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

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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, II C1 C2 C3 C4 C5 IV D1- D2 D4 – D5 D5 goes on an exotic vacation and meets the love of her life, Taylor. It is determined that 2% 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 ynur 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: