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Mendelian Patterns of Inheritance

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Mendelian Patterns of Inheritance Outline Blending Inheritance Monohybrid Cross Law of Segregation Modern Genetics Genotype vs. Phenotype Punnett Square Dihybrid ... – PowerPoint PPT presentation

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Title: Mendelian Patterns of Inheritance


1
Mendelian Patterns of Inheritance
2
Outline
  • Blending Inheritance
  • Monohybrid Cross
  • Law of Segregation
  • Modern Genetics
  • Genotype vs. Phenotype
  • Punnett Square
  • Dihybrid Cross
  • Law of Independent Assortment

3
Gregor Mendel
  • Austrian monk who formulated fundamental laws of
    heredity in early 1860s.
  • Studied science and mathematics at University of
    Vienna.
  • Conducted breeding experiments with the garden
    pea Pisum sativum.
  • Carefully gathered and documented mathematical
    data from his experiments.

4
Blending Inheritance
  • At the time, most breeders believed parents of
    contrasting appearance always produce offspring
    of intermediate appearance.
  • Mendels experiments helped him formulate the
    particulate theory of inheritance.
  • Inheritance involves reshuffling of genes from
    generation to generation.

5
Garden Peas
6
One-Trait Inheritance
  • Mendel performed cross-breeding experiments
    between true-breeding plants.
  • Chose varieties that differed in only one trait
    (monohybrid cross)
  • Performed reciprocal crosses
  • Parental generation P
  • First generation offspring F1
  • Second generation offspring F2
  • Formulated law of segregation

7
Mendels Monohybrid Cross
8
Mendels Monohybrid Cross
9
Law of Segregation
  • Each individual has two factors for each trait.
  • The factors segregate during gamete formation.
  • Each gamete contains only one factor from each
    pair of factors.
  • Fertilization gives each new individual two
    factors for each trait.

10
Modern Genetics View
  • Each trait in a pea plant is controlled by two
    alleles (alternate forms of a gene).
  • Dominant allele (capital letter) masks the
    expression of the recessive allele (lower-case).
  • Alleles occur on a homologous pair of chromosomes
    at a particular gene locus.
  • Homozygous identical alleles
  • Heterozygous different alleles

11
Homologous Chromosomes
12
Genotype Versus Phenotype
  • Genotype
  • Refers to the alleles an individual receives at
    fertilization.
  • Phenotype
  • Refers to the physical appearance of the
    individual.

13
Punnett Square
  • All possible kinds of sperm are lined up on one
    axis, and all possible kinds of eggs are lined up
    on the other axis.
  • Every possible combination of alleles is placed
    within the squares.

14
PUNNETT SQUARE
15
Testcross
  • A monohybrid testcross is used to determine if an
    individual with the dominant phenotype is
    homozygous dominant or heterozygous for a
    particular trait.
  • The individual with the dominant trait in
    question is crossed with a homozygous recessive

16
Testcross
17
Two-Trait Inheritance
  • Mendel performed cross using true-breeding plants
    differing in two traits.
  • Dihybrid Cross
  • Observed phenotypes among F2 plants.
  • Formulated law of independent assortment

18
Law of Independent Assortment
  • Each pair of factors segregates independently of
    the other pairs.
  • All possible combinations of factors can occur in
    the gametes.

19
Dihybrid Cross
20
Dihybrid Cross
21
Two-Trait Testcross
  • A two-trait testcross is used to determine if an
    individual is homozygous dominant or heterozygous
    for either of the two traits.

22
Two-Trait Testcross
23
Incomplete Dominance
  • Exhibited when the heterozygote has an
    intermediate phenotype between that of either
    homozygote.

24
Incomplete Dominance
25
Polygenic Inheritance
  • Occurs when a trait is governed by two or more
    sets of alleles.
  • Each dominant allele has a quantitative effect on
    the phenotype, and these effects are additive.
  • Result in continuous variation of phenotypes.

26
Height in Human Beings
27
Terminology
  • Pleiotropy - A gene that affects more than one
    characteristic of an individual.
  • Sickle-cell anemia (incomplete dominance)
  • Codominance - More than one allele is fully
    expressed.
  • ABO blood type (multiple allelic traits)
  • Epistasis - A gene at one locus interferes with
    the expression of a gene at a different locus.
  • Human skin color (polygenic inheritance)

28
Environment and Phenotype
  • Himalayan Rabbits - Enzyme coding for black fur
    is active only at low temperatures.
  • Black fur only occurs on extremities.

29
Review
  • Blending Inheritance
  • Monohybrid Cross
  • Law of Segregation
  • Modern Genetics
  • Genotype vs. Phenotype
  • Punnett Square
  • Dihybrid Cross
  • Law of Independent Assortment

30
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