Cell Division Review
1. A male has which sex chromosomes?
2. What are chromosomes other than sex chromosomes called?
3. What event occurs during interphase in preparation for mitosis?
4. Explain the difference between cytokinesis in animal cells and plant cells.
5. Why must cytokinesis occur after, rather than before, anaphase?
6. What three functions does cell division accomplish?
7. Describe the functions of the mitotic spindle apparatus and the centromere.
8. Why is the replication process during interphase so important to cell division?
9. State the two differences between plant cell mitosis and animal cell mitosis.
10. A cell with 10 chromosomes undergoes mitosis. Indicate the number of chromosomes you would expect in each of the daughter cells.
11. What is the term for the point of attachment between two chromatids?
12. Do all of the cells in your body divide at the same rate? Explain.
13. What evidence suggests that cells contain a biological counter?
14. What evidence suggests that the human body can only live a finite number of years even if disease was eliminated?
15. State the phase that is described by each of the following events during
mitosis.
a) The chromosomes move apart and go to opposite poles of the cell.
b) The nucleolus and nuclear envelope reappear.
c) The centrioles
complete their own replication.
d) The cell grows in size.
e) The
spindle has reached its full development.
f) Chromosomes becomes shorter and
thicker strands
16. Match the events to the correct phase of meiosis.
a) pairs of
homologous chromosomes line up along the equator of the cell
b) synapsis
occurs and the four chromatids form a tetrad
c) replication of the genetic
material
d) one member of the homologous pair segregates from the other and
begins to move to opposite sides
e) sister chromatids split at the
centromere and move toward opposite poles
17. State the differences between meiosis and mitosis.
18. Define the following
a) homologous pairs (b) sister chromatids (c)
tetrad
19. Do homologous chromosomes have the same number of genes? Do they have identical genes? Explain.
20. A muscle cell of a mouse has 40 chromosomes. Indicate the number of
chromosomes you would expect to find in each of the following cells of the same
mouse
a) daughter cell formed after mitosis (b) skin cell (c) egg cell (d)
fertilized egg
21. Distinguish between haploid and diploid cells in humans. Apply them to the terms “somatic cell” and “sex cell.”
22. If a cell has a diploid number of 32, what would be the chromosome number of a cell in late Prophase I of meiosis?
23. How many chromosomes would each daughter cell in the previous question have at the end of Telophase II of meiosis?
24. What are three major groups of carcinogens?
25. What property of cancer cells allows them to spread throughout the body?
26. What is this process called?
27. What are some other properties of cancer cells?
28. What signals control the growth and division of normal cells?
29. Explain how synapsis often leads to the exchange of genetic material between chromosomes.
30. Describe nondisjunction.
31. Distinguish between trisomy and monosomy.
32. As any pair of chromatids can fail to separate during meiosis, theoretically there are 23 possible kinds of monosomy and trisomy. However, monosomies and trisomies for most of the 23 chromosome pairs are quite rare (or unheard of). Why do you think this is so?
33. What is a karyotype?
34. How can cells for a karyotype be acquired?
35. Explain how sexual reproduction increases genetic variation.