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Assuming a a population of 10,000 mice had 400 with the...
please click on the photo to see all of it The basic equations of Hardy-Weinberg Equilibrium...
please click on the photo to see all of it
The basic equations of Hardy-Weinberg Equilibrium p² + 2pq + q2 = 1 p+q=1 p= frequency of the dominant allele in the population 9 = frequency of the recessive allele in the population př= percentage of homozygous dominant individuals q* = percentage of homozygous recessive individuals 2pq - percentage of heterozygous individuals 1. You have sampled a population in which you know that the percentage of the homozygous recessive genotype...
Assume you have a population of stinkbug larvae scored for their genotypes at the PGI-2 allozyme...
Assume you have a population of stinkbug larvae scored for their genotypes at the PGI-2 allozyme locus: PGI-2a/PGI-2a: 125 individuals PGI-2a/PGI-2b: 250 individuals PGI-2b/PGI-2b: 125 individuals Now assume that only 70% of the heterozygotes survive to adulthood and become stinkbugs. a) Calculate the observed genotype and allele frequencies for the initial larvae. b) Calculate the expected Hardy-Weinberg genotypic frequencies for the larvae. Are the larvae in Hardy-Weinberg equilibrium? c) What are the genotypic and allele frequencies among adults in the...
13. The following genotype frequencies are observed in a population of 500 individuals. Genotype AA Number...
13. The following genotype frequencies are observed in a population of 500 individuals. Genotype AA Number of individuals 210 180 Aa aa 110 Total = 500 Answer the following questions about this population (6 points total). a. What is the frequency of the “A” allele? Show your work. (1 point) b. What is the frequency of the “a” allele? Show your work. (1 point) c. Does this locus appear to be at Hardy-Weinberg Equilibrium in this population? Show your work....
1. A particular gene in a given population of individuals has two alleles, A and a....
1. A particular gene in a given population of individuals has two alleles, A and a. The frequency of the A allele equals the frequency of the a allele. What are the expected genotype frequencies, assuming the population is in Hardy-Weinberg equilibrium? AA = 0.5, aa = 0.5 AA = 0.25, Aa = 0.50, aa = 0.25 O A = 0.5, a = 0.5 The answer cannot be determined because the allele frequencies are not provided.
Please give detailed and precise explanation especially for parts b and c E11. In a donor...
Please give detailed and precise explanation
especially for parts b and c
E11. In a donor population, the allele frequencies for the common (HbA) and sickle cell (Hb) alleles are 0.9 and 0.1, respectively. A group of 550 individuals from this population migrates to another popu- lation containing 10,000 individuals; in the recipient population, the allele frequencies are Hb-0.99 and Hb-0.01. A. Calculate the allele frequencies in the conglomerate population. B. Assuming the donor and recipient populations are each in...
14. Given below are the genotypic frequencies for a single gene with two alleles for three...
14. Given below are the genotypic frequencies for a single gene
with two alleles for three
different populations:
Population 1
AA
0.25
Aa
0.50
aa
0.25
Population 2 0.35 0.56 0.09
Population 3 0.49 0.42 0.09
Which of the following is NOT a correct statement about these
three populations?
A) Only two of the populations are in Hardy-Weinberg
equilibrium
B) Population 1 is in Hardy-Weinberg equilibrium; the frequency of
allele A is 0.5
C) Population 2 is not in Hardy-Weinberg...
1. Fixation of Dominant Alleles Start with a population that has a gene with two alleles (A and a...
1. Fixation of Dominant Alleles Start with a population that has a gene with two alleles (A and a) with classical Mendelian dominance that are at equal frequency (p0.5. q 0.5). Assume this first generation is at hardy Weinberg equilibrium. Calculate the genotype frequencies AA- a. Aa b. Now assume some environmental change that makes the recessive phenotype completely unfit (fitness- 0). Calculate the allele frequencies and genotype frequencies in the second generation. (Hint: Your calculations might be easier if...
Hello, please please please answer these questions! I would appreciate it!!! Thank you soooo much!!!! Questions...
Hello, please please please answer these questions! I would
appreciate it!!!
Thank you soooo much!!!!
Questions 2 to 4 are based on the following scenario Question 2: Although the following scenario is hypothetical, it is based on actual facts. Pukaha National Wildlife Centre is a captive breeding facility located in a protected forest area in the lower part of the North Island of Aotearoa, New Zealand. It aims to restore native wildlife, with its initial target on birds. One of...
4. In the human population there is a recessive allele, d, that results in both polydactylism...
4. In the human population there is a recessive allele, d, that results in both polydactylism and dwarfism. The Amish are a small religious denomination founded in Switzerland in 1693. The incidence of the allele "d" in the Amish population is higher as compared with the greater human population. Studies have revealed that the original Swiss Amish population consisted of 10,000 individuals; 8100 with DD genotype, 1800 with Dd genotype, and 100 with dd genotype. Assuming this population is in...
