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Published byDamon Ford Modified over 6 years ago
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Must first identify the genome of the organism= all genes within the species
Human Genome Project: 1990’s- Thought there were 100,000 genes. Only found 30,000.
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Cloning Pieces of desired plant placed
into growth medium: vegetative propagation -Food Supply (Salmon, fruits, veggies, corn) Somatic cell nuclear transfer
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Stem Cell Undifferentiated cells (early development) can “switch” on DNA and “tell” cell what to be. May be a cure for Parkinson’s, “growing” organs, tissues for burn treatment, paralysis Controversial 2types: adult and embryonic
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Gene Therapy Treat genetic disorder by replacing “bad” gene with a “good” one. Designing medications specific to a person’s genetic code Could cure: Hemophilia, Cystic Fibrosis, Muscular Dystrophy, Sickle Cell
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Using molecular genetics for practical purposes
Genetic Technology Using molecular genetics for practical purposes
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PCR: Polymerase Chain Reaction
In past genetic tests on small samples used up most or all of the DNA Makes many copies of small amounts of DNA for testing.
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DNA Profiling Use to be called DNA Fingerprinting
Using genetic code markers to identify people Used for paternity tests and test DNA found at crime scenes. Gel electrophoresis- Bar code of genetic markers.
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1970: Bacteria E. coli makes ENDONUCLEASES (enzymes) Cuts viral DNA in the same place EVERYTIME. “Sticky Ends” Results are: smaller pieces of DNA, some the same size GAATTC CTTAAG
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Paternity Forensics
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Recombinant DNA Most promising for curing disorders.
Making human proteins using bacteria: - Insulin: treatment of diabetes - Clotting Factor: hemophilia - HGH: height disorders Combines genes that code for human proteins with the plasmid DNA of bacteria E.coli…which now synthesizes the human protein Possible because of special restriction enzymes that always cut the DNA in the same place.
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BACTERIA IS NOW A TRANSGENETIC ORGANISM
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GMOs (or “genetically modified organisms”) are living organisms whose genetic material has been artificially manipulated in a laboratory through genetic engineering, or GE. This relatively new science creates combinations of plant, animal, bacteria and viral genes that do not occur in nature or through traditional crossbreeding methods. Virtually all commercial GMOs are engineered to withstand direct application of herbicide and/or to produce an insecticide. GMO’s
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CRISPR technology is a simple yet powerful tool for editing genomes.
It allows researchers to easily alter DNA sequences and modify gene function. Its many potential applications include correcting genetic defects, treating and preventing the spread of diseases and improving crops. However, its promise also raises ethical concerns. CRISPR Technology Clusters of Regularly Interspaced Short Palindromic Repeats
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