test 1 questions

Question 1

1) The difference between a nucleoside and a nucleotide is:
A) the presence of uracil.
B) a phosphate group.
C) a phosphodiester bond.
D) a 2' —H group.
E) methylated cytosine.

Answer 1

B

Question 2

2) Which statement is CORRECT?
A) Both phosphodiester and glycosidic bonds in RNA and DNA are hydrolyzed in acid solution.
B) Both RNA and DNA are hydrolyzed in mild alkaline solution.
C) DNA is more unstable when dehydrated than when in solution
D) RNA is not hydrolyzed in mild alkaline solution.
E) Both A and B

Answer 2

A

Question 3

3) Nucleotides are all weak acids.

Answer 3

FALSE

Question 4

4) The nucleotide sequence of a polynucleotide chain is called the ________ structure.

Answer 4

primary

Question 5

5) Which of the following does NOT describe the secondary structure of DNA as proposed by Watson and Crick?
A) The two strands of the double helix are stabilized by hydrogen-bonding between A and T and between G and C.
B) The two strands of the double helix run in opposite directions.
C) The distance between the 1’ carbons of the deoxyribose units is the same between the A-T and the G-C base pair.
D) The phosphate deoxyribose backbones of the helix are on the outside.
E) The base pairs are stacked on one other with their planes at 180o to the helix axis.

Answer 5

E

Question 6

6) An important observation that assisted in the elucidation of the secondary structure of DNA was that the mole percent adenine was almost always the same as the mole percent of thymine. (T/F)

Answer 6

TRUE

Question 7

7) The mode of replication of DNA is BEST described as ________.

Answer 7

semiconservative

Question 8

8) Which of the following statements about nucleic acid secondary structure is FALSE?
A) The width of the major and minor grooves is more equal in the A-from of DNA than in the B-form.
B) Triple helices and G-quadruplexes can form at specific sequences in DNA.
C) DNA can form cruciform structures at palindromic sequences.
D) The A-form of DNA exists at high humidity, whereas the B-form exists at low humidity.
E) Some nucleic acids can form a zig-zag structure or Z form.

Answer 8

D

Question 9

9) Supercoiled DNA has a lower mobility than relaxed DNA with the same number of base pairs when subjected to gel electrophoresis.

Answer 9

Answer: FALSE

Question 10

10) Single-stranded RNA molecules can have extensive regions of intramolecular base pairing leading to defined secondary and tertiary structure.

Answer 10

Answer: TRUE

Question 11

11) DNA in vivo is normally ________ supercoiled.

Answer 11

Answer: negatively

Question 12

12) Calculate the superhelix density of a circular DNA molecule with 210 base pairs and two negative supercoils, assuming that there are 10.5 bp per turn of the double helix.

Answer 12

Answer: -0.1

Question 13

13) Calculate the linking number in vivo for a plasmid that is 4200 bp in size if there is normally 1 negative supercoil in every 20 base pairs of a circular DNA. Assume there are 10.5 bp per turn of the double helix.

Answer 13

Answer: 190

Question 14

14) Nucleic acids absorb light strongly in the ultraviolet region of the spectrum because they have ________ double-bond systems.

Answer 14

Answer: conjugated

Question 15

15) The melting temperature of DNA ________ with increasing G plus C content.

Answer 15

Answer: increases

Question 16

16) Expression of genetic information involves first ________ then ________.

Answer 16

Answer: transcription, translation

Question 17

17) Restriction endonucleases are useful in gene cloning because:
A) they can cut DNA at specific sequences.
B) they can join DNA molecules that have been cut at specific sequences.
C) they all make cohesive ends when they cut DNA.
D) they all make 5’ phosphate extensions and recessed 3’ OH groups that can be rejoined by DNA ligase.
E) they can both cut and rejoin DNA molecules.

Answer 17

Answer: A

Question 18

18) Viral genomes cannot be used as vectors for making recombinant DNA molecules.

Answer 18

Answer: FALSE

Question 19

19) Dideoxynucleotide sequence analysis is a template-directed method that makes use of chain terminators that stop DNA synthesis because they lack a 2’OH group.

Answer 19

Answer: FALSE

Question 20

20) Which of the following is a feature of X-diffraction?
A) Radiation passing through a structure will be scattered only if the structure contains repeating units.
B) Scattered radiation from repeating units in a structure will be weakened by interference.
C) Scattered radiation from repeating units in a structure will be strengthened by interference.
D) Short spacings in repeating structures will result in short spacings in diffraction patterns.
E) The wavelength of radiation used to generate diffraction patterns must be slightly longer than the spacings between the repeating units of the structure.