The answers are shown, but how do you get the answer to part IV ONLY. Please...
The answers are shown, but how do you get the answer to
part IV ONLY. Please show all work and explain
NAME: 13. Consider a species that is divided into two subpopuiations that are each individually in Hardy- Weinberg equilibrium with the following genotype frequencies FIAA) FIAa) Flaa) 049 0.42 0.09 0.04 0.32 0.64 i. Assuming that the two subpopulations are of equa! size, calculate the overall genotype frequencies in the global population. Use your answers to complete the blanks...
please click on the photo to see all of it
The basic equations of Hardy-Weinberg Equilibrium p² + 2pq + q2 = 1 p+q=1 p= frequency of the dominant allele in the population 9 = frequency of the recessive allele in the population př= percentage of homozygous dominant individuals q* = percentage of homozygous recessive individuals 2pq - percentage of heterozygous individuals 1. You have sampled a population in which you know that the percentage of the homozygous recessive genotype...
13. The following genotype frequencies are observed in a population of 500 individuals. Genotype AA Number of individuals 210 180 Aa aa 110 Total = 500 Answer the following questions about this population (6 points total). a. What is the frequency of the “A” allele? Show your work. (1 point) b. What is the frequency of the “a” allele? Show your work. (1 point) c. Does this locus appear to be at Hardy-Weinberg Equilibrium in this population? Show your work....
1. A particular gene in a given population of individuals has two alleles, A and a. The frequency of the A allele equals the frequency of the a allele. What are the expected genotype frequencies, assuming the population is in Hardy-Weinberg equilibrium? AA = 0.5, aa = 0.5 AA = 0.25, Aa = 0.50, aa = 0.25 O A = 0.5, a = 0.5 The answer cannot be determined because the allele frequencies are not provided.
Please give detailed and precise explanation
especially for parts b and c
E11. In a donor population, the allele frequencies for the common (HbA) and sickle cell (Hb) alleles are 0.9 and 0.1, respectively. A group of 550 individuals from this population migrates to another popu- lation containing 10,000 individuals; in the recipient population, the allele frequencies are Hb-0.99 and Hb-0.01. A. Calculate the allele frequencies in the conglomerate population. B. Assuming the donor and recipient populations are each in...
14. Given below are the genotypic frequencies for a single gene
with two alleles for three
different populations:
Population 1
AA
0.25
Aa
0.50
aa
0.25
Population 2 0.35 0.56 0.09
Population 3 0.49 0.42 0.09
Which of the following is NOT a correct statement about these
three populations?
A) Only two of the populations are in Hardy-Weinberg
equilibrium
B) Population 1 is in Hardy-Weinberg equilibrium; the frequency of
allele A is 0.5
C) Population 2 is not in Hardy-Weinberg...
1. Fixation of Dominant Alleles Start with a population that has a gene with two alleles (A and a) with classical Mendelian dominance that are at equal frequency (p0.5. q 0.5). Assume this first generation is at hardy Weinberg equilibrium. Calculate the genotype frequencies AA- a. Aa b. Now assume some environmental change that makes the recessive phenotype completely unfit (fitness- 0). Calculate the allele frequencies and genotype frequencies in the second generation. (Hint: Your calculations might be easier if...
Hello, please please please answer these questions! I would
appreciate it!!!
Thank you soooo much!!!!
Questions 2 to 4 are based on the following scenario Question 2: Although the following scenario is hypothetical, it is based on actual facts. Pukaha National Wildlife Centre is a captive breeding facility located in a protected forest area in the lower part of the North Island of Aotearoa, New Zealand. It aims to restore native wildlife, with its initial target on birds. One of...
4. In the human population there is a recessive allele, d, that results in both polydactylism and dwarfism. The Amish are a small religious denomination founded in Switzerland in 1693. The incidence of the allele "d" in the Amish population is higher as compared with the greater human population. Studies have revealed that the original Swiss Amish population consisted of 10,000 individuals; 8100 with DD genotype, 1800 with Dd genotype, and 100 with dd genotype. Assuming this population is in...
The answers are shown, but how do you get the answer to
part IV ONLY. Please show all work and explain
NAME: 13. Consider a species that is divided into two subpopuiations that are each individually in Hardy- Weinberg equilibrium with the following genotype frequencies FIAA) FIAa) Flaa) 049 0.42 0.09 0.04 0.32 0.64 i. Assuming that the two subpopulations are of equa! size, calculate the overall genotype frequencies in the global population. Use your answers to complete the blanks...
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