Understanding Animal Reproduction and Biotechnology

1. Understanding Animal Reproduction and Biotechnology

2. Understanding Molecular Biotechnology

3. Interest Approach • What does the word “biotechnology” mean to you? What do you think of when you hear the word “biotechnology?”

4. Next Generation Science / Common Core Standards Addressed! • RST.11-12.1 Cite specific textual evidence to support analysis of science and technical texts, attending to important distinctions the author makes and to any gaps or inconsistencies in the account. (HS-LS4-1),(HS-LS4-2),(HS-LS4-3),(HS-LS4-4) • RST.11-12.8 Evaluate the hypotheses, data, analysis, and conclusions in a science or technical text, verifying the data when possible and corroborating or challenging conclusions with other sources of information. (HS-LS4-5) • WHST.9-12.2 Write informative/explanatory texts, including the narration of historical events, scientific procedures/ experiments, or technical processes. (HS-LS4-1),(HS-LS4- 2),(HS-LS4-3),(HS-LS4-4)

5. Agriculture, Food and Natural Resource Standards Addressed! • BS.01.01. Investigate and explain the relationship between past, current and emerging applications of biotechnology in agriculture (e.g., major innovators, historical developments, potential applications of biotechnology, etc.). • BS.01.01.03.a. Distinguish between current and emerging applications of biotechnology in agriculture.

6. Student Learning Objectives • 1. Identify the major areas of biotechnology in animal science. • 2. Explain various molecular biotechnology methods. • 3. Discuss applications of molecular biotechnology.

7. Animal biotechnology Biotechnology Genetic engineering Gene transfer Microinjection Molecular biotechnology Organismic biotechnology Particle injection Plasmids Recombinant DNA Transgene Transgenic animal Terms

8. What are the major areas of biotechnology in animal science? • I. Biotechnologyis the management of biological systems for the benefit of people and their environment. It is also viewed as the application of science in food and fiber production. • Animal biotechnologyis the application of biotechnology methods to improve animals. There are two major areas of biotechnology.

9. Biotechnology has been used for hundreds of years. Using yeast to make bread and bacteria to make cheese are everyday examples of biotechnology

10. A. Molecular biotechnologyis changing the structure and parts of cells to change the organism. It begins with the atom. Molecular biotechnology often changes the physical appearance of an organism. In some cases, undesirable traits may develop along with those that are desired.

11. B. Organismic biotechnologydeals with intact or complete organisms. The genetic makeup of the organism is not artificially changed. This is the most widely used type of biotechnology.

12. What are some of the various molecular biotechnology methods? • A. Genetic Engineeringis a form of biotechnology in which genetic information is changed to make a new product. Through this process, sections of the DNA strand are cut out and new sections are inserted. • Gene transferis the moving of a gene from one organism to another. Genetic engineering is a means of complementing traditional breeding programs.

13. B. Recombinant DNAis gene slicing. Genes are cut out of a DNA strand with a restriction enzyme that works like a scalpel. They are then inserted into circular DNA molecules in bacteria plasmids.

14. Plasmids are circular pieces of DNA found outside the nucleus in bacteria. It is inserted into the cell that is to be altered. This complicated and complex procedure allows the DNA of two different organisms to be combined. Most cells die in the process. Many surviving cells do not have the new DNA present in the nucleus

15. C. A transgenic animalis an animal that has incorporated a foreign gene into its cells. This animal can pass to its offspring this transgene, or altered gene. All of the cells within the transgenic animal contain this transgene.

16. Some common transgenic methods are: • 1. Microinjection—This is the most common method used. Injecting DNA into a cell using a fine diameter glass needle and a microscope. • 2. Particle injectionis using a micro projectile unit to shoot tiny particles coated with DNA into cells. Micro projectile units are sometimes called particle guns. Both methods have relatively low success rates.

17. What are some of the applications of molecular biotechnology?

18. A. Human Health—Animals are being used to study several different types of diseases found in humans. Insulin was once extracted from the pancreas of slaughtered cattle and hogs.

19. This extraction process was very expensive. Sometime the animal insulin caused allergic reactions to the diabetics who used it. Through molecular biotechnology, insulin is now produced artificially in laboratories that is higher quality and less expensive to produce.

20. B. Food production—Increasing the levels of beta casein in milk decreases the time required for rennet coagulation and whey expulsion in making cheese.

21. This lowers total processing time and cost. Also with biotechnology, the fat content in milk can be reduced to make fat-free cheese and ice cream. If a substance known as kappa casein is increased 5 percent in milk, it makes it more stable and easier to ship

22. C. Livestock production—The use of biotechnology has increased growth rate, efficiency, and disease resistance in livestock. This has made livestock production cost decline and aids in the supply of a low cost food supply.

23. Review/ Summary • 1. What are the major areas of biotechnology in animal science? • 2. What are various molecular biotechnology methods? • 3. What are some applications of molecular biotechnology?

24. The End!