#Question id: 3360
#Section 2: Evolution
Which of the following does not alter hardy Weinberg equability?
#Question id: 3361
#Section 2: Evolution
In a population 16% individual affected with autosomal recessive diseased. how many are expected to be normal phenotype if population size is 250 ?
#Question id: 3363
#Section 2: Evolution
An autosomal recessive condition affects 1 newborn in 100 in a random mating population without any disruptive acting force. What is the approximate expected frequency of carriers in this population?
#Question id: 3364
#Section 2: Evolution
Which of the following equations represents the corresponding equilibrium for a locus with three alleles p, q and r of diploid individuals? (P, Q and R represent the frequencies of p, q and r, respectively)
#Question id: 3374
#Section 2: Evolution
Consider an autosomal locus with two alleles A1 and A2 at frequencies of 0.6 and 0.4 respectively. Each generation, A1 mutates to A2 at a rate of μ = 1 x 10-2 while A2 mutates to A1 at a rate of υ = 1 x 10-1) Assume that the population is infinitely large and no other evolutionary force is acting. The overall change in allelic frequency will be
#Question id: 3366
#Section 2: Evolution
Red-Green color blindness is an X-linked recessive disorder. In a population which is in the Hardy- Weinberg equilibrium, the incidence of occurrence of this in males is 2:2000. What will be the expected incidence of affected homozygous females?