front 1 In 1928, Griffith found that injecting which strains of Pneumococcus caused the mouse to die? A) living type RII B) heat-killed type SIII C) heat-killed type RII D) heat-killed type SIII and living type RII E) heat-killed type RII and living type RII | back 1 D) heat-killed type SIII and living type RII |
front 2 The process by which Pneumococcus transfers DNA between living type RII and heat-killed type SIII cells is known as A) transformation. B) replication. C) transduction. D) ligation. E) conjugation. | back 2 A) transformation. |
front 3 Avery, Macleod, and McCarty expanded on Griffith's experiment to prove that DNA is the hereditary molecule required for transformation. What treatment of the heat-killed SIII bacteria extract resulted in the mouse living? A) destroying type SIII lipids and polysaccharides B) destroying type SIII DNA with DNase C) destroying type SIII RNA with RNase D) destroying type SIII proteins with protease E) the control group, in which all components are intact | back 3 B) destroying type SIII DNA with DNase |
front 4 In the Hershey-Chase experiment, what was labeled by growing bacteriophage in 32P-containing medium? A) ghost phage particles B) proteins C) lipids D) DNA E) RNA | back 4 D) DNA |
front 5 Which of the following are classified as pyrimidines? A) adenine and thymine B) guanine and cytosine C) adenine and guanine D) thymine and cytosine E) adenine and uracil | back 5 D) thymine and cytosine |
front 6 What type of bond is formed between the hydroxyl group of one nucleotide and the phosphate group of an adjacent nucleotide, forming the sugar-phosphate backbone of DNA? A) glycosidic bond B) phosphodiester bond C) ester linkage D) hydrogen bond E) ionic bond | back 6 B) phosphodiester bond |
front 7 What is the difference between a nucleotide and a nucleoside? A) Nucleotides are found in DNA, while nucleosides are found in RNA. B) Nucleotides are involved in eukaryotic DNA replication, while nucleosides are used in bacterial DNA replication. C) Nucleosides contain only deoxyribose sugars. D) A nucleoside with a phosphate ester linked to the sugar is a nucleotide. E) Nucleosides are purines, while nucleotides are pyrimidines. | back 7 D) A nucleoside with a phosphate ester linked to the sugar is a nucleotide. |
front 8 What types of bonds are formed between complementary DNA bases? A) glycosidic bonds B) phosphodiester bonds C) covalent bonds D) hydrogen bonds E) ionic bonds | back 8 D) hydrogen bonds |
front 9 If complementary DNA strands were arranged in a parallel manner, what would you expect to see? A) Complementary nucleotides would be attracted to each other, forming ionic bonds that would make the helix stable but not uniform in width. B) Charges of complementary nucleotides would repel and no hydrogen bonds would form. C) Complementary nucleotides would line up properly; but fewer hydrogen bonds would form, so the strands could be more easily pulled apart. D) Purines would pair with both purines and pyrimidines due to the closer alignment of the parallel strands. E) There would be no discernable difference between DNA strands aligned in a parallel versus antiparallel manner. | back 9 B) Charges of complementary nucleotides would repel and no hydrogen bonds would form. |
front 10 What is one difference between DNA replication in bacteria versus eukaryotes? A) Eukaryotic chromosomes are replicated bidirectionally, while bacterial chromosomes are replicated in one direction. B) Eukaryotic chromosomes have many origins of replication and replicate bidirectionally, while bacteria have only one origin of replication and replicate unidirectionally. C) Bacterial chromosomes are replicated bidirectionally, while eukaryotic chromosomes are replicated in one direction. D) Eukaryotic chromosomes have many origins of replication, while bacteria have only one origin of replication. E) The process is identical in bacterial and eukaryotic DNA replication. | back 10 D) Eukaryotic chromosomes have many origins of replication, while bacteria have only one origin of replication. |
