Introduction%20to%20Mendelian%20Genetics%20Monohybrid%20Crosses - PowerPoint PPT Presentation

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Introduction%20to%20Mendelian%20Genetics%20Monohybrid%20Crosses

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Introduction to Mendelian Genetics Monohybrid Crosses SBI3U Recessive traits 9. A recessive allele is expressed only when _____ alleles are of the recessive form. – PowerPoint PPT presentation

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Title: Introduction%20to%20Mendelian%20Genetics%20Monohybrid%20Crosses


1
Introduction to Mendelian GeneticsMonohybrid
Crosses
  • SBI3U

2
Learning goals
  • Understand the basic terminology of mendelian
    genetics, not limited to (phenotype, genotype,
    homozygous, heterozygous, P,F1,F2 generation(s),
    dominant, recessive, alleles, gene
  • Solve monohybrid problems using Punnett square
    method

3
Hippocrates (460 377 B.P.)
  • every part of the body was involved in the
    production of seeds
  • The seeds would fuse together to make a new person

4
ARISTOTLE (384- 322 B.C.E)
  • Theory of Pangenesis
  • Egg and sperm consist of particles ? pangenes
    from all parts of body
  • upon fertilization the pangenes developed into
    the parts of the body from which they were
    formed.

5
WILLIAM HARVEY(1578 1657)
  • New individual arose through the process of
    EPIGENESIS
  • ? embryo grew in stages and was affected by
    factors both inside and outside of the mother

6
ANTON VAN LEEUWENHOEK (1632
1723)
  • Used a microscope to examine gametes
  • found animalcules in semen and decided they
    were preformed embryos
  • Female contribution was only the influence of the
    uterus during embryo development

7
BLENDING THEORY
  • Characteristics of parents blended in the
    offspring
  • Blending was irreversible, thus original
    characteristics would not appear in future
    generations

8
FRANCIS GALTON (1870s)
  • Disproved the theory of pangenesis (still
    influenced biology 100 years ago)
  • Genes formed in every organ of both male and
    female body and moved to genitals

9
CHARLES DARWIN(1809 1882)
  • Offspring have variations of their parents
    characteristics
  • Couldnt explain why suggested current science
    had not yet discovered the puzzle pieces yet

10
GREGOR MENDEL (1822 1884)
  • Developed the fundamental principles of modern
    genetics
  • Experimented on pea plants and proposed
  • Mendels law of heredity

11
1677 Anton van Leewenhoek
  • First discovered living sperm (also designed
    first microscope)
  • Believed he saw a complete miniature person in
    the head of a sperm homunculi

12
19th Century British
  • From breeding ornamental plants, scientists
    believed in a blending theory of inheritance.

13
Gregor Mendel (1822-1884)?
  • Austrian monk
  • Considered the father of genetics (now aka
    Mendelian Genetics)?
  • Why the pea plant?
  • grows easily and quickly
  • has seven traits that are easily identified
  • it is easy to manipulate

14
Gregor Mendel (1822-1884)
  • Used pea plants to study genetics, heredity and
    variation.
  • Looked at 7 different traits that only had two
    variations.
  • From his meticulous work he came up with many
    key terms and, more importantly, two
    generalizations that later became known as
    Mendels Laws.

15
7 traits Mendel looked at
16
Mendels true breeding experiments
  • Pea plants reproduce sexually, but usually self
    fertilize
  • True breeding organisms that exhibit the same
    traits generation after generation

17
Mendel's Pea Plant Experiment
  • Mendel selected true bred plants for different
    traits and cross-fertilized them to see what
    would happen.
  • True breeding Individuals that only contain one
    variation of a trait and therefore can only pass
    this one variation on to future generations. We
    now call these individuals homozygous, or having
    two alleles that are the same.
  • For example
  • Tall x dwarf
  • What do you think the offspring looked like?

18
  • 100 of the offspring plants were tall! (Instead
    of a blending where all plants would be medium
    sized...)

19
  • Mendel then let the F1 generation of offspring
    self-pollinate...
  • F1 generation (filial (son or daughter)
    generation) offspring from the cross
    (reproduction) of the Parent or P generation.
  • this time most were tall, but some were short and
    ALWAYS 31 ratio

20
Why?
  • Each plant in the F1 generation carried an allele
    from the P generation a tall allele and a dwarf
    allele. They are what are called hybrids.
  • Hybrids Individuals that contain more than one
    variation of a trait and therefore can pass on
    more than one variation to future generations.
    We now call these individuals heterozygous, or
    having two alleles that are different from each
    other.
  • Traits are dominant or recessive. If a dominant
    trait is inherited, it will be expressed.
  • What is the dominant trait for height in pea
    plants?

21
Mendels Key Terms
  • Phenotype the appearance of traits in an
    organism (eg. short or tall)?
  • Genotype the specific genes that an organism has
    (which alleles, dominant or recessive)?
  • Every individual has a phenotype and genotype for
    every trait.
  • The phenotype is easy to figure out, but
    occasionally the genotype is hard to determine,
    especially for dominant traits.

22
Alleles Alternate forms of a gene
23
Genotype vs. Phenotype
24
Which Allele is expressed?
25
Can you tell the genotype of an individual by
their phenotype?
26
(No Transcript)
27
Mendel's Laws and Principles
  • Law of Segregation when any individual produces
    gametes, the copies of a gene separate so that
    each gamete receives only one copy of a gene and
    therefore only one allele for all possible
    traits.

28
Law of Segregation
Principle of Segregation Demystified
The principle of segregation is explained by the
behavior of homologous chromosomes at meiosis.
29
  • Law of Independent Assortment alleles of
    different genes assort independently of one
    another during gamete formation, so different
    traits are inherited independently of each other
  • In plain English, this means that if you are able
    to be dominant for one trait, it will have no
    influence on whether you will be dominant for
    another trait.

30
  • http//www.youtube.com/watch?vmx6maAOOfxQ

31
Punnett Square
32
Punnett Square
33
Dominant traits
  • This phenomenon can be explained by the
  • fact that some ________ are dominant. A
  • dominant allele is an allele that __________
  • its phenotypic effect when present in the
  • individual.

34
Recessive traits
  • 9. A recessive allele is expressed only when
    _____ alleles are of the recessive form. The
    genotype of an individual showing a recessive
    phenotype must be ____________ for the recessive
    allele.

35
Punnett Square
36
Punnett Square
37
Genotypic proportions
  • 11. The genotypic proportions of the offspring
    from the cross of two heterozygous parents (Bb)
    are
  • BB __/4
  • Bb __/4
  • bb __/4

38
Phenotypic proportions
  • 12. The phenotypic proportions of the offspring
    are
  • Purple __/4 or __
  • White __/4 or __

39
Monohybrid cross problem
  • Curly hair is dominant over straight hair. If a
  • mother is homozygous dominant for curly
  • hair and the father has straight hair, what
  • type of hair will the children have?

40
Test Crosses
  • When geneticists want to know if an individual is
    heterozygous or homozygous
  • Why? For breeding purposes
  • Cross between unknown phenotype and homozygous
    recessive individual
  • (Pp or PP) x pp
  • Pp x pp 50 purple, 50 white
  • PP x pp 100 purple
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