The questions below all refer to the following pedigree. The locus for allele D/d determines how cilia function within the body. Mutations at this allele cause abnormal ciliary function, resulting in a clinical disorder characterized by trequent respiratory intections (including in the ears, sinuses, and lungs), as well as infertility. In the pedigree, black circles/squares represent individuals affected by the disorder White circles/squares represent unaffected individuals. Remember, if a trait is rare in a population (such as this one), we assume individuals marrying into the family are NOT carriers unless the information provided indicates otherwise. A1 A2 - B1_ B2. B3 B4 B5 B6. C1_ C2 C3 C4. C5 IV D. D5. D1 D4 D5 goes on an exotic vacation and meets the love of her life, Taylor. It is determined that 29% of the population where Taylor lives is a carrier for this disorder. If we assume Taylor has the same risk of being a carrier as everyone else in their population (2%), what is the probability that D5 and Taylor will have a child with the disorder? Show your equation and explain Probability that D5 is a carrier: Probability that Taylor is a carrier: Probability that two carriers will have an affected child: Final probability that D5 and Taylor would have an affected child: %3D
The questions below all refer to the following pedigree. The locus for allele D/d determines how cilia function within the body. Mutations at this allele cause abnormal ciliary function, resulting in a clinical disorder characterized by trequent respiratory intections (including in the ears, sinuses, and lungs), as well as infertility. In the pedigree, black circles/squares represent individuals affected by the disorder White circles/squares represent unaffected individuals. Remember, if a trait is rare in a population (such as this one), we assume individuals marrying into the family are NOT carriers unless the information provided indicates otherwise. A1 A2 - B1_ B2. B3 B4 B5 B6. C1_ C2 C3 C4. C5 IV D. D5. D1 D4 D5 goes on an exotic vacation and meets the love of her life, Taylor. It is determined that 29% of the population where Taylor lives is a carrier for this disorder. If we assume Taylor has the same risk of being a carrier as everyone else in their population (2%), what is the probability that D5 and Taylor will have a child with the disorder? Show your equation and explain Probability that D5 is a carrier: Probability that Taylor is a carrier: Probability that two carriers will have an affected child: Final probability that D5 and Taylor would have an affected child: %3D
Human Heredity: Principles and Issues (MindTap Course List)
11th Edition
ISBN:9781305251052
Author:Michael Cummings
Publisher:Michael Cummings
Chapter6: Cytogenetics: Karyotypes And Chromosome Aberrations
Section: Chapter Questions
Problem 2QP: Given the karyotype shown at right, is this a male or a female? Normal or abnormal? What would the...
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