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Deck 8: Microbial Genetics

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Question
Table 8.2  Codon on mRNA and corresponding amino acid UUA  leucine  UAA  nonsense  GCA  alanine  AAU  sparagine  AAG  lysine  UGC  cysteine  GUU  valine  UCG, UCU  serine \begin{array}{l}\underline{\text { Codon on mRNA and corresponding amino acid} }\\\begin{array} { l l l l } \text { UUA } & \text { leucine } & \text { UAA } & \text { nonsense } \\\text { GCA } & \text { alanine } & \text { AAU } & \text { sparagine } \\\text { AAG } & \text { lysine } & \text { UGC } & \text { cysteine } \\\text { GUU } & \text { valine } & \text { UCG, UCU } & \text { serine }\end{array}\end{array}

-(Use Table 8.2.) The anticodon for valine is

A) GTA
B) CTT
C) CUU
D) GUU
E) CAA
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Question
Synthesis of a repressible enzyme is stopped by

A) The substrate binding to the repressor.
B) The end- product binding to the promoter.
C) The corepressor binding to the operator.
D) The corepressor- repressor binding to the operator.
E) The allosteric transition.
Question
Table 8.2  Codon on mRNA and corresponding amino acid  UUA  leucine  UAA  nonsense  GCA  alanine  AAU  sparagine  AAG  lysine  UGC  cysteine  GUU  valine  UCG, UCU  serine \begin{array}{l}\underline{\text { Codon on mRNA and corresponding amino acid }}\\\begin{array} { l l l l } \text { UUA } & \text { leucine } & \text { UAA } & \text { nonsense } \\\text { GCA } & \text { alanine } & \text { AAU } & \text { sparagine } \\\text { AAG } & \text { lysine } & \text { UGC } & \text { cysteine } \\\text { GUU } & \text { valine } & \text { UCG, UCU } & \text { serine }\end{array}\end{array}

-In transcription,

A) Proteins are made.
B) RNA is copied to DNA.
C) DNA is changed to RNA.
D) DNA is copied to RNA.
E) DNA is replicated.
Question
All of the following are true about bacteriocins except

A) Nisin is a bacteriocin used as a food preservative.
B) The genes coding for them are on plasmids.
C) Bacteria that produce bacteriocins are resistant to their own bacteriocins.
D) They cause food poisoning symptoms.
E) None of the above.
Question
The initial effect of ionizing radiation on a cell is that it causes

A) DNA to break.
B) The formation of highly reactive ions.
C) Base substitutions.
D) Bonding between adjacent thymines.
E) The cells to get hot.
Question
An enzyme that covalently bonds nucleotide sequences in DNA is

A) DNA polymerase.
B) DNA ligase.
C) RNA polymerase.
D) Transposase.
E) Restriction enzyme.
Question
Table 8.2  Codon on mRNA and corresponding amino acid \text { Codon on mRNA and corresponding amino acid }
 UUA  leucine  UAA  nonsense  GCA  alanine  AAU  sparagine  AAG  lysine  UGC  cysteine  GUU valine  UCG, UCU serine \begin{array}{llll}\text { UUA } & \text { leucine } & \text { UAA } & \text { nonsense } \\\text { GCA } & \text { alanine } & \text { AAU } & \text { sparagine } \\\text { AAG } & \text { lysine } & \text { UGC } & \text { cysteine }\\\text { GUU} & \text { valine }&\text { UCG, UCU } & \text {serine }\end{array}

-(Use Table 8.2.) If the sequence of amino acids coded for by a strand of DNA is serine- alanine- lysine- leucine, the coding for the antisense strand of DNA is

A) 5' TCTGCAAAGTTA
B) 3' TCACGUUUCAAU
C) 3' UGUGCAAAGUUA
D) 5' ACAGTTTCAAT
E) 3' UCUCGAAAGUUA
Question
In Figure 8.2, if base 4 is thymine, what is base 11'?