Answer 20

Answer: C

Question 21

1) A bacterial genome is packaged into a nucleoid, which is organized mainly by:
A) interactions with protein.
B) being bound within a nuclear membrane.
C) supercoiling of the DNA.
D) having many attachment points to the cell membrane.
E) being wrapped around histone proteins.

Answer 21

Answer: C

Question 22

2) Approximately how much of the human genome has a biological function?
A) 90%
B) 80%
C) 60%
D) 50%
E) 40%

Answer 22

Answer: B

Question 23

3) Heterochromatin is transcriptionally active.

Answer 23

Answer: FALSE

Question 24

4) The human genome contains one gene for every protein that can be translated from the mRNA.

Answer 24

Answer: FALSE

Question 25

5) The linker histone H1 has a high proportion of the following amino acid residue.
A) Leucine
B) Lysine
C) Isoleucine
D) Asparagine
E) Histidine

Answer 25

Answer: B

Question 26

6) In eukaryotic cells, chromosomes are organized into a DNA-protein complex known as chromatin.

Answer 26

Answer: TRUE

Question 27

7) The post-translational modifications of histone proteins have functional roles in gene expression.

Answer 27

Answer: TRUE

Question 28

8) The repeating unit of chromatin is known as the ________.

Answer 28

Answer: nucleosome

Question 29

9) Nucleosomal core particles contain ________ bp of DNA wrapped around a histone octamer.

Answer 29

Answer: 146

Question 30

10) If 10.4 bp of DNA represents a linear length of 3.4 nm, how long (in meters) would one copy of the human genome (~3 × 109 bp) be if all of the DNA was placed end to end in a linear fashion?

Answer 30

Answer: 0.98 m

Question 31

11) Restriction-modification systems:
A) exist in all organisms as a protection against foreign DNA invasion.
B) include a site-specific exonuclease to degrade foreign DNA.
C) modify DNA by acetylation.
D) include a DNA methylase and an endonuclease.
E) include three types of endonuclease all of which cleave within a specific DNA target sequence.

Answer 31

Answer: D

Question 32

12) The ________ activity associated with restriction-modification systems is able to flip out the target base from the DNA.

Answer 32

Answer: DNA methylase

Question 33

13) Random variations among human genome sequences can result in gain or loss of ________ endonuclease cleavage sites.

Answer 33

Answer: restriction

Question 34

14) Calculate the number of times a recognition site for a 4 bp restriction endonuclease is likely to occur in the diploid human genome

Answer 34

Answer: 2.4 × 10 7

Question 35

15) Southern blotting and hybridization is a technique that uses specific probes to analyze:
A) restriction fragment length polymorphisms.
B) complex mixtures of any nucleic acid.
C) centromeres or telomeres on condensed chromosomes.
D) DNA fingerprints.
E) both A and D.

Answer 35

Answer: E

Question 36

16) If a PCR reaction starts out with 20 double-stranded DNA targets, how many specific PCR products could be formed after 35 cycles of denaturation, annealing and extension.

Answer 36

Answer: 6.87 × 1011

Question 37

1) Both type I or type II topoisomerases carry out their catalytic activity via a covalent phosphodiester intermediate between a phosphate group on the DNA and a tyrosine hydroxyl group on the enzyme.

Answer 37

Answer: TRUE

Question 38

2) DNA gyrase is able to relax supercoils as well as introduce negative supercoils in DNA.

Answer 38

Answer: TRUE

Question 39

3) The DNA polymerase reaction is a nucleophilic substitution facilitated by:
A) the 3’OH group being a weak nucleophile.
B) the 3’OH group being a strong nucleophile.
C) the pyrophosphate being a good leaving group.
D) the reaction being irreversible.
E) none of the above.

Answer 39

Answer: C

Question 40

4) Which of the following statements about E. coli DNA polymerase I is FALSE?
A) It can copy a circular DNA template but cannot join the ends.
B) It can extend a gapped duplex from a 3’OH group and displace a preexisting 5’ end.
C) The 3’ exonuclease site is some distance from the polymerase active site.
D) It has 3’ exonuclease activity that resides in a small N-terminal fragment that can be cleaved off by limited proteolysis.
E) It has 5’ exonuclease activity that resides in a small N-terminal fragment that can be cleaved off by limited proteolysis.

Answer 40

Answer: D

Question 41

5) Which of the following statements about E. coli DNA replication is INCORRECT?
A) The β subunit of DNA polymerase III is the sliding clamp essential for processivity.
B) The clamp-loading complex uses exchange between ADP and ATP to eject the clamp loader and close the clamp.
C) Single-stranded DNA-binding protein promotes denaturation of DNA by lowering the melting temperature.
D) Helicases are multimeric proteins that bind preferentially to one strand and rely on ATP-hydrolysis to unwind the duplex.
E) Topoisomerases are responsible for relieving torsional stress ahead of the replication fork generated by unwinding the duplex.

