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Genetics Notes Part Three Beyond Dominant and Recessive Alleles

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The heterozygous phenotype is somewhere in between the two ... Cattle with both alleles are roan (pinkish brown). Ex. Chickens with speckled feathers. ... – PowerPoint PPT presentation

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Title: Genetics Notes Part Three Beyond Dominant and Recessive Alleles


1
Genetics Notes- Part ThreeBeyond Dominant and
Recessive Alleles
2
The Principle of Independent Assortment that
genes for different traits segregate
independently during the formation of gametes.
3
Dominant or Recessive?
  • Some alleles are neither dominant nor recessive,
    and many traits are controlled by multiple
    alleles or multiple genes.
  • BB, Bb, bb

4
Incomplete Dominance
  • The heterozygous phenotype is somewhere in
    between the two homozygous phenotypes.
  • Blending
  • Ex. Snapdragons and Four Oclock plants red,
    white, pink

5
Incomplete Dominance
6
Codominance
  • Both alleles contribute to the phenotype of the
    organism.
  • Ex. Cattle red hair is codominant with the allele
    for white hair. Cattle with both alleles are
    roan (pinkish brown).
  • Ex. Chickens with speckled feathers.

7
Multiple Alleles
  • When genes have 3 or more alleles.
  • Ex. Coat color in rabbits.
  • Ex. Human blood types.

8
Polygenic Traits
  • Traits controlled by 2 or more genes.
  • Ex. Eye color in fruit flies (3 genes).
  • Ex. Human skin color. Wide range of skin colors
    because 4 genes control color.

9
Blood Types and Codominance
10
Blood type problem
  • Charlie Brown and Peppermint Patty got married.
    What possible genotypes will the children have if
    Patty has type A blood (IAIO) and Charlie has
    type AB
  • (IAIB) ?

11
Sex- Linked Genes
  • X Y chromosome determine sex, genes located on
    these are sex-linked.
  • Colorblindness, hemophilia, Muscular Dystrophy
    located on the X chromosome.

12
X-Linked Alleles
  • Males have only one X chromosome.
  • All X-linked alleles are expressed.
  • Females- both of the recessive alleles have to be
    present to have colorblindness.
  • Men pass their X chromosome along to their
    daughters.
  • X-linked genes ?father?daughter?son.

13
COLORBLINDNESS
  • A man with normal XC Y
  • vision XCY marries
  • a woman with XC
  • normal vision XCXc.
  • This woman is a Xc
  • Carrier of the gene.

14
  • What is the probability that a daughter will be
    colorblind?
  • O chance of colorblind daughters
  • What is the probability that a son will be
    colorblind?
  • 50 chance of colorblind son
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