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Mendel and the Gene Idea

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Character- heritable trait such as flower color or hair color. Trait the variant for the character purple flowers, red hair. ... – PowerPoint PPT presentation

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Title: Mendel and the Gene Idea


1
Chapter 14
  • Mendel and the Gene Idea

2
Mendel
  • Mendel is considered to be the father of
    genetics.
  • He conducted carefully controlled experiments
    with pea plants and discovered the basic
    principles of heredity.

3
Useful Vocabulary
  • Character- heritable trait such as flower color
    or hair color.
  • Trait the variant for the character purple
    flowers, red hair.
  • True-breeding for this instance, the plants
    produced offspring with the same characters when
    the parent plant self-pollinates.

4
Generations
  • P generation is the parent generation.
  • F1 is the first filial generation or the
    offspring of the P generation.
  • F2 is the second filial generation or the
    offspring of the F1 generation.

5
Generations
6
The Law of Segregation
  • Alleles are alternate version of a gene. The two
    alleles are located on one of each homologous
    chromosome.
  • The law of segregation is that two alleles for a
    character are packaged into separate gametes (one
    from the maternal line and one from the paternal
    line.)

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8
Alleles
  • Alleles can be dominant or recessive.
  • Individuals can be homozygous dominant (BB),
    homozygous recessive (bb) or heterozygous (Bb).
  • In homozygous dominant and heterozygous
    individuals the dominant trait is expressed.
  • For a recessive trait to be expressed, the
    individual must be homozygous recessive.

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10
Phenotype and Genotype
  • The phenotype is the exhibited or expressed
    traits.
  • The genotype is the genetic make-up.
  • The genotype and phenotype are the same for
    homozygous individuals.
  • Heterozygotes are more difficult to determine
    because they carry the recessive trait even
    though it is not expressed.

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12
Probability and Punnet Squares
  • We can determine the probability of traits shown
    in potential offspring of two individuals by
    using a Punnet Square.
  • The probabilities are just like tossing a coin.

13
Probability
  • Probability ranges from 1 very certain an event
    will happen to 0 the event will not happen.
  • What is the probability that a coin when tossed
    will land on heads?
  • What is the probability that when tossed two
    coins will both land on heads.

½ x ½ ¼
14
Using Probability to Solve Genetic Problems
  • We can use the Punnet square to calculate the
    number of offspring likely to result from the
    individuals of known genotype.
  • FOIL is used to determine the genotypes.
  • Draw a 4-square Punnet square and determine the
    likely numbers of offspring for the following
    cross.
  • BB x Bb

15
Dihybrid Trihybrid Crosses
  • T tall, t short
  • B brown eyes, b blue
  • TtBB x ttBb
  • Using the above parents, calculate the probable
    numbers of offspring with the traits that result
    from this cross.
  • If R tongue roller, r non-tongue roller then
    calculate TTbbRr x Ttbbrr

16
Other forms of Inheritance
  • Genetics is not simple.
  • There are more complex gene interactions that
    occur other than what we term simple Mendelian
    genetics

17
Incomplete Dominance
  • Incomplete dominance when neither allele is
    dominant over the other and a blending of the
    traits is the result. Example Hair Texture.
  • Curly and Straight hair textures show incomplete
    dominance. CC curly, SS straight and CS
    wavy.

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19
Codominance
  • Another example is codominance.
  • Codominance is when both alleles are dominant and
    both traits show in the geneotype.
  • Blood Groups are an example.
  • I is used for blood.

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21
Blood Groups
  • IA is for type A.
  • IB is for type B
  • i is for type 0
  • Persons with type A can be IA i or IA IA
  • Persons with type B can be IB i or IB IB
  • Persons with Type AB are IA IB
  • Persons with 0 are ii.

22
Pleiotropy
  • The ability of one gene to affect an organism in
    many ways is pleiotropy.
  • The gene for Sickle-Cell Anemia causes multiple
    symptoms thus affects the organism in multiple
    ways.

23
Epistasis
  • Epistasis is when one gene at one locus affects
    the expression of another gene at another locus.

24
Genetic Expression and the Environment
  • Phenotypes are always affected by their
    environment. In buttercup (Ranunculus peltatus),
    leaves below water-level are finely divided and
    those above water-level are broad, floating,
    photosynthetic leaf-like leaves.
  • Siamese cats are darker on their extremities, due
    to temperature effects on phenotypic expression.
    Expression of phenotype is a result of
    interaction between genes and environment.

25
  • Siamese cats and Himalayan rabbits both animals
    have dark colored fur on their extremities.
  • This is caused by an allele that controls pigment
    production being able only to function at the
    lower temperatures of those extremities.
  • Environment determines the phenotypic pattern of
    expression.

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Polygenic Inheritance
  • Polygenic inheritance is a pattern responsible
    for many features that seem simple on the
    surface. Many traits such as height, shape,
    weight, color, and metabolic rate are governed by
    the cumulative effects of many genes.
  • Polygenic traits are not expressed as absolute
    characters, as was the case with the pea plant
    traits.

28
  • Instead, polygenic traits are recognizable by
    their expression as a gradation of small
    differences (a continuous variation). The results
    form a bell shaped curve, with a mean value and
    extremes in either direction.
  • Usually polygenic traits are distinguished by
  • Traits are usually quantified by measurement
    rather than counting.
  • Two or more gene pairs contribute to the
    phenotype.
  • Phenotypic expression of polygenic traits varies
    over a wide range.

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30
Genetic Disorders
31
Recessive Disorders
  • These disorders only show up in individuals who
    are homozygous recessive for the trait.
  • Cystic Fibrosis strikes 1 in 2,500 whites of
    European descent.
  • Tay-Sachs disease is in high incidence in
    Ashkenazic Jews.
  • Sickle Cell disease strikes 1 in 400 African
    Americans.

32
Dominant Disorders
  • The individual is heterozygous or homozygous
    dominant.
  • Achondroplasia type of dwarfism.
  • Huntingtons disease degenerative disease of
    the nervous system.
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