Answer 41

Answer: B

Question 42

6) The specificity of DNA polymerase activity is determined by the shapes of the substrate molecules as well as their ________ capacity.

Answer 42

Answer: hydrogen-bonding

Question 43

7) Evidence supporting E.coli DNA polymerase III having the major role in nucleotide incorporation during replication includes:
A) DNA polymerase III has a high Vmax.
B) There are ten or fewer molecules of enzyme per cell.
C) Replication is blocked at high temperatures in temperature sensitive mutants with a thermolabile form of DNA polymerase III.
D) A point mutation can inactivate DNA pol III and inhibit replication.
E) All of the above.

Answer 43

Answer: E

Question 44

8) E. coli DNA polymerase III makes extensive contacts with the ________ in duplex DNA.

Answer 44

Answer: minor groove

Question 45

9) A null mutant in the ________ activity of DNA polymerase I will be defective in DNA replication because it will be unable to carry out primer removal.

Answer 45

Answer: 5’-exonuclease OR 5’-exonucleolytic

Question 46

10) Okazaki fragments are initiated with ________ primers by a primase enzyme.

Answer 46

Answer: RNA, or ribonucleic acid

Question 47

11) DNA ligase can join Okazaki fragments after activation by ________ of a lysine residue in the active site.

Answer 47

Answer: adenylation

Question 48

12) E. coli DNA polymerase I in vitro requires a template and primer, which must always be separate nucleic acids.

Answer 48

Answer: FALSE

Question 49

13) The individual proteins of the E. coli replisome complex dissociate and reassociate in a dynamic manner.

Answer 49

Answer: TRUE

Question 50

14) The replicative E. coli DNA polymerase is a symmetrical dimer, with each part of the dimer being responsible for replicating one strand of the DNA duplex.

Answer 50

Answer: FALSE

Question 51

15) Which of the following is NOT a requirement of E. coli DNA ligase?
A) A nick in the DNA strand must have a 3’ OH group.
B) A nick in the DNA strand must have a 5’ phosphate group.
C) The nucleotides being linked must be adjacent in the duplex structure.
D) The nucleotides being linked must be properly based-paired.
E) ATP

Answer 51

Answer: E

Question 52

16) Which of the following statement about eukaryotic DNA replication is INCORRECT?
A) Only one DNA polymerase is required to propagate a replication fork.
B) The same polymerase in humans is involved in proofreading and primer removal as well as lagging strand elongation.
C) The main DNA polymerase that elongates the leading strand has an intrinsic processivity factor.
D) Eukaryotes require two enzymes to remove RNA primers.
E) Chromatin must be dismantled in advance of replication forks and reassembled on daughter strands after the fork has passed through.

Answer 52

Answer: A

Question 53

17) The initiation of DNA replication in E. coli can occur anywhere on the genome that has repeat sequence elements and requires the interaction of DnaA proteins that results in stretching and bending of DNA causing tension that leads to local unwinding.

Answer 53

Answer: FALSE

Question 54

18) Eukaryotes solve the problem of replicating the ends of their linear chromosomes by:
A) terminal redundancy whereby each end of the chromosome is duplicated allowing recombination.
B) using a protein as a primer.
C) by covalently linking the two strands at each end of the linear chromosome to form a circle.
D) enzyme activity that uses an RNA template and reverse transcription in a series of repeat cycles.
E) all of the above.

Answer 54

Answer: D

Question 55

19) Replication of linear genomes is problematic because primer removal at the ________ leaves a gap in the duplex.

Answer 55

Answer: 5’-end

Question 56

20) Fidelity of DNA replication is determined solely by the 3’ exonucleolytic proofreading activity of the DNA polymerase.

Answer 56

Answer: FALSE

Question 57

21) A single-stranded RNA virus makes a DNA copy of itself by the use of a viral multifunctional enzyme called ________.

Answer 57

Answer: reverse transcriptase

Question 58

1) O6-methylguanine has a high probability of base pairing with thymine to result in a post replication mutation from a GC base pair to:
A) TA.
B) AT.
C) CG.
D) GT.
E) TC.

Answer 58

Answer: B

Question 59

2) The only function of Uracil-DNA N-glycosylase is to remove dUMP residues in DNA that have been arisen by deamination of cytosine.

Answer 59

Answer: FALSE

Question 60

3) Which of the following types of DNA damage cannot be repaired by base excision repair?
A) Depurination
B) Cytosine deamination
C) Thymine dimer
D) Single-strand break
E) Base oxidation

Answer 60

Answer: C

Question 61

4) Nucleotide excision repair:
A) involves a multisubunit enzyme.
B) preferentially repairs genes that are being actively transcribed.
C) involves making nicks on either side of a DNA lesion.
D) uses helicase, polymerase and ligase to repair the DNA.
E) all of the above.