A) Thymine
B) Adenine
C) Guanine
D) Cytosine
E) Uracil
Question
An enzyme that copies DNA to make a molecule of RNA is

A) Transposase.
B) RNA polymerase.
C) Restriction enzyme.
D) DNA ligase.
E) DNA polymerase.
Question
A cell that cannot make tRNA

A) Can make proteins if amino acids are provided in the growth medium.
B) Can't make proteins unless aminoacyl synthetase is provided in the growth medium.
C) Can make proteins if mRNA is provided in the growth medium.
D) Can't make proteins.
E) None of the above.
Question
Table 8.1
 Culture 1:F+, leucine +, histidine +\text { Culture } 1: \mathrm{F}^{+} \text {, leucine }{ }^{+} \text {, histidine }{ }^{+}
 Culture 2: F, leucine-, histidine- \text { Culture 2: } \mathrm{F}^{-} \text {, leucine-, histidine- }

-In Table 8.1, if culture 1 mutates to Hfr, what will be the result of conjugation between the two cultures?

A) They will both remain the same
B) 1 will become F- , leu+, his+;
2 will become Hfr, leu+, his+

C) 1 will become F+, leu+, his+;
2 will become F+, leu+, his+

D) 1 will remain the same;
Recombination will occur in 2

E) Can't tell
Question
Which of the following is not a product of transcription?

A) mRNA
B) A new strand of DNA
C) tRNA
D) rRNA
E) None of the above
Question
The mechanism by which the presence of glucose inhibits the arabinose operon.

A) DNA polymerase
B) Repression
C) Induction
D) Catabolic repression
E) Translation
Question
Table 8.2  Codon on mRNA and corresponding amino acid  UUA  leucine  UAA  nonsense  GCA  alanine  AAU  sparagine  AAG  lysine  UGC  cysteine  GUU  valine  UCG, UCU  serine \begin{array}{l}\underline{\text { Codon on mRNA and corresponding amino acid }}\\\begin{array} { l l l l } \text { UUA } & \text { leucine } & \text { UAA } & \text { nonsense } \\\text { GCA } & \text { alanine } & \text { AAU } & \text { sparagine } \\\text { AAG } & \text { lysine } & \text { UGC } & \text { cysteine } \\\text { GUU } & \text { valine } & \text { UCG, UCU } & \text { serine }\end{array}\end{array}

-An antibiotic that binds the 50S portion of the ribosome as shown above would

A) Prevent peptide bond formation.
B) Prevent tRNA attachment.
C) Prevent transcription.
D) Stop the ribosome from moving along the mRNA.
E) None of the above.
Question
Which of the following proteins are not coded for by genes carried on plasmids?

A) Enzymes that catabolize hydrocarbons
B) Enzymes that inactivate antibiotics
C) Enzymes necessary for conjugation
D) Bacteriocins
E) None of the above
Question
Conjugation differs from reproduction because conjugation

A) Replicates DNA.
B) Transcribes DNA to RNA.
C) Transfers DNA horizontally, to cells in the same generation.
D) Transfers DNA vertically, to new cells.
E) None of the above.
Question
Table 8.1
 Culture 1:F+, leucine +, histidine +\text { Culture } 1: \mathrm{F}^{+} \text {, leucine }{ }^{+} \text {, histidine }{ }^{+}
 Culture 2: F, leucine-, histidine- \text { Culture 2: } \mathrm{F}^{-} \text {, leucine-, histidine- }

-In Table 8.1, what will be the result of conjugation between cultures 1 and 2?

A) 1 will become F- , leu- , his- ;
2 will remain the same

B) 1 will remain the same;
2 will become F+, leucine- , histidine-

C) 1 will become F- , leu+, his+;
2 will become F+, leu- , his-

D) 1 will remain the same;
2 will become F+ and recombination may occur

E) 1 will remain the same;
2 will become F+, leu+, his+
Question
Table 8.2  Codon on mRNA and corresponding amino acid  UUA  leucine  UAA  nonsense  GCA  alanine  AAU  sparagine  AAG  lysine  UGC  cysteine  GUU  valine  UCG, UCU  serine \begin{array}{l}\underline{\text { Codon on mRNA and corresponding amino acid }}\\\begin{array} { l l l l } \text { UUA } & \text { leucine } & \text { UAA } & \text { nonsense } \\\text { GCA } & \text { alanine } & \text { AAU } & \text { sparagine } \\\text { AAG } & \text { lysine } & \text { UGC } & \text { cysteine } \\\text { GUU } & \text { valine } & \text { UCG, UCU } & \text { serine }\end{array}\end{array}

