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Introduction to Genetics

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Title: Introduction to Genetics


1
Introduction to Genetics
  • Biology

2
  • Genetics the study of patterns of inheritance
    and how traits or characteristics are passed on
    from parent to offspring

3
Gregor Mendel
Gregor Mendel the father of genetics. He used
pea plants to study patterns of inheritance.
4
Self-Pollination vs. Cross Pollination
  • Mendel controlled the pollination of pea plants.
  • Pea plants normally reproduce by self pollination
    (male/female parts from same plant unite)

5
  • Mendel cross-pollinated plants by removing the
    anthers (male part of plant) and pollinating the
    stigma (female) part of another plant

6
Pea Plants
  • Mendel studied seven different traits in pea
    plants
  • Trait a specific characteristic that varies
    from one individual to the next.
  • Each trait had two contrasting characteristics
    (alleles)

7
  • For example
  • Seed Shape smooth/wrinkled
  • Seed Color yellow/green
  • Plant Height tall/short

8
Mendels Vocabulary
  • True-breeding plants that produce only like
    offspring when self-pollinated.
  • Hybrid cross between two organisms of different
    traits
  • P1 Generation The original pair of organisms in
    a series of crosses
  • F1 Generation First generation of offspring as
    a result of P1 cross.

9
Mendels Work
  • Mendel crossed true-breeding short plants with
    true-breeding tall pea plants
  • 100 of the offspring were tall
  • Mendel crossed F1 plants (tall plants) to see if
    recessive trait reappeared
  • 25 of offspring were short 75 were tall in F2
    generation

10
Section 11-1
P Generation
F1 Generation
F2 Generation
Tall
Short
Tall
Tall
Tall
Tall
Tall
Short
11
Seed Shape
Flower Position
Seed Coat Color
Seed Color
Pod Color
Plant Height
Pod Shape
Round
Yellow
Gray
Smooth
Green
Axial
Tall
Wrinkled
Green
White
Constricted
Yellow
Terminal
Short
Round
Yellow
Gray
Smooth
Green
Axial
Tall
12
Mendels Conclusions
  • Every individual receives two factors (alleles)
    for each trait, one from mom and one from dad.

13
  • Factors can sometimes be dominant or recessive
  • Dominant one factor masks the presence of
    another
  • Recessive factor that is masked by the presence
    of a dominant allele

14
  • In humans...
  • Widow's peak W widow's peak, w continuous
    hairline (which are you?)
  • Freckles F Freckles, f no freckles (which
    are you?)
  • Earlobes E unattached, e attached (which
    are you?)
  • Cystic fibrosis C no CF, c cystic fibrosis

15
  • Law of Segregation pair of factors (alleles)
    are segregated/separated during the formation of
    gametes

16
Mendels Conclusions (con.)
  • Law of Independent Assortment Alleles for
    different characteristics are distributed to
    gametes independently
  • Alleles/Traits are not linked to one another

17
Probability
  • Principle of Probability the likelihood that a
    particular event will occur
  • Probability is identified as a ratio, fraction,
    or percent
  • 50
  • ½
  • 12

18
Probability
  • Example Coin Flip
  • 50 chance of getting heads
  • Could get heads 10 consecutive flips
  • Over many trials results will be near 50
  • Past coin flips do not affect future coin flips

19
Punnett Squares
  • Diagrams that apply the principles of probability
    to predict the outcome of genetic cross
  • Uppercase letters represent dominant alleles Ex.
    R
  • Lowercase letters represent recessive alleles
  • Ex. r

20
Punnett Squares (con.)
  • Homozygous organisms with two of the same
    alleles for a trait (RR or rr)
  • Heterozygous organisms with two different
    alleles for a trait (Rr)
  • Genotype The genetic makeup of an organism (RR,
    Rr, rr)
  • Phenotype The physical characteristics of an
    organism (Round OR wrinkled)

21
How to use a Punnett Square
  • Monohybrid Cross- one-trait cross
  • Identify the genotype for each parent
  • Write the alleles from one parent on the top and
    the alleles for the other parent on the left side
    of the square
  • Fill in the table like a multiplication table,
    capital letter always goes first

22
Ex. 1
23
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24
Ex. 2
  • RR x rr

R R
Rr Rr
Rr Rr
r
r
25
Analyzing results
  • Genotypic ratio-compares possible genotypes
  • homozygous dominant heterozygous
    homozygous recessive
  • In Ex. 1 it is 121
  • In Ex. 2 it is 040

26
Analyzing results (Cont)
  • Phenotypic ratio-compares possible phenotypes
  • with Dominant trait with recessive trait
  • In Ex. 1 it is 31
  • In Ex. 2 it is 40

27
Analyzing results (Cont)
  • Percentages- chance of something occuring
  • In Ex. 1 there is a 75 chance the plant will be
    tall and a 25 chance the plant will be short.

28
Patterns of Inheritance
  • Complete Dominance In the heterozygous
    individual, only the dominant allele is
    expressed, the recessive allele is present but
    unexpressed.

29
Ex. In pea plant green pods are dominant over
yellow pods. Cross two pea plants that are
heterozygous for pod color.

  • What is the phenotypic ratio?
  • What is the genotypic ratio?