Answer 61

Answer: E

Question 62

5) Photoreactivation using DNA photolyase is responsible for direct repair of thymine dimers in all organisms.

Answer 62

Answer: FALSE

Question 63

6) ________ and bulky adducts on DNA can be repaired using the nucleotide excision repair process.

Answer 63

Answer: Thymine dimers

Question 64

7) The direct DNA repair enzymes DNA photolyase and O6-alkyguanine alkytransferase are unusual in that they are ________ after one catalytic cycle.

Answer 64

Answer: inactivated

Question 65

8) Base excision repair starts with cleavage of the ________ between the damaged base and the deoxyribose.

Answer 65

Answer: glycosidic bond

Question 66

9) Which of the following enzyme activities is NOT used in base excision repair?
A) Glycosylase
B) Apyriminidic endonuclease
C) Deoxyribose-5'-phosphatase
D) DNA polymerase
E) Helicase

Answer 66

Answer: E

Question 67

10) The SOS response to DNA damage in bacteria is error-prone because:
A) it uses DNA polymerase that lacks 5’ exonuclease activity.
B) it is an inducible system.
C) the polymerases used lack 3’ exonuclease activity.
D) more than one polymerase can be used to repair the damage.
E) it is stimulated by ultraviolet light that causes mutations.

Answer 67

Answer: C

Question 68

11) Transcription-coupled repair usually repairs the template strand.

Answer 68

Answer: TRUE

Question 69

12) The dam methylase has a role in which of the following DNA repair systems?
A) Base-excision repair
B) Nucleotide excision repair
C) Non-homologous end-joining
D) Mismatch repair
E) Homologous recombination

Answer 69

Answer: D

Question 70

13) Strand-displacement in homologous recombination in E. coli is facilitated by:
A) the RecBCD complex.
B) ss-binding protein.
C) RecA.
D) RuvC.
E) the chi structure.

Answer 70

Answer: C

Question 71

14) Which of the following mechanisms is NOT involved in the generation of antibody diversity?
A) Recombination with excision of DNA between a V gene sequence and a J sequence
B) Splicing out of RNA sequences between a J region and a C region
C) Somatic hypermutation
D) Non-homologous end joining and DNA repair
E) Transposition

Answer 71

Answer: E

Question 72

15) Bacteria cannot use homologous recombination for DNA repair as they only have a single copy of their genome.

Answer 72

Answer: FALSE

Question 73

16) Site-specific recombination generally requires longer homologous sequences than does homologous recombination.

Answer 73

Answer: FALSE

Question 74

17) Homologous recombination occurs by nicking followed by strand invasion, ligation then branch migration.

Answer 74

Answer: TRUE

Question 75

18) The λ genome is inserted into the E. coli genome in the lysogenic pathway by the use of ________ recombination.

Answer 75

Answer: site-specific

Question 76

19) Which of the following is a feature of bacterial transposition?
A) Homologous recombination
B) DNA synthesis
C) Target site duplication
D) Deletions or inversions
E) All of the above

Answer 76

Answer: E

Question 77

20) Gene amplification occurring as a result of specific metabolic stress will always be reversed once the stress has been removed.

Answer 77

Answer: FALSE

Question 78

21) The movement of transposable genetic elements within a genome is essentially ________.

Answer 78

Answer: random

Question 79

22) Retroviruses are characterized by the presence of ________ that flank the viral structural genes.

Answer 79

Answer: long terminal repeats

Question 80

23) One mechanism that could result in gene duplication involves ________ sister-chromatid exchange.

Answer 80

Answer: unequal

Question 81

1) RNA polymerase transcribes all DNA sequences at an equal rate.

Answer 81

Answer: FALSE

Question 82

2) Which of the following is FALSE when comparing DNA pol III and RNA polymerase?
A) There are many more copies of RNA polymerase in the cell.
B) DNA pol III is much more processive.
C) RNA polymerase makes more errors.
D) RNA polymerase has a much slower kcat.
E) RNA polymerase does not need a primer.

Answer 82

Answer: B

Question 83

3) Which of the following statements about E. coli RNA polymerase is INCORRECT?
A) It has five different subunits.
B) The σ subunit can be dissociated easily from the rest of the enzyme.
C) The σ subunit is responsible for accurate determination of transcription start sites.
D) Without the σ subunit the enzyme has no RNA polymerase activity.
E) The σ subunit has a role in regulation of transcription.

