A sample of 500 field mice contains 225 individuals that are D₁D₁, 175 that are D₁D₂, and 100 that are D₂D₂. What are the frequencies of D₁ and D₂ in this sample?

Genotype frequencies refer to the proportion of different genotypes within a population. In this case, the genotypes D₁D₁, D₁D₂, and D₂D₂ represent different combinations of alleles for a specific gene. Understanding these frequencies is essential for calculating allele frequencies, as they provide the necessary data on how many individuals possess each genotype.

Allele frequencies indicate how common an allele is in a population. They are calculated by dividing the number of copies of a specific allele by the total number of alleles for that gene in the population. In this scenario, the frequencies of alleles D₁ and D₂ can be derived from the genotype frequencies, allowing for insights into genetic diversity and population structure.

The Hardy-Weinberg Principle provides a mathematical framework for understanding genetic variation in a population at equilibrium. It states that allele and genotype frequencies will remain constant from generation to generation in the absence of evolutionary influences. This principle is useful for predicting expected genotype frequencies based on allele frequencies, which can help verify if a population is in genetic equilibrium.