-(Use Table 8.2.) If a frameshift mutation occurred in a sequence of bases shown below, what would be the sequence of amino acids coded for?
3' ATTACGCTTTGC

A) Asparagine- cysteine- valine- serine
B) Leucine- arginine- lysine- alanine
C) Asparagine- arginine- lysine- alanine
D) Translation would stop at the first codon
E) Can't tell
Question
Table 8.3 - Metabolic Pathway
 Gene a Gene b?? Enzyme A  Enzyme B ??\begin{array}{cc}\text { Gene } a & \text { Gene } b \\? &? \\\text { Enzyme A } & \text { Enzyme B } \\? & ?\end{array}
 Compound A ?Compound B? Compound C \text { Compound A ?Compound B? Compound C }

-In Table 8.3, if compound C reacts with the allosteric site of enzyme A, this would exemplify

A) Competitive inhibition.
B) Feedback inhibition.
C) End- product repression.
D) A mutation.
E) None of the above.
Question
Table 8.2  Codon on mRNA and corresponding amino acid  UUA  leucine  UAA  nonsense  GCA  alanine  AAU  sparagine  AAG  lysine  UGC  cysteine  GUU  valine  UCG, UCU  serine \begin{array}{l}\underline{\text { Codon on mRNA and corresponding amino acid }}\\\begin{array} { l l l l } \text { UUA } & \text { leucine } & \text { UAA } & \text { nonsense } \\\text { GCA } & \text { alanine } & \text { AAU } & \text { sparagine } \\\text { AAG } & \text { lysine } & \text { UGC } & \text { cysteine } \\\text { GUU } & \text { valine } & \text { UCG, UCU } & \text { serine }\end{array}\end{array}

-(Use Table 8.2.) What is the sequence of amino acids coded for by the following sequence of bases in a strand of DNA?
3' ATTACGCTTTGC

A) Asparagine- cysteine- valine- serine
B) Asparagine- arginine- lysine- alanine
C) Leucine- arginine- lysine- alanine
D) Transcription would stop at the first codon
E) Can't tell
Question
The damage caused by ultraviolet radiation is

A) Never repaired.
B) Repaired by DNA replication.
C) Repaired during translation.
D) Cut out and replaced.
E) Repaired during transcription.
Question
The mechanism by which the presence of arabinose controls the arabinose operon.

A) DNA polymerase
B) Catabolic repression
C) Induction
D) Repression
E) Translation
Question
The lac operon

A) Produces repressible enzymes.
B) Produces inducible enzymes.
C) Produces constitutive enzymes.
D) Hydrolyzes lactose.
E) None of the above.
Question
The necessary ingredients for DNA synthesis can be mixed together in a test tube. The DNA polymerase is from Thermus aquaticus and the template is from a human cell. The DNA synthesized would be most similar to

A) T. aquaticus DNA.
B) A mixture of human and T. aquaticus DNA.
C) Human RNA.
D) T. aquaticus RNA.
E) Human DNA.
Question
Which of the following is not true of a bacterium that is R+?

A) It is resistant to certain drugs and heavy metals.
B) R+ can be transferred to a recipient cell.
C) It is F+.
D) R+ refers to the possession of a plasmid.
E) None of the above.
Question
DNA is constructed of

A) Two strands of identical nucleotides with hydrogen bonds between them.
B) A single strand of nucleotides with internal hydrogen bonding.
C) Nucleotides bonded A-C and G-T.
D) Two strands of nucleotides running antiparallel.
E) None of the above.
Question
Figure 8.2
<strong>Figure 8.2 In Figure 8.2, if base 4 is thymine, what is base 4'?</strong> A) Adenine B) Uracil C) Cytosine D) Thymine E) Guanine <div style=padding-top: 35px>
In Figure 8.2, if base 4 is thymine, what is base 4'?

A) Adenine
B) Uracil
C) Cytosine
D) Thymine
E) Guanine
Question
If you knew the sequence of nucleotides within a gene, which one of the following could you determine with the most accuracy?

