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Genetic Technologies. Mrs. Stewart Honors Biology. Standards:. TSW evaluate the scientific and ethical concerns surrounding DNA/genetic technologies Evaluate DNA fingerprinting, recombinant DNA technology and genetic engineering. Objectives :. Purpose of genetic technologies.
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Genetic Technologies Mrs. Stewart Honors Biology
Standards: • TSW evaluate the scientific and ethical concerns surrounding DNA/genetic technologies • Evaluate DNA fingerprinting, recombinant DNA technology and genetic engineering. Objectives:
Purpose of genetic technologies • Processing DNA from the scene of a crime • Improve food crops • Determine if a person “carries” the gene for a particular disorder • Determine if a person has the gene that will cause a particular disorder before symptoms begin • Identify the father of a child • Research treatments and cures for genetic diseases
DNA identification • Every person shares 99.9% of the same DNA. • .01% variations can be used to identify an individual
What is dna fingerprinting? • A technique used by scientists to distinguish between individuals by using the .01% variations in their DNA Non-coding regions of DNA contain repetitive sequences. Each person has a different number of these varying sequences. (VNTR = Variable Number Tandem Repeats)
Steps in DNA identification • Copy the DNA billions of times = PCR • Cut it with restriction enzymes • Sort the DNA using gel electrophoresis PCR animation Gel Electrophoresis Virtual Labs
Using Fragments to identify • Was the suspect at the crime scene?
Paternity testing • By comparing the DNA profile of a mother and her child, it is possible to identify the biological father.
Accuracy of DNA profiling • 13 different locations for VNTR are analyzed • The probability that 2 individuals (not identical twins) all the same VNTR is 1 in 100 billion • There are only ~6.5 billion people on the planet
Bacterial cell Protein Factories!! All they do is produce their proteins, each and every day!
How could we utilize this? • If we give the bacteria the gene sequence we desire, it will make the proteins we wish!
Recombinant dna • When DNA from two different organisms are joined
Other applications for recombinant Dna technology • Vaccines! • We can inject the protein from a virus without giving you the actual virus. • Example: The newest flu vaccines!
Human genome project • Began in early 90s. • By 2003, the sequencing was complete • Coded the entire human genome onto computers for analysis and study
What did we learn? • Only about 2% of our genome codes for proteins • The genome is smaller than we thought! • Estimated that we have 100,000 protein-coding genes • We actually have about 20-25,000 protein coding genes
How do we use the info? • Carrier screenings • Genetic diagnostic testing • Cancer and other genetic disorders research
Genetic engineering • Gene therapy • Cloning • Reproductive • Therapeutic • GM crops
Reproductive cloning • Creates an entire copy of an organism
Therapeutic cloning • Creates only a part of an organism – like an organ for transplantation
GM crops • Adding genes to plants to: • Make resistant to wee-controlling chemicals • Resistant to plants • Yield more crops because they are better protected
controversy • Pros • Higher crop yields • Help alleviate world hunger problems • Cons • What if resistance transfers to weeds? • Safe to eat? • Increase population size