Answer 83

Answer: D

Question 84

4) Which of the following is NOT correct when considering the initiation of transcription in E. coli?
A) The σ subunit of RNA polymerase makes strong contacts with the -10 region of promoters.
B) Only the -10 region of the promoter is required.
C) DNA melting near the transcription start site is essential for promoter recognition.
D) The phosphodiester bonds that are formed are not stable until about 10 nucleotides have been incorporated.
E) The RNA polymerase contacts about 50 bp of DNA.

Answer 84

Answer: B

Question 85

5) Alignment of conserved sequences in promoters recognized by E. coli RNA polymerase revealed two ________ sequences upstream of the transcribed region, which are separated by similar lengths of DNA.

Answer 85

Answer: consensus

Question 86

6) In bacteria, mRNA, tRNA and rRNA are all transcribed by the same RNA polymerase.

Answer 86

Answer: TRUE

Question 87

7) Rho-dependent termination of transcription makes use of a hexameric protein, which has RNA-DNA helicase activity.

Answer 87

Answer: TRUE

Question 88

8) Most ________ of transcription in prokaryotes is based on a weakened interaction due to ________ base pairing between the template and the transcript as well as a stable stem loop structure in the nascent transcript which eliminates base pairing between the template and transcript upstream of the AU interaction.

Answer 88

Answer: termination, AU

Question 89

9) In eukaryotes RNA polymerase I transcribes all of the ribosomal RNA components.

Answer 89

Answer: FALSE

Question 90

10) The different sensitivities to the toxin ________ revealed that eukaryotes have three distinct RNA polymerases for synthesis of mRNA, rRNA and small RNAs including tRNA and the 5S species of rRNA.

Answer 90

Answer: α-amanitin

Question 91

11) All the tRNA genes are transcribed by ________ in eukaryotes.

Answer 91

Answer: RNA polymerase III

Question 92

12) Which of the following statements is FALSE?
A) RNA polymerase II is responsible for the transcription of genes encoding protein-coding sequences only.
B) Many promoters recognized by RNA polymerase II contain regulatory elements several kbp upstream of the initiation site.
C) TFIIB has a role in converting a closed-promoter into an open-promoter complex.
D) The C-terminal domain of the largest subunit of RNA pol II undergoes extensive phosphorylation prior to transcription elongation.
E) A multiprotein complex is involved in communication between upstream control elements and proteins bound at the promoter.

Answer 92

Answer: A

Question 93

13) After promoter clearance by RNA polymerase II:
A) all associated factors remain bound to the polymerase for elongation.
B) a subset of factors remain at the promoter region.
C) no further elongation factors are acquired by the polymerase.
D) no further chromatin remodeling is required.
E) transcription continues until the polymerase reaches the poly (A) tail.

Answer 93

Answer: B

Question 94

14) In eukaryotes genes encoding enzymes for metabolic pathways often exist as operons of several genes with a single regulatory region to provide coordinate regulation of all genes required for the pathway.

Answer 94

Answer: FALSE

Question 95

15) Eukaryotic transcription normally takes place on a chromatin template at nuclease-accessible sites.

Answer 95

Answer: TRUE

Question 96

16) In eukaryotes a set of ________ function in a comparable manner to the σ subunit of E. coli RNA polymerase.

Answer 96

Answer: transcription factors

Question 97

17) High levels of histone ________ correlate with high levels of transcriptional activity.

Answer 97

Answer: acetylation

Question 98

18) Degradation of bacterial mRNAs occurs:
A) from the 3’ end.
B) largely by the activity of non-specific nucleases.
C) from the 5’ end.
D) relatively slowly.
E) from both 3’ and 5’ ends at the same time.

Answer 98

Answer: C

Question 99

19) Which of the following types of post-transcriptional processing does NOT occur for bacterial tRNAs?
A) Exonuclease cleavage
B) Endonuclease cleavage
C) Non-template directed addition of bases
D) Methylation of bases
E) Addition of a phosphate group to the 5’ end

Answer 99

Answer: E

Question 100

20) In bacteria post-transcriptional processing of pre-rRNA species can yield mature tRNAs.

Answer 100

Answer: TRUE

Question 101

21) All processing of eukaryotic mRNAs takes place in the nucleus after transcription has been completed.

Answer 101

Answer: FALSE

Question 102

22) The 5’ cap added to eukaryotic mRNA serves to stabilize the mRNA and assists in the efficiency of ________.

Answer 102

Answer: translation

Question 103

23) Alternative splicing can:
A) be tissue-specific.
B) produce proteins with different functions from the same gene.
C) contribute to temporal control of gene expression.
D) produce mRNAs that are nonfunctional.
E) all of the above.

Answer 103

Answer: E

Question 104

24) Splicing of mRNA occurs in spliceosomes and chemically is a series of ________ reactions.

