A) Replication with a high error rate is likely to kill the cell.
B) Fixing replication errors provides a cellular role for mismatch repair enzymes.
C) Rare errors are the source of variation.
D) Most mutations have no effect on phenotype.
F) B) and C)
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A) Additional proofreading will occur.
B) No replication fork will be formed.
C) Replication will occur via RNA polymerase alone.
D) Replication will require a DNA template from another source.
F) A) and B)
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A) The leading strand is synthesized in the 3'→ 5' direction in a discontinuous fashion, while the lagging strand is synthesized in the 5'→ 3' direction in a continuous fashion.
B) The leading strand is synthesized continuously in the 5'→ 3' direction, while the lagging strand is synthesized discontinuously in the 5'→ 3' direction.
C) The leading strand requires an RNA primer, whereas the lagging strand does not.
D) There are different DNA polymerases involved in elongation of the leading strand and the lagging strand.
F) None of the above
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A) A
B) B
C) C
D) D
F) A) and C)
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A) It allows variable width of the double helix.
B) It permits complementary base pairing.
C) It determines the tertiary structure of a DNA molecule.
D) It determines the type of protein produced.
F) All of the above
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A) histones
B) ribosomes
C) polymerase molecules
D) a thymine dimer
F) A) and D)
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A) 8%
B) 16%
C) 42%
D) 58%
F) A) and C)
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A) Heterochromatin is composed of DNA, whereas euchromatin is made of DNA and RNA.
B) Both heterochromatin and euchromatin are found in the cytoplasm.
C) Heterochromatin is highly condensed, whereas euchromatin is less compact.
D) Euchromatin is not transcribed, whereas heterochromatin is transcribed.
F) A) and B)
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A) DNA polymerase begins adding nucleotides at the 3' end of the template.
B) Single stranded binding protein stabilizes DNA by blocking access to the 5' end.
C) Replication must progress toward the replication fork.
D) Dehydration reactions require a free -OH group.
F) A) and B)
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A) leading strands and Okazaki fragments
B) lagging strands and Okazaki fragments
C) Okazaki fragments and Origin of replication
D) leading strands and fragments generated due to replication errors
F) A) and D)
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A) nuclease, DNA polymerase, DNA ligase
B) telomerase, primase, DNA polymerase
C) telomerase, helicase, single-strand binding protein
D) DNA ligase, replication fork proteins, adenylyl cyclase
F) C) and D)
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A) It adds a 5' cap structure to the chromosome ends that resists degradation by nucleases.
B) It causes specific double-strand DNA breaks that result in blunt ends on both strands.
C) It catalyzes the lengthening of telomeres, compensating for the shortening that could occur during replication without telomerase activity.
D) It adds numerous GC pairs, which resist hydrolysis and maintain chromosome integrity.
F) A) and C)
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A) relieving strain in the DNA ahead of the replication fork caused by the untwisting of the double helix
B) detecting the shape of the template base's surface to help recruit the appropriate nucleotide to pair
C) reattaching the hydrogen bonds between the base pairs in the double helix
D) building RNA primers using the parental DNA strand as a template
F) None of the above
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A) a high probability of somatic cells becoming cancerous
B) an inability to produce Okazaki fragments
C) an inability to repair thymine dimers
D) a reduction in chromosome length in gametes
F) None of the above
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A) The leading strand is synthesized in the same direction as the movement of the replication fork, and the lagging strand is synthesized in the opposite direction.
B) The leading strand is synthesized by adding nucleotides to the 3' end of the growing strand, and the lagging strand is synthesized by adding nucleotides to the 5' end.
C) The lagging strand is synthesized continuously, whereas the leading strand is synthesized in short fragments that are ultimately stitched together.
D) The leading strand is synthesized at twice the rate of the lagging strand.
F) A) and C)
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A) the cell can be transformed into a cancerous cell
B) RNA may be used instead of DNA as inheritance material
C) DNA replication will proceed more quickly
D) DNA replication will continue by a new mechanism
F) B) and C)
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A) the structures that hold two sister chromatids together
B) enzymes that elongate the DNA strand during replication
C) the sites of origin of DNA replication
D) the ends of linear chromosomes
F) A) and B)
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A) 5′ C, A, G, C, A, G, A 3′
B) 3′ T, C, T, G, C, T, G 5′
C) 5′ A, G, A, C, G, A, C 3′
D) 3′ G, T, C, G, T, C, T 5′
F) B) and D)
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A) Primase
B) DNA pol I
C) DNA pol III
D) DNA ligase
F) None of the above
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A) The single-strand binding proteins were malfunctioning during DNA replication.
B) There were one or more base pair mismatches in the RNA primer.
C) The proofreading mechanism of DNA polymerase was not working properly.
D) The DNA polymerase was unable to add bases to the growing nucleic acid chain.
F) None of the above
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