Molecular Evolution I Flashcards
Describe genetic drift
- stochastic changes in allele frequency due to chance
- rapid changes in small populations, slow changes in large populations
Describe positive selection
causes alleles that confer beneficial phenotype to increase in frequency
Describe purifying (or negative) selection
causes deleterious alleles to decrease in frequency
Selection
reduces genetic diversity
Mutations
increase diversity
Selection can be defined as
the deterministic loss of low fitness alleles
Allozyme surveys revealed
high levels of genetic (allozyme) diversity within populations
Give an example of allozyme diversity
frequency of F allele of alcohol dehydrogenase gene decreases at lower latitudes
Describe divergence between species
- ‘clock-like’
- under alpha globin amino acid alignment
Describe the neutral theory of molecular evolution
- variation within species and divergence between species is chiefly the result of neutral mutations
- genetic drift drives molecular evolution
- explains divergence between species and polymorphism within species
Mutation rate
μ/allele/generation
Describe population genetics with drift
- alleles have 2 possible fates in finite population: extinction or fixation
- probability of fixation = allele frequency
- for a new mutation, probability of fixation = 1/2N
- neutral mutations can fix by drift in large or small populations
Rate of evolution due to drift =
- rate of appearance of mutations x probability of fixation
- 2N x μ x 1/2N
- = μ
Neural evolution should occur at
constant rate μ
There is so much diversity within populations because
they are large
