TEST BANK
Introduction to Genetic Analysis
Anthony J.F. Griffiths, John Doebley, Catherine Peichel, and David A. Wassarman
12th Edition
,Table of Contents
Chapter 01 The Genetics Revolution 1
Chapter 02 Single Gene Inheritance 6
Chapter 03 Independent Assortment of Genes 26
Chapter 04 Mapping Eukaryote Chromosomes by Recombination 43
Chapter 05 Gene Interaction 63
Chapter 06 The Genetics of Bacteria and Their Viruses 84
Chapter 07 DNA Structure and Replication 104
Chapter 08 RNA Transcription Processing and Decay 117
Chapter 09 Proteins and Their Synthesis 130
Chapter 10 Gene Isolation and Manipulation 141
Chapter 11 Regulation of Gene Expression in Bacteria and Their Viruses 160
Chapter 12 Regulation of Gene Expression in Eukaryotes 175
Chapter 13 The Genetic Control of Development 184
Chapter 14 Genomes and Genomics 192
Chapter 15 DNA Damage Repair and Recombination 197
Chapter 16 The Dynamic Genome Transposable Elements 216
Chapter 17 Large Scale Chromosomal Changes 225
Chapter 18 Population Genetics 243
Chapter 19 The Inheritance of Complex Traits 258
Chapter 20 Evolution of Genes and Traits 270
, Test Bank - Introduction to Genetic Analysis, 12th Edition (Griffiths, 2021)
Chapter 01: The Genetics Revolution
1. The early 1900s was an important period for genetics due to which of the following major events?
a. the rediscovery of Gregor Mendel's scientific findings
b. Watson and Crick solving the structure of DNA
c. Walter Sutton and Theodore Boveri hypothesizing that chromosomes are the hereditary elements
d. the rediscovery of Gregor Mendel's scientific findings and Walter Sutton and Theodore Boveri
hypothesizing that chromosomes are the hereditary elements
e. All of the answer options are correct.
ANSWER: e
2. A sample of normal double-stranded DNA was found to have a guanine content of 18%. What is the expected
proportion of adenine?
a. 9%
b. 32%
c. 36%
d. 68%
e. 82%
ANSWER: b
3. In one strand of DNA, the nucleotide sequence is 5'-ATGC-3'. The complementary sequence in the other
strand must be
a. 3'-ATGC-5'.
b. 3'-TACG-5'.
c. 5'-ATCG-3'.
d. 5'-CGTA-3'.
e. 5'-TACG-3'.
ANSWER: b
4. How many different DNA molecules that are eight-nucleotide-pairs long are theoretically possible?
a. 24
b. 32
c. 64
d. 256
e. 65,536
ANSWER: e
5. Which of the following is/are TRUE about genes?
a. Genes are located on chromosomes.
b. Genes come in variants known as alleles.
c. Genes usually encode protein products.
d. All of the answer options are correct.
e. None of the answer options is correct.
ANSWER: d
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, Test Bank - Introduction to Genetic Analysis, 12th Edition (Griffiths, 2021)
6. Wild cats (Felis silvestris) and common mice (Mus musculus) are diploid. In wild cats, 2n = 38, while in
common mice, 2n = 40. Based on this information, we can conclude that wild-cat cells have
a. less DNA than common-mouse cells.
b. smaller genomes than common-mouse cells.
c. fewer DNA molecules than common-mouse cells.
d. fewer genes than common-mouse cells.
e. fewer sets of chromosomes than common-mouse cells.
ANSWER: c
7. Which of the following is a component of DNA?
a. alanine
b. arginine
c. cysteine
d. guanine
e. tyrosine
ANSWER: d
8. Which of the following is/are TRUE of the DNA structure solved by Watson and Crick?
a. It is a double-helical structure.
b. Sugar–phosphate backbone is always toward the outside of the DNA.
c. There are two hydrogen bonds between A and T and three hydrogen bonds between C and G.
d. There are four types of nitrogenous bases.
e. All of the answer options are correct.
ANSWER: e
9. Which of the following is a CORRECT representation of the central dogma?
a. RNA → DNA → protein
b. protein → DNA → RNA
c. DNA → RNA → protein
d. DNA → protein → DNA
e. None of the answer options is correct.
