2.A group of mice was released into a large field to which no other mice had access. Immediately after the release,a representative sample of the mice was captured, and the fur color of each individual in the sample wasobserved and recorded. The mice were then returned to the field. After twenty years, another representativesample of the mice was captured, and the fur color of each individual in the sample was again recorded. Whichof the following best explains the change in the frequency distribution of fur color phenotypes in the mousepopulation, as shown in the figures above?a.The allele for gray fur color is unstable, and over twenty years most of those alleles mutated to becomealleles for black fur.b.The field was composed primarily of light‐colored soil and little vegetation, affording gray miceprotection from predators.c.Sexual selection led to increased mating frequency of black and brown versus gray and brown.d.The gray mice were hardest to capture and so were underrepresented in the twenty‐year sample.
Use the following information to answer question 3:The following figures display data collected while studying a family, some members of which have sickle‐celldisease—a rare genetic disorder caused by a mutation in the hemoglobin beta gene (HBB). There are at leasttwo alleles of the HBB gene: the HbA allele encodes wild‐type hemoglobin and the HbS allele encodes the sickle‐cell form of hemoglobin. Genetic testing provided insight into the inheritance pattern for sickle‐cell disease.Figure 1. Pedigree of a family with affected individuals. Squares represent males, circles represent females,shaded symbols represent individuals with sickle‐cell disease.5' CTG ACT CCT GAG GAG AAG TCT 3'Non‐template Strand3' GAC TGA GGA CTC CTC TTC AGA 5'Template StrandFigure 2. A portion of the DNA sequence from the wild‐type hemoglobin allele (HbA) that codes for normalhemoglobin.