-5, load 11 ul of each of your PCR products (mixed with water and dye).
2. Into lane 6, load 5 ul of the DNA ladder (this is premixed with water and dye).
3. Place the lid with electrodes onto the gel box, and set voltage to 100V.
4. Run gel approximately 30 minutes or until the dye is 2/3 of the way down the gel, then take a picture.
5. When done, you want to check that:
- There are no DNA bands in either of the NC lanes of the gel (lanes 2 and 4).
- There are DNA bands in the PC lanes of the gel (lanes 1 and 3). These should be ~750 base pairs in length. Size can be estimated by comparing the migration of the DNA band with the DNA bands of the DNA ladder; the sizes of the DNA products on the reference ladder are pictured below.
- The GFP gene has assembled and amplified. There should be a DNA band of ~750 base pairs in that lane of the gel (lane 5).