Lab 9. Human Mitochondrial Analysis using PCR and ElectrophoresisOverview of the Procedure (page 6)Genetic Map of mtDNAPCR—Polymerase Chain ReactionSlide 5Gel ElectrophoresisGel electrophoresis of macromoleculesThe Process of DNA ElectrophoresisStep 2. Pouring the GelStep 3. Loading the GelStep 4. Running the GelStep 5. Visualization of the DNA FragmentsLab 9. Human Mitochondrial Analysis using PCR and ElectrophoresisMajor Goals of this Experiment•Isolate mitochondrial DNA (mtDNA) from cheek cells and amplify two separate regions of the mtDNA using the polymerase chain reaction (PCR). •Following PCR, use electrophoresis to separate and determine the size of the PCR amplified mtDNA fragments•Compare DNA polymorphisms between individuals in the class•Understand the structure and function of mitochondriaOverview of the Procedure (page 6)Day 1 Activities (Monday 11/30/09)•Module I: Isolation of mtDNA from human hair follicles or cheek cells: Pages 7 - 8•Module II: Amplification of two regions of mtDNA by PCR: Pages 9 - 10Day 2 Activities (Tuesday 12/01/09) •Module III: Separation of PCR amplified mtDNA regions by Electrophoresis: pages 11 - 14Day 3 Activities (Friday 12/04/09)•Module IV: Stain Gels and Visualization of the PCR amplified mtDNA regions: Page 15•Size Determination of the of the PCR amplified mtDNA regions—done at home: Page 16PCR Productsmt DNA—a circular chromosome!•16,569 base pairs • 37 genes that encode forETC complex proteinsMitochondrial ribosomal RNAATP Synthase•The D-loop Varies greatly between individuals Can be sequenced to demonstrate variations.Cannot be used to conclusively link suspects to crime scenesUsed to include or exclude suspects for further scrutiny.Genetic Map of mtDNA0 / 16569 bp 12360 bp9199 bp8278 bpFig. 3 (page 2). Genetic Map of mtDNA11688 bpPCR—Polymerase Chain Reaction 1. Quick, easy, automated method to make copies of a specific segment of DNA2. What’s needed…. •DNA primers that “bracket” the desired sequence to be cloned•Heat-resistant DNA polymerase•DNA nucleotidesPCRPolymerase Chain Reaction(page 5) Three cycles of the polymerase chain reactionGel Electrophoresis 1. A method of separating mixtures of large molecules (e.g. proteins and DNA & RNA fragments) on the basis of molecular size and charge. 2. How it’s done…•An electric current is passed through a gel containing the mixture•The each molecule travels through the gel is inversely related to its size and electrical charge: Rate  1 / size & charge•Agarose and polyacrylamide gels are the media commonly used for electrophoresis of proteins and nucleic acids.Gel electrophoresis of macromoleculesThe Process of DNA ElectrophoresisStep 1 Prepare a tray to hold the gelStep 2. Pouring the GelA "gel comb" is used to create “wells” (holes in the gel to hold the mixture of DNA fragments.Step 2. Pouring the Gela. The gel comb is placed in the tray.b. Agarose powder is mixed with a buffer solution, The solution is heated until the agarose is dissolved—like making Jelloc. The hot agarose solution is poured into the tray and allowed to cool.d. After the gel is cooled and solidified, the comb is removed and the gel tray is placed in an electrophoresis chamber.Step 3. Loading the Gela. Fill electrophoresis chamber with buffer, covering the gel to allow electrical current from poles at either end of the gel to flow through the gel.b. DNA samples are mixed with a "loading dye". c. The loading dye allows you to see the DNA as you load it and contains glycerol to make the DNA sample dense so that it will sink to the bottom of the well.a. A safety cover is placed over the gel (to keep you from frying yourself) and electrodes are attached to a power supply. High voltage is applied.b. DNA fragments migrate through the gel at various rates, depending on their size and c. When the loading dye reaches the end of the gel, the current is turned off, the gel removed from the try and then developed to see the DNA fragmentsStep 4. Running the GelStain gel with dye that binds to DNAa. Methylene blue (safe) •Time consuming•Poor resolution•View with naked eyeb. Ethidium Bromide (carcinogen)•Fast + high resolution•View under UV-light•Take Polaroid pictureStep 5. Visualization of the DNA