1. Biotechnology in Agriculture

2. Interest Approach Would you ever think to infect a human with a virus in an effort to attack another disease? Video

3. Objective 3.02 Understand biotechnology in the plant industry.

4. Biotechnology Basics Biotechnology is the use of living organisms (microorganisms) to make new products or carry out new processes (solve problems). New product – Yogurt New Process –Tissue culture propagation method that rapidly multiplies plants

5. Historic Applications of Biotechnology Yeast to make bread rise Bacteria to produce cheeses and other dairy products Microorganisms to transform fruit or grains into alcoholic beverages Use of bacteria to “produce” silage E.coli bacteria used to produce insulin It became one of the first commercial products created by genetic engineering

7. Basic Genetics The science of heredity Gregor Johann Mendel discovered the effect of genetics on plant characteristics with his experimentation with garden peas Heredity transmission of characteristics from an organism to its offspring through genes in reproductive cells Genes determine the individual characteristics of living things segments of double stranded DNA Generation the offspring, or progeny, of common parents

8. Pea Plants

9. Heredity What caused the passing of traits to offspring?

10. Basic Genetics DNA –Genetic Code of Life Chromosome a structure that holds the genetic information of a cell DNA is wound tightly to form the chromosome DNA (deoxyribonucleic acid) coded material in all cell nuclei determines what that cell and its successive cells will become structure is that of a twisted ladder double helix

11. Basic Genetics Gene small section of DNA thousands of genes on a strand of DNA Gene mapping process of both finding and recording the locations of genes

12. Basic Genetics Bases Like rungs of a ladder that hold the two sides of the DNA strands together. The bases are: Adenine (A) - only pairs with “T” Thymine (T) – only pairs with “A” Guanine (G) – only pairs with “C” Cytosine (C) – only pairs with “G” Example: A – T G – C T - A The sequence of the bases between the DNA strands is the code by which a gene controls a specific trait Baldness in humans The color of flowers on a plant

13. Processes and Practices in biotechnology Genetic engineering developed in the early 1980’s process of moving genetic information in the form of genes from one cell to another Gene splicing or Recombinant DNA technology process of removing and inserting genes from one organism and inserting them into the DNA of another Some examples are: Alter a plant’s susceptibility to disease Make a plant resistant to insects Process in animals is newer and not as well developed

14. Processes and Practices in biotechnology Cloning (micropropagation in plants) creating an exact genetic duplicate of another organism Indicator species one of the oldest methods of biological detection. uses plants, animals and microbes to warn us about pollutants in the environment

15. Processes and Practices in biotechnology Bioremediation use living organisms to clean up toxic wastes in water and soil

16. Processes and Practices in Biotechnology Biostimulation Adding nutrients such as nitrogen and phosphorus to stimulate the growth of naturally occurring beneficial microbes faster more efficient work

17. Processes and Practices in biotechnology Phytoremediation plant absorbs or immobilizing pollutants First tested in the 1990’s

18. Processes and Practices in Biotechnology Animal Reproduction and Production improving the efficiency of reproduction and production involve the use of biotechnology These are considered the more conventional uses of biotechnology Biofuels Fuels composed of or produced from biological raw materials

19. Importance of Recombinant DNA Technology Improve plants’ and animals’ performance The manipulation of genes Alter characteristics or performance of microorganisms Controlling disease, insects, weeds, and other pests Less use of chemical pesticides Potential for helping clean the environment

20. Concerns with the use of Biotechnology Safety State and federal government monitor Consumer resistance to new biotech food products remains high safety of the environment human health concerns Rapidly changing field, which when not fully understood can create a fear of the unknown Labeling of genetically modified organisms (GMO) foods many people feel if a product is safe it should be labeled Concern has been expressed over the effect GMO’s may have on biodiversity

21. Concerns with the use of Biotechnology Ethics system of moral principles defines what is right and wrong in a society raises important ethical questions about how biotechnology should be used

22. Scientific Method used in Biotechnology/Agriscience Steps of the scientific method: 1.Identify the problem 2.Review literature 3.Form a hypothesis 4.Prepare a project proposal 5.Design the experiment 6.Collect the data 7.Draw conclusions 8.Prepare a written report

23. Biotechnology in the plant science industry Herbicide and insect resistant crops Examples: Herbicide tolerant soybean (Round-Up Ready Soybeans) contains a gene that provides resistance to broad spectrum herbicides Others being developed Insect- resistant corn (Bt corn) contains a built-in insecticidal protein from a naturally occurring soil microorganism Bacillus thuringiensis gives season- long control of corn borers

24. Biotechnology in the plant science industry Crops with better nutrition and longer shelf life are products of genetic engineering High Oleic Peanut genetically modified to produce nuts in high oleic acid longer life for nuts, candy and peanut butter High Oleic Sunflower sunflower oil that is low in trans-fatty acids Delayed- ripening tomato longer shelf life commercial advantages in harvesting and shipping

