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Biology 101 with Professor White, Lecture notes of Biology

Howard UniversityBiology

Biology 101 with Professor White

Typology: Lecture notes

2021/2022

Uploaded on 05/31/2022

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Jan 26
Genetic Drift results from random changes in allele frequencies
Very strong in small populations
Population bottleneck: if a population is reduced to only a small number of individuals,
genetic drift will reduce genetic variation in the population
A colonizing population is unlikely to have all the alleles present in the whole population
- This is called a founder effect (equivalent to a population bottleneck)
In large populations, genetic drift can influence frequencies of alleles that do not affect
survival and reproduction
- This is where the term “drift” comes from (allele frequencies drifting up and down
randomly)
Nonrandom mating occurs when individuals choose mates with particular phenotypes,
instead of just choosing at random
- EX: self-fertilization is common in plants
- If individuals choose the same genotype as themselves, homozygote frequencies
will increase
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Jan 26 Genetic Drift results from random changes in allele frequencies ● Very strong in small populations Population bottleneck: if a population is reduced to only a small number of individuals, genetic drift will reduce genetic variation in the population A colonizing population is unlikely to have all the alleles present in the whole population

  • This is called a founder effect (equivalent to a population bottleneck) In large populations, genetic drift can influence frequencies of alleles that do not affect survival and reproduction
  • This is where the term “drift” comes from (allele frequencies drifting up and down randomly) Nonrandom mating occurs when individuals choose mates with particular phenotypes, instead of just choosing at random
  • EX: self-fertilization is common in plants
  • If individuals choose the same genotype as themselves, homozygote frequencies will increase

Sexual selection: is a form of nonrandom mating that favor traits that increase the chances of reproduction Much of evolution occurs through gradual changes in allele frequencies in a population from one generation to the next

  • If a gene is monomorphic , there is only one allele, with a frequency of 1. These genes have a fixed allele frequency
  • If a gene is polymorphic , there is more than one allele, and frequency must be calculated.