The gene frequency of a in population 1 is .85 and in population 2 is .65....

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

A gene in a randomly-mating population has two alleles (A,a), and the allele frequency of A is 0.65. Calculate the frequency of homozygous recessive individuals (aa) in the population.

Why is a balanced frequency of different alleles of a gene in a population more useful...

Why is a balanced frequency of different alleles of a gene in a population more useful for the survival of a population facing environmental changes?

Why is a balanced frequency of different alleles of a gene in a population more useful...

Why is a balanced frequency of different alleles of a gene in a population more useful for the survival of a population facing environmental changes?

Why is a balanced frequency of different alleles of a gene in a population more useful...

Why is a balanced frequency of different alleles of a gene in a population more useful for the survival of a population facing environmental changes?

1. Consider two genes that are independent, the A gene and the B gene. Each gene...

1. Consider two genes that are independent, the A gene and the B gene. Each gene has two alleles (A gene: A1 and A2, B gene: B1 and B2). The frequency of A1 allele at the A gene is 0.37 and the frequency of the B2 allele at the B gene is 0.73. What is the probability of an individual in a randomly mating population of having A1A2B1B2 as their genotype? 2. In a population of bacterial cells you know...

Approximate the mean for following frequency table. Data Frequency 60 - 64 13 65 - 69...

Approximate the mean for following frequency table. Data Frequency 60 - 64 13 65 - 69 22 70 - 74 13 75 - 79 7 80 - 84 5 85 - 89 4 90 - 94 2 95 - 99 1 100 - 104 1 mean = Report answer accurate to one decimal place. Approximate the mean for following GFDT. Data Frequency 50 - 54 1 55 - 59 4 60 - 64 5 65 - 69 14 70 -...

You observe that the frequency of an allele at the YAPPY gene appears to be at...

You observe that the frequency of an allele at the YAPPY gene appears to be at a stable equilibrium (p* = 0.5) in a finite but extremely large population not experiencing mutation. You note that the heterozygotes for this gene tend to have more offspring because they survive to a greater degree than either homozygous genotype. Which of the following term best describes what is happening? A. Mutational equilibrium B. Hardy-Weinberg Equilibrium C. Wright-Fisher population D. Underdominance E. Overdominance You...

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).

practice 1 Grade practice 2 Grade 95 85 85 95 80 70 70 65 60 70...

practice 1 Grade practice 2 Grade 95 85 85 95 80 70 70 65 60 70 The table above shows the first two practice grades for five students. Use this data to answer the next four questions. a) Calculate the correlation coefficient. Round to two decimal places b)Find the linear regression equation, treating practice 1 as x and practice 2 as y. What is the slope of this equation? Round to two decimal places. c) Use the linear regression equation...

Question 2 The allele frequencies for a population are A = 0.6 and a = 0.4....

Question 2 The allele frequencies for a population are A = 0.6 and a = 0.4. Conditions change and fitness values are now AA = 0.3, Aa = 0.7 and aa = 1.0. What is the allele frequency of A in the next generation? A. between 0.6 and 0.7 B. between 0.5 and 0.6 C. between 0.4 and 0.5 D. 0.6 E. between 0.3 and 0.4 Question 7 A gene exists in two alleles designated P and p. If 65...