A) The tertiary structure of the protein
B) The quaternary structure of the protein
C) The secondary structure of the protein
D) The primary structure of the protein
E) Can't tell
Question
An enzyme produced in response to the presence of a substrate is called

A) A repressible enzyme.
B) An inducible enzyme.
C) An operator.
D) A promoter.
E) A restriction enzyme.
Question
Table 8.3 - Metabolic Pathway
 Gene a Gene b?? Enzyme A  Enzyme B ??\begin{array}{cc}\text { Gene } a & \text { Gene } b \\? & ? \\\text { Enzyme A } & \text { Enzyme B } \\?& ?\end{array}
 Compound A ? Compound B ?Compound C \text { Compound A ? Compound B ?Compound C }

-In Table 8.3, if enzyme A is a repressible enzyme, compound C would

A) Always be in excess.
B) Bind to the corepressor.
C) Bind to the enzyme.
D) All of the above.
E) None of the above.
Question
Transformation is the transfer of DNA from a donor to a recipient cell

A) By a bacteriophage.
B) By sexual reproduction.
C) As naked DNA in solution.
D) By cell- to- cell contact.
E) By crossing over.
Question
According to the operon model, for the synthesis of an inducible enzyme to occur, the

A) Substrate must bind to the repressor.
B) End- product must not be in excess.
C) Repressor must not be synthesized.
D) Repressor must bind to the operator.
E) Substrate must bind to the enzyme.
Question
Which of the following pairs is mismatched?

A) RNA polymerase - makes a molecule of RNA from an RNA template
B) DNA ligase - joins segments of DNA
C) DNA gyrase - coils and twists DNA
D) Transposase - insertion of DNA segments into DNA
E) DNA polymerase - makes a molecule of DNA from a DNA template
Question
An enzyme that cuts double- stranded DNA at specific nucleotide sequences.

A) RNA polymerase
B) DNA polymerase
C) Restriction enzyme
D) Transposase
E) DNA ligase
Question
Figure 8.3
<strong>Figure 8.3 In Figure 8.3, the antibiotic chloramphenicol binds the 50S ribosome as shown. From this information you can conclude that chloramphenicol</strong> A) Prevents transcription in prokaryotes. B) Prevents mRNA- ribosome binding. C) Prevents translation in prokaryotes. D) Prevents translation in eukaryotes. E) Prevents transcription in eukaryotes. <div style=padding-top: 35px>
In Figure 8.3, the antibiotic chloramphenicol binds the 50S ribosome as shown. From this information you can conclude that chloramphenicol

A) Prevents transcription in prokaryotes.
B) Prevents mRNA- ribosome binding.
C) Prevents translation in prokaryotes.
D) Prevents translation in eukaryotes.
E) Prevents transcription in eukaryotes.
Question
An enzyme that cuts and seals DNA.

A) DNA ligase
B) DNA polymerase
C) Restriction enzyme
D) RNA polymerase
E) Transposase
Question
Figure 8.4
<strong>Figure 8.4 In Figure 8.4, which model of the lac operon correctly shows RNA polymerase, lactose, and repressor protein when the structural genes are being transcribed?</strong> A) a B) b C) c D) d E) e <div style=padding-top: 35px>
In Figure 8.4, which model of the lac operon correctly shows RNA polymerase, lactose, and repressor protein when the structural genes are being transcribed?

A) a
B) b
C) c
D) d
E) e
Question
Genetic change in bacteria can be brought about by

A) Conjugation.
B) Transduction.
C) Transformation.
D) Mutation.
E) All of the above.
Question
Which of the following statements is false?

A) DNA polymerase joins nucleotides in one direction only.
B) Multiple replication forks are possible on a bacterial chromosome.
C) The leading strand of DNA is made continuously.
D) The lagging strand of DNA is started by an RNA primer.
E) DNA replication proceeds in one direction around the bacterial chromosome.
Question
A gene is best defined as

A) A segment of DNA.
B) Three nucleotides that code for an amino acid.
C) A transcribed unit of DNA.
D) A sequence of nucleotides in RNA that codes for a functional product.
E) A sequence of nucleotides in DNA that codes for a functional product.
Question
Figure 8.2
<strong>Figure 8.2 In Figure 8.2, base 2 is attached to</strong> A) Thymine. B) Deoxyribose. C) Phosphate. D) Ribose. E) Can't tell. <div style=padding-top: 35px>
In Figure 8.2, base 2 is attached to

