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Collect Buccal Cells

Collect Buccal Cells. PCR Polymerase Chain Reaction DNA/gene amplification

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Page 1: Collect Buccal Cells. PCR Polymerase Chain Reaction DNA/gene amplification

Collect Buccal Cells

Page 2: Collect Buccal Cells. PCR Polymerase Chain Reaction DNA/gene amplification

PCR Polymerase Chain Reaction DNA/gene amplification

Page 3: Collect Buccal Cells. PCR Polymerase Chain Reaction DNA/gene amplification

Chromosome 8 and Alu element

Alu + form

Alu - form

Page 4: Collect Buccal Cells. PCR Polymerase Chain Reaction DNA/gene amplification

Preparing an Agarose Gel for Electrophoresis

Page 5: Collect Buccal Cells. PCR Polymerase Chain Reaction DNA/gene amplification

Reagents and Supplies for Gel Electrophoresis

Scale - for weighing agarose Spatula – for scooping agarose powder Flask or beaker - for melting agarose Graduated cylinder for measuring buffer Microwave or hot plate and large beaker to boil water Agarose Buffer Gel tray(s) and comb(s) Gel box(es) Power supply DNA Staining solution Photo doc. system

Page 6: Collect Buccal Cells. PCR Polymerase Chain Reaction DNA/gene amplification

Reagents and Supplies for Gel Electrophoresis Continued

Your DNA Sample Loading dye- for help with loading the gel DNA Ladder or Marker 20uL Pipettes Tips Gloves Waste container

Page 7: Collect Buccal Cells. PCR Polymerase Chain Reaction DNA/gene amplification

Terms

Agarose is a polysaccharide (carbohydrate) polymer material, generally extracted from seaweed.

Gel electrophoresis is a method that uses an electrical current and a gel matrix to separate molecules like DNA and proteins.

Buffer a solution containing either a weak acid and its salt or a weak base and its salt, which is resistant to changes in pH.

Page 8: Collect Buccal Cells. PCR Polymerase Chain Reaction DNA/gene amplification

Terms continued

Ethidium Bromide a fluorescent chemical that intercalates between base pairs in a double stranded DNA molecule. Commonly used to detect DNA following gel electrophoresis.

DNA Ladder consists of known DNA sizes used to determine the size of an unknown DNA sample. The DNA ladder usually contains regularly spaced sized samples which when run on an agarose gel looks like a "ladder".

Power Supply a source of electric current

Page 9: Collect Buccal Cells. PCR Polymerase Chain Reaction DNA/gene amplification

Percent (%) Solutions

Percent Weight/Volume (w/v) solutions are prepared by dissolving a solute usually a solid material into 100 mL of a solution such as water, buffer, DMSO, etc. Some solutes are not easily dissolved in solvents so you may need to stir, heat, sonicate or vortex the solution until it dissolves.

Other types of % solutions are Weight/Weight (W/W) and Volume/Volume (V/V) solutions

Page 10: Collect Buccal Cells. PCR Polymerase Chain Reaction DNA/gene amplification

Preparing a 2% W/V Agarose Gel

2% W/V agarose = 2 grams agarose dissolved in 100 milliliters (mL) of Buffer

For our purposes each gel tray requires 25 mLs of gel

To prepare 25 ml of a 2% agarose gel 2 grams = X grams 100mls 25 mls X = 0.5 grams agarose Weight 0.5 grams agarose and dissolve in 25 mls

buffer

Page 11: Collect Buccal Cells. PCR Polymerase Chain Reaction DNA/gene amplification

Directions for preparing and loading Gel

Weigh out amount of agarose, measure volume of buffer needed and place in flask or beaker

Microwave or use hot plate to dissolve agarose note: do not let melted agarose sit for too long, it will solidify in the

beaker! Place comb into casting tray, raise dams on both

ends of tray and pour gel into casting tray Allow gel to solidify While gel is solidifying add 4ul of loading dye to your

DNA in your PCR tube Pour buffer into gel box (~250 mL)

Page 12: Collect Buccal Cells. PCR Polymerase Chain Reaction DNA/gene amplification

Directions for preparing, loading and running Gel continued

After gel solidifies: Carefully remove comb from gel, put dams down on both ends

of the gel tray Place gel tray into gel box with buffer Load 10uL of the Marker usually in lane 1 of each gel and your

DNA sample 20uL per well. Once everyone has loaded their DNA sample plug red electrode to red and black electrode to black on power supply, make sure the power is turned off on power supply before connecting electrodes!

Adjust voltage to 125-135 volts allow gel to run at least 15 minutes, 30 minutes is ideal

Page 13: Collect Buccal Cells. PCR Polymerase Chain Reaction DNA/gene amplification

Directions continued

After gel has run for at least 15 minutes, turn off power supply

Unplug electrodes Place gel into tray and pour gel staining solution over

gel. The entire gel should be covered with solution Place tray on rocker for 15 to 30 minutes Take gel in tray to photodoc station Place gel on trans illuminator and take picture Record your genotype in your lab notebook

Page 14: Collect Buccal Cells. PCR Polymerase Chain Reaction DNA/gene amplification

Gel Electrophoresis

Page 15: Collect Buccal Cells. PCR Polymerase Chain Reaction DNA/gene amplification

Gel Electrophoresis

Page 16: Collect Buccal Cells. PCR Polymerase Chain Reaction DNA/gene amplification

Chromosome and Alu element

Alu + form

Alu - form

Page 17: Collect Buccal Cells. PCR Polymerase Chain Reaction DNA/gene amplification

Alu Alleleon Chomosome 8

# Genotypes Alu+ Alu-

Alu+/Alu+

Alu+/Alu-

Alu-/Alu-

Class Total:

Total Alu+ Alleles:

Total Alu- Alleles:

Total of both alleles: