Genetics Problems 1. Suppose a father of blood type A and a mother of blood type B have a child of type O. What are the possible blood types of the mother and father? 2. Suppose a father of blood type B and a mother of blood type O have a child of type O. What are the chances that their next child will be blood type O? Type B? Type A? Type AB? K/U T/I 3. Why is blood type inheritance an example of both codominance and complete dominance? K 4. Sickle-cell anemia is a condition in which the red blood cells of an individual can become shaped like the letter “C.” This shape prevents the red blood cells from moving easily through blood vessels. It can result in the cells clumping, blocking blood flow and causing pain, infection, and organ damage. The allele that causes sickle-cell anemia is autosomal recessive (s), and the dominant allele can be represented by S. (a) For the following families, determine the genotypes of the parents and offspring. When it is not possible to decide which genotype an individual is, list both. C (i) Two normal parents have four normal children and one with sickle-cell anemia. (ii) A normal male and a female with sickle-cell anemia have six children, all normal. (iii) A normal male and a female with sickle-cell anemia have six children; three are normal, and three have sickle-cell anemia. (b) Construct a pedigree chart for the families in (ii) and (iii). 5. Examine the pedigree charts in Figures 13 and 14. T/I (a) Determine whether the mode of inheritance for the traits is autosomal dominant or autosomal recessive. Explain. (b) Label the genotype of each individual in the pedigree chart. Assume that the dominant allele is A and the recessive allele is a. 6. Hairy ears is a rare condition that is sex linked. Let H be the dominant allele (non-hairy ears) and h be the recessive allele (hairy ears). T/I (a) Examine the pedigree chart in Figure 15. Determine if the condition is X-linked or Y-linked. (b) Label all possible genotypes. 7. The alleles for human blood types A and B are codominant, but both are dominant over the type O allele. The Rh factor is separate from the ABO blood group and is located on a separate chromosome. The Rh+ allele is dominant over the Rh-. Indicate the possible phenotypes from mating a woman with type O, Rh-, with a man with type A, Rh+. The man is homozygous for type A and heterozygous for Rh factor. 8. Why is sample size important in a genetic investigation? A 9. Is it possible to have a trihybrid cross? Explain your thinking. T 10. A test cross was carried out to determine if a bull displaying a dominant trait was heterozygous or homozygous. The alleles for the trait are designated by the letters T and t. The off spring display both dominant and recessive phenotypes. Draw a Punnett square that shows the alleles produced by both parents and the genotypes of the off spring. 11. A child is born with a trait that is not present in either of the child’s biological parents. C A (a) Is the child’s genotype for the trait homozygous recessive, homozygous dominant, or heterozygous? How do you know? (b) Is the mother’s genotype for the trait homozygous recessive, homozygous dominant, or heterozygous? How do you know? (c) Is the father’s genotype for the trait homozygous recessive, homozygous dominant, or heterozygous? How do you know? (d) The alleles for this trait can be represented with the letters B and b. Draw a Punnett square that shows this cross. In the completed Punnett square, circle the genotype that represents the child described in the question. (e) What is the probability of these parents having another child with the same trait as the child described in the question? 12. In foxes, two alleles, Pp and P s, influence survival and hair colour. P pP p zygotes do not survive. P pP s individuals have normal health and platinum coat colour. P sP s individuals also have normal health and have a silver coat. What are the expected genotype and phenotype ratios of offspring from the cross of a platinum and a silver fox? Multiple Choice 13. In humans, which blood type is the result of codominance? (a) type A (c) type AB (b) type B (d) type O 14. What term describes an individual who carries only one type of allele for a gene? (a) heterozygous (c) homozygous (b) monohybrid (d) dihybrid 15. What pattern of heredity is demonstrated when, in shorthorn cattle, a cross between a red bull and a white cow results in roan calves? (a) complete dominance (c) incomplete dominance (b) codominance (d) X-linked dominance 16. In a cross, the P generation consists of two truebreeding pea plants: one with purple flowers and one with white flowers. How many different genotypes will be present in the F1 generation? (a) 1 (b) 2 (c) 3 (d) 4 17. What phenotype ratio is expected in a dihybrid cross? (a) 3:1 (b) 1:2:1 (c) 9:3:3:1 (d) 3:1:9 18. On a pedigree chart, what symbol indicates an affected male? (a) shaded square (c) unshaded square (b) shaded circle (d) unshaded circle 19. How is the probability of two independent events both occurring calculated? /U (a) Multiply the probabilities of the events. (b) Add the probabilities of the events. (c) Subtract the probabilities of the events. (d) Divide the probabilities of the events. 20. A pedigree chart shows two unaffected parents who have two affected offspring and two unaffected offspring. What are the genotypes of the parents for the trait? (a) heterozygous (c) homozygous dominant (b) homozygous recessive (d) impossible to determine