Does the following fitness array reflect heterozygote inferiority or superiority?                             &nbs

Does the following fitness array reflect heterozygote inferiority or superiority?                             &nbs

Does the following fitness array reflect heterozygote inferiority or superiority?                                   A1A1               A1A2                   A2A2 fitness              0.70                 1                      0.80 Calculate the equilibrium frequency of p for the given fitnesses. Is this a stable or unstable equilibrium?

A human population in Africa living under a severe malaria selection has the following relative fitnesses...

A human population in Africa living under a severe malaria selection has the following relative fitnesses (w) of homozygous genotypes in beta-hemoglobin locus: w11 = 0.75 for A1A1 w22 = 0.85 for A2A2 . Assume that w12 = 1.00 for A1A2 . Using heterozygote advantage concept, determine frequency of the mutant sickle-cell beta-hemoglobin allele (q) in this population assuming that genotype frequencies are at balance (?p = 0; balancing selection). why this population not considered a Hardy Weinberg Population

Please show work so I can get a full understanding.Thank you! :) 1. Consider the equation...

Please show work so I can get a full understanding.Thank you! :) 1. Consider the equation ?p = p(1/2 ? p)(1 ? p) Find all of its equilibria and classify them in terms of stability. 2. What is the equilibrium frequency of a recessive gene arising with a mutation rate of 4×10?6 and a reproductive fitness in homozygotes of 0.8? What would it be if the gene were partially recessive with h = 0.05? How different are these two equilibrium...

Please show work so I can get a full understanding.Thank you! :) 1. Consider the equation...

Please show work so I can get a full understanding.Thank you! :) 1. Consider the equation ∆p = p(1/2 − p)(1 − p) Find all of its equilibria and classify them in terms of stability. 2. What is the equilibrium frequency of a recessive gene arising with a mutation rate of 4×10−6 and a reproductive fitness in homozygotes of 0.8? What would it be if the gene were partially recessive with h = 0.05? How different are these two equilibrium...

Complete the following 10 questions. To get complete credit, you must show your work for calculations...

Complete the following 10 questions. To get complete credit, you must show your work for calculations and type the correct answers in the yellow highlighted boxes. Round final calculations to two digits. Partial credit will be given for using the correct equations, but getting the wrong answer. Minimal credit (a quarter of possible points) will be given for providing answers with no equations. Even if you only answer a few of the questions, submit the assignment on time. Material covered...

Part I. You are investigating the evolution of cuticle color in a scarab beetle inhabiting a...

Part I. You are investigating the evolution of cuticle color in a scarab beetle inhabiting a desert. Coloration is determined by a single gene A with two alleles: A1 codes for a dark brown color, and A2 codes for a grey color. Since the alleles are incompletely dominant, heterozygotes are tan. Therefore the heterozygotes are almost invisible on the sandy desert floor, while homozygotes are more visible and thus more susceptible to predation. Questions: (a) Based on the given information,...