NEL Cell Division 575
Comparing Mitosis and Meiosis
Single-celled eukaryotic species undergo asexual reproduction by mitosis, followed by
cytokinesis. In multicellular eukaryotic species, somatic cells undergo these same processes
in order to grow and repair tissue. In contrast, meiosis occurs only in the sex cells of
multicellular eukaryotic species, in order to produce the gametes needed for sexual
reproduction.
The most significant difference between mitosis and meiosis is the end result (Figure 6).
Mitosis results in two daughter cells that are identical to each other. The daughter cells
have the same genetic information and carry the same number of chromosomes as the
Section17. 3Practice
- Define meiosis. Describe the main stages in the process. Sketch the sequence of
stages to help you in your description. Label your diagrams appropriately.
2.How are haploid cells different from diploid cells in humans?
3.What is a tetrad?
4.What are homologous chromosomes?
5.Do homologous chromosomes have the same number of genes? Explain.
6.Do homologous chromosomes have identical genes? Explain.
miniInvestigation Gamete Formation in Grasshoppers
Obtain prepared slides of grasshopper (Figure 5) testes and
identify cells undergoing meiosis. Make a few sample diagrams
of cells at various stages of cell division.
(a) Label the chromosomes.
(b) Are you able to count the chromosome number? Explain
why or why not.
(c) Explain and compare what happens in prophase,
metaphase, and anaphase of meiosis I and II.
(d) How do cells undergoing meiosis II differ from cells
undergoing meiosis I?Figure 5Figure 6
Comparison of mitosis and meiosis
in humans. Mitosis produces two
diploid cells from one diploid cell.
Meiosis produces four haploid cells
from one diploid cell.meiosis
diploid chromosome
numberhaploid
chromosome
numberfirst meiotic
divisionsecond meiotic
division4623 2323 23 23 23mitosis46 4646