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Chapter 14: Q14-15TYU. (page 293)

Over the past half-century, there has been a trend in the United States and other developed countries for people to marry and start families later in life than did their parents and grandparents. What effects might this trend have on the incidence (frequency) of late-acting dominant lethal alleles in the population?

Short Answer

Expert verified

An individual with lethal dominant alleles marrying late would transmit their gene to the offspring. This would increase the frequency of late-acting dominant alleles in the population.

Step by step solution

01

Lethal dominant alleles

Some alleles are lethal as they cause the death of the individual that inherits them. Such alleles are called lethal alleles. The presence of dominant lethal alleles causes the death of the organism before an individual attains puberty.

Thus, dominant alleles are not transmitted to the next generations. However, some lethal alleles are expressed after the reproductive age of an individual. These alleles are late-acting lethal alleles.

Individuals with such alleles can transmit the alleles to their offspring, which is a rare condition. Thus, the frequency of dominant lethal alleles is much less in the population.

02

Lethal recessive alleles

Recessive alleles cause lethal effects only when they are in homozygous condition. Thus, homozygous individuals cannot transmit the lethal alleles to the future generation. A heterozygous carrying one recessive allele and one normal allele can transmit the lethal alleles to future generations.

Thus, the frequency of recessive lethal alleles is higher in the population as compared to dominant lethal alleles.

03

Frequency of late-acting dominant alleles in the population

It has been observed that people of the United States and other developed countries are getting married and starting families late in life. There is a high chance that the frequency of late-acting dominant lethal alleles would increase in the population in such conditions.

In most cases, individuals who possess dominant alleles die early in life before transmitting their lethal alleles to future generations. However, individuals who possess late-acting dominant lethal alleles can survive longer because the alleles are expressed later in life.

Thus, there are high chances that people having children late will transmit the lethal alleles to their children. As a result, the frequency of such late-acting dominant lethal alleles would increase in the population.

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Most popular questions from this chapter

Explain how the change of a single amino acid in hemoglobin leads to the aggregation of hemoglobin into long fibers. (Review Figures.5.14, 5.18 and 5.19)

If a man with type AB blood marries a woman with type O, what blood types would you expect in their children? What fraction would you expect of each type?

You are handed a mystery pea plant with tall stems and axial flowers and asked to determine its genotype as quickly as possible. You know that the allele for tall stems (T) is dominant to that for dwarf stems (t) and that the allele for axial flowers (A) is dominant to that for terminal flowers (a).

(a) Identify all the possible genotypes for your mystery plant.

(b) Describe the one cross you would do, out in your garden, to determine the exact genotype of your mystery plant.

(c) While waiting for the results of your cross, you predict the results for each possible genotype listed in part a. Explain how you do this and why this is not called “performing a cross.”

(d) Explain how the results of your cross and your predictions will help you learn the genotype of your mystery plant.

Imagine that you are a genetic counselor, and a couple planning to start a family comes to you for information. Charles was married once before, and he and his first wife had a child with cystic fibrosis. The brother of his current wife, Elaine, died of cystic fibrosis. What is the probability that Charles and Elaine will have a baby with cystic fibrosis? (Neither Charles, Elaine, nor their parents have cystic fibrosis.)

What is the probability that each of the following pairs of parents will produce the indicated offspring? (Assume independent assortment of all gene pairs)

(a)AABBCC×aabbccAaBbCc

(b) AABbCc×AaBbCcAAbbCC

(c)AaBbCc×AaBbCcAaBbCc

(d) aaBbCC×AABbccAaBbCc
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