1. CHAPTER 13 Standard 4.9 Genetic Engineering 11-8-2012 How can humans manipulate DNA?

2. 13-1 Selective Breeding Choosing the “best” traits for breeding All products of selective breeding is artificial selection

3. HORSES

4. Even Cows, Sheep, & Pigs

11. Hybridization Crossing dissimilar individuals to bring together the best traits of both organisms Produces hybrids

12. Golden Doodle Puggle Designer breeds or mutts?

14. Not to be confused with hybrid cars..

15. INBREEDING Inbreeding = continued breeding of similar individuals (ex. pure breed dogs) Has risks… increases breed’s susceptibility to disease & deformities Golden retrievers - epilepsy Dalmations - hereditary deafness

16. Increasing Variation Breeders can increase variation in a population by inducing mutations Mutation = any change in DNA Mutations can happen randomly, as in this Scottish fold cat. Cat enthusiasts bred these cats from a single cat with a mutation for the ears.

17. Mutations produce new kinds of bacteria ex. oil-eating bacteria

18. Mutations produce new kinds of plants Ex. day lilies, bananas, citrus fruits Polyploid plants have multiple sets of chromosomes.

20. 13-2 DNA Technology GENETIC ENGINEERING  technology that involves manipulating the DNA of one organism in order to insert DNA of another organism = making changes in the DNA code of a living organism

21. Different techniques are used… to extract DNA from cells to cut DNA into smaller pieces to identify the sequence of bases in a DNA molecule to make unlimited copies of DNA

22. Bacterial Transformation The changing of one strain of bacteria into another strain

23. Plasmid : a circular piece of DNA found in bacteria F+ bacterium contains a plasmid F- bacterium does not contain a plasmid

24. Steps of Bacterial Transformation 1-Remove the plasmid from the bacterium.

25. Steps of Bacterial Transformation 2-Isolate the gene of interest. A gene of interest is a piece of DNA that codes for a protein we want more of

26. Steps of Bacterial Transformation 3-Open the plasmid by cutting it with a restriction enzyme This leaves “sticky ends” Which need to be the complement of the sticky ends left on the DNA fragment you want to insert.

27. Sticky Ends

28. The restriction enzyme EcoR1 cuts the DNA at the sequence GAATTC, between the G and the A

29. Sticky Ends

31. Steps of Bacterial Transformation 4-Insert the gene of interest

32. Steps of Bacterial Transformation 5-Insert the plasmid with recombinant DNA into a new bacterium. Recombinant DNA: DNA produced by combining DNA from different organisms

33. Steps of Bacterial Transformation 6-The bacteria reproduces itself and the plasmid. All descendants express the inserted gene

34. Bacterial Transformation

35. Other Types of Transformation Plants: -Use bacteria that insert their plasmid into plant cells -removing cell walls sometimes allows plant cells to take up foreign DNA on their own

36. Other Types of Transformation Animals: -Many egg cells are large enough that DNA can be directly injected

37. DNA SEQUENCE (Gel Electrophoresis) - can be used to solve crimes or determine paternity - requires restriction enzyme to cut the DNA, and electrophoresis to separate it

38. Steps of Crime Scene Investigation or Who the Baby DADDY???? a.) DNA extraction b.Making Copies Polymerase chain reaction (PCR) used to make multiple copies of genes

39. c. cutting DNA – restriction enzymes d.) separating & analyzing DNA Scientist use gel electrophoresis =

44. Transgenic Organisms Contains genes from other species 1.Microorganisms (bacteria) 2.Animals (mouse; medical uses) 3.Plants (agricultural uses) *GM Crops

45. Gene causes these mice to glow in the dark. Normally, the gene is found in jellyfish.

48. Cloning member of a population of genetically identical cells produced from a single cell easy to clone single cell organisms multicellular organisms more difficult to clone a twin is a natural clone 1997 Dolly the sheep cloned, 1st mammal

49. Clones do exist naturally. These are identical twins.

52. How to Clone a Sheep

53. Cloning a Human

54. CC was the first cloned cat (Rainbow is the original). CC is short for "Carbon Copy". What is interesting is the color pattern for the clone is different from the original. The reason is that the genes for color randomly turn on or off for the skin cells, creating random coloration even on the cloned cat.

55. How Can Cloning Be Useful? 1. Save endangered species by storing DNA and cloning 2. Make multiple copies of a useful gene (insulin for diabetics) 3. Clone spare parts, like organs or bone marrow 4. Create experimental groups for studying (animals) 5. Clone "special" animals, pets or horses

56. Click and Clone http://learn.genetics.utah.edu/content/tech/cl oning/clickandclone/

57. Stem Cells Stem Cells  unspecialized cells that can develop into specialized cells Types of Stem Cells –Embryonic –Adult –Pluripotent