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Deck 3: DNA Replication

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Question
Where does the initiator protein bind DNA at the start of replication?

A)At a replication fork
B)At an origin of replication
C)At any AT-rich region
D)At a promoter region
E)At a start codon
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Question
As helicase unwinds the DNA molecule,what keeps the strands apart?

A)DNA polymerase
B)Reverse transcriptase
C)Replication fork
D)Single-strand binding proteins
E)Okazaki fragments
Question
In E.coli,replication begins at which chromosome site?

A)The replication fork
B)ter
C)oriC
D)TBP
E)All of these
Question
In Meselson and Stahl's experiment,what kind of DNA molecules would be found after four replication cycles?

A)Only heavy DNA (15N-15N)
B)Only intermediate DNA (15N-14N)
C)Only light DNA (14N-14N)
D)Both heavy (15N-15N)and light DNA (14N-14N)
E)Both heavy (15N-15N)and intermediate DNA (15N-14N)
Question
Which of the following did Kornberg use to detect DNA synthesis?

A)Radioactively labeled E.coli cells
B)Fluorescently labeled E.coli cells
C)Radioactively labeled deoxynucleotide triphosphates
D)Fluorescently labeled deoxynucleotide triphosphates
E)Nonlabeled deoxynucleotide triphosphates
Question
During replication,the direction of synthesis of new DNA from the leading and lagging strands is

A)5' to 3' only.
B)3' to 5' only.
C)from left to right only.
D)both 5' to 3' and 3' to 5'.
E)different,depending on whether the cell is prokaryotic or eukaryotic.
Question
Which kind of enzyme prevents DNA from tangling up by introducing negative supercoils as the replication fork migrates during replication?

A)Helicase
B)Ligase
C)DNA polymerase I
D)DNA polymerase III
E)Topoisomerase
Question
After removal of the RNA primers and replacement with DNA nucleotides,the single-stranded nick adjacent to Okazaki fragments is filled in through a reaction that involves which enzyme?

A)DNA primase
B)SSB protein
C)RNA polymerase
D)DNA ligase
E)DNA helicase
Question
DNA replication is always

A)discontinuous.
B)bidirectional.
C)conservative.
D)semiconservative.
E)dispersive.
Question
Rolling circle replication of DNA is characterized by the absence of

A)the DNA polymerase.
B)a nick in the DNA template.
C)the RNA primers.
D)the replication bubble.
E)the Okazaki fragments.
Question
After a region of DNA has been replicated,________ removes the RNA primers.

A)DNA polymerase I
B)DNA polymerase III
C)DNA helicase
D)RNA primase
E)DNA ligase
Question
How many replication forks are produced when DNA denatures at an origin?

A)0
B)1
C)2
D)3
E)The number varies
Question
The enzymatic activity of a telomerase is best described as a

A)polymerase.
B)ligase.
C)topoisomerase.
D)reverse transcriptase.
E)exonuclease.
Question
The two most basic steps of DNA replication are

A)primase causes primer to bind the template and ligase copies the template.
B)helicase unwinds the template and DNA polymerase binds the template.
C)leading strand is copied first and lagging strand is copied second.
D)the new strand is denatured and a template is synthesized.
E)the template is denatured and a new strand is synthesized.
Question
Which of the following are necessary for DNA replication in vitro?

A)RNA,helicase,primers,DNA polymerase
B)Okazaki fragments,helicase,DNA polymerase
C)Template DNA,DNA polymerase,four dNTPs,primers,magnesium ions
D)Template DNA,four dNTPs,magnesium ions
E)DNA can't replicate in vitro
Question
Which enzyme replaces RNA primers with DNA after elongation?

A)DNA polymerase I
B)DNA polymerase III
C)RNA polymerase
D)RNA primase
E)DNA ligase
Question
Which enzyme elongates the new DNA strand starting at an RNA primer?

A)DNA polymerase I
B)DNA polymerase III
C)RNA primase
D)DNA ligase
E)RNA polymerase
Question
What is a replication bubble?

