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Genetics

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Carrion beetles lay their eggs in dead animals and then bury them in the ground ... Suppose a female carrion beetle homozygous dominant for both traits mates with a ... – PowerPoint PPT presentation

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Title: Genetics


1
Genetics
  • 11/15/2007

2
Essential Question
  • How do chromosomes get passed from one generation
    to the next?

3
Genetics
  • Genetics? the scientific study of heredity

4
Gregor MendelThe father of genetics
  • grew up on a small farm in what is today the
    Czech Republic
  • Lived in a monastery
  • Studied math and science at the University of
    Vienna.
  • bred garden peas to study inheritance
  • He made a lucky choice of plants
  • many varieties with distinct heritable features
    (characters) with different variants (traits)
  • Mendel had strict control over which plants mated
  • In nature, pea plants typically self-fertilize

5
Must know terms
  • Traitspecific characteristic varies from one
    individual to another example height
  • Hybridoffspring of crosses between parents with
    different traits
  • Dominantexpressed trait
  • Recessivenon expressed trait present only in
    the absence of the dominant

6
Must know terms
  • Homozygousindividuals with two identical alleles
    for a particular trait true breeding
  • Heterozygousindividuals with two different
    alleles for a particular traithybrid
  • PhenotypePhysical characteristics
  • GenotypeGenetic makeup

7
Must know terms
  • AlleleDifferent forms of a gene
  • P generationParental generation
  • F1 generationfirst generation after P
  • F2 generationsecond generation after P
  • Probabilityis the likelihood that a particular
    event will occur

8
  • Pea plants use parts of their flowers to
    reproduce.
  • The male part of each flower (stamen) produces
    pollen.
  • The female part (carpel) produces eggs.
  • Each flower has both parts and can self-pollinate.

9
Stamen
Carpel
Carpel
Stamen
10
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11
Probability
  • The likelihood that a particular event will occur
    is called probability.
  • The principles of probability can be used to
    predict the outcomes of genetic crosses.
  • The chances of getting heads or tails

12
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13
  • If you flip a coin three times in a row, what is
    the probability that it will land heads up?

½
x
x
½
½


14
Mendels Experiments
  • Mendel would cross-pollinate (hybridize) two
    contrasting, true-breeding pea varieties
  • P generation ? true-breeding parents
  • F1 generation ? hybrid offspring
  • F2 generation ? F1 hybrids self-pollination
    offspring
  • analysis of F2 plants lead to the 2 fundamental
    principles of heredity
  • the law of segregation
  • the law of independent assortment

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17
Genes and Dominance
  • From pea plant set of experiments, Mendel drew
    two conclusions
  • 1. Biological inheritance is determined by
  • factors that are passed from one
  • generation to the next (genes).
  • 2. Principle of Dominance
  • Some alleles are dominant and others are
    recessive.

18
Dominant and Recessive Alleles
  • A capital letter (T) represents a dominant
    allele.
  • A lowercase letter (t) represents a recessive
    allele.
  • If an organism produces two types of gametes, one
    with the dominant allele and one with the
    recessive allele, what trait will the organism
    have?
  • If both types of alleles are present, the
    dominant will take over

19
Law of Segregation
  • 2 alleles for a trait are packaged into separate
    gametes
  • Blending ?
  • purple x white F1 pale purple flowers
  • Instead, the F1 hybrids all have purple flowers

20
Monohybrid cross
  • Mating of two individuals either homozygous or
    heterozygous
  • Capital letters represent dominant traits
  • Lower case letters represent recessive traits
  • For heterozygous crosses ratio is 31 dominant to
    recessive

21
  • Testcross ?breeding a homozygous recessive with
    dominant phenotype, but unknown genotype

22
Punnett Squares!
  • Punnett square ? predicts the results of a
    genetic cross between individuals of known
    genotype
  • Gene combinations that might result from a
    genetic cross can be determined by drawing a
    diagram known as a Punnett Square.
  • Letters represent alleles.
  • Parents are crossed and the offspring are a
    result.

