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Extensions of Mendelian Genetic Principles

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Title: Extensions of Mendelian Genetic Principles


1
Extensions of Mendelian Genetic Principles
  • Chapter 4

2
Exceptions and Extensions to Mendels Rules
  • Not every gene conforms
  • Some are exceptions
  • Some are extensions
  • Number of genes
  • Gene interaction
  • Modifications of dominance

3
  • Multiple Alleles

4
ABO Blood Type
  • Allele that predominates in wild-type
  • Alternate is mutant
  • Gene may have several alleles
  • Multiple allelic series
  • Single individual still only has two copies
  • ABO blood groups
  • Other blood groups
  • 4 group Phenotypes O, A, B, AB

5
ABO Blood Type
  • Different combinations of IA, IB, i
  • IA, IB dominant to i
  • Cellular antigens attached to outside of blood
    cells

6
ABO Blood Type
  • Antibodies attach to foreign antigens
  • Clump (agglutinate) any blood cells with anti-b
    antigens
  • A have A-antigens and anti-B antibodies
  • B have B-antigens and anti-A antibodies
  • AB have both antigens and neither Anti-A or
    Anti-B antibodies
  • O have neither antigen and both Anti-A and Anti-B
    antibodies

7
ABO Blood Type
  • AB universal recipient
  • O universal donor
  • Glucosyltransferases
  • Enzymes add specific
  • sugar to existing polysaccharide (H-antigen)
  • ?-N-acetylgalactosamine
  • Galactose
  • h/h mutants

8
i-Activity
  • Was she Charlie Chaplins Child?

9
Drosophila Eye Color
  • Eye color
  • White mutant (w)
  • Wild type red (w)
  • X-linked
  • Found mutants that did not conform to experiments
    done before
  • Eosin eyes (we) dominant to white, recessive to
    red
  • Several different mutations of the white allele

10
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11
Multiple Alleles at a Molecular Level
  • Change of one base pair changes the AA and
    changes the protein
  • Can change at several places and lead to several
    different alleles

12
  • Modifications of Dominance Relationships

13
Dominance
  • Complete Dominance
  • Complete Recessiveness
  • Extremes of a range
  • Many alleles share a different dominance
    relationship
  • Incomplete
  • Codominance

14
Incomplete Dominance
  • One allele is not completely dominant
  • Partial dominance
  • Heterozygote phenotype is intermediate
  • F1 cross shows all intermediate color
  • 121 ratio re-established in the F2

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17
Codominance
  • Related to complete dominance
  • Heterozygote exhibits phenotypes of both
    homozygotes
  • NOT an intermediate
  • ABO blood series

18
Incomplete Dominance and Codominance at a
Molecular Level
  • In codominance products of both alleles are
    expressed
  • Does not always happen
  • In Incomplete dominance only enough product for
    intermediate form is made
  • In complete dominance the dominant is said to be
    haplosufficient

19
  • Gene Interactions and Modified Mendelian Ratios

20
Modified Mendelian Ratios
  • Phenotype is result of complex gene interactions
  • Any deviation from the 9331 ratio is a result
    of interaction between two or more genes
  • Interactions from genes for the same phenotypes
  • One gene masks or modifies or masks the other
  • Environmental interactions

21
Gene Interactions that Produce New Phenotypes
  • If two allelic pairs affect the same phenotype
  • Interaction gives novel phenotypes
  • Comb shape in chickens
  • Rose dominant to single
  • Pea dominant to single
  • Rose x pea walnut
  • Results from two dominant R and P

22
AHHHHHHH!!!
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24
Molecular Basis of Funky Combs
  • Not known
  • Single comb phenotype has nothing to do with rose
    or pea comb
  • Dominant R and P interacts with single comb gene
    product
  • P and R together interact together as well to
    form an entirely new phenotype

25
Gene Interactions that Produce New Phenotypes
  • Fruit shape in summer squash
  • Long fruit and sphere-shaped
  • Long fruit is always true breeding
  • Interaction between certain varieties of
    sphere-shaped results in disk shaped fruit

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27
Molecular Basis of Squidgy Squash
  • Modification of 9331, so 2 genes involved
  • A dominant allele of either results in the
    dominant phenotype
  • A double dominant of each allele results in the
    new phenotype
  • Doubly homozygous recessive results in LONG
    FRUIT!!???

28
  • Epistasis

29
Epistasis
  • Interaction between two or more genes to control
    a single phenotype
  • Masks or modifies the phenotype expression
  • No new phenotype is produced
  • Masker is called epistatic
  • Maskee is called hypostatic
  • May be caused by double recessive allele or the
    presence of a dominant allele

30
Recessive Epistasis
  • A/_ b/b and a/a b/b have the same genotype
  • Phenotypic ratio is 934
  • Coat color in mice
  • Wild mice have grey color (alternating black and
    yellow bands) called agouti pattern
  • Albinos are totally white without any pigment
  • Recessive to everything
  • Black rodents do not have the agouti gene and
    have no yellow bands
  • Recessive to agouti

31
Recessive Epistasis
  • 934 agoutiblack
  • albino
  • Albino shows recessive epistasis over agouti
  • White hairs are produced regardless of other gene

32
Molecular Basis of Ti-Dyed Mice
  • Three alleles involved
  • C- allows pigment formation
  • cc prevents pigment formation regardless of color
  • A- dominant for agouti
  • B- codes for black coat color
  • bb codes for brown
  • All of the mice in figure 4.11 have B otherwise
    some brown mice would be present

