A gene in a randomly-mating population has two alleles (A,a), and the allele frequency of A...

3) In general, p = allele frequency of the dominant allele and q = allele frequency...

3) In general, p = allele frequency of the dominant allele and q = allele frequency of the recessive allele. Using the product and/or sum rule(s), use these variables (p and q) to determine the probabilities of an individual in the next generation being: a) Homozygous dominant (A dominant allele (A) AND another dominant allele (A))? b) Homozygous recessive (A recessive allele (a) AND another recessive allele (a))? c) Heterozygote (Aa OR aA)? 4a) In a population in Hardy-Weinberg equilibrium,...

4 In a population of peas, the frequency of the dominant allele for a yellow seed...

4 In a population of peas, the frequency of the dominant allele for a yellow seed is 0.29 and the frequency of the recessive allele for a green seed is 0.71. What would the genotypic frequencies be if the population is in equilibrium? _____ = Frequency of homozygous dominant individuals _____ = Frequency of heterozygous individuals _____ = Frequency of homozygous recessive individuals How many individuals would you expect of each genotype in a population of 350 peas? _____ =...

The frequencies of two alleles in a gene pool are .42 (A) and .58 (a). Assume...

The frequencies of two alleles in a gene pool are .42 (A) and .58 (a). Assume the population is in Hardy-Weinberg equilibrium. Calculate the percentage of heterozygous and homozygous recessive individuals in the population.

In a Hardy-Weinberg population with two alleles, T and t, that are in equilibrium, the frequency...

In a Hardy-Weinberg population with two alleles, T and t, that are in equilibrium, the frequency of the allele t is 0.3. Therefore [ Select ]                       ["p^2", "p", "q", "q^2"]         = 0.3 What is the percentage of the population that is Homozygous dominant (TT) for this allele?     [ Select ]                       ["70", "0.7", "49", "0.49"]       What is the percentage of the population that...

In humans, the widow’s peak allele is dominant over the straight hairline allele. In a population...

In humans, the widow’s peak allele is dominant over the straight hairline allele. In a population of humans, the frequency of the allele for a widow’s peak is 0.61 and the frequency of the allele for a straight hairline is 0.39. What would the genotypic frequencies be if the population is in equilibrium? _____ = Frequency of homozygous dominant individuals _____ = Frequency of heterozygous individuals _____ = Frequency of homozygous recessive individuals How many individuals would you expect of...

Consider a gene with a dominant and recessive allele in a population conforming to the Hardy-Weinberg...

Consider a gene with a dominant and recessive allele in a population conforming to the Hardy-Weinberg conditions. Assuming the frequency of the recessive allele in the entire population is q, show that the frequency of the recessive allele in individuals with the dominant phenotype is q/(1+q).

In a hypothetical population of 1000 snapping turtles, there exists a gene with two alleles: D...

In a hypothetical population of 1000 snapping turtles, there exists a gene with two alleles: D & d. You find that 440 of the turtles are homozygous dominant (DD), and 210 are homozygous recessive (dd). What is the frequency of the heterozygote (Dd) in the population? Group of answer choices A) 0.17 B) 0.26 C) 0.35 D) 0.50 E) 0.70

43. A gene has two alleles a and b. In the gene pool, the a allele...

43. A gene has two alleles a and b. In the gene pool, the a allele accounts for 70 percent of the alleles at this locus. If the population is in Hardy-Weinberg equilibrium, what percentage of the population is heterozygotes with respect to this locus? A. 21 percent B. 30 percent C. 49 percent D. 70 percent

Cystic fibrosis is a disease caused by a recessive allele.  If 12% of the population has cystic...

Cystic fibrosis is a disease caused by a recessive allele.  If 12% of the population has cystic fibrosis, then what is the frequency of individuals who are heterozygous for the gene that causes cystic fibrosis in the population? 0.35 0.65 0.12 0.46

Consider a gene with a dominant and recessive allele in a population conforming to the H-W...

Consider a gene with a dominant and recessive allele in a population conforming to the H-W conditions. Assuming the frequency of the recessive allele in the entire population is q, show that the frequency of the recessive allele in individuals with the dominant phenotype i q/(1 +q). Be sure to show your work.