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Meiosis and Sexual Reproduction

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Gametes reproductive cells ... Zygote product of gamete fusion, always has diploid number of chromosomes ... meiosis occurs only during gamete production ... – PowerPoint PPT presentation

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Title: Meiosis and Sexual Reproduction


1
Meiosis and Sexual Reproduction
  • Chapter 10

2
Meiosis
  • Meiosis - nuclear division that reduces
    chromosome number from diploid to haploid (in
    sexually reproducing organisms)
  • Gametes reproductive cells
  • Sexual reproduction gamete formation and fusion
    of gametes to form a cell
  • Zygote product of gamete fusion, always has
    diploid number of chromosomes

3
Homologous chromosomes
  • Homologous chromosomes chromosome pairs that
    look alike
  • Similar length
  • Centromere position
  • Similar banding patterns
  • Genes controlling same traits at same position
  • One from father, one from mother
  • Distinction between homologous and identical
    chromosomes

4
Human Karyotype
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5
Homologous chromosomes
6
Homologous Chromosomes
  • Homologous chromosomes have genes controlling the
    same trait at the same position
  • Each gene occurs in duplicate
  • A maternal copy from the mother, a paternal copy
    from the father
  • Many genes exist in several variant forms in a
    large population
  • Homologous copies of a gene may encode identical
    or differing genetic information
  • The variants that exist for a gene are called
    alleles
  • An individual may have
  • Identical alleles for a specific gene on both
    homologs (homozygous for the trait), or
  • A maternal allele that differs from the
    corresponding paternal allele (heterozygous for
    the trait)

7
Overview of Meiosis
  • Meiosis requires 2 nuclear divisions produces 4
    haploid daughter cells
  • Daughter cells receive one of each kind of
    parental chromosome, but in different
    combinations
  • Synapsis pairing of homologous chromosomes
  • Results in a bivalent
  • Homologues align and separate
  • Meiosis I

8
Overview of Meiosis
  • Daughter chromosomes, derived from sister
    chromatids, move to opposite poles
  • Chromosomes in the four daughter cells have only
    one chromatid
  • Meiosis II

9
Overview of Meiosis
10
Genetic Variation
  • Genetic recombination process in which new
    genetic information is incorporated into a
    chromosome or DNA fragment
  • Environmental changes, asexual reproduction might
    continue to produce offspring with a parents
    disadvantageous gene combination
  • Sexual reproduction might give offspring better
    chance of survival
  • Allows for adaptations

11
Genetic Recombination
  • 3 means of genetic recombination in sexual
    reproduction
  • Crossing-over
  • Independent assortment
  • Fertilization

12
Crossing-over
  • Crossing-over exchange of genetic material
    between nonsister chromatids of a bivalent during
    meiosis I
  • Homologues are held together by chiasmata,
    regions where the nonsister chromatids are
    attached due to cross-over

13
Crossing-over
14
Independent Assortment
  • Independent assortment homologous chromosomes
    separate independently or randomly during meiosis
  • Possible combinations 223 or 8,388,608

15
Fertilization
  • Gametes produced by one person are expected to be
    genetically different from the gametes produced
    by another person
  • Fusion of gametes causes combination of parental
    genes
  • Possible combinations (223)2 or
    70,368,744,000,000

16
Phases of Meiosis
  • Prophase I
  • Homologous chromosomes pair during synapsis
    (crossing-over)
  • Nuclear envelope fragments
  • Metaphase I
  • Homologous pairs align at the metaphase plate
  • Kinetochores visible

17
Meiosis I
18
Phases of Meiosis
  • Anaphase I
  • Homologous chromosomes separate, and move towards
    poles
  • Telophase I
  • Daughter cells have one chromosome from each
    homologous pair
  • Nuclear envelope reforms
  • Interkinesis
  • Chromosomes still contain two chromatids

19
Meiosis I
20
Meiosis II
  • Duplicated, haploid chromosomes align at
    metaphase plate
  • Sister chromatids separate at the centromere,
    giving rise to daughter chromosomes
  • At end of telophase II and cytokinesis, there are
    four haploid cells

21
Meiosis II
22
Meiosis II
23
Meiosis versus Mitosis
  • Meiosis
  • Requires two nuclear divisions
  • Chromosomes synapse and cross over
  • Centromeres survive Anaphase I
  • Halves chromosome number
  • Produces four daughter nuclei
  • Produces daughter cells genetically different
    from parent and each other
  • Used only for sexual reproduction
  • Mitosis
  • Requires one nuclear division
  • Chromosomes do not synapse nor cross over
  • Centromeres dissolve in mitotic anaphase
  • Preserves chromosome number
  • Produces two daughter nuclei
  • Produces daughter cells genetically identical to
    parent and to each other
  • Used for asexual reproduction and growth

24
Meiosis vs. Mitosis
25
Meiosis I vs. Mitosis
26
Meiosis II vs. Mitosis
27
Human Life Cycle
  • Life cycle all reproductive events that occur
    from one generation to the next
  • In animals, meiosis occurs only during gamete
    production
  • In males, meiosis is a part of spermatogenesis
  • In females, meiosis is a part of oogenesis
  • A sperm and egg fuse at fertilization
  • Results in a zygote - one-celled stage of an
    individual of the next generation
  • Undergoes mitosis
  • Results in multicellular embryo that gradually
    takes on features determined when zygote was
    formed
  • All growth occurs as mitotic division
  • As a result of mitosis, each somatic cell in body
  • Has same number of chromosomes as zygote
  • Has genetic makeup determined when zygote was
    formed

28
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29
Spermatogenesis
30
Oogenesis
31
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