A)A complex of replication enzymes on the DNA template strand
B)A DNA sequence that initiates replication
C)A tangle of denatured DNA strands near the replication fork
D)A locally denatured segment of DNA where replication originates
E)A localized site in the nucleus where chromosomes are replicating
Question
The base-pairing error rate remains low during replication because

A)DNA repair mechanisms can fix the mispaired bases.
B)bases that are mispaired can excise themselves.
C)UV light radiation corrects any base mispairs.
D)mispaired bases cause a cell to die before replication is complete.
E)None of these; base-pairing errors are not possible
Question
The diploid set of chromosomes in Drosophila embryos replicates six times faster than the single E.coli chromosome,even though there is about 100 times more DNA in Drosophila than in E.coli and the rate of movement of the replication fork in Drosophila is much slower.How is this so?
Question
A cross is made between yeast cells with different alleles for a set of linked genes: pr+q × p+rq+.The resulting tetrads show a 3:1 ratio for r+ to r instead of the expected 2:2 ratio.Can you explain how this could have occurred?
Question
Why is an AT-rich sequence characteristic of DNA replicators in all organisms?
Question
What are some key differences in replication between E.coli DNA and λ phage DNA?
Question
In eukaryotes,DNA replication begins at a single origin of replication on each chromosome.
Question
DNA polymerase III is very inaccurate at matching bases during replication,with errors in one out of every 100 base pairs.
Question
A new nucleotide is added to a growing strand of DNA at the 3' end.
Question
Why is DNA replication referred to as semiconservative?
Question
In eukaryotic cells,histone proteins are actively synthesized during the S phase of the cell cycle.
Question
What are the differences in replication between leading and lagging strands in terms of continuity and directionality in relation to the replication fork?
Question
Topoisomerase and SSB proteins are important components of the replication process in prokaryotes,but they are not found in eukaryotes.
Question
Describe the method devised by Arthur Kornberg which first successfully achieved DNA synthesis in vitro,including its components and their uses.
Question
At the growing end of a DNA chain,DNA polymerase catalyzes the formation of a disulfide bond between the 3'-OH group of the deoxyribose on the last nucleotide and the 5'-phosphate of the dNTP precursor.
Question
What experiment demonstrated that the 5'-to-3' exonuclease activity of DNA polymerase I was essential for cell viability?
Question
DNA primase is an RNA polymerase.
Question
Mg2+ ions are required for optimal DNA polymerase activity.
Question
Okazaki fragments are made from the lagging strand of the DNA double helix.
Question
Which enzyme activity is associated with the proofreading mechanism of DNA polymerase I?

