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Meiosis: Making haploid reproductive cells

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Meiosis: Making haploid reproductive cells Goal of Meiosis The purpose is to make haploid cells so that when 2 haploid cells combine you have a new diploid offspring ... – PowerPoint PPT presentation

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Title: Meiosis: Making haploid reproductive cells


1
MeiosisMaking haploid reproductive cells
2
Goal of Meiosis
  • The purpose is to make haploid cells so that when
    2 haploid cells combine you have a new diploid
    offspring that has an original combination of
    genes.
  • Haploid cell Haploid cell Diploid cell
    (2n) (1n) (1n) that turns into a
    muticellular offspring

3
Meiosis Overview
  • Makes 4 haploid cells
  • Takes place in sex cells (gametes) such as egg
    sperm cells
  • Location Testes (male) and ovaries (female)
  • The Goal
  • To make 4 haploid daughter cells for reproduction
    that are genetically different from the parent
    cells.
  • Each haploid daughter cell will contain a mixture
    of the parents chromosomes, so that the 4
    daughter cells should be different.

4
Meiosis
  • Involves 2 cell divisions
  • The cell will go through interphase (G1, S,
    G2)but then will divide twice ? resulting in 4
    haploid cells
  • There are 2 parts in Meiosis
  • Meiosis 1
  • Meiosis 2

5
Meiosis I and Meiosis II
  • Both go through each of the phases of mitosis
    (PMAT)
  • After each one cytokinesis occurs
  • The goal is to reduce chromosome number to
    haploid so that 2 cells can combine to make a
    diploid organism

6
Meiosis 1 Prophase 1
  • DNA coils into chromatids
  • Spindle fibers appear
  • Nucleus/nucleolus disappear
  • Homologous chromosomes pair up into tetrads of 4
    chromatids, called synapsis
  • Crossing over may occur causing genetic
    recombination

7
What is crossing over?
  • When a homologous pair bumps into each other
    during prophase I and they exchange portions one
    chromatid ? leads to genetic recombination

8
Metaphase I Anaphase I
  • Metaphase I
  • Tetrads line up randomly in the center. Spindle
    fibers attach to each end of the homologous pair
  • Anaphase I
  • Homologous pairs split randomly, called
    independent assortment

9
Independent Assortment
  • The random lining up of homologous pairs during
    metaphase I. This allows for different gametes to
    be possible and also leads toward genetic
    recombination

10
More independent assortment
11
What is genetic recombination?
  • when the combination of genes in an offspring
    are different from the gene combination found in
    the parents
  • Occurs in 2 ways in meiosis
  • 1. Crossing over where homologous pairs exchange
    portions of one chromatid
  • 2. Independent assortment where the homologous
    pairs line up randomly or without influences like
    which parent they came from or whether they are
    dominant or recessive.

12
Telophase I and Cytokinesis I
  • Chromosomes reach poles
  • Cytokinesis occurs forming 2 haploid cells with 2
    copies of their chromosomes
  • Nuclear membrane may or may not reform before
    meiosis II

13
Meiosis II (2nd cell division, similar to
mitosis steps, PMAT)
  • Prophase II Spindle fibers form
  • Metaphase II Chromosomes move to center (along
    equator)
  • Anaphase II Chromatids separate toward the poles
  • Telophase II Nuclear membrane reforms. Spindle
    fibers disassemble.
  • Cytokinesis occurs forming 4 haploid cells with 1
    copy of each chromosome.

14
How does Meiosis differ in males vs. females?
  • Since meiosis is producing sex cells (sperm
    eggs) it takes place in the testes (males) the
    ovaries (female)
  • In males
  • Spermatogenesis - the formation of 4 spermatids
    (haploid cells) which will turn into spermatozoa
    (sperm cells).
  • In females
  • Oogenesis - the formation of 1 egg cell (ova)
    with more cytoplasm than the other 3 cells. The
    remaining 3 cells are called polar bodies and
    will disintegrate

15
  • The phases of Meiosis

16
Diagrams
17
Let us compareMitosis VS. Meiosis
  • Mitosis makes IDENTCIAL cells to the parent
  • Mitosis make DIPLOID cells
  • Mitosis occurs in BODY cells
  • Mitosis makes 2 DAUGHTER CELLS
  • Meiosis make DIFFERENT cells from the parent
  • Meiosis makes HAPLOID cells
  • Meiosis occurs in REPRODUCTIVE cells
  • Meiosis makes 4 DAUGHTER CELLS

18
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19
Animations
Johnkyrk.com http//www.lewport.wnyric.org/jwanam
aker/animations/meiosis.html http//www.stolaf.ed
u/people/giannini/
  • Meiosis square dance
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