front 11 During DNA replication in E. coli, what is the role of DnaA? A) DnaA is a region of DNA recognized by the replisome where replication is initiated. B) DnaA bends DNA, hydrolyzing the hydrogen bonds in the 13-mer region of oriC and creating an open complex. C) DnaA is a helicase that uses ATP to hydrolyze hydrogen bonds and separate DNA strands. D) DnaA carries the helicase protein to the open region of DNA where hydrolysis and strand separation will occur. E) DnaA prevents reannealing of the separated strands so replication can proceed. | back 11 B) DnaA bends DNA, hydrolyzing the hydrogen bonds in the 13-mer region of oriC and creating an open complex. |
front 12 If SSB is not present during DNA replication, what would you expect to see? A) The replisome complex would not assemble on the oriC region. B) The DNA cannot bend, so hydrogen bonds in the 13-mer region of oriC remain intact. C) Helicase activity is inhibited, so DNA strands cannot be separated. D) SSB carries the helicase protein to the open region of DNA, so hydrolysis and strand separation will not occur. E) SSB prevents reannealing of the separated strands, so strands would quickly reanneal and DNA replication cannot proceed. | back 12 E) SSB prevents reannealing of the separated strands, so strands would quickly reanneal and DNA replication cannot proceed. |
front 13 DNA helicase inhibitors are well studied as potential drug targets. What would you expect to see if DNA helicase activity is inhibited? A) The replisome complex would not assemble on the oriC region. B) The DNA cannot bend, so hydrogen bonds in the 13-mer region of oriC remain intact. C) Helicase catalyzes ATP hydrolysis and DNA strands separation, so the helix cannot be unwound and strands will not separate. D) Helicase carries the SSB protein to the open region of DNA, so hydrolysis and strand separation will not occur. E) Helicase prevents reannealing of the separated strands, so strands would quickly reanneal and DNA replication cannot proceed. | back 13 C) Helicase catalyzes ATP hydrolysis and DNA strands separation, so the helix cannot be unwound and strands will not separate. |
front 14 What is required for DNA polymerase to initiate DNA strand synthesis? A) a short DNA primer synthesized by the enzyme primase B) a short RNA primer synthesized by the enzyme primase C) ATP and a short DNA primer synthesized by the enzyme topoisomerase D) ATP and a short RNA primer synthesized by the enzyme topoisomerase E) DNA polymerase initiates DNA strand synthesis without requiring any additional enzymes. | back 14 B) a short RNA primer synthesized by the enzyme primase |
front 15 What enzyme(s) is/are responsible for removal of RNA primers and joining of Okazaki fragments? A) DNA polymerase I B) DNA polymerase III C) DNA ligase D) DNA polymerase I and DNA ligase E) DNA polymerase III and DNA ligase | back 15 D) DNA polymerase I and DNA ligase |
front 16 DNA polymerase III is functional, but it seems to exhibit extremely low processivity. This is likely a defect in what structure? A) the τ proteins B) the pol III holoenzyme C) the clamp loader D) the topoisomerase enzyme E) the sliding clamp | back 16 E) the sliding clamp |
front 17 The extraordinary accuracy of the DNA polymerase III enzyme lies in its ability to "proofread" newly synthesized DNA, a function of the enzyme's A) 3′-to-5′ exonuclease activity. B) 5′-to-3′ exonuclease activity. C) 3′-to-5′ polymerase activity. D) 5′-to-3′ polymerase activity. E) 3′-to-5′ helicase activity. | back 17 A) 3′-to-5′ exonuclease activity. |
front 18 Which of these components would you use to distinguish whether a sample has been prepared for a Sanger sequencing reaction or for a polymerase chain reaction? A) DNA template B) DNA polymerase C) dNTPs D) ddNTPs E) DNA primer | back 18 D) ddNTPs |
front 19 Which functional groups have been altered in a ddNTP compared to a dNTP? A) The ddNTPs have a 2′ OH and a 3′ H, while dNTPs have a 2′ H and a 3′ OH. B) The ddNTPs have a 2′ H and a 3′ H, while dNTPs have a 2′ H and a 3′ OH. C) The ddNTPs have a 2′ OH and a 3′ OH, while dNTPs have a 2′ H and a 3′ H. D) The ddNTPs have a 2′ H and a 3′ H, while dNTPs have a 2′ OH and a 3′ OH. E) The ddNTPs have a 2′ H and a 3′ OH, while dNTPs have a 2′ H and a 3′ H. | back 19 B) The ddNTPs have a 2′ H and a 3′ H, while dNTPs have a 2′ H and a 3′ OH. |
