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Transcript
Exam Topics for EBIO 1210, Exam 3 Cell Division (Lectures 10 and 11) The cell cycle and functions of cell division. 1. List several biological functions or processes in which cell division plays a key role. 2. Explain reasons why the cell cycle must be regulated in order for any human to be healthy during growth, development, and maintenance of the body. 3. Draw a diagram or flow chart of the order of the major processes and steps involved in the cell cycle (including mitosis). What are the major events in each step? 4. Understand the concept of “checkpoints” as applied to the cell cycle Types of cell division and processes involved in cell division. 5. Draw pictures of what is happening to cells and chromosomes during the major steps involved in accomplishing mitosis; draw pictures of what is happening to cells and chromosomes during the major steps involved in accomplishing meiosis. 6. Compare and contrast the similarities and differences between mitosis and meiosis. Chromosomes 7. Be able to explain what a chromosome is to someone who is not a biologist. 8. Describe where chromosomes are in the cell, what they are made of 9. Describe what happens to chromosomes during the cell cycle and mitosis 10. Describe what happens to chromosomes during meiosis. 11. Explain the relationship between a DNA molecule, a chromatid, and a chromosome. 12. Define and understand the concept of ploidy (haploid vs. diploid) 13. Describe how a zygote has some chromosomes that were “paternally inherited” and some chromosomes that were “maternally inherited” 14. Explain how the chromosomal makeup of an offspring produced by sexual reproduction differs from that of its parents 15. Describe three main processes that create genetic variation in the offspring produced from sexual reproduction DNA and its replication The structure of the DNA molecule (Lecture 10) 16. Know the basic structure of DNA in terms of the three fundamental building blocks (nitrogenous base, five-carbon sugar, phosphate group), and how those building blocks go together to make a polymer. 17. Know how hydrogen bonds hold a DNA molecule together and how the pattern of hydrogen bonding gives rise to Chargaff’s rule. 18. Understand what is meant by the polarity of a DNA molecule (5’ vs. 3’ ends), and why we say that two strands of a DNA molecule run “antiparallel” to one another. DNA replication (Lecture 15) 19. Describe how the DNA molecule itself acts as a “template” for accurate replication and why the process is called “semi-conservative.” 20. List the basic steps that must be accomplished in order to replicate DNA. 21. Explain the functions of single-strand binding proteins, helicase, primase, a primer, and DNA polymerase 22. Compare and contrast DNA replication in bacteria vs. eukaryotes. 1 23. Describe how consequences—such as differences between “leading” and “lagging” strands—arise from the DNA molecule’s polarity and the unidirectional synthesis performed by enzymes during replication. Biotechnology (Lecture 15) 24. Explain why DNA moves through gel electrophoresis and why DNA molecules of different sizes travel at different speeds through the gel 25. Calculate the number of double-stranded DNA molecules produced after a given number of PCR cycles Genes and Mendelian Genetics (Lectures 13 and 14) Mendel’s “laws” explain (some) patterns of heredity 26. Relate Mendel’s “law of segregation” to the behavior of genes and chromosomes during meiosis. 27. Relate Mendel’s “law of independent assortment” to the behavior of chromosomes during meiosis; describe a situation in which the “law” of independent assortment would be violated. Breeding experiments allowed early geneticists to study and “map” genes, even though there was no way to “see” the genes themselves 28. Draw pictures of cells going through the processes of meiosis and sexual reproduction, keeping track of different alleles of different genes on different chromosomes; be able to do this for a cross in a parental (“P”) generation, “F1 hybrid cross”, “F1 dihybrid cross”, and “testcross”. 29. Predict patterns of heredity and phenotypes for crosses involving genotypes that have various combinations of dominant and recessive alleles. 30. Use ratios of phenotypes produced from specific crosses to test hypotheses about (i) genotypes of parents, (ii) dominant vs. recessive traits and alleles, and (iii) gene linkage. 2
