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13-1 DNA Technology

13-1 DNA Technology. Building better tomatoes. Objectives. Define genetic engineering Explain how restriction enzymes can be used to make recombinant DNA Explain how cloning vectors can be used to clone and transfer genes. List steps in a gene transfer experiment.

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13-1 DNA Technology

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  1. 13-1 DNA Technology Building better tomatoes

  2. Objectives • Define genetic engineering • Explain how restriction enzymes can be used to make recombinant DNA • Explain how cloning vectors can be used to clone and transfer genes. • List steps in a gene transfer experiment

  3. Genetic engineering History • The name is new, the practice is not. • Plants and animals have been bred for thousands of years. • Human breeding has also been done now and then. • All of this has worked by trying to enhance desired characteristics, without knowing how they are transmitted.

  4. Why bother? • Designing plants & animals “from scratch” • This is not going to happen anytime soon • Transgenic Engineering • Putting genetic information from one type of plant or animal into another • Cloning • Making genetic copies of an existing plant or animal • Let’s look at the latter two of these. Transgenic pigs have jellyfish genes that make them glow in the dark. Really

  5. An organism is called “transgenic” if it has genetic information added to it from a different type of organism. • A.K.A. Genetically Modified Organism (GMO) • Viruses do something of this sort when they infect plants, animals or humans. • Humans have begun to do this with plants and animals.

  6. Transgenic Plants • This is the work that is furthest along: • Corn with its own insecticide • Soybeans & cotton resistant to herbicides • Papayas resistant to viruses • Transgenic crops are being grown in the Americas, South Africa, Europe, Australia and China Papaya’s also called pawpaws Edible, slightly spicy seeds A folk contraceptive

  7. Transgenic Animals  • The work is less advanced here. • Human genes have been inserted into: • Bacteria • Mice • To produce various human proteins for treating diseases. • Cows with increased milk production

  8. Biosteel: Goats with spider silk gene • Spider silk is amazingly strong • The gene for it is put in goats • The goat’s milk contains these super strong fibers that can make bullet proof vests

  9. Advantages of Transgenic Engineering  Better cotton plants • Plants: • More disease-resistant • Larger yields • More transportable • More nutritious • Animals: • Make proteins for medicinal purposes • Make organs for transplant to humans

  10. Concerns about  Transgenic Engineering  Not real • Plants: • Are they safe to eat? • Will they harm wildlife? • Will some become super-pest weeds? • Replace or contaminate natural plants? • Animals: • Will they be harmful? • Replace or contaminate natural animals?

  11. Cloning • A “clone” is a copy of something. • Computers that mimic IBMs are called “clones.” • In genetics, a clone is a genetic copy of another organism. • Clones occur naturally: • Asexual breeding in plants & lower animals • Identical twins (triplets) in higher animals Lohan clones

  12. History  of Cloning • For centuries it has been known that simple animals – worms & starfish – can be cloned by cutting them in half. • This doesn’t work for higher animals! • Part of the problem is cell specialization: • Nerve • Bone • Muscle, etc.

  13. Cloning in the  20th Century • We now realize that each specialized cell has all the genetic information, but much of it is turned off. • Problem – how to reset the “program” so this information is usable? • Cloning of frogs successful in 1950s • Cloning of livestock from fetal cells in 1970s

  14. Dolly - 1996  • Clone from an adult sheep cell by Scots researchers under Ian Wilmut • Had only one success in 300 tries. • Dolly grew to maturity, and successfully had a lamb by natural means in 1998. • But Dolly seems to be prematurely old.

  15. Cloning since Dolly  • Cloning of this sort has now been done on cattle, pigs and mice also. • The success rate has improved considerably. • Cloning humans begins to show up in science fiction in 1970s. • This is now a realistic possibility.

  16. Advantages of Cloning  • With an adult plant or animal, the breeder knows what its traits are; this is not the case with fetal cell cloning. • Cloning allows making a genetically identical copy of the desired plant or animal.

  17. Concerns re/ Cloning  • The success rate from adult animal cells is still rather low. • This would be unacceptable for cloning humans in most societies. • The evidence suggests that the clones which survive are still not right. • The genetic program has probably not been completely reset. • We still don’t understand what we are doing in cloning from adult cells.

  18. Restriction enzymes • These enzymes go along DNA and recognize a specific stretch of nucleotides • They cut the DNA apart there • Since the two sides of DNA are mirrors of each other the cut doesn’t go straight across • You get “sticky ends” • These can re-bond to make new DNA strands

  19. Cloning vectors • Restriction enzymes cut out a gene • Then cloning vectors carry genes between organisms • Plasmids are little rings of DNA that do this • They’re in Bacteria • Bacteria grow fast and easy

  20. Recombinant DNA • an artificial DNA sequence resulting from the combining of two other DNA sequences in a plasmid. • Plasmids are little chunks of DNA that copy themselves. • Recombinant proteins are proteins that are produced by different genetically modified organisms following insertion of the relevant DNA into their genome. • As this recombines the DNA of two different organisms, the word recombinant is used to refer to this process.

  21. 13-2 DNA technology techniques

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