Answer 104

Answer: transesterification

Question 105

25) DNA microarrays can be used for gene ________ profiling, starting with RNA and using the enzyme ________ to synthesize cDNA and simultaneously incorporate nucleotides labeled with fluorescent dyes.

Answer 105

Answer: expression, reverse transcriptase

Question 106

26) Which of the following is the first step in chromatin immunoprecipitation?
A) Extraction of chromatin from cells
B) Cross-linking with formaldehyde
C) Shearing by sonication
D) Addition of antibodies to recognize proteins that bind to DNA
E) PCR to amplify the target sites

Answer 106

Answer: B

Question 107

1) Which of the following statements about initiation of translation in bacteria is FALSE?
A) fMet-tRNAfMet is the only charged tRNA that can bind to the 30S subunit on its own.
B) The formyl group is transferred to Met-tRNAfMet from 10-formyl-tetrahydrofolate.
C) Three initiation factor proteins are required to bind the mRNA and the initiator tRNA to the 30S ribosome.
D) Pairing between mRNA and rRNA places the initiation codon next to the P site in the ribosome.
E) The complete 70S initiation complex ready to receive a second charged tRNA is assembled without any GTP hydrolysis.

Answer 107

Answer: E

Question 108

2) Which of the following statements about translation elongation in bacteria is TRUE?
A) Charged amino acids are escorted to the A site of the ribosome by an initiation factor.
B) The growing polypeptide chain is moved from the A site to the P site before peptide bond formation.
C) GTP hydrolysis occurs after moving the aminoacyl-tRNA into the A site and before peptide bond formation.
D) The entire peptidyl-tRNA is translocated from the P site to the A site during peptide bond formation.
E) The uncharged tRNA leaves from the E site as the ribosome moves one codon in the 5’ direction.

Answer 108

Answer: C

Question 109

3) Termination of translation requires GTP hydrolysis and direct interaction of a release factor with a termination codon.

Answer 109

Answer: TRUE

Question 110

4) Translation is an RNA-directed process whereby amino acids are specified by ________ on the mRNA, which are complementary to ________ on aminoacyl tRNAs.

Answer 110

Answer: codons, anticodons

Question 111

5) An ________ is a sequence within an mRNA that is bounded by stop and start codons that can be continuously translated.

Answer 111

Answer: open reading frame

Question 112

6) In the secondary structure of ribosomal RNA, the regions of self-complementarity are highly ________.

Answer 112

Answer: conserved

Question 113

7) The anticodon ends of tRNAs contact the ________ subunit and the acceptor ends contact the ________ subunit of the ribosome.

Answer 113

Answer: small, large

Question 114

8) Termination of translation occurs when a stop codon is translocated into the ________ site of the ribosome.

Answer 114

Answer: A

Question 115

9) Which of the following BEST explains the “wobble” hypothesis proposed by Francis Crick?
A) The genetic code is degenerate in that most amino acids have more than one codon.
B) The genetic code is ambiguous in that each codon can specify more than one amino acid.
C) The anticodon can pair with any part of the corresponding codon.
D) The 5’ base of the anticodon can make non Watson-Crick hydrogen bonds with several different bases at the 3’ position of the codon.
E) Inosine can pair up with A, U, or C.

Answer 115

Answer: D

Question 116

10) Which of the following statements is FALSE?
A) There does not need to be as many different tRNA types as there are codons.
B) The modified bases in the tRNAs are added during transcription.
C) The amino acid is attached at the 3’ terminus of the tRNA.
D) The 3D structures of all tRNA molecules are such that they fit equally well into the ribosome.
E) tRNA exhibits unusual base pairing including single bases pairing with two others.

Answer 116

Answer: B

Question 117

11) The genetic code is universal for all organisms and organelles.

Answer 117

Answer: FALSE

Question 118

12) Aminoacyl-tRNA synthetases do not contribute to the fidelity of translation.

Answer 118

Answer: FALSE

Question 119

13) Peptide bond formation requires GTP hydrolysis.

Answer 119

Answer: FALSE

Question 120

14) Differences between eukaryote and prokaryote translation include the 40S ribosome recognizing the ________ rather than a Shine-Dalgarno sequence and the N-terminal amino acid is ________.

Answer 120

Answer: 7-methylguanine cap, methionine

Question 121

15) The bacterial Shine-Dalgarno sequence aligns the mRNA with the 16S rRNA to start translation at the correct position.

Answer 121

Answer: TRUE

Question 122

16) Antibiotics that inhibit translation are useful because:
A) the translational machinery of eukaryotes is sufficiently different to that of bacteria.
B) microorganisms can develop resistance to other antibiotics.
C) antibiotic resistance genes are often carried on plasmids rather than the bacterial chromosome.
D) different antibiotics can inhibit different steps of translation.
E) they do not cross the cell membrane in higher animals.

