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Heredity and Reproduction

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Heredity and Reproduction The Nature of Heredity – PowerPoint PPT presentation

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Title: Heredity and Reproduction


1
Heredity and Reproduction
  • The Nature of Heredity

2
Genetic Material
  • Genetics is the study of heredity and variation.
  • Chromosomes are made of DNA (deoxyribonucleic
    acid)
  • A gene is a segment of a DNA molecule that codes
    for a specific trait and is always found at the
    same spot (locus) on a chromosome.

3
Asexual Reproduction
  • A new individual is created from a single parent
    by cell division.
  • Genes are identical to parent.
  • Advantages parent does not have to find a mate,
    no specialized mating behaviours, no need for
    complex anatomy.

4
Types of Asexual Reproduction
  • Runners above ground stems that extend and
    produce a new plant
  • Budding a new individual is an outgrowth of the
    parent before it buds off and becomes its own
    body.
  • Binary fission parent splits into two
  • Fragmentation fungi do this a fragment of the
    parent develops into a mature individual.

5
Cell Division
  • Mitosis happens for growth and development,
  • tissue repair
  • replacing cells that have aged
  • Cell division happens at different rates
    depending on where the cell is located in the
    body, the age of the organism and even which
    organism it is.
  • Mitosis occurs when a parent cell divides into 2
    daughter cells (which are genetically identical
    to each other and the parent cell)

6
  • Because the genetic material is the same, we call
    it genetic continuity.
  • DNA --gt chromatin (DNA protein)--gt chromosome
    (condensed and folded)
  • Occurs in all of our body cells somatic cells
  • Each human cell has 46 chromosomes, which we call
    the diploid number.
  • After Mitosis cells will go through
    differentiation where they will specialize and
    have different forms and functions within the
    organism.
  • Mitosis and Cancer cancer is basically mitosis
    gone out of control. There are many types of
    therapy to help combat cancer.

7
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8
Cloning
  • Is the process of producing one individual that
    is genetically identical to another using a
    single cell or tissue.
  • Biotechnology is the use of organisms for
    applications in engineering, industry, and
    medicine.
  • Cloning of plants is widely used today.
  • In 1996, the worlds most famous sheep, Dolly
    was born. She was the first mammal cloned from
    an adult body cell.

9
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10
Applications of Cloning
  • Mass production of livestock and crop plants
  • Improve livestock and crop production
  • May be very expensive
  • Unnatural/unethical
  • Vulnerability to disease
  • Clone genetically modified organisms (GMOs)
  • Commercial insulin
  • GM bananas have genes for hepatitis vaccine
  • GM pigs production of omega-3 fatty acids
  • Cloning endangered species
  • Genetic variability is still a problem

11
Sexual Reproduction
  • Individuals are produced from the fusion of two
    cells.
  • Sex cells usually come from two different
    parents.
  • Offspring are genetically different from parents.

12
Meiosis
  • A two-stage cell division in which the resulting
    daughter cells have half the number of
    chromosomes as the parent cell results in the
    formation of gametes or spores.
  • The number of chromosomes in somatic (body) cells
    any organism has is referred to as the diploid
    number (2n).
  • We have 23 pairs of homologous chromosomes making
    46 chromosomes in total. We have 23 chromosomes
    from our mother, and 23 from our father.
  • Each gene has its own specific position on the
    DNA strand, this is called its locus.

13
  • Because we have homologous pairs of chromosomes,
    the genes will be found at the same locus on each
    of the pairs.
  • Sometimes both chromosomes will not have the
    identical genes on them, when they have these
    differences they are called alleles.
  • Meiosis produces gametes that contain one of each
    of the homologous pairs of chromosomes and
    therefore will have only 23 chromosomes in a
    gamete. This is called the haploid number. (n)
  • When fertilization happens, the male gamete (the
    sperm that is made by the spermatogonia in the
    testes) and the female gamete (the egg that is
    made by oogonia in the ovaries) join together,
    resulting in a diploid cell called the zygote.

14
  • Meiosis produces genetic variability in two ways
  • By random assortment of the maternal and paternal
    sets of chromosomes during Metaphase I.
  • By the crossing over during Prophase I.

15
Prophase I
Metaphase I
Anaphase I
Interphase





Telophase I
Metaphase II
Telophase II
Prophase II
Anaphase II
16
Random Assortment
  • During meiosis I, homologous pairs line up in
    pairs and separate. The number of possible
    combinations depends on the number of chromosome
    pairs.
  • For the same couple mating, with only three
    chromosome pairs it would be 23 8 different
    possibilities. Since we have 23 pairs, it would
    be 223 8 388 608 different possibilities!!
  • This variation doesnt even include crossing
    over! Thats why we look so different!

17
Female Meiosis
  • The formation of egg cells is a bit different
    because only one egg is made each month, but more
    energy goes into making that egg.
  • Telophase I the cytoplasm does not divide
    equally and the parent cell (primary oocyte)
    divides into one large haploid cell and one small
    haploid cell.
  • larger cell secondary oocyte the smaller cell
    polar body.
  • Meiosis II large cell divides unequally again,
    making a larger cell (egg or ovum) and a smaller
    cell (polar body.)
  • The polar body produced after meiosis I may also
    divide and make two small polar bodies or it may
    just deteriorate.
  • End result only 1 functional cell, but it has a
    lot more cytoplasm and nutrients. Hence the
    difference in size between the egg and sperm.

18
Karyotypes
  • The chromosomes of an individual that have been
    sorted and arranged according to size and type.

Numbers 1 to 22 are autosomal chromosomes
Number 23 are the sex chromosomes (XX or XY)
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