25. Biotechnology in the plant science industry Tissue culture Micropropagation use of a very small actively growing parts of the plant produces a large number of new plants African violets Venus Fly Traps

26. Objective 4.02 Understand biotechnology in the animal industry.

27. Biotechnology in the Animal Science Industry Animal cloning For product uniformity drumstick uniformity in the poultry industry Saving endangered species New animals could be reproduced from the tissue of remaining animals Research purposes Genetically identical animals are better for research studies that try to isolate one variable

28. Biotechnology in the Animal Science Industry Biotechnology in Animal Reproduction and Production BST (Bovine somatotropin) A hormone produced in the pituitary gland of cattle increases milk production Method of gene splicing genetic material into E. coli bacteria Produced at relatively low cost Dairy cows given BST will produce more milk

29. Biotechnology in the Animal Science Industry Biotechnology in Animal Reproduction and Production Artificial Insemination (AI) Process involves the introduction of the male sperm into the reproductive tract of a female By means other than the natural mating process Most of the cows in the dairy industry are produced through AI

30. Biotechnology in the Animal Science Industry Biotechnology in Animal Reproduction and Production – Embryo Transfer – Transferring of embryos from one female to another – One female can produce many calves in a year due to superovulation donor animal to release several eggs instead of just one – A superior female can be fertilized by genetics from a superior male resulting embryos implanted into inferior female animals

31. Embryo Transfer Process

32. Examples of tools for use in Animal Science Insemination rods and straws used in artificial insemination to insert semen into female

33. Examples of tools for use in Animal Science Microscope used to examine sperm for artificial insemination

34. Examples of tools for use in Animal Science Liquid nitrogen tank used to store semen

35. Objective 5.02 Understand biotechnology in the environmental science industry.

36. Environmental Biotechnology Biotechnology is playing a large part in detecting and monitoring pollution and determining how much is present

37. Environmental Biotechnology Examples Indicator species Lichens are widely used as environmental indicators or bio- indicators If air is very badly polluted with sulfur dioxide, there may be no lichens present, just green algae may be found

38. Environmental Biotechnology Examples Bioremediation Bacteria is used to clean up oil and fuel spills Oleophilic (attracted to oil) bacteria used to clean up oil spills Hanahan, SC, a suburb of Charleston, had an 80,000 gallon jet fuel leak from a military fuel storage facility fuel entered the ground and the groundwater Bacteria were successfully used to remediate this problem

39. Environmental Biotechnology Examples Biostimulation The Exxon Valdez clean-up Used the addition of nutrients Feed the oleophilic bacteria

40. Environmental Biotechnology Examples Biodiesel made from oilseeds Soybean canola oil proven to decrease harmful emissions

41. Environmental Biotechnology Examples Phytoremediation Oregon Poplar Site (illegal industrial waste dumping site) J-Field at Aberdeen Proving Ground( disposal site of chemical warfare agents, munitions and industrial chemicals) used hybrid poplar trees remove VOC’s volatile organic compounds from contaminated soil

42. Environmental Biotechnology Examples Genetic engineering bacterial strains are under development to convert solid waste from humans and livestock into sugar and fuel

43. Limitations of using bio and phytoremediation Time often considered slower than chemical techniques Applicability they do not apply to all situations Fear those who live near treatment sites often would rather have the contaminated soil removed than treated Fear that the process will not uncontaminate the soil

44. Essay Writing If you were a scientist, what world disease or problem would you be interested in researching and working to find a cure? How do you think biotechnology could help you in your research? Requirements: 2-3 pages, typed, double spaced, Times New Roman Font Conduct research online and develop your essay.

45. Lab Purpose: To extract DNA from various fruit Materials Digital Scale NaCl 100 mL Dish Detergent 1000 mL beaker Weigh boat 900 mL water Fruit (strawberry or ½ banana) Test Tube Inoculating Loop 25 mL or 50 mL beaker Lab Scoop Dixie Cup

46. Procedures Extraction Solution Measure 900 mL water Mix 5g of NaCl (salt) 100 mL of dish detergent In a ziploc bag, mash strawberry for 2 minutes Add 10 mL of extraction buffer solution and mash for 1 minute Filter solution into Dixie Cup using coffee filter Pour filtered solution into test tube (about 1” high) Pour ice cold isopropyl alcohol into test tube (til half full) Use inoculating loop to spool DNA Conclusion Your thoughts on the lab!

47. DNA: Secret of Life Video Quiz 1.What makes up DNA? (backbone and the rungs of ladder) 2.Who discovered DNA? (Two male scientists) 3.DNA is the instruction for the building blocks of what? (insulin is an example of this) 4.What genetic disease did Patrice suffer from? 5.What “project” was completed to map a human’s DNA? 6.Write in complete sentences something you have learned from this unit and/or video