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Genetics: From Genes to Genomes, 5th edition
5th Edition
ISBN: 9780073525310
Author: Leland H. Hartwell, Michael L. Goldberg, Janice A. Fischer, Leroy Hood, Charles F. Aquadro
Publisher: McGraw-Hill Education
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Textbook Question
Chapter 4, Problem 36P
Each of the four pedigrees that follow represents a human family within which a genetic disease is segregating. Affected individuals are indicated by filled-in symbols. One of the diseases is transmitted as an autosomal recessive condition, one as an X-linked recessive, one as an autosomal dominant, and one as an X-linked dominant. Assume all four traits are rare in the population.
a. | Indicate which pedigree represents which mode of inheritance, and explain how you know. |
b. | For each pedigree, what would you advise the parents of the chance that their child (indicated by the hexagon shape) will have the condition? |
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Students have asked these similar questions
The following pedigree shows the inheritance of a human disorder. Affected individuals are
shown with filled symbols.
II
III
2 3
5
Based on the pedigree, propose the least likely inheritance pattern of the disease among
autosomal dominance, autosomal recessive, X-linked dominance and X-linked recessive.
Your choice of answer can be impossible and possible. Explain your answer by giving the
evidence that supports or opposes each mode of inheritance. You can reconstruct the table
shown below and draw the pedigree in your answer script. Write the possible genotype of
each individual in the pedigree for each inheritance pattern proposed.
Mode of
Possibility
Explanations
Pedigree
inheritance
Autosomal
dominance
Autosomal
recessive
X-linked
dominance
X-linked
recessive
Albinism, lack of pigmentation in humans, results from an autosomal recessive gene designated a. Two parents with normal pigmentation have an albino child.
What is the probability that their next child will be albino?
What is the probability that the next child will be an albino girl?
If the child is normal, what is the probability that it will be a carrier (heterozygous) for the albino gene?
X‑linked, recessive diseases, such as hemophilia, are extremely rare in the population. However, many women are carriers and show no sign of the disease. The pedigree illustrates the inheritance of an X‑linked, recessive disease.
Determine whether the unknown individuals are affected by the disease, unaffected by the disease, or carriers of the X‑linked recessive allele. Unaffected individuals are not carriers of the X‑linked recessive allele.
Chapter 4 Solutions
Genetics: From Genes to Genomes, 5th edition
Ch. 4 - Choose the best matching phrase in the right...Ch. 4 - Humans have 46 chromosomes in each somatic cell....Ch. 4 - The figure that follows shows the metaphase...Ch. 4 - XX males who are sex-reversed because they have a...Ch. 4 - Researchers discovered recently that the sole...Ch. 4 - One oak tree cell with 14 chromosomes undergoes...Ch. 4 - Indicate which of the cells numbered iv matches...Ch. 4 - a. What are the four major stages of the cell...Ch. 4 - Answer the questions that follow for each stage of...Ch. 4 - Does any reason exist that would prevent mitosis...
Ch. 4 - One oak tree cell with 14 chromosomes undergoes...Ch. 4 - Which types of cell division mitosis, meiosis I,...Ch. 4 - Complete the following statements using as many of...Ch. 4 - The five cells shown in figure a e on the next...Ch. 4 - One of the first microscopic observations of...Ch. 4 - A person is simultaneously heterozygous for two...Ch. 4 - Assuming i that the two chromosomes in homologous...Ch. 4 - In the moss Polytrichum commune, the haploid...Ch. 4 - Does any reason exist that would prevent meiosis...Ch. 4 - Sister chromatids are held together through...Ch. 4 - The pseudoautosomal regions PARs of the X and Y...Ch. 4 - Somatic cells of chimpanzees contain 48...Ch. 4 - In humans: a. How many sperm develop from 100...Ch. 4 - Women sometimes develop benign tumors called...Ch. 4 - In a certain strain of turkeys, unfertilized eggs...Ch. 4 - Imagine you have two pure-breeding lines of...Ch. 4 - A system of sex determination known as...Ch. 4 - In Drosophila, the autosomal recessive brown eye...Ch. 4 - Barred feather pattern is a Z-linked dominant...Ch. 4 - When Calvin Bridges observed a large number of...Ch. 4 - In a vial of Drosophila, a research student...Ch. 4 - In 1919, Calvin Bridges began studying an X-linked...Ch. 4 - In Drosophila, a cross was made between a...Ch. 4 - As we learned in this chapter, the white mutation...Ch. 4 - The following is a pedigree of a family in which a...Ch. 4 - Each of the four pedigrees that follow represents...Ch. 4 - The pedigree that follows indicates the occurrence...Ch. 4 - Duchenne muscular dystrophy DMD is caused by a...Ch. 4 - The X-linked gene responsible for DMD encodes a...Ch. 4 - Males have hemophilia when they are hemizygous for...Ch. 4 - Consider the following pedigrees from human...Ch. 4 - Several different antigens can be detected in...Ch. 4 - The ancestry of a white female tiger bred in a...Ch. 4 - The pedigree at the bottom of the page shows the...Ch. 4 - In 1995, doctors reported a Chinese family in...Ch. 4 - In cats, the dominant 0 allele of the X-linked...Ch. 4 - In marsupials like the opposum or kangaroo, X...Ch. 4 - The pedigree diagram below shows a family in which...
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Need a deep-dive on the concept behind this application? Look no further. Learn more about this topic, biology and related others by exploring similar questions and additional content below.Similar questions
- Does the phenotype indicated by the red circles and squares in this pedigree show an inheritance pattern that is autosomal dominant, autosomal recessive, or X-linked?arrow_forwardThere are several possible modes of inheritance through which traits can be inherited. The following pedigree charts represent four different inheritance patterns. Match each type of inheritance with the correct pedigree numbered above. (Use each number only once.)X-linked recessive X-linked dominant Autosomal recessive Autosomal dominantarrow_forwardConsider the following pedigree, which traces the inheritance of a single-gene hereditary disease. Only individuals that are either affected or normal are shown. In other words, potential heterozygotes are NOT indicated. Characterize each of the following modes of inheritance as: impossible, unlikely, or probable. Justify your answers: Autosomal dominant Autosomal recessive X-linked dominant X-linked recessive Y linkedarrow_forward
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- In humans, red-green color-blindness is a recessive X-linked trait. A man with red-green color- blindness marries a normal-vision woman whose father was color-blind. As the genetic counselor, construct a Punnett square to determine the genotypic and phenotypic possibilities of their children. orange is due to heteroz means In human, assume that albinism is an autosomal recessive characteristic while hemophilia is X-linked recessive. An albino nonhemophiliac man has children with a normally-pigmented nonhemophiliac woman whose father was a hemophiliac and whose mother was albino. Calculate the phenotypes of the children they could produce.arrow_forwardWhat is the most likely pattern of inheritance for this disorder? (Is it autosomal dominant? Autosomal recessive? X-linked dominant? X-linked recessive? Y-linked? Mitochondrial?) Please include two specific pieces of evidence, present within the pedigree, that indicate that this pattern is most likely, as opposed to any other potential pattern. You may assume that the gene responsible for the trait is fully penetrant.arrow_forwardThis pedigree shows the inheritance of an autosomal dominant disorder. Il-1 and II-2 plan to have four children. What is the probability that 2 children will be affected and 2 will not? Hint: First find the probability that a child has the disease, then use the formula for binomial distribution. Success not affected. -p*q"-x P= I II n! (n-x)!x! 6/8 3/8 14/32 5/16 1/16 1 ? 2arrow_forward
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