A) Thymine.
B) Deoxyribose.
C) Phosphate.
D) Ribose.
E) Can't tell.
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Deck 8: Microbial Genetics
1
Table 8.2  Codon on mRNA and corresponding amino acid UUA  leucine  UAA  nonsense  GCA  alanine  AAU  sparagine  AAG  lysine  UGC  cysteine  GUU  valine  UCG, UCU  serine \begin{array}{l}\underline{\text { Codon on mRNA and corresponding amino acid} }\\\begin{array} { l l l l } \text { UUA } & \text { leucine } & \text { UAA } & \text { nonsense } \\\text { GCA } & \text { alanine } & \text { AAU } & \text { sparagine } \\\text { AAG } & \text { lysine } & \text { UGC } & \text { cysteine } \\\text { GUU } & \text { valine } & \text { UCG, UCU } & \text { serine }\end{array}\end{array}

-(Use Table 8.2.) The anticodon for valine is

A) GTA
B) CTT
C) CUU
D) GUU
E) CAA
CAA
2
Synthesis of a repressible enzyme is stopped by

A) The substrate binding to the repressor.
B) The end- product binding to the promoter.
C) The corepressor binding to the operator.
D) The corepressor- repressor binding to the operator.
E) The allosteric transition.
D
3
Table 8.2  Codon on mRNA and corresponding amino acid  UUA  leucine  UAA  nonsense  GCA  alanine  AAU  sparagine  AAG  lysine  UGC  cysteine  GUU  valine  UCG, UCU  serine \begin{array}{l}\underline{\text { Codon on mRNA and corresponding amino acid }}\\\begin{array} { l l l l } \text { UUA } & \text { leucine } & \text { UAA } & \text { nonsense } \\\text { GCA } & \text { alanine } & \text { AAU } & \text { sparagine } \\\text { AAG } & \text { lysine } & \text { UGC } & \text { cysteine } \\\text { GUU } & \text { valine } & \text { UCG, UCU } & \text { serine }\end{array}\end{array}

-In transcription,

A) Proteins are made.
B) RNA is copied to DNA.
C) DNA is changed to RNA.
D) DNA is copied to RNA.
E) DNA is replicated.
DNA is copied to RNA.
4
All of the following are true about bacteriocins except

A) Nisin is a bacteriocin used as a food preservative.
B) The genes coding for them are on plasmids.
C) Bacteria that produce bacteriocins are resistant to their own bacteriocins.
D) They cause food poisoning symptoms.
E) None of the above.
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5
The initial effect of ionizing radiation on a cell is that it causes

A) DNA to break.
B) The formation of highly reactive ions.
C) Base substitutions.
D) Bonding between adjacent thymines.
E) The cells to get hot.
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6
An enzyme that covalently bonds nucleotide sequences in DNA is

A) DNA polymerase.
B) DNA ligase.
C) RNA polymerase.
D) Transposase.
E) Restriction enzyme.
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7
Table 8.2  Codon on mRNA and corresponding amino acid \text { Codon on mRNA and corresponding amino acid }
 UUA  leucine  UAA  nonsense  GCA  alanine  AAU  sparagine  AAG  lysine  UGC  cysteine  GUU valine  UCG, UCU serine \begin{array}{llll}\text { UUA } & \text { leucine } & \text { UAA } & \text { nonsense } \\\text { GCA } & \text { alanine } & \text { AAU } & \text { sparagine } \\\text { AAG } & \text { lysine } & \text { UGC } & \text { cysteine }\\\text { GUU} & \text { valine }&\text { UCG, UCU } & \text {serine }\end{array}

-(Use Table 8.2.) If the sequence of amino acids coded for by a strand of DNA is serine- alanine- lysine- leucine, the coding for the antisense strand of DNA is

A) 5' TCTGCAAAGTTA
B) 3' TCACGUUUCAAU
C) 3' UGUGCAAAGUUA
D) 5' ACAGTTTCAAT
E) 3' UCUCGAAAGUUA
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8
In Figure 8.2, if base 4 is thymine, what is base 11'?