front 20 Based on Griffith's results, what would you expect if you injected both heat-killed type RII and living type SIII? | back 20 Answer: The mouse lives. |
front 21 What are the three parts of a DNA nucleotide? | back 21 Answer: deoxyribose, base, phosphate |
front 22 What is the molecular diameter of the DNA helix (in angstroms)? | back 22 Answer: 20 Ǻ |
front 23 The regions where DNA-binding proteins can make direct contact with exposed nucleotides are known as what? | back 23 Answer: major and minor grooves |
front 24 The major and minor grooves of DNA are features of the helix that can be attributed to this process, which involves tight packing of DNA bases in a duplex. | back 24 Answer: base stacking |
front 25 DNA polymerase catalyzes DNA strand elongation by removing what from the dNTPs? | back 25 Answer: two phosphates (pyrophosphate group) |
front 26 What type of experimental technique did Huberman and Riggs use to produce the first evidence of bidirectional replication in bacteria? | back 26 Answer: pulse-chase labeling |
front 27 What is the purpose of the DNA sequences found at the origins of replication? | back 27 Answer: binding replication enzymes |
front 28 What well-characterized sequence in E. coli is 245 bp, AT-rich, and divided into three 13-mers and four 9-mers? | back 28 Answer: oriC |
front 29 In E. coli, which protein uses ATP to hydrolyze hydrogen bonds holding complementary strands together? | back 29 Answer: DnaB |
front 30 During DNA replication in E. coli, how does the cell prevent the DNA strands from their natural tendency to seek maximum stability and reanneal? | back 30 Answer: SSB prevents reannealing. |
front 31 What is the overall direction of DNA strand elongation? | back 31 Answer: 5′ to 3′ |
front 32 What structure in E. coli delivers primase and accessory proteins to the oriC site to synthesize the primer needed for DNA replication? | back 32 Answer: primosome |
front 33 During DNA replication, the continuously elongated daughter strand is referred to as what? | back 33 Answer: leading strand |
front 34 What did Okazaki's discovery of the short segments of DNA reveal about DNA replication on the lagging strand? | back 34 Answer: It is discontinuous |
front 35 Eukaryotic polymerases interact with which protein that acts as the sliding clamp in eukaryotic DNA replication? | back 35 Answer: PCNA |
front 36 Which enzyme, a combination of several proteins and a molecule of tRNA, acts as the template for the telomere repeat DNA sequence? | back 36 Answer: telomerase |
front 37 How might you choose a region of DNA for a PCR primer so as to increase the temperature necessary for primer annealing (to minimize nonspecific PCR products)? | back 37 Answer: higher GC concentrations |
front 38 What characteristic of the polymerase isolated from Thermus aquaticus makes it unique and highly useful for maintaining the enzyme efficiency during PCR? | back 38 Answer: heat stability |
front 39 What are the three steps of each PCR cycle? | back 39 Answer: denaturation, annealing, extension |
front 40 The large, complex aggregation of proteins and enzymes that assembles at the replication fork is known as the ________. | back 40 Answer: replisome |
front 41 Comparison of conserved sequences among related species usually leads to the identification of ________, which illustrate the nucleotides most often found at each position of DNA in the conserved region. | back 41 Answer: consensus sequences |
front 42 DNA polymerase requires a primer sequence to provide a ________ functional group to which the new DNA nucleotide can be added. | back 42 Answer: 3′ OH |
front 43 ________ is the term for multiprotein complexes in which a core enzyme is associated with additional protein components leading to its function. | back 43 Answer: Holoenzyme |
front 44 ________ must be added to a PCR to direct the polymerase where to begin synthesis. | back 44 Answer: PCR primers |