5 Must Know Facts For Your Next Test

1. 'p' and 'q' represent the frequencies of two alleles at a locus, which must always add up to 1, indicating all possibilities for that gene.
2. In a population at Hardy-Weinberg equilibrium, the frequencies of genotypes can be predicted using the equations p² + 2pq + q² = 1, where p² is the frequency of homozygous dominant individuals, 2pq is heterozygous, and q² is homozygous recessive.
3. The equation assumes random mating, no selection, no mutation, no migration, and a large population size to prevent genetic drift.
4. When allele frequencies change over generations, it indicates that evolutionary forces like natural selection or genetic drift are acting on the population.
5. p + q = 1 simplifies calculations when examining allele distributions and predicting future genetic variations within populations.

Review Questions

• How does the equation p + q = 1 relate to the concept of Hardy-Weinberg equilibrium in predicting genetic variation?
  • 'p + q = 1' lays the groundwork for understanding Hardy-Weinberg equilibrium by showing how allele frequencies interact within a gene pool. When a population is in equilibrium, these frequencies remain stable over generations, allowing for predictions about genotype frequencies using derived formulas. This relationship highlights the importance of maintaining conditions like random mating and large population sizes to ensure genetic stability.
• What assumptions must be met for p + q = 1 to hold true in a given population?
  • 'p + q = 1' holds true under specific conditions known as Hardy-Weinberg assumptions. These include random mating within the population, no significant selection pressures affecting survival or reproduction based on genotype, absence of mutations introducing new alleles, no migration altering allele frequencies, and a sufficiently large population size to minimize genetic drift. If any of these assumptions are violated, changes in p and q can occur, leading to shifts in allele frequencies over generations.
• Evaluate how deviations from p + q = 1 can provide insights into evolutionary processes occurring within a population.
  • When deviations from 'p + q = 1' are observed, it signals that evolutionary processes may be at work within the population. For instance, if one allele frequency increases at the expense of another, it might suggest that natural selection favors certain traits associated with that allele. Similarly, shifts could indicate effects of genetic drift or migration introducing new alleles. Analyzing these changes helps researchers understand adaptive strategies and genetic dynamics as populations respond to environmental pressures and internal changes.

© 2024 Fiveable Inc. All rights reserved.

AP® and SAT® are trademarks registered by the College Board, which is not affiliated with, and does not endorse this website.