A)5'-to-3' exonuclease activity
B)3'-to-5' exonuclease activity
C)5'-to-3' polymerase activity
D)Both A and B
E)All of these
Question
Only the leading strand of a DNA molecule serves as a template during replication.
Question
What are the key replication enzymes at the replisome,and how is DNA replication on both leading and lagging strands made efficient through the conformation of the DNA at the replisome in prokaryotes?
Question
When the RNA primers are removed from the 5' ends of eukaryotic chromosomes after replication,DNA polymerase is unable to fill in the gaps.What prevents the chromosomes from getting shorter and shorter with each round of replication?
Question
How were the sequences that compose the replication origins in yeast discovered?
Question
Why do tumor cells in mammals have telomerase activity?
Question
How will DNA replication be affected if DNA polymerase I has a mutation that inactivates 5'-to-3' exonuclease activity?
Question
How did Meselson and Stahl rule out the conservative model of DNA replication using equilibrium density gradient centrifugation?
Question
How do the DNA polymerase repair mechanisms work?
Question
Match between columns
Premises:
Responses:
Replicon
A complex of helicase and primase on the template DNA
Replicon
The distance between the origin and the termination of replication where two replication forks fuse
Replicon
A complex of key replication proteins at the replication fork in E.coli and bacteriophage DNA
Replicon
A complex of proteins and RNA that replicates the ends of eukaryotic chromosomes
Replicon
A DNA sequence that contains the specific region where replication begins
Primosome
A complex of helicase and primase on the template DNA
Primosome
The distance between the origin and the termination of replication where two replication forks fuse
Primosome
A complex of key replication proteins at the replication fork in E.coli and bacteriophage DNA
Primosome
A complex of proteins and RNA that replicates the ends of eukaryotic chromosomes
Primosome
A DNA sequence that contains the specific region where replication begins
Telomerase
A complex of helicase and primase on the template DNA
Telomerase
The distance between the origin and the termination of replication where two replication forks fuse
Telomerase
A complex of key replication proteins at the replication fork in E.coli and bacteriophage DNA
Telomerase
A complex of proteins and RNA that replicates the ends of eukaryotic chromosomes
Telomerase
A DNA sequence that contains the specific region where replication begins
Replicator
A complex of helicase and primase on the template DNA
Replicator
The distance between the origin and the termination of replication where two replication forks fuse
Replicator
A complex of key replication proteins at the replication fork in E.coli and bacteriophage DNA
Replicator
A complex of proteins and RNA that replicates the ends of eukaryotic chromosomes
Replicator
A DNA sequence that contains the specific region where replication begins
Replisome
A complex of helicase and primase on the template DNA
Replisome
The distance between the origin and the termination of replication where two replication forks fuse
Replisome
A complex of key replication proteins at the replication fork in E.coli and bacteriophage DNA
Replisome
A complex of proteins and RNA that replicates the ends of eukaryotic chromosomes
Replisome
A DNA sequence that contains the specific region where replication begins
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Deck 3: DNA Replication
1
Where does the initiator protein bind DNA at the start of replication?

A)At a replication fork
B)At an origin of replication
C)At any AT-rich region
D)At a promoter region
E)At a start codon
B
2
As helicase unwinds the DNA molecule,what keeps the strands apart?

A)DNA polymerase
B)Reverse transcriptase
C)Replication fork
D)Single-strand binding proteins
E)Okazaki fragments
D
3
In E.coli,replication begins at which chromosome site?

A)The replication fork
B)ter
C)oriC
D)TBP
E)All of these
C
4
In Meselson and Stahl's experiment,what kind of DNA molecules would be found after four replication cycles?

A)Only heavy DNA (15N-15N)
B)Only intermediate DNA (15N-14N)
C)Only light DNA (14N-14N)
D)Both heavy (15N-15N)and light DNA (14N-14N)
E)Both heavy (15N-15N)and intermediate DNA (15N-14N)
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Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
5
Which of the following did Kornberg use to detect DNA synthesis?

A)Radioactively labeled E.coli cells
B)Fluorescently labeled E.coli cells
C)Radioactively labeled deoxynucleotide triphosphates
D)Fluorescently labeled deoxynucleotide triphosphates
E)Nonlabeled deoxynucleotide triphosphates
Unlock Deck
Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
6
During replication,the direction of synthesis of new DNA from the leading and lagging strands is

A)5' to 3' only.
B)3' to 5' only.
C)from left to right only.
D)both 5' to 3' and 3' to 5'.
E)different,depending on whether the cell is prokaryotic or eukaryotic.
Unlock Deck
Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
7
Which kind of enzyme prevents DNA from tangling up by introducing negative supercoils as the replication fork migrates during replication?

A)Helicase
B)Ligase
C)DNA polymerase I
D)DNA polymerase III
E)Topoisomerase
Unlock Deck
Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
8
After removal of the RNA primers and replacement with DNA nucleotides,the single-stranded nick adjacent to Okazaki fragments is filled in through a reaction that involves which enzyme?

A)DNA primase
B)SSB protein
C)RNA polymerase
D)DNA ligase
E)DNA helicase
Unlock Deck
Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
9
DNA replication is always

A)discontinuous.
B)bidirectional.
C)conservative.
D)semiconservative.
E)dispersive.
Unlock Deck
Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
10
Rolling circle replication of DNA is characterized by the absence of

A)the DNA polymerase.
B)a nick in the DNA template.
C)the RNA primers.
D)the replication bubble.
E)the Okazaki fragments.
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Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
11
After a region of DNA has been replicated,________ removes the RNA primers.

