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A modern tool for genetics testing, forensic science, and research. DNA Fingerprinting. Overview. DNA Fingerprinting is an applied genetic testing utility for issues in: Criminilistics (Forensic Science) Clinical Testing (Genetic disorders, cancer markers, and paternity)
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A modern tool for genetics testing, forensic science, and research. DNA Fingerprinting
Overview • DNA Fingerprinting is an applied genetic testing utility for issues in: • Criminilistics (Forensic Science) • Clinical Testing (Genetic disorders, cancer markers, and paternity) • Research (DNA purification and comparative analysis of DNA)
Process • DNA Extraction and Purification • DNA is retrieved for analysis. • Ensures that only DNA is being analyzed. • DNA Fingerprinting (Electrophoresis) • DNA is fragmented. • DNA fragments are separated by mass. • Samples of the same DNA have the same pattern on the agarose gel.
Extraction • Several steps are taken to retrieve the DNA and purify it. • The cell wall is destroyed and the plasma membrane is disrupted. • The nuclear envelope is disrupted. • Histones are broken to free the DNA. • Proteinaceous materials are salted out. • DNA is extracted and thus purified.
Step I – Bust up the Cell Walls • Place the DNA source (green peas) in the blender and add some water. • Liquefying will break the cell walls and disrupt plasma membranes.
Step II – Membrane Deterioration • Detergent will be added to disable the lipid interactions that create the plasma membrane and nuclear envelope. • The effect is much greater than the breaking of the cell wall for disruption. http://www.youtube.com/watch?v=Rl5EmUQdkuI&feature=related
Step III – Denaturing of Histones • DNA is wrapped into a histone/DNA complex that forms chromosomes. • Protease (protein hydrolyzing) enzymes are added to destroy the histones and free the DNA molecules. • The proteinaceous debris is then salted out of solution (normally). http://www.youtube.com/watch?v=RMZis3OlWFk
Step IV – DNA Retrieval • DNA is forced out of solution by adding isopropyl alcohol. • The white precipitate formed is the DNA from the cells. • It can now be used for analysis.
DNA Fingerprinting • DNA Fingerprinting is a genetics utility used to compare the variable number tandem repeats (VNTR) in the genetic code of an individual to a sample of another individuals genetic code. • Two methods: • PCR (Polymerase Chain Reaction) • Electrophoresis with Restriction Enzyme Treatment
Electrophoresis Method • We will use the electrophoresis method that uses a restriction enzyme on the VNTR genes. • There are five samples to compare with the sample collected at the crime scene.
How it Works • We lyophilate (re-hydrate) the lyophilized (freeze-dried) DNA samples. • We treat them with a restriction enzyme that chops up the VNTRs into different sized chunks depending on the genetic code of the individual. • This is done in an incubation at 37°C.
How it Works • Samples are then transferred to an agarose gel after being mixed with a dye. • The gel is subjected to electrophoresis which causes the different sized chunks to move opposite the electric field generated by the potential difference. • The gel is then stained and the bands are compared. The bands which line up the most are the ones which are the same DNA.
Note on the Gels • Not all gels have the same order of the bands. Therefore, you must compare the bands you see and note the ladder.
Acknowledgements • American Society for Biochemistry and Molecular Biology – UAN Outreach Award • James Ventrice – Genetics Lab Coordinator, Department of Biology • Dr. Dale Ensor and Dr. David Crouse – QUANT and Organic Lab Coordinators
Safety Orientation • Wear goggles at all times during the pea experiment. These will be provided. • Only touch those things that we tell you to for your own safety!