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Mendel and the Gene Idea

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Title: Mendel and the Gene Idea


1
Mendel and the Gene Idea
  • Chapter 14

2
  • Gregor Mendel - monk - studied pea plants, looked
    at traits.
  • Pea plants many varieties with distinct heritable
    features (characters) with different variants
    (traits).
  • Pea plants self-fertilize Mendel
    cross-fertilized to study traits.

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  • Mendel cross-pollinated (hybridize) 2
    contrasting, true-breeding pea varieties.
  • True-breeding parents - P generation hybrid
    offspring - F1 generation.
  • F1 hybrids then self-pollinate to produce F2
    generation.

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http//nitro.biosci.arizona.edu/courses/EEB320-200
5/Lecture02/pics/pea.jpeg
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  • Thought genes blended - purple flower crossed
    with white flower result would be light purple
    flowers.
  • All the flowers purple.

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  • When flowers self-fertilized, white flower
    reappeared in next generation.
  • Ratio of purple to white in F2 generation was 31.

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  • Developed hypothesis to explain process.
  • 1Alternative versions of genes (alleles) account
    for variations in inherited characters.
  • 2For each character organism inherits 2 alleles,
    1 from each parent.
  • Alleles can be same or different.

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  • 32 alleles differ - 1 (dominant allele) fully
    expressed in organism.
  • Other (recessive allele) no noticeable effect on
    organisms appearance.
  • 42 alleles for each character segregate
    (separate) during gamete production.

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http//discover.edventures.com/images/termlib/d/do
minant_allele/support.gif
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  • Found that alleles not linked due to inheritance
    patterns.
  • Independent assortment of each pair of alleles
    during gamete formation - law of independent
    assortment.

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  • Therefore, Mendel had three different laws.
  • The law of dominance and recessiveness states
    that one gene is dominant over the more recessive
    gene.
  • The law of segregation states that alleles
    separate during meiosis.
  • The law of independent assortment states that
    alleles organize in the gametes regardless of
    other alleles.

17
  • An organism with two identical alleles for a
    character is homozygous for that character.
  • Organisms with two different alleles for a
    character is heterozygous for that character.
  • A description of an organisms traits is its
    phenotype.
  • A description of its genetic makeup is its
    genotype.

18
  • A Punnett square predicts the results of a
    genetic cross between individuals of known
    genotype.
  • A testcross, breeding a homozygous recessive with
    dominant phenotype, but unknown geneotype, can
    determine the identity of the unknown allele.

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  • Mendels experiments focused on monohybrid
    crosses meaning that he looked at only one trait
    at a time.
  • Later on he started looking at dihybrid crosses
    involving probabilities of two different traits.

21
  • Mendels ideas are based on probability.
  • If you were to toss a coin 4 times, the coin has
    a ½ chance of coming up heads every time.
  • Each toss is independent of the one done before.
  • The probability of it coming up heads all four
    times is ½ ½ ½ ½ 1/8.
  • This is known as the rule of multiplication.

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12.2
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  • There is also a law of addition that determines
    the chances of an event happening in different
    ways.
  • For example, there are two ways that F1 gametes
    can combine to form a heterozygote.
  • The dominant allele could come from the sperm and
    the recessive from the ovum (probability 1/4).
  • Or, the dominant allele could come from the ovum
    and the recessive from the sperm (probability
    1/4).
  • The probability of a heterozygote is 1/4 1/4
    1/2.

24
  • Incomplete dominance can also occur in offspring.
  • In incomplete dominance, heterozygotes have a
    completely different phenotype than homozygotes.
  • This happens in snapdragons.
  • Homozygous recessive flowers are white
    homozygous dominant flowers are red
    heterozygotes are pink.

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  • Another inheritance pattern is codominance in
    which two alleles affect the phenotype in
    separate, distinguishable ways.
  • An example of this is blood type.
  • If you inherit an A allele and a B allele, your
    blood type will be AB if it is AA or AO, your
    blood type will be A.
  • This means that A is dominant to O, B is dominant
    to O, but A is codominant to B.

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  • Blood type is important because type A has anti-B
    antibodies.
  • If exposed to B blood, it will clump together
    causing a transfusion reaction.
  • People with blood type O have both antibodies and
    therefore can donate to any other blood type.
  • On the other hand, AB has neither antibodies and
    therefore can receive from any blood type.

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  • Dominant genes do not mean that they are more
    popular in a given population.
  • Also, most genes do not control only one trait
    but are pleiotropic, affecting more than one
    phenotypic character.
  • In epistasis, a gene at one locus alters the
    phenotypic expression of a gene at a second
    locus.

30
  • In mice, one gene determines whether or not there
    will be a coat color.
  • If that gene is turned off, the mouse will be
    white if it is turned on, another locus will
    determine what the color is (brown or black).

31
  • Quantitative characters vary in a population
    along a continuum.
  • This is because of polygenic inheritance which is
    when more than one gene controls a single trait.
  • An example of this is skin color which is
    controlled by at least three different genes and
    is responsible for the variety of skin colors.

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  • Phenotype also depends on environment.
  • For humans, nutrition influences height, exercise
    alters build, sun-tanning darkens the skin, and
    experience improves performance on intelligence
    tests.

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  • Genetic experiments cannot ethically be performed
    on humans, so geneticists use pedigrees to look
    at traits found in families.
  • A family tree is then created showing the absence
    or presence of a specific trait to determine how
    it is passed.

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  • Ethnicity plays a role in genetic disease
    patterns.
  • For example, sickle-cell anemia is found
    predominately in African-Americans.
  • This disease causes the red blood cells to be
    sickle shaped instead of the normal disk shape
    causing the cells to get stuck in the vessels.

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  • Cystic fibrosis affects mostly Caucasians.
  • Cystic fibrosis is a multi-system disease that
    causes mucous to build up in various organs,
    especially the lungs.

39
  • Tay-Sachs affects people of Jewish descent.
  • Tay-Sachs affects the brains of small children,
    ultimately causing the death of the child prior
    to 5 years old.

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  • Some genetic diseases, such as dwarfism, are
    dominant diseases.
  • This means that a child has a 50 chance of
    inheriting the disease because one of the parents
    has the disease.
  • Huntingtons disease is also a dominant disease
    that affects the nervous system.
  • Most dominant diseases are not lethal
    (Huntingtons disease is).

41
  • Genetic counseling is a field of study that works
    with people that have a history of genetic
    disease in the family.
  • A child with a recessive disease can be born to
    phenotypically normal parents.
  • There are several tests that can be performed to
    determine a couples risk.

42
  • One technique is amniocentesis.
  • Cells are extracted from the amniotic fluid
    surrounding the fetus and then analyzed to search
    for potential problems in a technique called
    karyotyping.
  • Karyotyping is essentially mapping out the
    chromosomes of an individual.

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  • A second technique, chorionic villus sampling
    (CVS) can allow faster karyotyping and extracts a
    sample of fetal tissue from the chorionic villi
    of the placenta.

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  • A more routine test is an ultrasound which
    detects only physical abnormalities that are
    present.
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