A) Thymine
B) Adenine
C) Guanine
D) Cytosine
E) Uracil
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9
An enzyme that copies DNA to make a molecule of RNA is

A) Transposase.
B) RNA polymerase.
C) Restriction enzyme.
D) DNA ligase.
E) DNA polymerase.
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10
A cell that cannot make tRNA

A) Can make proteins if amino acids are provided in the growth medium.
B) Can't make proteins unless aminoacyl synthetase is provided in the growth medium.
C) Can make proteins if mRNA is provided in the growth medium.
D) Can't make proteins.
E) None of the above.
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11
Table 8.1
 Culture 1:F+, leucine +, histidine +\text { Culture } 1: \mathrm{F}^{+} \text {, leucine }{ }^{+} \text {, histidine }{ }^{+}
 Culture 2: F, leucine-, histidine- \text { Culture 2: } \mathrm{F}^{-} \text {, leucine-, histidine- }

-In Table 8.1, if culture 1 mutates to Hfr, what will be the result of conjugation between the two cultures?

A) They will both remain the same
B) 1 will become F- , leu+, his+;
2 will become Hfr, leu+, his+

C) 1 will become F+, leu+, his+;
2 will become F+, leu+, his+

D) 1 will remain the same;
Recombination will occur in 2

E) Can't tell
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12
Which of the following is not a product of transcription?

A) mRNA
B) A new strand of DNA
C) tRNA
D) rRNA
E) None of the above
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13
The mechanism by which the presence of glucose inhibits the arabinose operon.

A) DNA polymerase
B) Repression
C) Induction
D) Catabolic repression
E) Translation
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14
Table 8.2  Codon on mRNA and corresponding amino acid  UUA  leucine  UAA  nonsense  GCA  alanine  AAU  sparagine  AAG  lysine  UGC  cysteine  GUU  valine  UCG, UCU  serine \begin{array}{l}\underline{\text { Codon on mRNA and corresponding amino acid }}\\\begin{array} { l l l l } \text { UUA } & \text { leucine } & \text { UAA } & \text { nonsense } \\\text { GCA } & \text { alanine } & \text { AAU } & \text { sparagine } \\\text { AAG } & \text { lysine } & \text { UGC } & \text { cysteine } \\\text { GUU } & \text { valine } & \text { UCG, UCU } & \text { serine }\end{array}\end{array}

-An antibiotic that binds the 50S portion of the ribosome as shown above would

A) Prevent peptide bond formation.
B) Prevent tRNA attachment.
C) Prevent transcription.
D) Stop the ribosome from moving along the mRNA.
E) None of the above.
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15
Which of the following proteins are not coded for by genes carried on plasmids?

A) Enzymes that catabolize hydrocarbons
B) Enzymes that inactivate antibiotics
C) Enzymes necessary for conjugation
D) Bacteriocins
E) None of the above
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16
Conjugation differs from reproduction because conjugation

A) Replicates DNA.
B) Transcribes DNA to RNA.
C) Transfers DNA horizontally, to cells in the same generation.
D) Transfers DNA vertically, to new cells.
E) None of the above.
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17
Table 8.1
 Culture 1:F+, leucine +, histidine +\text { Culture } 1: \mathrm{F}^{+} \text {, leucine }{ }^{+} \text {, histidine }{ }^{+}
 Culture 2: F, leucine-, histidine- \text { Culture 2: } \mathrm{F}^{-} \text {, leucine-, histidine- }

-In Table 8.1, what will be the result of conjugation between cultures 1 and 2?

A) 1 will become F- , leu- , his- ;
2 will remain the same

B) 1 will remain the same;
2 will become F+, leucine- , histidine-

C) 1 will become F- , leu+, his+;
2 will become F+, leu- , his-

D) 1 will remain the same;
2 will become F+ and recombination may occur

E) 1 will remain the same;
2 will become F+, leu+, his+
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18
Table 8.2  Codon on mRNA and corresponding amino acid  UUA  leucine  UAA  nonsense  GCA  alanine  AAU  sparagine  AAG  lysine  UGC  cysteine  GUU  valine  UCG, UCU  serine \begin{array}{l}\underline{\text { Codon on mRNA and corresponding amino acid }}\\\begin{array} { l l l l } \text { UUA } & \text { leucine } & \text { UAA } & \text { nonsense } \\\text { GCA } & \text { alanine } & \text { AAU } & \text { sparagine } \\\text { AAG } & \text { lysine } & \text { UGC } & \text { cysteine } \\\text { GUU } & \text { valine } & \text { UCG, UCU } & \text { serine }\end{array}\end{array}