Answer 122

Answer: A

Question 123

17) Which of the following applies only to prokaryotic proteins?
A) Secreted proteins have signal sequences in their N-terminal regions.
B) Some proteins are covalently modified after translation.
C) Hydrophilic proteins are able to either traverse or become embedded in hydrophobic membranes.
D) Some proteins are synthesized on polyribosomes.
E) Translation is coupled to transcription.

Answer 123

Answer: E

Question 124

18) Which of the following BEST describes the transport of nuclear proteins across the nuclear membrane?
A) Simple diffusion
B) An N-terminal targeting sequence that is cleaved during transport
C) A targeting sequence that interacts with a carrier protein
D) Vesicular transport followed by delivery via fusion with the nuclear membrane
E) Co-translational transport using ribosomes attached to the membrane

Answer 124

Answer: C

Question 125

19) Which of the following does NOT apply to proteins synthesized on the rough endoplasmic reticulum?
A) Signal recognition particle
B) Vesicular transport
C) Signal sequence cleavage
D) Continuous translation
E) Docking protein

Answer 125

Answer: D

Question 126

20) Glycosylated proteins are synthesized on rough endoplasmic reticulum.

Answer 126

Answer: TRUE

Question 127

21) Nuclear encoded proteins destined for ________, chloroplasts or nuclei are synthesized in the cytoplasm.

Answer 127

Answer: mitochondria

Question 128

22) The fusion of vesicles, from the Golgi complex, with specific membranes is facilitated by ________ protein pairs called t-SNARES and v-SNARES on membranes as well as cytosolic fusion proteins.

Answer 128

Answer: complementary

Question 129

1) Which of the following BEST describes transcriptional regulation of the lac operon in E. coli?
A) On in the presence of lactose
B) On in the presence of lactose and presence of glucose
C) Off in the presence of glucose
D) On in the absence of lactose and presence of glucose
E) On in the presence of lactose and absence of glucose

Answer 129

Answer: E

Question 130

2) A partial diploid containing a wild type allele for lacI and a lacI mutant that was unable to bind the inducer would:
A) always show low levels of β-galactosidase gene expression.
B) show normal induction in the presence of an inducer.
C) express β-galactosidase at all times.
D) only show normal induction in the presence of an inducer in the absence of glucose.
E) show induction in the presence of an inducer in the presence of glucose.

Answer 130

Answer: A

Question 131

3) Which of the following is INCORRECT when considering the lac repressor?
A) It is tetramer of two dimers.
B) Binding to the operator site is cooperative.
C) Binding of each dimer is to different regions of the operator.
D) Binding of inducer forces the DNA-binding helices apart so they cannot contact the DNA-binding sites.
E) It is an allosteric protein.

Answer 131

Answer: B

Question 132

4) Which of the following BEST describes catabolite repression of the lac operon?
A) The operon is transcriptionally inactive in the absence of lactose.
B) The operon is transcriptionally inactivated by a repressor protein, which binds to glucose.
C) The operon is transcriptionally active when an activator protein binds to the promoter in the absence of glucose.
D) Glucose is the preferred energy source for E. coli.
E) The operon is repressed by its protein products.

Answer 132

Answer: C

Question 133

5) A partial diploid containing a wild type allele for lacO and a lacO mutant that was unable to bind to the lac repressor would always express β-galactosidase.

Answer 133

Answer: TRUE

Question 134

6) Catabolite or glucose repression of the lac operon is a regulatory system, which depends on the levels of cAMP in the cell.

Answer 134

Answer: TRUE

Question 135

7) The λ repressor can act as a transcriptional activator as well as a repressor.

Answer 135

Answer: TRUE

Question 136

8) The physiological inducer of the lac operon is ________.

Answer 136

Answer: allolactose

Question 137

9) ________ mutants of the lac operon express β-galactosidase at high levels in the absence of an inducer, while ________ mutants of the lac operon express only very low levels of β-galactosidase even in the presence of inducer.

Answer 137

Answer: Constitutive, noninducible

Question 138

10) The affinity of the lac repressor for DNA ________ markedly when the inducer binds to the lac repressor.

Answer 138

Answer: decreases

Question 139

11) Conformational changes in the cAMP receptor protein upon binding to cAMP trigger ________ of the lac operon in the presence of lactose.

Answer 139

Answer: activation

Question 140

12) The λ repressor is inactivated by proteolytic cleavage stimulated by the ________ protein.

Answer 140

Answer: RecA

Question 141

13) The helix-turn-helix is a common protein motif that is able to interact with DNA in the major grooves by both electrostatic and specific interactions between amino acids of the helix and the bases of the DNA.

