In guinea pigs hair straightness or curliness is thought to be governed by a single pair of alleles showing incomplete dominance. Individuals with straight hair are homozygous for the S allele, those with curly hair are homozygous for the C allele, and individuals with wavy hair are heterozygous (SC). You collect data on 1,000 individuals from a population and discover that 244 have straight hair, 444 have curly hair, and 312 have wavy hair.a) Calculate the allele frequencies of the S and C alleles.b.) Is this population in Hardy-Weinberg equilibrium? Show work to support your answer.

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Arclight Arclight · Answer 1 · 2019-08-30T07:30:49+02:00

Answer:

Frequency of allele S is p [tex]= 0.4939[/tex]

Frequency of allele C is q [tex]= 0.666[/tex]

The population is not in Hardy-Weinberg equilibrium

Explanation:

Given -

Number of individuals with straight hair [tex]= 244[/tex]

Number of individuals with curly hair [tex]= 444[/tex]

Number of individuals with Wavy hair [tex]= 312[/tex]

Let "p" represents the frequency for allele for straight hair and "q" represents the frequency for allele for curly hair

[tex]p^2[/tex] represents the frequency of genotype "SS"

[tex]p^{2} = \frac{244}{1000} \\= 0.244[/tex]

[tex]q^2[/tex] represents the frequency of genotype "CC"

[tex]p^{2} = \frac{444}{1000} \\= 0.444[/tex]

[tex]2pq[/tex] represents the frequency of genotype "SC"

[tex]2pq = \frac{312}{1000} \\= 0.312[/tex]

Frequency of allele S is p

[tex]= \sqrt{0.244} \\= 0.4939[/tex]

Frequency of allele C is q

tex]= \sqrt{0.444} \\= 0.666[/tex]

For being in Hardy Weinberg's equation-

[tex]p+q=1\\[/tex]

Substituting the values in above equation, we get -

[tex]0.4939+0.666\neq 1[/tex]

hence, the population is not in Hardy-Weinberg equilibrium