EBK BIOLOGY
11th Edition
ISBN: 9780134226453
Author: Byers
Publisher: PEARSON
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Textbook Question
Chapter 14, Problem 1MC
Which of the following is not true of a single
a. It is usually caused by a translocation mutation.
b. It is usually caused by a nucleotide substitution mutation.
c. It may change the
d. It is inherited from parent to offspring.
Expert Solution & Answer
Summary Introduction
Introduction:
Single nucleotide polymorphisms (SNPs) are a type of mutation in which one nucleotide at a particular position on deoxyribonucleic acid (DNA) is replaced by another nucleotide. SNPs are responsible for a number of genetic disorders in humans.
Answer to Problem 1MC
Correct answer:
SNPs cannot be caused by a translocation mutation.
Explanation of Solution
Justification/Explanation for the correct answer:
SNPs are caused by the replacement of one nucleotide at a particular position on the DNA by another nucleotide. Translocation refers to the rearrangement of segments of chromosomes, meaning that a particular segment of a chromosome breaks off from its location and reattaches at a new location. Option (a) is given that SNPs are usually caused by translocation mutations is a false statement. Hence, option (a) is correct.
Explanation for the incorrect answer:
Option (b) is given that SNPs are caused by nucleotide substitution mutations is a false statement. SNPs are caused by the substitution or replacement of a particular nucleotide at a given position with a different nucleotide. So, it is an incorrect option.
Option (c) is given that SNPs may change the phenotype of an organism is a false statement. SNPs can be of two types: synonymous and nonsynonymous. In a synonymous SNP, the amino acid coded by the triplet is not changed and the same protein is made. In a nonsynonymous SNP, the amino acid encoded by the triplet changes and an altered protein is made. This altered protein would give a different phenotype to the affected individual. So, it is an incorrect option.
Option (d) is given that SNPs are inherited from parent to offspring is a false statement. SNPs are changes in the DNA. Any change in the DNA of the parent will be passed on to his/her offspring because DNA is the basis of inheritance. So, it is an incorrect option.
Hence, options (b), (c), and (d) are incorrect.
Conclusion
Therefore, it can be concluded that SNPs are substitutions of a single nucleotide at a particular position by another nucleotide. They are passed on from the parent to the offspring and may alter the phenotype of the individual.
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Using Punnett Squares Punnett squares are one good
way to predict the outcome of genetic crosses. Punnett
squares use mathematical probability to help predict the
genotype and phenotype combinations in genetic crosses. The
number of possible alleles from each parent determines the
number of rows and columns in the Punnett square.
Independent Assortment
KEY QUESTION How do alleles segregate when more than
one gene is involved?
Mendel wondered if the segregation of one pair of alleles
affects another pair. For example, does the gene that
determines the shape of a seed affect the gene for seed color?
This type of experiment is known as a two-factor, or dihybrid,
cross because it involves two different genes. Single-gene
crosses are monohybrid crosses.
Visual Reading Tool: Two-Factor Cross: F₂
The Punnett square shows the
results of self-crossing the F,
generation of a cross between
round yellow peas and wrinkled
green peas.
1. List the different genotypes in
the F, generation. What is the…
CHAPTER 12
LESSON
2
Applying Mendel's Principles
READING TOOL Connect to Visuals Before you read, preview Figure 12-7. Try to infer the
purpose of this diagram. As you read, compare your inference to the text. After you read, revise
your statement if needed or write a new one about the diagram's purpose. Take notes on the lines
provided. Then view the Punnett square and answer the questions below regarding the genotypes
and phenotypes.
Inference:
Revision:
Parent 2
rryy
Gametes
F
ry
Parent 1
RRYY
Gametes
RY
RrYy
The F, generation are all RrYy.
1. What is the phenotype of
parent 1?.
2. What is the genotype of parent 1?
3. What is the phenotype of parent 2?
4. What is the genotype of parent 2?
5. What is the phenotype of the F, offspring?.
6. What is the genotype of the F, offspring?.
7. What kind of cross does this figure describe?
144
Chanter 12 Introduction to Genetice
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Chapter 14 Solutions
EBK BIOLOGY
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