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Biology: Unit Five Calendar 2011-2012 Molecular Genetics and Biotechnology Date 12/17 to 1/2 1/3-4 1/5-6 1/9-10 Class Items HappyWinterBreak!! 1. New calendars 2. Notes (Obj. 1-6) 3. Start Final Study Guide or work on terms 1. Q5-1 (Obj. 1-6) Open Note OR partner 2. Notes (Obj. 7-10) 3. Start Protein Synthesis lab 1. Turn in CH 12 terms 2. Finish Protein Synthesis Lab 3. Work on Final Study Guide 1/ 11-12 1. Q5-2 (Obj. 7-10) 2. Notes Obj. 11-15 3. Begin terms CH 13 or Work on Final Study Guide) 1/13-17 1. Q5-3 (Obj. 11-15) 2. Notes (Obj. 16-18) 3. Review for Group Final/ work on study guide 1/18-19 Homework: always review 1. Get ahead if you can…keep working on the study guide for the final…must be hand written 1. Begin reading CH 12 and define the listed vocabulary terms 2. Study for Q5-1 (Obj. 1-6) 1. Review Obj. 7-10 2. Finish CH 12 terms 1. Get ahead if you can…keep working on the study guide for the final…it must be hand written! 2. Study for Q5-2 Objectives 7-10 1. Work on terms CH 13 2. Study for Q5-3 (Obj. 11-15) 3. Final Study Guide should be finished through Unit Two 1. Review Obj. 16-18 2. Complete CH 13 terms 3. Final Study Guide should be finished through Unit Three 1. Study for Group Final 2. STUDY GUIDES FOR FINAL ARE DUE ON THE DAY OF YOUR FINAL (Final Study Guide 1. Collect CH 13 Terms 2. Notes (Obj. 19-23) 3. Lab: Recombinant DNA should be Four) Group Final (yes, it will take all class 1/20-23 1. 1/24-26 period) 1. Finals 1/27 STAFF DEVELOPMENT NO CLASSES TODAY finished through Unit 1. Final Study Guide should be complete through Unit 5 1. Get some rest….relax and come prepared to do well 2nd semester! ALL STUDY GUIDES MUST BE HAND WRITTEN. NO TYPING, NO SHARING, NO COPYING…TAKE PRIDE IN WHAT YOU CAN ACCOMPLISH!!!!!!!! NO EXTRA CREDIT GIVEN FOR NOT FOLLOWING THE ABOVE DIRECTIONS OR IF NOT IN YOUR HAND WHEN THE FINAL STARTS! HOMEWORK: C.P. BIOLOGY UNIT FIVE TERMS: CHAPTER 12– DUE 1/9-10 1. nucleic acid 2. double helix 3. nucleosome 4. template 5. DNA polymerase 6. Okazaki fragments 7. semiconservative replication 8. synthesis 9. transcription 10. codon 11. Intron 12. translation 13. messenger RNA 14. exon 15. 16. 17. 18. 19. 20. 21. transfer RNA RNA polymerase ribosomal RNA prokaryote gene regulation mutagen Mutation 22. operon TERMS: CHAPTER 13 – DUE 1/18-19 1. hybrid 9. gel electrophoresis 2. inbreeding 10. recombinant DNA 3. selective breeding 11. Plasmid 4. test cross 12. DNA Ligase 5. DNA 13. transformation 6. genetic engineering 14. Cloning 7. genome 15. polymerase chain reaction 8. restriction enzyme 16. transgenic organism 17. 18. 19. 20. 21. 22. bioinformatics DNA microarray haplotype pharmacogenmoics single nucleotide polymorphism sequence OBJECTIVES FOR UNIT FIVE Chapter 12 – Molecular Genetics 1. Summarize the experiments leading to the discovery of DNA as genetic material 2. Explain the importance of DNA, analyze its structure, and describe the importance of nucleotide sequences. 3. Describe the basic structure of a eukaryotic chromosome. 4. Describe the replication of a DNA molecule and the role of enzymes in the replication process. 5. Explain how leading and lagging strands are synthesized differently. 6. Compare DNA replication in eukaryotes and prokaryotes 7. Describe how genes are related to proteins 8. Describe the structure and function of RNA 9. Describe the processes of transcription and translation 10. Discuss the one gene – one enzyme hypothesis 11. Describe how bacteria (prokaryotes) are able to regulate their genes 12. Discuss how eukaryotes regulate transcription of a gene 13. Define the word mutation and differentiate between various types 14. Describe causes of mutations and explain how DNA can repair itself 15. Differentiate between a body cell and a sex cell mutation. Chapter 13 – Genetics and Biotechnology 16. Describe selective breeding and compare inbreeding with hybridization. 17. Be able to predict the genotype of an organism using a test cross. 18. Explain the concept of genetic engineering and discuss the tools used to engineer transgenic organisms 19. Explain how recombinant DNA is made and then used in gene cloning, DNA sequencing, and polymerase chain reaction. 20. Define biotechnology and describe how transgenic organisms may be beneficial. 21. Describe components of the human genome. 22. Describe how the forensic scientists use DNA fingerprinting. 23. Describe how genes are identified and analyzed. 24. Explain how information from the human genome can be used to diagnose human diseases. 25. Define and discuss genomics and proteonomics.