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24
Practice Problems
25
Practice Problems
26
Practice Problems
27
Practice Problems
28
Practice Problems
29
Monohybrid Crosses
  • In pea plants, spherical seeds (S) are dominant
    to dented seeds (s). In a genetic cross of two
    plants that are heterozygous for the seed shape
    trait, what fraction of the offspring should have
    spherical seeds?

30
Monohybrid Crosses
  • In a pea plants, tall plants (T) are dominant to
    short plants (t). In a genetic cross between two
    plants that are heterozygous for height, what
    fraction of the offspring should be short? What
    fraction of the offspring should be tall?

31
Monohybrid Crosses
  • In dogs, wire hair (S) is dominant to smooth (s).
    In a cross of a homozygous wire-haired dog with a
    smooth-haired dog, what will be the phenotype of
    the F1 generation

32
Monohybrid Crosses
  • In woodrats let's assume that the trait of
    bringing home shiny objects (H) is controlled by
    a single gene and is dominant to the trait of
    carrying home only dull objects (h). Suppose two
    heterozygous individuals are crossed. How many of
    each genotype would be expected if only 4
    offspring were produced?

33
Monohybrid Crosses
  • The ability to curl your tongue up on the sides
    (T, tongue rolling) is dominant to not being able
    to roll your tongue. A woman who can roll her
    tongue marries a man who cannot. Their first
    child has his father's phenotype. What are the
    genotypes of the mother, father, and child?

34
Dihybrid Crosses
  • Cross in which two hybrids are mated to test for
    dominant genes and recessive genes in two
    separate characteristics.
  • For heterozygous crosses the ratio is 9331

35
  • In one dihybrid cross experiment, Mendel studied
    the inheritance of seed color and seed shape.
  • The allele for yellow seeds (Y) is dominant to
    the allele for green seeds (y).
  • The allele for round seeds (R) is dominant to the
    allele for wrinkled seeds (r).
  • Mendel crossed true-breeding plants that had
    yellow, round seeds (YYRR) with true-breeding
    plants that has green, wrinkled seeds (yyrr).
  • From this determined that traits are not
    inherited together ? independent assortment
  • law of independent assortment ? each pair of
    alleles segregates into gametes independently

36
9331
37
Practice Problems
38
Practice Problems
39
Practice Problems
40
Dihybrid Crosses
  • Wolves are sometimes observed to have black coats
    and blue eyes. Assume that normal coat color (N)
    is dominant to black (n) and brown eyes (B) are
    dominant to blue (b). Suppose the alpha male and
    alpha female of a pack (these are the dominant
    individuals who do most of the breeding) are
    black with blue eyes and normal colored with
    brown eyes, respectively. The female is also
    heterozygous for both traits. What will the
    genotypes of the offspring be (assume 16) live in
    the pack.

41
Dihybrid Crosses
  • Suppose that anoles prefer to mate with lizards
    who bob their heads fast (F) and have red throat
    patches (R) and that these two alleles are
    dominant to their counterparts, slow bobbing and
    yellow throats. A male lizard heterozygous for
    head bobbing and homozygous dominant for the red
    throat patch mates with a female that is also
    heterozygous for head bobbing but is homozygous
    recessive for yellow throat patches. How many of
    the F1 offspring have the preferred fast bobbing
    / red throat phenotype (assume 16 young)?

42
Dihybrid Crosses
  • Carrion beetles lay their eggs in dead animals
    and then bury them in the ground until they
    hatch. Assume that the preference for fresh meat
    (F) is dominant to the preference for rotted meat
    and that the tendency to bury the meat shallow
    (S) is dominant to the tendency to bury the meat
    deep. Suppose a female carrion beetle homozygous
    dominant for both traits mates with a male
    homozygous recessive for both traits. What will
    be the genotype of the F1 generation?
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