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GENETICS AN S 213

This text provides information on the course overview of Genetics, including exam information and grading. It also mentions a picnic event for students. Relevant contact information for the course instructors is included.

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GENETICS AN S 213

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  1. GENETICSAN S 213 Paula Gentry, PhD Chad Steining

  2. Contact InformationDr. Gentry • 225 Shantz (West end, main floor, in small hallway) • Office 626-3642 • Lab 626-3572 • Email pgentry@u.arizona.edu

  3. Contact InformationChad Steining • 113 Forbes (Southwest corner of basement level) • Lab 626-3572 • Cell 403-7095 • Email chads@ag.arizona.edu

  4. Concepts in Genetics7th Edition William S. Klug and Michael R. Cummings Will be available in the bookstore by the middle of September

  5. Welcome Back Picnic Wednesday, September 1, 4:30 PM Campus Ag Center (NW Corner of Campbell Ave and Roger Rd) Ag Ed Picnic Area (west of the equine center) Find out about: dunking faculty, student clubs and organizations, scholarship recipients

  6. Free food and T-shirts, games and door prizes (gift certificates and football tickets) Please contact MaryAnn Harris maharris@ag.arizona.edu Rides are available

  7. Job Announcement Student position with USDA (includes vacation and sick leave) Work with researchers studying aflatoxin and other agriculturally relevant fungi Contact Peg Kattnig: kattnig@ag.arizona.edu

  8. COURSE OVERVIEW • Four regular exams, 125 points each • Drop one exam….. No make-up exams • One comprehensive final exam, 125 points 500 POINTS TOTAL A  90% (450 pts) B = 80-89% (400-449) C = 70-79% (350-399) D = 60-69% (300-349) E  59% ( 299)

  9. EXPECTATIONS • You deserve preparation, clarity and content from me. • I expect you to prepare and attend. I also expect you to behave yourselves. You know what this means. • Please, please, please, PUHLEEZE, avoid the following question: “Do I need to know this…?” If I talk about it in class, you need to know it.

  10. WHY GENETICS? Or, Why do they make us take this class?

  11. Why Genetics?

  12. Perspective!

  13. Why Genetics? • Clothing… cotton, wool? • Food… chicken, beef, pork, milk, rice, wheat, corn, yeast? • Health… drug discovery and production (antibiotics, immunosuppressive agents, recombinant compounds), organ culture, diseases • Industry… citric acid, amylase, pharming • Biotechnology…altered plant and animal genomes

  14. Why Genetics? GENETICS: The study of genes, heredity and variation…. …at the level of the cell, the individual, an individual’s offspring and the population in which individuals live. GENE: A section of deoxyribonucleic acid (DNA), the hereditary material that a) passes from one generation to the next and b) encodes information used by cells to form and do the work of cells.

  15. Why Genetics? DNA is the key molecule that links all the disciplines of biology.

  16. Why Genetics? • What are the different disciplines within Genetics? • 1. Classical or Mendelian Genetics • 2. Cytological Genetics • 3. Molecular Genetics • 4. Population Genetics

  17. Why Genetics? Classical or Mendelian Genetics • How traits encoded in DNA are passed from one generation to the next

  18. Why Genetics?Cytological Studies • How DNA is used within a cell to direct the formation and function of a particular cell type, within an organ or functional unit. • Studies use light and electron microscopy to examine cell structure and function.

  19. Why Genetics?Molecular Genetics • Chemical structure of DNA, and by extension of genes, and how they operate at the molecular level.

  20. Why Genetics?Population Genetics • Study of variation of gene expression within and between populations

  21. How are the different disciplines in Genetics useful?

  22. Plant Agriculture • Increase yield • Increase nutritional value • Beta carotene (pre-vitamin A) in “golden” rice • Increase disease and pest resistence • StarLink Corn—engineered to contain an insecticidal protein derived from a bacteria • Animal feed only, but sneaked into two taco shells in fall 2000 and set off a storm of controversy regarding genetically engineered crops.

  23. Animal Agriculture • Increase meat, milk, egg and wool yield • Increase feed efficiency • Artificial Insemination • Increase genetic progress by inseminating many females with sperm from a single sire.

  24. Parentage Analysis • In a mixed sire system, identification of sire and dam by marker analysis • Can be coupled with identification of superior individuals and marker-assisted selection programs • Combine to increase yield and production

  25. Pharming • Pharmaceutical production from transgenic animals • Insert a gene encoding a useful protein into the genome of an organism • The useful protein is produced in large quantities by the organism (e.g. in milk or eggs) and can be purified • Erythropoietin, tissue plasminogen activator, insulin, interferon

  26. Medicine • Xenotransplantation • Development of cells, tissues and organs from non-humans for transplantation into humans. • Pig organs for transplant—development of a strain of pigs whose cells do not express immunogenic markers on their surface • Carries the risk of disease introduction– AIDS, Ebola and Mad Cow Disease (BSE) are all thought to have spread to humans from animals

  27. Gene Therapy • When human disease has been shown to result from a mutation in a single gene (e.g. cystic fibrosis), replacement of the defective/non-working gene with a working copy restores function

  28. Immunogenetics • Identification of immune markers that are common between groups of individuals makes possible compatible blood transfusions and organ transplant surgery

  29. Disease Diagnosis • DNA chips (microarrays) • Thousands of short DNA sequences attached to a glass slide • Represent different gene sequences from normal and diseased tissues • Can be used to diagnose cancer and some metabolic diseases by identifying expression of genes associated with disease state

  30. Forensic Analysis • Crime scene analysis • DNA analysis to establish guilt or innocence

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