30. Processes of evolution Flashcards
Which evolutionary processes generate evolution and which are sorting?
Generating: mutation, gene flow
Sorting: genetic drift, natural selection
What are the multiple forms of mutations?
- point mutations (single nucleotide change)
- insertions / deletions (intels - don’t know if inserted or deleted)
- sequence (gene) duplication / amplifications
- translocations (movement of sequences)
- inversions (sequences flipped around in replication)
Does crossing over lead to mutations?
Crossing over may or may not lead to mutations - always leads to variation but not necessarily mutations
Explain mutations wider
Explain gene flow wider
Gene flow occurs when new individuals with different genetic makeup are introduced into a certain population
How can genetic variation arise without evolutionary change
- ex: one houseplant is watered more than other → grows larger - variation without genetic change due to phenotypic plasticity (not evolution)
- Meiosis and sex
Explain genetic drift wider
Genetic drift occurs when not the whole population reproduces (not all in the “breeding pool”) → changes in genetic composition (allele frequencies drift)
The breeding pool can be representitive - less drift or less representative - more drift from the original gene pool (the larger the breeding pool - the larger the chance of a representative sample)
Genetic drift not ubiquitous (found everywhere) in large populations
Genetic drift can happen due:
- “Founder effect”: first organisms to arrive at habitat unlikely to be adabted to that habitat - founders are a random sample of the original population
- “Bottleneck effect”: population size decreases - random sampling of genes from the original population
Genetic drift cannot explain adaptation (unless well-adapted invader), usually changes in genes are invisible - synonymous
Ex: which sperm fertlises which egg
How can the rate between synonymous and non-synonymous mutations be compared?
Explain natural selection wider
Natural selection - process in which genetic change arises by non-random association between reproductive success and characteristics of an organism
Darwinian syllogism:
- Indviduals vary in traits that are partly heritable
- Some of these traits may be associated with successful reproduction
- 1+2 together lead to genetic change from one generation to next - evolution
Evolutionary fitness - number of copies of genes that get passed on to the next generation (high fitness - lots of copies, low fitness - little copies)
Two ways of evolutionary fitness:
- Direct fitness: your own offspring
- Indirect fitness: genes carried by offspring of relatives
- Direct + indirect = inclusive fitness (evolution by natural selection is all about inclusive fitness)
Different components of evolutionary fitness:
- Survival (viability selection)
- Number of offspring (fecundity selection)
- Number fo quality mating partners (sexual selection - try to males attract and persuade females)
The components trade off: lots of E into survival → less E into number of offspring / finding quality of partner
Traits may be positively / negatively correlated with fitness components
What is neede for evolution not to occur?
- No heritable variations in traits
- No associations between traits and reproduction
Summary fo the lecture