-(Use Table 8.2.) If a frameshift mutation occurred in a sequence of bases shown below, what would be the sequence of amino acids coded for?
3' ATTACGCTTTGC

A) Asparagine- cysteine- valine- serine
B) Leucine- arginine- lysine- alanine
C) Asparagine- arginine- lysine- alanine
D) Translation would stop at the first codon
E) Can't tell
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19
Table 8.3 - Metabolic Pathway
 Gene a Gene b?? Enzyme A  Enzyme B ??\begin{array}{cc}\text { Gene } a & \text { Gene } b \\? &? \\\text { Enzyme A } & \text { Enzyme B } \\? & ?\end{array}
 Compound A ?Compound B? Compound C \text { Compound A ?Compound B? Compound C }

-In Table 8.3, if compound C reacts with the allosteric site of enzyme A, this would exemplify

A) Competitive inhibition.
B) Feedback inhibition.
C) End- product repression.
D) A mutation.
E) None of the above.
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20
Table 8.2  Codon on mRNA and corresponding amino acid  UUA  leucine  UAA  nonsense  GCA  alanine  AAU  sparagine  AAG  lysine  UGC  cysteine  GUU  valine  UCG, UCU  serine \begin{array}{l}\underline{\text { Codon on mRNA and corresponding amino acid }}\\\begin{array} { l l l l } \text { UUA } & \text { leucine } & \text { UAA } & \text { nonsense } \\\text { GCA } & \text { alanine } & \text { AAU } & \text { sparagine } \\\text { AAG } & \text { lysine } & \text { UGC } & \text { cysteine } \\\text { GUU } & \text { valine } & \text { UCG, UCU } & \text { serine }\end{array}\end{array}

-(Use Table 8.2.) What is the sequence of amino acids coded for by the following sequence of bases in a strand of DNA?
3' ATTACGCTTTGC

A) Asparagine- cysteine- valine- serine
B) Asparagine- arginine- lysine- alanine
C) Leucine- arginine- lysine- alanine
D) Transcription would stop at the first codon
E) Can't tell
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21
The damage caused by ultraviolet radiation is

A) Never repaired.
B) Repaired by DNA replication.
C) Repaired during translation.
D) Cut out and replaced.
E) Repaired during transcription.
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22
The mechanism by which the presence of arabinose controls the arabinose operon.

A) DNA polymerase
B) Catabolic repression
C) Induction
D) Repression
E) Translation
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23
The lac operon

A) Produces repressible enzymes.
B) Produces inducible enzymes.
C) Produces constitutive enzymes.
D) Hydrolyzes lactose.
E) None of the above.
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24
The necessary ingredients for DNA synthesis can be mixed together in a test tube. The DNA polymerase is from Thermus aquaticus and the template is from a human cell. The DNA synthesized would be most similar to

A) T. aquaticus DNA.
B) A mixture of human and T. aquaticus DNA.
C) Human RNA.
D) T. aquaticus RNA.
E) Human DNA.
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25
Which of the following is not true of a bacterium that is R+?

A) It is resistant to certain drugs and heavy metals.
B) R+ can be transferred to a recipient cell.
C) It is F+.
D) R+ refers to the possession of a plasmid.
E) None of the above.
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26
DNA is constructed of

A) Two strands of identical nucleotides with hydrogen bonds between them.
B) A single strand of nucleotides with internal hydrogen bonding.
C) Nucleotides bonded A-C and G-T.
D) Two strands of nucleotides running antiparallel.
E) None of the above.
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27
Figure 8.2
<strong>Figure 8.2 In Figure 8.2, if base 4 is thymine, what is base 4'?</strong> A) Adenine B) Uracil C) Cytosine D) Thymine E) Guanine
In Figure 8.2, if base 4 is thymine, what is base 4'?

A) Adenine
B) Uracil
C) Cytosine
D) Thymine
E) Guanine
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28
If you knew the sequence of nucleotides within a gene, which one of the following could you determine with the most accuracy?