33
Molecular Basis of Yoohoo Labs
  • Two genes involved
  • B codes for formation of black pigment
  • bb codes for formation of brown pigment
  • E allows expression of the B gene
  • ee does not allow expression of the B gene
  • B/_E/_ produces a black lab
  • b/b E/_ produces a chocolate lab
  • _/_ e/e produces a yellow lab

34
Molecular Basis of Yellow Labs
  • Variation of yellow labs
  • B/_ e/e genotype have dark noses and lips
  • b/b e/e genotype have pale noses and lips

35
Dominant Epistasis
  • A/_ B/_ and A/_ b/b have the same phenotype
  • 1231 phenotypic ratio rather than 9331
  • Dominant gene is epistatic to other gene
  • Three common colors white, yellow and green
  • White x yellow white
  • White x green white
  • Yellow x green yellow

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37
Molecular Basis of Garish Squash
  • Y is needed to convert white to yellow with a
    green intermediate
  • W allele codes for a product that inhibits white
    to green transition
  • Plants that have at least one W are white no
    matter the Y
  • White is W/_ Y/_ and W/_ y/y
  • Yellow is w/w Y/_
  • green is w/w y/y

38
Dominant Epistasis
  • Two genes W/w and Y/y
  • W/_ white no matter what
  • w/w Y/_ is yellow
  • w/w y/y is green
  • Progeny of F1 are 12 white 3 yellow 1 green

39
Dominant Epistasis
  • Greying in horses
  • GG or Gg progressive silvering of the coat
  • gg do not go gray
  • G allele affects the gene that grays the animal
  • Lipizzaner
  • Lipizzaner Clip

40
Epistasis Involving Duplicate Genes
  • Genes on different loci that produce identical
    phenotypes
  • Can be dominant or recessive epistasis
  • Example sweet pea flower color (recessive)
  • Crosses between true-breeding whites produce all
    purple
  • F1 produces 9/16 purple and 7/16white
  • All white progeny breed true when selfed
  • 1/9 of purple progeny breed true when selfed

41
Epistasis Involving Duplicate Genes
  • Pea plants, two genes
  • Colored flowers only appear when at least on of
    each of the dominant alleles are present
  • White only appears when homozygous recessive for
    either gene
  • C/c flower will be colored
  • P/p flower will be purple
  • Called duplicate because either gene being
    recessive makes the phenotype

42
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43
  • Essential Genes and Lethal Genes

44
Essential Genes and Lethal Genes
  • Lethal allele allele that results in the death
    of an organism
  • Gene that is involved in the death is called the
    essential gene
  • Dominant lethal allele
  • Recessive lethal allele
  • Recessive Lethal allele
  • Yellow body color in mice
  • Hetero-cross exhibited only hetero yellow mice

45
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46
Mystery of The Mustard Mice
  • 21 ratio of hetero yellow and non-yellow
  • Yellow (AY) is dominant over non-yellow (A)
  • AY/ AY lethal
  • AY/ A yellow
  • A/ AY non-yellow

47
Essential Genes and Lethal Genes
  • Recessive lethal genes
  • Tay-Sachs enzyme deficiency that prevents nerve
    function
  • X-linked lethal genes
  • Hemophilia
  • Huntingtons Disease

48
  • Gene Expression and the Environment

49
Penetrance and Expressivity
  • Not all individuals with a genotype show expected
    phenotype
  • Frequency with which it manifests is called
    penetrance
  • Depends on genotype of environment
  • Complete penetrance
  • Incomplete penetrance
  • Brachdactyly

50
Expressivity
  • Degree to which a penetrant gene or genotype is
    phenotypically expressed
  • Depends on gene and environment
  • Different degrees of function in the gene
  • Osteogenesis imperfecta
  • Blue sclera
  • Brittle bones
  • Deafness

51
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52
Incomplete Penetrance and Variable Expressivity
  • Neurofibromatosis
  • Creates fibrous growths on the body
  • 50-80 penetrance
  • Variable expressivity
  • Light conditions express as café-au-lait spots
  • Severe cases cause neurofibromas large head,
    short stature, curvature of the spine

53
Effects of the Environment
  • Age of Onset
  • Age creates internal environment change
  • Programmed turn on of certain genes
  • Male pattern baldness
  • Duchenne muscular distrophy

54
Effects of the Environment
  • Sex- expression may be influenced by sex
  • Difference in phenotype because of different
    genes
  • Sometimes only in one sex
  • Sex-limited traits
  • Horns in sheep
  • Frequency changes from sex to sex
  • Sex-influenced traits
  • Pattern baldness

55
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56
Effects of the Environment
  • Temperature
  • Some enzymes are affected or catalyzed by
    temperature
  • Function at one temperature but not by the other
  • Himalayan rabbits
  • Cold temperature causes dark fur to develop
  • Siamese cats

57
Effects of the Environment
  • Chemicals
  • Certain chemicals have effects on an organism
  • Phenylketouria
  • Do not possess metabolites for phenylalanine
  • Diet determines severity of the disease
  • Phenocopies
  • Exposure to chemicals during pregnancy can change
    cause a phenotype similar to that of an other
    gene mutation
  • Phocomelia rare recessive allele, mimicked by
    thalidomide

58
Effects of the Environment
  • Nature vs Nurture
  • Human height is influenced by both nature and by
    better diets and improved health care
  • Genes set certain limits for the phenotype
    dependant on environment
  • Norm of reaction
  • Behavioral traits involve nature and nurture
  • Genes make people more susceptible
  • Person must be exposed to drinking
  • May be due to influence of personality traits
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