A)DNA polymerase I
B)DNA polymerase III
C)DNA helicase
D)RNA primase
E)DNA ligase
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k this deck
12
How many replication forks are produced when DNA denatures at an origin?

A)0
B)1
C)2
D)3
E)The number varies
Unlock Deck
Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
13
The enzymatic activity of a telomerase is best described as a

A)polymerase.
B)ligase.
C)topoisomerase.
D)reverse transcriptase.
E)exonuclease.
Unlock Deck
Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
14
The two most basic steps of DNA replication are

A)primase causes primer to bind the template and ligase copies the template.
B)helicase unwinds the template and DNA polymerase binds the template.
C)leading strand is copied first and lagging strand is copied second.
D)the new strand is denatured and a template is synthesized.
E)the template is denatured and a new strand is synthesized.
Unlock Deck
Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
15
Which of the following are necessary for DNA replication in vitro?

A)RNA,helicase,primers,DNA polymerase
B)Okazaki fragments,helicase,DNA polymerase
C)Template DNA,DNA polymerase,four dNTPs,primers,magnesium ions
D)Template DNA,four dNTPs,magnesium ions
E)DNA can't replicate in vitro
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16
Which enzyme replaces RNA primers with DNA after elongation?

A)DNA polymerase I
B)DNA polymerase III
C)RNA polymerase
D)RNA primase
E)DNA ligase
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Unlock Deck
k this deck
17
Which enzyme elongates the new DNA strand starting at an RNA primer?

A)DNA polymerase I
B)DNA polymerase III
C)RNA primase
D)DNA ligase
E)RNA polymerase
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Unlock Deck
k this deck
18
What is a replication bubble?

A)A complex of replication enzymes on the DNA template strand
B)A DNA sequence that initiates replication
C)A tangle of denatured DNA strands near the replication fork
D)A locally denatured segment of DNA where replication originates
E)A localized site in the nucleus where chromosomes are replicating
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Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
19
The base-pairing error rate remains low during replication because

A)DNA repair mechanisms can fix the mispaired bases.
B)bases that are mispaired can excise themselves.
C)UV light radiation corrects any base mispairs.
D)mispaired bases cause a cell to die before replication is complete.
E)None of these; base-pairing errors are not possible
Unlock Deck
Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
20
The diploid set of chromosomes in Drosophila embryos replicates six times faster than the single E.coli chromosome,even though there is about 100 times more DNA in Drosophila than in E.coli and the rate of movement of the replication fork in Drosophila is much slower.How is this so?
Unlock Deck
Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
21
A cross is made between yeast cells with different alleles for a set of linked genes: pr+q × p+rq+.The resulting tetrads show a 3:1 ratio for r+ to r instead of the expected 2:2 ratio.Can you explain how this could have occurred?
Unlock Deck
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Unlock Deck
k this deck
22
Why is an AT-rich sequence characteristic of DNA replicators in all organisms?
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k this deck
23
What are some key differences in replication between E.coli DNA and λ phage DNA?
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k this deck
24
In eukaryotes,DNA replication begins at a single origin of replication on each chromosome.
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k this deck
25
DNA polymerase III is very inaccurate at matching bases during replication,with errors in one out of every 100 base pairs.
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Unlock Deck
k this deck
26
A new nucleotide is added to a growing strand of DNA at the 3' end.
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Unlock Deck
k this deck
27
Why is DNA replication referred to as semiconservative?
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k this deck
28
In eukaryotic cells,histone proteins are actively synthesized during the S phase of the cell cycle.
Unlock Deck
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Unlock Deck
k this deck
29
What are the differences in replication between leading and lagging strands in terms of continuity and directionality in relation to the replication fork?
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k this deck
30
Topoisomerase and SSB proteins are important components of the replication process in prokaryotes,but they are not found in eukaryotes.
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k this deck
31
Describe the method devised by Arthur Kornberg which first successfully achieved DNA synthesis in vitro,including its components and their uses.
Unlock Deck
Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
32
At the growing end of a DNA chain,DNA polymerase catalyzes the formation of a disulfide bond between the 3'-OH group of the deoxyribose on the last nucleotide and the 5'-phosphate of the dNTP precursor.
Unlock Deck
Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
33
What experiment demonstrated that the 5'-to-3' exonuclease activity of DNA polymerase I was essential for cell viability?
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Unlock Deck
k this deck
34
DNA primase is an RNA polymerase.
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k this deck
35
Mg2+ ions are required for optimal DNA polymerase activity.
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k this deck
36
Okazaki fragments are made from the lagging strand of the DNA double helix.
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k this deck
37
Which enzyme activity is associated with the proofreading mechanism of DNA polymerase I?

