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DNA Technology Techniques in DNA technology Restriction enzymes Gel electrophoresis PCR – polymerase chain reaction Recombinant DNA SCI.9-12.B-4.9 - [Indicator] Exemplify ways that introduce new genetic characteristics into an organism or a population by applying the principles of modern genetics. Chemical treatments cause cells and nuclei to burst The DNA is inherently sticky, and can be pulled out of the mixture This is called “spooling” DNA DNA Extraction “Spooled” DNA Cutting DNA Restriction enzymes cut DNA at specific sequences Useful to divide DNA into manageable fragments Electrophoresis DNA can be separated based on size and charge The phosphate groups are negatively charged DNA is placed in a gel and electricity is run through Negative DNA moves toward the positive end Smaller fragments move farther and faster Electrophoresis Electrophoresis Copying DNA Polymerase Chain Reaction Also called PCR A method of making many copies of a piece of DNA SCI.9-12.B-4.9 - [Indicator] - Exemplify ways that introduce new genetic characteristics into an organism or a population by applying the principles of modern genetics. • A DNA molecule is placed in a small test tube • DNA polymerase that can work at high temps is added Steps in Copying DNA Steps in Copying DNA The DNA is heated to separate the two strands Primers, short pieces of DNA complementary to the ends of the molecule to be copied, are added • The tube is cooled, and DNA polymerase adds new bases to the separated strands Copying DNA PCR Large amounts of DNA can be made from a small starting sample Genetic Engineers can alter the DNA code of living organisms. Selective Breeding Recombinant DNA PCR Gel Electrophoresis Transgenic Organisms Genetic Engineering Breed only those plants or animals with desirable traits People have been using selective breeding for 1000’s of years with farm crops and domesticated animals. Selective Breeding The ability to combine the DNA of one organism with the DNA of another organism. Recombinant DNA technology was first used in the 1970’s with bacteria. Recombinant DNA 1. Remove bacterial DNA (plasmid). 2. Cut the Bacterial DNA with “restriction enzymes”. 3. Cut the DNA from another organism with “restriction enzymes”. 4. Combine the cut pieces of DNA together with another enzyme and insert them into bacteria. 5. Reproduce the recombinant bacteria. 6. The foreign genes will be expressed in the bacteria. Recombinant Bacteria 1. Bacteria can make human insulin or human growth hormone. 2. Bacteria can be engineered to “eat” oil spills. Benefits of Recombinant Bacteria The DNA of plants and animals can also be altered. PLANTS 1. 2. 3. disease-resistant and insectresistant crops Hardier fruit 70-75% of food in supermarket is genetically modified. 1.Create recombinant bacteria with desired gene. 2. Allow the bacteria to “infect" the plant cells. 3. Desired gene is inserted into plant chromosomes. How to Create a Genetically Modified Plant What do you think about eating genetically modified foods? TRANSGENIC ANIMALS 1. Mice – used to study human immune system 2. Chickens – more resistant to infections 3. Cows – increase milk supply and leaner meat 4. Goats, sheep and pigs – produce human proteins in their milk Genetically modified organisms are called transgenic organisms. Transgenic Goat Human DNA in a Goat Cell . This goat contains a human gene that codes for a blood clotting agent. The blood clotting agent can be harvested in the goat’s milk. Desired DNA is added to an egg cell. How to Create a Transgenic Animal PCR Polymerase chain reaction This process makes millions of copies of DNA to use in DNA fingerprinting. If a single hair is found at a crime scene, there is not enough DNA for fingerprinting. So, you take the DNA from the hair, put it into the PCR machine and you get lots of DNA to run tests on. Gel Electrophoresis Gel electrophoresis is a commonly used method of separating molecules based on their charge, size, and shape. It is especially useful in separating charged molecules of DNA and RNA. [When an electric current is applied to the gel, negatively charged molecules move toward the positive end, and positively charged molecules move toward the negative end.] The charge, size, and shape of a particular molecule all affect the rate at which a molecule moves through the gel. DNA Fingerprinting 1. 2. You first must have enough DNA to run a fingerprint. PCR or polymerase chain reaction is used to make enough DNA. The DNA is then cut with restriction enzymes. The more enzymes you use, the more accurate the results. 3. After the DNA is cut into small pieces, it is separated on a gel. The gel is sometimes made of agarose. The DNA is put into little holes in the gel called wells. 4. The gel is put into a electrophoresis chamber. A liquid buffer is poured over the gel and the electricity is turned on. 5. The electricity is turned on and the DNA fragments separate from each other. The largest fragments are too heavy to be carried far and the smallest fragments are carried closer to the other end. Is the other end positively or negatively charged?