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Chapter 15: Q15.2-3CC (page 300)

Consider what you learned about dominant and recessive alleles in Concept 14.1. If a disorder were caused by a dominant X-linked allele, how would the inheritance pattern differ from what we see for recessive X-linked disorders?

Short Answer

Expert verified

In both recessive, dominant X-linked disorders, males express the trait because they possess just one X-chromosome. On the other hand, females can be a carrier or diseased in case of recessive X-linked disease but diseased in dominant X-linked conditions because one dominant allele is enough to cause the disease.

Step by step solution

01

Dominant and recessive alleles

There are two alternative forms of a gene; these are called alleles.Out of the two alleles, one is dominant, and the other is recessive.The allele that determines the trait of an organism is dominant alleles, whereas the other allele which does not have any effect on the trait is recessive alleles.

Any individual who possesses one dominant and one recessive allele is called heterozygous, whereas individuals with either both dominant or recessive alleles are called homozygous.

02

Inheritance of recessive X-linked disease

Recessive X-linked disease is caused by the inheritance of two recessive alleles.In contrast, an individual with one recessive allele is a carrier for the disease.

In this condition, males having recessive alleles will express the trait because they are hemizygous. While females who receive one recessive would be the carrier for the disease, and those who receive both the recessive alleles express the trait. Thus, females have an advantage here due to the presence of two recessive alleles.

03

Inheritance of dominant X-linked disease

Dominant X-linked disease is caused by the inheritance of just one dominant allele.Individuals receiving one dominant allele express the trait. Thus,an individual cannot be a carrier for a dominant X-linked trait.

In this condition, males transmit the dominant allele to the daughter, and, thus, daughters are diseased. At the same time, females with dominant alleles will transmit half of the alleles to sons and half to daughters.

04

Difference between the two inheritance patterns

Males receiving defective alleles in both recessive and dominant X-linked disorder express the trait because they have just one X chromosome, which causes the disorder. As a result, males have more X-linked disorders.

On the other hand, females receiving recessive alleles can be carriers for recessive X-linked disorder but are diseased with just one dominant allele in dominant X-linked conditions.

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Most popular questions from this chapter

Assume you are mapping genes A, B, C, and D in Drosophila. You know that these genes are linked on the same chromosome, and you determine the recombination frequencies between each pair of genes to be as follows: A-B, 8%; A-C, 28%; A-D, 25%; B-C, 20%; B-D, 33%.

  1. Describe how you determined the recombination frequency for each pair of genes.

  2. Draw a chromosome map based on your data.

Review the description of meiosis (see Figure 13.8) and Mendel’s laws of segregation and independent assortment (see Concept 14.1). What is the physical basis for each of Mendel’s laws?

Pseudohypertrophic muscular dystrophy is an inherited disorder that causes gradual deterioration of the muscles. It is seen almost exclusively in boys born to apparently unaffected parents and usually results in death in the early teens. Is this disorder caused by a dominant or a recessive allele? Is its inheritance sex-linked or autosomal? How do you know? Explain why this disorder is almost never seen in girls.

The gene that is activated on the Philadelphia chromosome codes for an intracellular tyrosine kinase. Review the discussion of cell cycle control in Concept 2.3 and explain how the activation of this gene could contribute to the development of cancer.

For each type of offspring of the test-cross in Figure 15.9, explain the relationship between its phenotype and the alleles contributed by the female parent. (It will be useful to draw out the chromosomes of each fly and follow alleles throughout the cross.)
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