30
ANSWER
  • Genotypic ratio 121
  • Phenotypic ration is 31

31
Exceptions to Mendels Rules Not all traits
are clearly dominant or recessive
  • Incomplete Dominance One allele is not
    completely dominant over another
  • Example Japanese Four OClock Plant
  • RR Red Flowers
  • RW Pink Flowers
  • WW White Flowers

32
Incomplete Dominance in Four OClock Flowers
33
Incomplete Dominance in Four OClock Flowers
34
Ratios
  • Find genotypic ratio the same way we did for
    complete dominance
  • Now there are 3 phenotypes so the ratio is
  • Dom Heterozygous Rec
  • Find Genotypic ratio and phenotypic ratio for the
    previous problem
  • Genotypic ratio 040
  • Phenotypic ratio 040

35
  • Codominance In a heterozygote both alleles are
    dominant and are expressed at eh same time.
    Example coat color in cattle
  • RR Red Coat
  • RW Roan Coat
  • WW White Coat

36
RR Red
WW White
RW Roan
37
Ex. Cross 2 roan coat cows.
  • Genotypic Ratio- RR RW WW
  • 121
  • Phenotypic Ratio- red roan white
  • 121



38
Dihybrid Cross
  • Cross involving two traits (hair color eye
    color or pod color pod shape)
  • Traits assort independently of each other
  • Mendel used to discover the principle of
    independent assortment

39
Dihybrid Cross
Go to Section
40
How to use a Dihybrid Cross
  1. Identify the 2 traits
  2. Assign a capital letter to the dominant form of
    the first trait and the same lower case letter
    for the recessive form.
  3. Choose a different letter and do the same for
    the second trait.
  4. Identify the genotype for each parent

41
  • 5. Identify the gametes for each parent
  • Combine
  • 1st letter with 3rd letter
  • 1st letter with 4th letter
  • 2nd letter with 3rd letter
  • 2nd letter with 4th letter
  • 6. Fill in the Punnett Square
  • -ABC order
  • -keep like letters together
  • -capital always goes first

42
Ex. RrTt x RrTt




43
Analyze Using Phenotypic Ratio
  • 1st trait dominant, 2nd trait dominant
  • 1st trait dominant, 2nd trait recessive
  • 1st trait recessive, 2nd trait dominant
  • 1st trait recessive, 2nd trait recessive
  • In previous example, the phenotypic ratio is
    9331

44
Sex-Linked Traits
  • Sex-linked traits are determined by genes found
    only on the sex X chromosome
  • REMEMBER
  • XX-Females Xy-Males
  • EX. Red-Green Colorblindess

45
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46
GENOTYPES
  • Possible female Genotypes
  • XBXB-normal
  • XBXb-normal (carrier)
  • XbXb-colorblind
  • Possible male genotypes
  • Xby-normal
  • Xby-colorblind

47
Ex. Cross a female carrier with a normal male
  • What is the chance they will have a colorblind
    son?
  • 50



48
Multiple Alleles
  • Multiple Alleles Having more than 2 alleles for
    a trait.
  • Ex. Human blood type

49
Human Blood Type
  • 3 alleles A, B, and O
  • A and B are codominant
  • O is recessive

50
Possible Blood Type Combinations
  • GENOTYPES PHENOTYPES
  • AA-homozygous dominant Type A
  • BB-homozygous dominant Type B
  • AO-heterozygous Type A
  • BO-heterozygous Type B
  • AB-codominant Type AB
  • OO-homozygous recessive Type O

51
EX. Cross a mother who has type O blood with a
father who has typeAB blood. What are the
possible phenotypes?
  • Answer Type A and Type B (both are heterozygous)

52
Polygenic Traits
  • Polygenic Traits traits can also be controlled
    by more than one gene
  • Example Skin color is controlled by 3 to 6
    genes that control melanin production

Polygenic traits stature, body shape, hair and
skin color
53
Pedigrees
  • Pedigree diagram that shows how a trait is
    inherited over several generations.
  • Symbols
  • Circle female
  • Square male
  • Diamond unknown sex

54
Pedigrees (cont)
  • Shaded in shape person exhibits the trait
  • Half shadedthe person is a carrier
  • Not shadedthe person is unaffected
  • Marriage line-horizontal line from male to female
  • Child line-vertical line which extends from the
    marriage line

55
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56
Karyotypes
  • Karyotype-picture of an individuals chromosomes
  • -Review of chromosome structure
  • a-centromere
  • b-sister chromatids
  • -

57
  • -In normal human body cells, there are 2 copies
    of each chromosome which makes 23 pairs or 46
    total chromosomes
  • -Each pair of chromosomes are called homologous
    chromosomes

58
  • www.hhmi.org

59
Karyotype (Cont)
  • In a Karyotype, 1-22 pairs are called autosomes.
  • The 23rd pair are called sex chromosomes.
  • XX-female, Xy-male
  • Gender is determined by sex chromosomes
  • Use a Punnett Square for the following cross
  • XX (mom) x Xy (dad)
  • What is the chance for a girl? Boy?
  • 50, 50

60
Karyotype (cont)
  • Karyotypes can be analyzed to find genetic
    disorders.
  • Ex. Downs Syndrome (trisomy 21)

61
  • www.health.gov
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