ANSWER: c
10. You have come across a dog (named Cindy) that does not have a tail. Interestingly, all the puppies produced
by this dog don't have a tail. If the lack of tail is caused by a genetic mutation, where has this mutation most
likely taken place?
a. in Cindy's gametes
b. in the cells that should normally have given rise to Cindy's tail
c. in the cells that should normally have given rise to Cindy's and her puppies' tails
d. in all of Cindy's cells (including her gametes)
e. in a gamete of one of Cindy's parents
ANSWER: a
11. Which of the following features makes a species suitable as a model organism?
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Introduction to Genetic Analysis
Anthony J.F. Griffiths, John Doebley, Catherine Peichel, and David A. Wassarman
12th Edition
,Table of Contents
Chapter 01 The Genetics Revolution 1
Chapter 02 Single Gene Inheritance 6
Chapter 03 Independent Assortment of Genes 26
Chapter 04 Mapping Eukaryote Chromosomes by Recombination 43
Chapter 05 Gene Interaction 63
Chapter 06 The Genetics of Bacteria and Their Viruses 84
Chapter 07 DNA Structure and Replication 104
Chapter 08 RNA Transcription Processing and Decay 117
Chapter 09 Proteins and Their Synthesis 130
Chapter 10 Gene Isolation and Manipulation 141
Chapter 11 Regulation of Gene Expression in Bacteria and Their Viruses 160
Chapter 12 Regulation of Gene Expression in Eukaryotes 175
Chapter 13 The Genetic Control of Development 184
Chapter 14 Genomes and Genomics 192
Chapter 15 DNA Damage Repair and Recombination 197
Chapter 16 The Dynamic Genome Transposable Elements 216
Chapter 17 Large Scale Chromosomal Changes 225
Chapter 18 Population Genetics 243
Chapter 19 The Inheritance of Complex Traits 258
Chapter 20 Evolution of Genes and Traits 270
, Test Bank - Introduction to Genetic Analysis, 12th Edition (Griffiths, 2021)
Chapter 01: The Genetics Revolution
1. The early 1900s was an important period for genetics due to which of the following major events?
a. the rediscovery of Gregor Mendel's scientific findings
b. Watson and Crick solving the structure of DNA
c. Walter Sutton and Theodore Boveri hypothesizing that chromosomes are the hereditary elements
d. the rediscovery of Gregor Mendel's scientific findings and Walter Sutton and Theodore Boveri
hypothesizing that chromosomes are the hereditary elements
e. All of the answer options are correct.
ANSWER: e
2. A sample of normal double-stranded DNA was found to have a guanine content of 18%. What is the expected
proportion of adenine?
a. 9%
b. 32%
c. 36%
d. 68%
e. 82%
ANSWER: b
3. In one strand of DNA, the nucleotide sequence is 5'-ATGC-3'. The complementary sequence in the other
strand must be
a. 3'-ATGC-5'.
b. 3'-TACG-5'.
c. 5'-ATCG-3'.
d. 5'-CGTA-3'.
e. 5'-TACG-3'.
ANSWER: b
4. How many different DNA molecules that are eight-nucleotide-pairs long are theoretically possible?
a. 24
b. 32
c. 64
d. 256
e. 65,536
ANSWER: e
5. Which of the following is/are TRUE about genes?
a. Genes are located on chromosomes.
b. Genes come in variants known as alleles.
c. Genes usually encode protein products.
d. All of the answer options are correct.
e. None of the answer options is correct.
ANSWER: d
1|Page
, Test Bank - Introduction to Genetic Analysis, 12th Edition (Griffiths, 2021)
6. Wild cats (Felis silvestris) and common mice (Mus musculus) are diploid. In wild cats, 2n = 38, while in
common mice, 2n = 40. Based on this information, we can conclude that wild-cat cells have
a. less DNA than common-mouse cells.
b. smaller genomes than common-mouse cells.
c. fewer DNA molecules than common-mouse cells.
d. fewer genes than common-mouse cells.
e. fewer sets of chromosomes than common-mouse cells.
ANSWER: c
7. Which of the following is a component of DNA?
a. alanine
b. arginine
c. cysteine
d. guanine
e. tyrosine
ANSWER: d
8. Which of the following is/are TRUE of the DNA structure solved by Watson and Crick?
a. It is a double-helical structure.
b. Sugar–phosphate backbone is always toward the outside of the DNA.
c. There are two hydrogen bonds between A and T and three hydrogen bonds between C and G.
d. There are four types of nitrogenous bases.
e. All of the answer options are correct.
ANSWER: e
9. Which of the following is a CORRECT representation of the central dogma?
a. RNA → DNA → protein
b. protein → DNA → RNA
c. DNA → RNA → protein
d. DNA → protein → DNA
e. None of the answer options is correct.
ANSWER: c
10. You have come across a dog (named Cindy) that does not have a tail. Interestingly, all the puppies produced
by this dog don't have a tail. If the lack of tail is caused by a genetic mutation, where has this mutation most
likely taken place?
a. in Cindy's gametes
b. in the cells that should normally have given rise to Cindy's tail
c. in the cells that should normally have given rise to Cindy's and her puppies' tails
d. in all of Cindy's cells (including her gametes)
e. in a gamete of one of Cindy's parents
ANSWER: a
11. Which of the following features makes a species suitable as a model organism?
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