A population is solely comprised of 118 A2A2 individuals. 5 A1A1 individuals migrate in and contribute to the mating pool. What is the frequency of A1A2 individuals in the offspring? Answer to 2 decimal places. Hint: Use the Gene Flow table!
The following answer is solved using Hardy Weinberg principle which states that is the frequency of allele in a population remains constant. If frequency of one allele ishere p2 is the individual frequency with homozygous allele and q² is the individual frequency with recessive allele. 2pq represents intermediate individuals in population.p²+q²+2pq =1 and constant.
A population is solely comprised of 118 A2A2 individuals. 5 A1A1 individuals migrate in and contribute to...
A population is made solely of 152 A2A2 individuals. 7 A1A1 individuals migrate in and contribute to the mating pool. What is the frequency of A1A2 individuals in the offspring? Answer to 2 decimal places.
Imagine a population that has 180 A1A1 individuals, 144 A1A2 individuals, and 175 A2A2 individuals. Male A1A1 is the preferred mate of females and gets all the matings. What would the genotype frequencies be for the A1A2 offspring of this population? Answer to 2 decimal places.
Imagine a population that has 179 A1A1 individuals, 184 A1A2 individuals, and 26 A2A2 individuals. Male A1A1 is the preferred mate of females and gets all the matings. What would the genotype frequencies be for the A1A2 offspring of this population?
A population is made up of individuals where 74 have the A1A1 genotype, 192 have the A1A2 genotype, and 145 have the A2A2 genotype. What is the allele frequency of A1? Answer to 2 decimal places.
(Hardy Weinberg Equation) In a population of rabbits, there are 423 A1A1, 1484 A2A2, and 1661 A1A2 individuals. If the enviornment changes so that the homozygous recessive genotype suffers a reduction of fitness where it's fitness is now 0.59 , but the other genotypes are unaffected, what will be the frequency of the dominant allele in the NEXT generation?
a)Calculate the frequencies of A1A1, A1A2 and A2A2 genotypes in generation 1 if the initial population (in generation 0) consists of 0.3 A1A1, 0.4 A1A2, and 0.3A2A2 genotypes. (b) What allelic and genotypic frequencies will occur in generation 2? (c)What must you assume to answer these questions?
5. Examine the following fabricated data for a population of oak trees. Genotype Height Number of individuals with this genotype in generation 1 Number of individuals with this genotype in generation 2 A1A1 5 meters 100 200 A1A2 10 meters 100 A2A2 15 meters 100 200 TOTAL: 300 450 a. (2 pts) What is the allele frequency of A1 in the first generation? b. (2 pts) is this population in Hardy-Weinberg Equilibrium? Show your work.
Consider a population of 5694 adults, with the following numbers of different genotypes: A1A1 - 15 individuals A1A2- 1224 individuals A2A2 - 4455 individuals ) Find the frequency of A 2) Estimate the fitness of each genotype as the ratio of observed/expected adults. (Use the Hardy-Weinberg frequencies, given your calculated value of p, as the "expected" values.) 3) Plot W vs. p for this case (where p is the frequency of Aj) 4) Find all stable equilibrium value(s) of p....
QUESTION 5 In a population of finches undergoing roughly directional selection on the gene A," the fitness of AlAl individuals is 08, A1A2 individuals is 1, and A2A2 individuals is 1. The initial frequency of each allele is 0.5. What will be the new frequency of Al after one generation of selection? O A-0.526 O B. OC.o.5 OD.0.474
In a population of mice a particular locus has two alleles A1 (dominant) and A2 (recessive). There are 126 A1A1, 167 A1A2 and 88 A2A2. Is this population in Hardy-Weinberg equilibrium (3 pts)? In a population of Gragons, there are 3151 A1A1, 1678 A1A2 and 2014 A2A2 individuals. If the environment changes so that the homozygous recessive genotype suffers a reduction of fitness where its fitness is now 0.73, but the other genotypes are unaffected, what will be the frequency...