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Chapter 16 Gene Technology
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Focus of Chapter u An introduction to the methods and developments in: u Recombinant DNA u Genetic Engineering u Biotechnology
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Methods to Know 1. Bacteria Transformation 2. Restriction Enzymes 3. cDNA 4. DNA Sequencing 5. PCR 6. RFLP
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Recombinant DNA u DNA in which genes from different sources are linked. u Ex: the “green” mice
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Genetic Engineering u The direct manipulation of genes for practical purposes. u Ex: Using E. coli to produce human insulin.
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Biotechnology u The use of living organisms or their components to perform practical tasks. u Ex: the use of bacteria to digest oil spills.
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Plasmids u Used extensively in Biotechnology and Recombinant DNA. u Serve as a “vehicle” for transporting genes.
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Steps for Plasmid Use 1. Get the DNA for the trait. 2. Insert DNA into the plasmid. 3. Bacterial Transformation. 4. Identification of the new trait.
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Restrictive Enzymes u Cut DNA at specific nucleotide sequences called “restriction sites”. u Used to "cut and splice" DNA. u Obtained from bacteria. u Ex. EcoRI and Hind III
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Insertion u Placing foreign DNA into a plasmid. u Open plasmid with enzymes to create “sticky ends”. u Splice the new DNA and plasmid together.
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Transformation u Placing the plasmid into a bacterial cell. u Reminder - our lab.
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Methods u Temperature shock & salt treatment u Electric current u Injection
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Identification u Screening the altered cells for the desired gene. u Ex: Antibiotic sensitivity or the expression of a “new” trait (color, glowing etc.).
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Example Applications 1. Insulin 2. Human Growth Hormone 3. Other Proteins
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Comment u Gene can’t be above a certain size or a plasmid won’t work. Use other tools like YACS and BACS (artificial chromosomes). u mRNA must not need splicing to remove introns.
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DNA Sources 1. Organism - use a section of their chromosome. 2. cDNA - Complementary DNA - created copy of DNA from the mRNA transcript to avoid introns. Uses reverse transcriptase.
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DNA Sequencing: Sanger Method u Uses dideoxynucleotides. u Build new DNA from single strand DNA.
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DNA Sequencers
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Application u DNA sequence is read base by base. u By sequencing overlapping pieces of chromosomes, the entire genome of an organism can be read. (chromosome walking)
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PCR u Polymerase Chain Reaction u Method for making many copies of a specific segment of DNA. u Also called “DNA Amplification”.
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PCR - Method 1. Separate strands by heating (denature the DNA). 2. Cool slightly. 3. Build new strand from primers and nucleotides. 4. Repeat.
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Importance - PCR u Can amplify any DNA with as little as one original copy. u Very useful in a variety of techniques and tests.
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RFLP Analysis u Restriction Fragment Length Polymorphisms. u Method for detecting minor differences in DNA structure between individuals. u Common in DNA fingerprinting
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Method 1. Digest DNA with restrictive enzymes. 2. Separate pieces by Gel Electrophoresis 3. Identify sequences with probes.
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Result u Patterns of DNA markers or DNA fingerprint u Markers are inherited in a Mendelian pattern and can show relationshiops (Pedigree studies).
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DNA Technology: Applications 1. Basic Research 2. Medical 3. Forensics 4. Agricultural
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Basic Research 1. DNA and protein studies 2. Evolution 3. Gene structure and control mechanisms.
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Medical Uses 1. Diagnosis of Diseases 2. Gene Therapy 3. Vaccines 4. Pharmaceutical Products
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DNA Microarray
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Forensic Uses u DNA fingerprints for crime solving – used in every TV crime show u DNA identification records – standard for the military
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Comments u Links suspect bodily to the crime scene, but doesn’t prove they committed the crime. u Results take MUCH longer than on TV shows. u Analysis of old evidence is reversing some sentences.
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Agricultural Uses 1. Animals u Increased milk production u Increased feed utilization u Increased meat production
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Injecting DNA into egg
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PharmAnimals
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Agricultural Uses 2. Plants u Herbicide resistance u Retard spoilage of fruits u Insect resistance – BT corn u Nitrogen-Fixation ability
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Golden Rice
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Genetically Modified Organism or GMO u Produced by direct genetic manipulation, not traditional breeding practices. u FDA just approved sale of GMO animal products for human consumption. u Bioethics concerns
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Future Of DNA Technology u Cloning of higher animals. u Stem Cells - growth of replacement tissues and organs. u Gene therapy to correct DNA defects. u?u?
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Gene Therapy
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Summary u Know the basics of some of the DNA technology techniques. u Know: u Bacterial transformation lab u How Gel electrophoresis works u Restriction enzymes
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Summary u Watch the news for DNA technology discoveries. Be able to discuss one recent event.
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