A) The tertiary structure of the protein
B) The quaternary structure of the protein
C) The secondary structure of the protein
D) The primary structure of the protein
E) Can't tell
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29
An enzyme produced in response to the presence of a substrate is called

A) A repressible enzyme.
B) An inducible enzyme.
C) An operator.
D) A promoter.
E) A restriction enzyme.
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30
Table 8.3 - Metabolic Pathway
 Gene a Gene b?? Enzyme A  Enzyme B ??\begin{array}{cc}\text { Gene } a & \text { Gene } b \\? & ? \\\text { Enzyme A } & \text { Enzyme B } \\?& ?\end{array}
 Compound A ? Compound B ?Compound C \text { Compound A ? Compound B ?Compound C }

-In Table 8.3, if enzyme A is a repressible enzyme, compound C would

A) Always be in excess.
B) Bind to the corepressor.
C) Bind to the enzyme.
D) All of the above.
E) None of the above.
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31
Transformation is the transfer of DNA from a donor to a recipient cell

A) By a bacteriophage.
B) By sexual reproduction.
C) As naked DNA in solution.
D) By cell- to- cell contact.
E) By crossing over.
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32
According to the operon model, for the synthesis of an inducible enzyme to occur, the

A) Substrate must bind to the repressor.
B) End- product must not be in excess.
C) Repressor must not be synthesized.
D) Repressor must bind to the operator.
E) Substrate must bind to the enzyme.
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33
Which of the following pairs is mismatched?

A) RNA polymerase - makes a molecule of RNA from an RNA template
B) DNA ligase - joins segments of DNA
C) DNA gyrase - coils and twists DNA
D) Transposase - insertion of DNA segments into DNA
E) DNA polymerase - makes a molecule of DNA from a DNA template
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34
An enzyme that cuts double- stranded DNA at specific nucleotide sequences.

A) RNA polymerase
B) DNA polymerase
C) Restriction enzyme
D) Transposase
E) DNA ligase
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35
Figure 8.3
<strong>Figure 8.3 In Figure 8.3, the antibiotic chloramphenicol binds the 50S ribosome as shown. From this information you can conclude that chloramphenicol</strong> A) Prevents transcription in prokaryotes. B) Prevents mRNA- ribosome binding. C) Prevents translation in prokaryotes. D) Prevents translation in eukaryotes. E) Prevents transcription in eukaryotes.
In Figure 8.3, the antibiotic chloramphenicol binds the 50S ribosome as shown. From this information you can conclude that chloramphenicol

A) Prevents transcription in prokaryotes.
B) Prevents mRNA- ribosome binding.
C) Prevents translation in prokaryotes.
D) Prevents translation in eukaryotes.
E) Prevents transcription in eukaryotes.
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36
An enzyme that cuts and seals DNA.

A) DNA ligase
B) DNA polymerase
C) Restriction enzyme
D) RNA polymerase
E) Transposase
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37
Figure 8.4
<strong>Figure 8.4 In Figure 8.4, which model of the lac operon correctly shows RNA polymerase, lactose, and repressor protein when the structural genes are being transcribed?</strong> A) a B) b C) c D) d E) e
In Figure 8.4, which model of the lac operon correctly shows RNA polymerase, lactose, and repressor protein when the structural genes are being transcribed?

A) a
B) b
C) c
D) d
E) e
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38
Genetic change in bacteria can be brought about by

A) Conjugation.
B) Transduction.
C) Transformation.
D) Mutation.
E) All of the above.
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39
Which of the following statements is false?

A) DNA polymerase joins nucleotides in one direction only.
B) Multiple replication forks are possible on a bacterial chromosome.
C) The leading strand of DNA is made continuously.
D) The lagging strand of DNA is started by an RNA primer.
E) DNA replication proceeds in one direction around the bacterial chromosome.
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40
A gene is best defined as

A) A segment of DNA.
B) Three nucleotides that code for an amino acid.
C) A transcribed unit of DNA.
D) A sequence of nucleotides in RNA that codes for a functional product.
E) A sequence of nucleotides in DNA that codes for a functional product.
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41
Figure 8.2
<strong>Figure 8.2 In Figure 8.2, base 2 is attached to</strong> A) Thymine. B) Deoxyribose. C) Phosphate. D) Ribose. E) Can't tell.
In Figure 8.2, base 2 is attached to

A) Thymine.
B) Deoxyribose.
C) Phosphate.
D) Ribose.
E) Can't tell.
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