A)5'-to-3' exonuclease activity
B)3'-to-5' exonuclease activity
C)5'-to-3' polymerase activity
D)Both A and B
E)All of these
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k this deck
38
Only the leading strand of a DNA molecule serves as a template during replication.
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k this deck
39
What are the key replication enzymes at the replisome,and how is DNA replication on both leading and lagging strands made efficient through the conformation of the DNA at the replisome in prokaryotes?
Unlock Deck
Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
40
When the RNA primers are removed from the 5' ends of eukaryotic chromosomes after replication,DNA polymerase is unable to fill in the gaps.What prevents the chromosomes from getting shorter and shorter with each round of replication?
Unlock Deck
Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
41
How were the sequences that compose the replication origins in yeast discovered?
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Unlock Deck
k this deck
42
Why do tumor cells in mammals have telomerase activity?
Unlock Deck
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k this deck
43
How will DNA replication be affected if DNA polymerase I has a mutation that inactivates 5'-to-3' exonuclease activity?
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Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
44
How did Meselson and Stahl rule out the conservative model of DNA replication using equilibrium density gradient centrifugation?
Unlock Deck
Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
45
How do the DNA polymerase repair mechanisms work?
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46
Match between columns
Premises:
Responses:
Replicon
A complex of helicase and primase on the template DNA
Replicon
The distance between the origin and the termination of replication where two replication forks fuse
Replicon
A complex of key replication proteins at the replication fork in E.coli and bacteriophage DNA
Replicon
A complex of proteins and RNA that replicates the ends of eukaryotic chromosomes
Replicon
A DNA sequence that contains the specific region where replication begins
Primosome
A complex of helicase and primase on the template DNA
Primosome
The distance between the origin and the termination of replication where two replication forks fuse
Primosome
A complex of key replication proteins at the replication fork in E.coli and bacteriophage DNA
Primosome
A complex of proteins and RNA that replicates the ends of eukaryotic chromosomes
Primosome
A DNA sequence that contains the specific region where replication begins
Telomerase
A complex of helicase and primase on the template DNA
Telomerase
The distance between the origin and the termination of replication where two replication forks fuse
Telomerase
A complex of key replication proteins at the replication fork in E.coli and bacteriophage DNA
Telomerase
A complex of proteins and RNA that replicates the ends of eukaryotic chromosomes
Telomerase
A DNA sequence that contains the specific region where replication begins
Replicator
A complex of helicase and primase on the template DNA
Replicator
The distance between the origin and the termination of replication where two replication forks fuse
Replicator
A complex of key replication proteins at the replication fork in E.coli and bacteriophage DNA
Replicator
A complex of proteins and RNA that replicates the ends of eukaryotic chromosomes
Replicator
A DNA sequence that contains the specific region where replication begins
Replisome
A complex of helicase and primase on the template DNA
Replisome
The distance between the origin and the termination of replication where two replication forks fuse
Replisome
A complex of key replication proteins at the replication fork in E.coli and bacteriophage DNA
Replisome
A complex of proteins and RNA that replicates the ends of eukaryotic chromosomes
Replisome
A DNA sequence that contains the specific region where replication begins
Unlock Deck
Unlock for access to all 46 flashcards in this deck.
Unlock Deck
k this deck
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Unlock Deck
Unlock for access to all 46 flashcards in this deck.
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