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Meiosis- The Formation of Sex Cells

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Meiosis- The Formation of Sex Cells I. Introduction to Meiosis A. Purpose - to make sex cells for reproduction. B. Why can t mitosis do this? – PowerPoint PPT presentation

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Title: Meiosis- The Formation of Sex Cells


1
Meiosis- The Formation of Sex Cells
2
I. Introduction to Meiosis
  • A. Purpose - to make sex cells for reproduction.
  • B. Why cant mitosis do this?
  • 1. Mitosis would make too many
    chromosomes.

3
  • C. Diploid Chromosome - the total number of
    chromosomes the individual should have.
  • 1. Ex. Human 46
  • Ex. Lettuce 18
  • 2. Diploid number 2n

4
  • D. Haploid Chromosome Number - half the number
    of chromosomes an organism should have.
  • 1. Ex. Human 23
  • 2. Ex. Lettuce 9
  • 3. Haploid Chromosome n

5
II. Workings of Meiosis
  • A. Meiosis is - the formation of sex cells (eggs
    and sperm)
  • 1. Gametes - another name for sex cells.
  • A. Gametes have haploid chromosome
    number

6
  • B. Meiosis is the making of eggs and sperm with
    half the number of chromosomes as the parent
    cell.
  • 1. Female egg 23
  • 2. Male sperm 23

7
  • C. Two Main Stages of Meiosis
  • 1. Meiosis I
  • a. Prophase I
  • b. Metaphase I
  • c. Anaphase I
  • d. Telophase I

8
  • 2. Meiosis II
  • a. Prophase II
  • b. Metaphase II
  • c. Anaphase II
  • d. Telophase II
  • D. There is only one interphase

9
III. Meiosis I
  • A. Interphase
  • 1. Replication of chromosomes occurs.
  • 2. This is the only interphase.

10
  • B. Prophase I
  • 1. Chromatids appear
  • 2. Centrosome splits into two centrioles.
  • 3. Centrioles move to the opposite poles.
  • 4. Spindle fibers appear

11
  • 5. Nucleolus disappears
  • 6. Nuclear membrane disappears
  • 7. Tetrads form - two pairs of homologous
    chromosomes joining together.

12
  • 8. Crossing-over occurs here - genes are
    exchanged between homologous chromsomes.
  • a. Creates variation in new offspring

13
  • C. Metaphase I
  • 1. Tetrads line up at the equator.

14
  • D. Anaphase I
  • 1. Tetrads separate.
  • 2. Chromatids are pulled to the opposite
    poles.

15
  • E. Telophase I
  • 1. Chromatids still visible.
  • 2. Nucleolus and Nuclear Membrane reforms.
  • 3. Centrioles replicate
  • 4. Two new cells.

16
IV. Meiosis II
  • A. No interphase begins this phase.
  • 1. 2 cells with the diploid chromosome
    number begin this stage.
  • 2. Meiosis II will always have two cells
    in each phase.

17
  • B. Prophase II
  • 1. Nuclear membrane and nucleolus
    disappear.
  • 2. Centrosome splits into two centrioles.
  • 3. Centrioles move to the poles.

18
  • 4. Spindle fibers form.
  • 5. Chromatids are visible and attach to spindle
    fibers.

19
  • C. Metaphase II
  • 1. Chromatids line up on the equator.

20
  • D. Anaphase II
  • 1. Centromeres separate.
  • 2. Chromosomes are pulled to opposite
    poles.

21
  • E. Telophase II
  • 1. Centrioles replicate
  • 2. Nuclear membrane and nucleolus
    reappear.
  • 3. Spindle fibers disappear.

22
  • 4. 4 new cells are formed
  • a. Only have half the number of chromosomes
    as the parent cell.
  • b. Males - all 4 remain alive and viable.
  • c. Females - one grows rest die off.

23
V. Meiosis-Mitosis Comparison
  • A. Mitosis
  • 1. 4 phases
  • 2. Produces 2 diploid cells
  • 3. Daughter cells identical to parent

24
  • B. Meiosis
  • 1. 8 phases
  • 2. 4 haploid cells produced
  • 3. Daughter cells not identical to parent
  • 4. Contain tetrads and crossing-over.
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