In a small population that is not in Hardy-weinberg equilibrium and in which the
The answer is as follows :
A(p2) = 52/114 = 0.45
B(p2) = 27/112 = 0.23
AB(2pq) = 35/112 = 0.30
Frequency of A : p2 + 1/2(2pq) = 0.45 +1/2(0.30) = 0.6
Frequency of B : q= 1-p = 1-0.6 = 0.4
In a small population that is not in Hardy-weinberg equilibrium and in which the
The Hardy-Weinberg Equilibrium assumes a small population. True OR False
Evolution 1. Assume this population is in Hardy-Weinberg equilibrium. In a population of 120 cats, 35 are black. Black cats have the bb genotype. Find the allelic frequency of the dominant and recessive allele. 2. Assume this population is in Hardy-Weinberg equilibrium. A litter of 10 puppies has both tipped ears (a) and floppy ears (A). If 4 puppies have tipped ears in the litter. What is the frequency of the recessive allele? 3. Assume this population is in Hardy-Weinberg...
In a population that is in Hardy Weinberg equilibrium, 49% of the individuals are recessive homozygotes for a certain trait. In a population of 5500, calculate the following: a) The number of homozygous recessive individuals in the population b) The number of heterozygotes in the population
Assume that you have a population in Hardy-Weinberg equilibrium for a particular trait Within this population, what will be the proportion of matings between homozygotes?
Generation 1: p=0.6, q=0.4; population mean fitness =0.9 Generation 2: p'=0.54, q'=0.46 The genotype frequency in the first generation is: AA: 0.3 Aa: 0.5 aa: 0.2 Is the population in Hardy Weinberg Equilibrium? Show your work.
Which of the following are assumptions for Hardy-Weinberg equilibrium? O All organisms within the population are genetically similar a Infinitely large population O Migration is occurring O Mutations are occurring in the population Random mating Question 3 Suppose a population of 1000 people is in H-w equilibrium, if 84% of this population can taste PTC, how many are heterozygotes, considering that ability to taste PTC is inherited as a dominan allele? O 600 0 400 580 ○ 480 6 MacBook...
how long does it take for a founder population to arrive at Hardy - Weinberg equilibrium if they meet all of the HW conditions?
In a population that meets Hardy- Weinberg equilibrium assumptions, 81% of the individuals are homozygous for the recessive allele. What percentage of the individuals would be expected to be heterozygous for this locus in the next generation?
For two alleles at frequencies p and q in a population at Hardy-Weinberg equilibrium, which of the following statements is most likely to be TRUE? A. When p = q, all individuals in the population are heterozygous. B. When p = q, no individuals in the population are heterozygous. C. When p = 1, half of the individuals in the population are heterozygous. D. When p = 0, all individuals in the population are heterozygous E. When p = 0.5,...
1. Suppose a population of organisms is in Hardy–Weinberg equilibrium. In the population, a gene has two alleles, B and b. If the frequency of B is 0.72 and the frequency of b is 0.28, what are the expected genotype frequencies of BB, Bb, and bb? Calculate each frequency to two decimal places.