Chapter 13: Meiosis and Sexual Life Cycles

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Name Period Chapter 13: Meiosis and Sexual Life Cycles Concept 13.10ffÿ'pring acquire genes fi'om parents by inheriting chromosonws 1. Let's begin with a review of several terms that you may already know. Define: gene locus gamete male gamete female gamete asexual reproduction sexual reproduction 2. How many chromosomes are in human cells? What is a chromosome? d 3. Which type of reproduction will result in genetically identical offspring? Concept 13.2 Fertilization and meiosis alternate in sexual Iÿfe cycles 4. What is a somatic cell? Give examples of two human somatic cell types. rg3 D 5. How does a somatic cell compare to a gamete in terms of chromosome number?, Distinguish between sex chromosomes and autosomes. How many of each are found in human cells? :6 LL) Sex chromosome Autosome 7. What is a karyotype? How is it prepared? - 79 -

8. What are three things that can be determined from a karyotype? (Study the Research Method, Figure 13.3, in your text carefully for this information.) 9. Explain what is meant by homologous chromosomes. 10. Cells that have only one of each homologous pair are said to be haploid, a condition that is represented by 17. Cells that have two of each homologous pair are said to be diploid or 217. For each of the following, is the cell haploid or diploid? liver cell egg cell skin cell somatic cell gamete zygote sperm sex cell 11. The muscle cells of a dog have 78 chromosomes. Fill in the correct chromosome number in a bone cell, sperm, haploid cell, somatic cell and zygote 12. In the cell at right, the chromosomes are shaded in two colors to represent the ÿarent of origin. On this sketch, label the following: a. sister chromatids b. homologous chromosomes J c. centromere d. replicated chromosome, ', / / e. maternal chromosomes 13. How many chromosomes does the cell above have? How many homologous pairs? How many chromatids? Is this cell haploid or diploid? 14. Where are the gametes of an animal produced? Be specific as to male and female gametes. 80-

15. By what process are gametes produced? 16. What is another term for a fertilized egg? What is the chromosome number of the fertilized egg? (Answer this in general terms, haploid, 17, or diploid, 217.) 17. What is the purpose of meiosis? 18. Study Figure 13.6 in your text. You will see that plants have a life cycle that involves spores, which form as a result of meiosis, so these spores are haploid'. Notice also that both haploid and diploid cells can divide by mitosis. However, meiosis always begins with cells that are., and as a result of meiosis, daughter cells are formed that are always These cells can be gametes (in animals) or spores (in plants). 19. Your study of plants this year will include knowing that they exhibit alternation ofge17erations. What does this mean? What are the two generations? d 0 Which is haploid, and which is diploid? /it 0 I/I Use this information to label the moss life cycle here. Concept 13.3 3Jeiosis reduces the.umber o[' chromosome sets.[i'om diploid to haploid et 20. What are alleles? Give an example. i 81-

21. In meiosis, the DNA is replicated during interphase, followed by two divisions. The first division is meiosis I. Study the events of prophase L as they are significant. Explain each of these events: synapsis crossing over chiasmata 22. The figure below shows metaphase I. How is the arrangement of chromosomes different from the metaphase of mitosis? 23. There are two divisions in meiosis. What will separate in the first division in meiosis I? 82-

24. Now study the chromosomes in anaphase I and telophase I carefully. How many chromosomes are in each cell at the end of the first meiotic division? Are the resultant daughter cells haploid, or diploid? From this figure, you should see that the chromosome number is reduced in meiosis I and that the daughter cells at the end of meiosis I are haploid. Did you answer correctly above? Remember this! 25. During meiosis I, homologous chromosomes separate. What separates during meiosis II? 26. To check that you have the big picture, here are some quick review questions. O '2, a. What happens to the chromosome number in meiosis? b. During which division is the chromosome number reduced? c. What is the purpose of meiosis? O d. How many times does the cell divide in meiosis? e. How many times do the chromosomes duplicate? f. How many daughter cells are formed? g. What is the chromosome number? o h. What are homologs (homologous chromosomes)? i. What occurs in synapsis? j. What is crossing over? 83-

27. Use Figure 13.9 in your text to compare mitosis and meiosis. Add these labels: pare, t cell, mitosis, meiosis, synapsis, homologous chromosomes, replicated chromosomes, sister chromatids, daughter cells, meiosis I, meiosis II, and crossing ovel: / '-ÿ'"\ '\ ÿ / // /-/ ÿ.... \',\ /./.sÿii--ÿ" 'i ",, \ / / / 28. Students often get confused about the differences between mitosis and meiosis. To help with this, work through the following chart: Role in the animal body Number of DNA replications Number of divisions Number of daughter cells Chromosome number of daughter cells Mitosis Meiosis 29. Synapsis and crossing over are unique to meiosis. During what specific phase do these occur? 30. Explain the physical events of crossing over. You may wish to make a sketch of the event. Include these terms: synaptonemal complex, chiasmata, homologs, and sister chromatids. - 84 -

Concept 13.4 Genetic variation produced hi sexual life o,cles contributes to evohttion 31. An important idea for you to understand is that new alleles arise by changes in the DNA or mutation, but genetic diversity occurs when the deck that is dealt is simply reshuffled. So, there are three ways that sexually reproducing organisms "shuffle the deck." They are listed below. Explain what occurs in each, and how this increases diversion. independent assortment of chromosomes crossing over random fertilization 32. Here is a fun exercise to drive this point home. Pull out your calculator, and try your hand at this: When you were conceived, what were the odds that, of the many possibilities, your parents would come up with you? a. The number of different gametes that can be formed because of independent assortment is 217, where n = the number of homologous pairs Therefore, since humans have 46 chromosomes or 23 homologous pairs, what is the number of possible gametes that can be formed due to independent assortment of chromosomes? d bo Now, this is the number of unique gametes your mom could have made. Your father could have made the same number. To see the effect of random fertilization, multiply the number of gametes one parent could make by the number of unique gametes the other parent could make. io,'ÿ--a o Your answer should be in the trillions, and all of this is without crossing over. See how special you are? O g. Test Your Understanding Answers Now you should be ready to test your knowledge. Place your answers here: eq 1. 2. 3. 4. 5.,. >ÿ 0 85-

Follow the directions for Self-Quiz question 8, DRAW IT, by labeling the appropriate structures with these terms, drawing lines or brackets as needed: chromosome (label as replicated or unreplicated), centromere, lcinetochore, sister chromatids, nonsister chromatids, homologous pair, homologs, chiasma, sister chromatid cohesion. Y \\ / ; (.- j ',. - - 86 -

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