Chapter 13 Meiosis and Sexual Life Cycles - PowerPoint PPT Presentation

1 / 24
About This Presentation
Title:

Chapter 13 Meiosis and Sexual Life Cycles

Description:

Transmission of genes from parents to offspring results in similarities among ... Karyotype - A display or photomicrograph of an individual's somatic-cell ... – PowerPoint PPT presentation

Number of Views:307
Avg rating:3.0/5.0
Slides: 25
Provided by: MB262
Category:

less

Transcript and Presenter's Notes

Title: Chapter 13 Meiosis and Sexual Life Cycles


1
Chapter 13Meiosis and Sexual Life Cycles
2
I. Terms
  • Heredity Continuity of biological traits from
    one generation to the next. Transmission of
    genes from parents to offspring results in
    similarities among closely related individuals
  • Variation Inherited differences among
    individuals of the same species
  • Genetics The scientific study of heredity and
    variation

3
  • Genes and Chromosomes
  • Genes Units of hereditary information that are
    made of DNA and are located on chromosomes
  • Specific nucleotide sequences
  • Most program cells to synthesize specific
    proteins which code for individual traits
  • Locus Specific region of DNA on a chromosome
    that corresponds to a gene
  • Chromosome A single DNA molecules that is
    highly folded and coiled along with a protein.
    Each chromosome contains many genes

4
II. Types of Reproduction
  • Asexual
  • Single individual is the sole parent
  • Single parent passes all of its genes to
    offspring
  • Parent and offspring are genetically identical
  • Sexual
  • Two parents give rise to offspring
  • Each parent passes on half of its genes to
    offspring
  • Offspring have a unique combination of genes
    inherited from both parents
  • Results in greater genetic variation

5
III. Sexual Life Cycles
  • Terms
  • Life Cycle Sequence of stages in an organisms
    reproductive history, from conception to
    production of offspring
  • Somatic Cell Any cell other than gametes (sperm
    or egg)

6
  • Karyotype - A display or photomicrograph of an
    individuals somatic-cell metaphase chromosomes
    arranged in a standard sequence

7
  • Homologous Chromosomes A pair of chromosomes
    that have the same size, centromere position and
    staining pattern
  • Autosomes carry same genetic loci
  • XY sex chromosomes carry different genetic loci

8
  • Autosome a non-sex chromosome (22 pairs in
    humans)
  • Sex Chromosomes X, Y chromosomes that determine
    an individuals sex

9
  • Diploid Condition in which cells contain two
    sets of chromosomes abbreviated as 2n
  • Haploid Condition in which cells contain one
    set of chromosomes gametes abbreviated as n

10
  • Gamete A haploid reproductive cell sperm/ova
  • Fertilization The union of two gametes to form
    a zygote
  • Zygote A diploid cell that results from the
    union of two haploid gametes gives rise to all
    other cells by mitosis

11
B. Types
  • Animal In animals, including humans, gametes
    are the only haploid cells
  • Meiosis occurs during gamete production. Gametes
    undergo no further cell division prior to
    fertilization
  • Fertilization produces a diploid zygote that
    divides by mitosis to produce a multicellular
    animal

12
  • Plant Alternate between multicellular haploid
    and diploid generations
  • Alternation of generations
  • Diploid stage sporophyte Meiosis produces
    haploid spores
  • Haploid spores divide mitotically to generate
    haploid gametophyte
  • Haploid gametophytes produce gametes by mitosis
  • Fertilization produces a diploid zygote ?
    sporophyte

13
(No Transcript)
14
IV. Meiosis
  • Stages of Meiosis I
  • Interphase I (precedes meiosis)
  • Chromosomes replicate ? sister chromatids with
    centromere
  • Centriole pairs in animal cells replicate into
    two pairs
  • Prophase I (90 of meiosis)
  • Chromosomes condense
  • Synapsis Homologous chromosomes come together
    as pairs
  • Homologous pair in synapsis appears as a tetrad
  • Non sister chromatids linked by X-shaped
    chiasmata, sites where homologous strand exchange
    (crossing over) occurs
  • Centriole pairs move, spindle microtubules form
  • Nuclear envelope and nucleoli disperse

15
(No Transcript)
16
  • Metaphase I Tetrads are aligned on metaphase
    plate homologues are aligned, kinetochores
    point towards opposite poles
  • Anaphase I Homologues separate and are moved
    towards the poles by spindles
  • Sister chromatids remain attached at their
    centromeres
  • Homologues separate
  • Telophase I/Cytokinesis
  • The spindle apparatus continues to separate
    homologous chromosome pairs until the chromosomes
    reach the poles
  • Each cell contains haploid set of chromosomes -
    sister chromatids still attached by centromere
  • Cytokinesis usually occurs simultaneously with
    telophase I cleavage furrow or cell plate forms
  • In some species nuclear membrane and nucleoli may
    reform

17
(No Transcript)
18
B. Stages of Meiosis II
  • Prophase II Spindle apparatus forms and
    chromosomes move toward metaphase II plate
  • Metaphase II Chromosomes align singly on
    metaphase plate, kinetochores of sister
    chromatids point towards opposite poles
  • Anaphase II Sister Chromatids separate
  • Telophase II and Cytokinesis
  • Nuclei form at opposite poles of the cell
  • Cytokinesis occurs producing four haploid cells

19
(No Transcript)
20
(No Transcript)
21
V. Genetic Variation Sexual reproduction
provides genetic variation by
  • Independent Assortment Random distribution of
    maternal and paternal homologues to gametes
  • 50/50 chance that a daughter cell will receive
    paternal/maternal homologues
  • In humans, there are 223 or 8 million
    combinations
  • Maternal and paternal homologues contain
    different genetic information on man loci

22
  • Crossing Over Exchange of genetic material
    between homologues. Produces chromosomes that
    contain genes from both parents

23
  • Random Fertilization In humans, an egg cell
    that is one of 8 million possibilities will be
    fertilized by a sperm cell that is also one of 8
    million possibilities. Resulting zygote can have
    one of 64 trillion possible genetic diploid
    combinations

24
VI. Evolution and Genetic Variation
  • Natural Selection
  • Increases frequency of inheritable variations
    that favor the reproductive success of some
    individuals
  • Results in adaptation (the accumulation of
    inheritable variations that are favored by the
    environment)
  • In the face of environmental change, genetic
    variation increases the likelihood that some
    individuals in a population will have inheritable
    variations that help them cope with new
    conditions.
Write a Comment
User Comments (0)
About PowerShow.com