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Meiosis

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Meiosis

How do you make a cell with half the DNA?

Meiosis. This allows cells to have half the number of chromosomes, so two of these cells can come back together to form a new organism with the complete number of chromosomes. This process not only helps produce gametes, it also ensures genetic variation.

Meiosis

The process that produces haploid gametes is meiosis. Meiosis is a type of cell division in which the number of chromosomes is reduced by half. It occurs only in certain special cells of the organisms. During meiosis, homologous chromosomes separate, and haploid cells form that have only one chromosome from each pair. Two cell divisions occur during meiosis, and a total of four haploid cells are produced. The two cell divisions are called meiosis I and meiosis II. The overall process of meiosis is summarized in Figure below . You can watch an animation of meiosis at this link: http://www.youtube.com/watch?v=D1_-mQS_FZ0 .

An illustrated overview of meiosis

Overview of Meiosis. During meiosis, homologous chromosomes separate and go to different daughter cells. This diagram shows just the nuclei of the cells. Notice the exchange of genetic material that occurs prior to the first cell division.

Phases of Meiosis

Meiosis I begins after DNA replicates during interphase of the cell cycle. In both meiosis I and meiosis II, cells go through the same four phases as mitosis - prophase, metaphase, anaphase and telophase. However, there are important differences between meiosis I and mitosis. The flowchart in Figure below shows what happens in both meiosis I and II.

A more detailed illustration of the phases of meiosis

Phases of Meiosis. This flowchart of meiosis shows meiosis I in greater detail than meiosis II. Meiosis I—but not meiosis II—differs somewhat from mitosis. Compare meiosis I in this flowchart with the earlier figure featuring mitosis. How does meiosis I differ from mitosis?

Compare meiosis I in this flowchart with the figure from the "Mitosis and Cytokinesis" concept. How does meiosis I differ from mitosis? Notice at the beginning of meiosis (prophase I), homologous chromosomes exchange segments of DNA. This is known as crossing-over , and is unique to this phase of meiosis.

The phases of meiosis are discussed at http://www.youtube.com/watch?v=ijLc52LmFQg (27:23).

Meiosis I

  1. Prophase I: The nuclear envelope begins to break down, and the chromosomes condense. Centrioles start moving to opposite poles of the cell, and a spindle begins to form. Importantly, homologous chromosomes pair up, which is unique to prophase I. In prophase of mitosis and meiosis II, homologous chromosomes do not form pairs in this way. Crossing-over occurs during this phase (see Reproduction IV: Genetic Variation ).
  2. Metaphase I: Spindle fibers attach to the paired homologous chromosomes. The paired chromosomes line up along the equator (middle) of the cell. This occurs only in metaphase I. In metaphase of mitosis and meiosis II, it is sister chromatids that line up along the equator of the cell.
  3. Anaphase I: Spindle fibers shorten, and the chromosomes of each homologous pair start to separate from each other. One chromosome of each pair moves toward one pole of the cell, and the other chromosome moves toward the opposite pole.
  4. Telophase I and Cytokinesis: The spindle breaks down, and new nuclear membranes form. The cytoplasm of the cell divides, and two haploid daughter cells result. The daughter cells each have a random assortment of chromosomes, with one from each homologous pair. Both daughter cells go on to meiosis II. The DNA does not replicate between meiosis I and meiosis II.

Meiosis II

  1. Prophase II: The nuclear envelope breaks down and the spindle begins to form in each haploid daughter cell from meiosis I. The centrioles also start to separate.
  2. Metaphase II: Spindle fibers line up the sister chromatids of each chromosome along the equator of the cell.
  3. Anaphase II: Sister chromatids separate and move to opposite poles.
  4. Telophase II and Cytokinesis: The spindle breaks down, and new nuclear membranes form. The cytoplasm of each cell divides, and four haploid cells result. Each cell has a unique combination of chromosomes.

Mitosis, Meiosis and Sexual Reproduction is discussed at http://www.youtube.com/watch?v=kaSIjIzAtYA (18:23).

You can watch an animation of meiosis at this link: http://www.youtube.com/watch?v=D1_-mQS_FZ0 .

Summary

  • Meiosis is the type of cell division that produces gametes.
  • Meiosis involves two cell divisions and produces four haploid cells.
  • Sexual reproduction has the potential to produce tremendous genetic variation in offspring. This is due in part to crossing-over during meiosis.

Practice I

Use this resource to answer the questions that follow.

  1. What is a fundamental goal of meiosis?
  2. What does 2n refer to?
  3. Describe synapsis, crossing-over, and chiasmata.
  4. What is the metaphase plate?
  5. How does meiosis ensure independent assortment?
  6. What does NOT occur during interkinesis?
  7. Describe the main difference between metaphase I and metaphase II. ( Hint : DNA alignment)
  8. Describe the products of meiosis I and meiosis II.
  9. List four differences between meiosis and mitosis.

Practice II

Review

1. Outline the phases of meiosis.

2. Create a diagram to show how crossing-over occurs and how it creates new gene combinations on each chromosome.

3. Explain why sexual reproduction results in genetically unique offspring.

4. Explain how meiosis I differs from mitosis.

Vocabulary

crossing-over

crossing-over

Exchange of genetic material between homologous chromosomes; occurs during prophase I.
haploid

haploid

Having one set of chromosomes.
homologous chromosomes

homologous chromosomes

Pair of chromosomes that have the same size and shape and contain the same genes.
meiosis

meiosis

Type of cell division in which the number of chromosomes is reduced by half and four haploid cells result.

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