Answer 141

Answer: TRUE

Question 142

14) Which of the following BEST describes the SOS response?
A) DNA damage by UV light causes a λ lysogen to be induced to the lytic life cycle.
B) It is an error prone DNA repair system.
C) Activation of RecA by sensing DNA damage and single-stranded DNA.
D) Coordinated activation of a set of unlinked genes whose protein products will collectively help the cell to respond to environmental damage.
E) Transcriptional depression by proteolytic cleavage of the LexA repressor.

Answer 142

Answer: D

Question 143

15) Which of the following BEST describes attenuation of the trp operon?
A) The ribosome will stall at adjacent trp codons if tryptophan levels in the cell are low.
B) High levels of tryptophan result in continued translation by the ribosome.
C) A transcription termination sequence forms in the leader mRNA because the ribosome reaches a translation stop codon if tryptophan levels are high.
D) The structural genes are not expressed if tryptophan levels in the cell are high.
E) Regulation of trp operon expression by transcriptional repression by the trp repressor when tryptophan levels in the cell are high.

Answer 143

Answer: C

Question 144

16) A set of linked genes regulated by a common mechanism is called a regulon.

Answer 144

Answer: TRUE

Question 145

17) The trp operon is transcribed when the trp repressor is bound to tryptophan.

Answer 145

Answer: FALSE

Question 146

18) The greater complexity of humans compared to worms and flies is due to:
A) a greater number of genes.
B) higher levels of alternative splicing.
C) a much greater number of transcription factors.
D) chromatin structure.
E) combinatorial regulation by a greater number of transcription factors.

Answer 146

Answer: E

Question 147

19) Nucleosomes very close to the transcription start site in eukaryotes tend to have a high proportion of the histone variants H3.3 and H2A.Z.

Answer 147

Answer: TRUE

Question 148

20) All chromatin remodelling complexes are associated with activation of transcription.

Answer 148

Answer: FALSE

Question 149

21) Nucleosome remodeling complexes use ________ to drive changes in chromatin structure.

Answer 149

Answer: ATP hydrolysis

Question 150

22) Which of the following is NOT part of initiation of transcription in eukaryotes?
A) Phosphorylation of Ser-5 in the heptad repeats in the C-terminal domain of RNA polymerase II by TF-IIH.
B) Unwinding of the DNA template by TF-IIH
C) Non-specific interactions of general transcription factors at promoters
D) Phosphorylation of Ser-2 in the heptad repeats in the C-terminal domain of RNA polymerase II by P-TEFb.
E) The binding of upstream regulatory proteins

Answer 150

Answer: D

Question 151

23) In eukaryotes RNA polymerase is only bound at promoters that are carrying out active transcription.

Answer 151

Answer: FALSE

Question 152

24) Chromatin modifications that tend to inhibit transcription include:
A) methylation at lysine 9 or 27 of histone H3.
B) methylation at lysine 4 of histone H3.
C) ubiquitylation at lysine 119 of histone H3.
D) A, B, and C.
E) A and C.

Answer 152

Answer: E

Question 153

25) DNA methylation in eukaryotes:
A) is part of the epigenetic process.
B) occurs only on cytosine residues.
C) is maintained by specific DNA methyl transferases.
D) is inhibited by 5'-azacytidine.
E) all of the above.

Answer 153

Answer: E

Question 154

26) Transcriptionally active chromatin usually contains ________ histones, while ________ is normally inhibitory to transcription.

Answer 154

Answer: acetylated, methylation

Question 155

27) ATPase domains of chromatin remodelers associated with transcriptionally active chromatin can contain a bromodomain that interacts specifically with ________ lysines or a chromodomain that interacts specifically with ________ histones.

Answer 155

Answer: acetylated, methylated

Question 156

28) Epigenetics is the heritable transmission of gene ________ patterns that does not involve a change in the DNA base sequence.

Answer 156

Answer: expression

Question 157

29) miRNAs are used in gene regulation to:
A) block translation.
B) target mRNA for degradation.
C) cause ribosomes to stall.
D) promote degradation of polyA tails.
E) all of the above.

Answer 157

Answer: E

Question 158

30) RNA interference can be a mechanism of defense against viral infection as well as for regulation of gene expression.

Answer 158

Answer: TRUE

Question 159

31) ________ are alternative mRNA structures that are produced by binding of a ________ which is often a product of a specific metabolic pathway.

Answer 159

Answer: Riboswitches, ligand

Question 160

32) ________ of specific RNA nucleotides in a process known as RNA editing is a mechanism of altering the protein product encoded by some genes in mammals.

Answer 160

Answer: Deamination