Lectures 3 and 4: Mendelian Genetics

version 20 July 1999

The small monastery garden used by Mendel.

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Mendelian Genetics

Gregor Mendel 1865

Key: Particulate Inheritance

Discrete units of heredity (genes) that are inherited intact through the generations

Mendel's Experiments

Used pure-breeding (genetically identical) lines of garden peas
Examined crosses involving seven different characters

Notation for line crosses

Parental Generations (P₁ and P₂)
First Filial Generation F₁ = P₁ X P₂
Second Filial Generation F₂ = F₁ X F₁
Backcross one, B₁ = F₁ X P₁
Backcross two, B₂ = F₁ X P₂

Monohybrid cross

Cross between pure lines differing in a single character of interest.
Here we consider Seed color -- Yellow versus Green

What Mendel Observed

The F₁ were all Yellow
However, Green Segregated out in F₂
- Strong evidence for discrete units of heredity , as "green" unit obviously present in F₁, appears in F₂
- 3:1 ratio of Yellow : Green in F₂

Mendel also found that Parental, F₁, and F₂ Yellow peas behaved quite differently

When examined each F₂ yellow family separately, Mendel found
- 2/3 of the F₂ yellows give 1/2 yellow, 1/2 green
- 1/3 of F₂ yellows gave all yellow progeny
Mendel' s explanation
- Genetic information exists as discrete units occurring in pairs
- YY is the genotype of the pure Yellow line
- yy the genotype of pure Green line
  - Y dominant to y (y is recessive to Y)
  - YY, Yy (denoted by Y-) = Yellow
  - yy = green
- Here, the discrete units segregate out in the F₂
Additional test of Mendel

Can we account for the observed 2:1 ratio for F₂ Yellows X pure green?
- Mendel's answer: 2/3 of F₂ Yellows are Yy, 1/3 are YY.
  - Why? Use conditional probabilities
    - Pr(Yellow F₂ is Yy) = Pr(Yy in F₂) / Pr(F₂ is Yellow) = (1/2)/(3/4) = 2/3
    - Pr(Yellow F₂ is YY) = Pr(YY in F₂) / Pr(F₂ is Yellow) = (1/4)/(3/4) = 1/3
  - Predicted ratios from F₂ Yellow X green
    - 2/3 of F₂ Yellows are Yy, 1/3 are YY
Genetic Notation
- Character : Seed color
  - Yellow phenotype is dominant to green phenotype
- Genotypes
  - YY homozygous dominant
  - Yy heterozygous
  - yy homozygous recessive
- Alleles
  - Y is dominant
  - y is recessive
Dihybrid crosses
- Crossing pure-breeding lines differing in two characters
- Example: for Seed shape
  - RR, Rr = round
  - rr = wrinkled
- Cross yellow, wrinkled pure line with round green
  - Figure 2.9 in book

Mendel observed Independent Assortment

How are these ratios computed?
- Pr(R-) = Pr(RR) + Pr(Rr) = 1-Pr(rr) = 3/4
- Same for Pr(Y-) = 3/4
Pr(R-,Y-) = Pr(R-)*Pr(Y-)
- = 3/4 * 3/4 = 9/16
- Assumes R and Y are independent, i.e., Independent assortment
- Pr(R-,yy) = 3/4 * 1/4 = 3/16
- Pr(rr, Y-) = 1/4 * 3/4 = 3/16
- Pr(rr, yy) = 1/4 * 1/4 = 1/16

Mendel cheated (or was very lucky)

The seven characters he used to show independent assortment were all on different chromosomes. Hence they are not linked.