#Question id: 3362
#Unit 11. Evolution and Behavior
The Hardy-Wienberg principle comes from considering what happens when Medelian genes act on population. The model predicts that there will be no change in allele frequencies when
#Question id: 3363
#Unit 11. Evolution and Behavior
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
#Unit 11. Evolution and Behavior
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: 3365
#Unit 11. Evolution and Behavior
Consider a population of 10,000 individuals, of which 2500 are homozygotes (PP) and 3000 are heterozygotes (Pp) genotype. The frequency of allele p in the population is
#Question id: 3366
#Unit 11. Evolution and Behavior
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?
#Question id: 3367
#Unit 11. Evolution and Behavior
The largest unit within which gene flow can readily occur is a