1) A mutation that changes a codon sequence, and subsequentlychanges the amino acid that should have been placed at that pointin the polypeptide chain, is called a
A. frameshift mutation.
B. missense mutation.
C. silent mutation.
D. nonsense mutation.
2) A mutation that changes a codon that originally coded for anamino acid into a stop codon is called a
A. frameshift mutation.
B. missense mutation.
C. silent mutation.
D. nonsense mutation.
3) Assume that a new low-calorie sweetener is developed. Thestructure is novel and is tested with the Ames test formutagenicity. The following results are obtained:
Sample Number of his+ revertant colonies
distilled water 2
distilled water + rat liver enzymes 3
Sweetener 1
sweetener + rat liver enzymes 805
What conclusion is most consistent with this data?
A. The sweetener is not mutagenic.
B. Rat liver enzymes are highly mutagenic.
C. The sweetener is not mutagenic but can be converted intostrong mutagens.
D. The sweetener is mutagenic and can be converted into strongmutagens.
E. The sweetener and its conversion products are equallymutagenic.
4) What protein makes Okazaki fragments?
A. primase.
B. helicase.
C. DNA polymerase III.
D. DNA polymerase I.
E. ligase.
5) In the modification of eukaryotic mRNA, a "cap" consisting ofa/an _________ and a tail consisting of _______ are usually addedto the transcript.
A. acetyl group; multiple cytosines
B. multiple guanines; methyl group
C. multiple thymines; acetyl group
D. methyl group; multiple adenines
6). RNA polymerase binds to a sequence called a/an______________ before beginning transcription.
A. promoter
B. operator
C. structural gene
D. replication origin
7) In Sanger (enzymatic extension) sequencing, what causes DNAsynthesis to terminate at a specific base?
A. chemicals that cleave DNA after particular bases
B. fluorescent chemicals
C. nucleotide triphosphates that lack a base
D. nucleotide triphosphates that lack a hydroxyl
E. nucleosides that lack a 5' phosphate
8) What are differences between chromosomes of most prokaryotesand those of eukaryotes?
A) The prokaryotic chromosome is linear, while the eukaryoticchromosome is circular.
B) The prokaryotic chromosome is circular, while the eukaryoticchromosome is linear.
C) The prokaryotic chromosome has one origin of replication,while eukaryotic chromosomes have several.
D) The prokaryotic chromosome does not have nucleosomes, whilethe eukaryotic chromosome does.
E) The prokaryotic chromosome is not necessary for theorganism's survival, while the eukaryotic chromosome is.
9) As helicase unwinds the DNA molecule, what keeps the strandsapart?
A) DNA polymerase
B) Reverse transcriptase
C) Replication fork
D) Single-strand binding proteins
E) Okazaki fragments
10) Which enzymes are responsible removal of the RNA primers andreplacement with DNA nucleotides and repairing the single-strandednick adjacent to Okazaki?
A) DNA primase
B) DNA polymerase I
C) DNA polymerase III
D) DNA ligase
E) DNA polymerase II
11) Which enzyme activity is associated with the proofreadingmechanism of DNA polymerase I?
A) 5'-to-3' exonuclease activity
B) 3'-to-5' exonuclease activity
C) 5'-to-3' polymerase activity
D) 3'-to-5' polymerase activity
12) Which type of RNA is found only in eukaryotes?
A) mRNA
B) tRNA
C) rRNA
D) snRNA
13) During transcription, the synthesis of the mRNA strandproceeds in which direction?
A) 5' to 3' only
B) 3' to 5' only
C) Both 5' to 3' and 3' to 5'
D) Either 5' to 3' or 3' to 5'
E) First 5' to 3', and then 3' to 5'
14) Which of the following are true?
A) Prokaryotes have only one kind of RNA polymerase, but severaldifferent sigma factors
B) Prokaryotic messages are polycistronic.
C) In eukaryotes, small ribosomal subunit binds to 5%u2019methylated cap and migrates to AUG start codon.
D) In eukaryotes, the mRNA can only be translated by oneribosome at a time.
E) Exons are spliced out of prokaryotic mRNAs
F) Initiating tRNA in prokaryotes is fMet.
G) Eukaryotes, nuclear membrane prevents coupling oftranscription and translation.
H) In eukaryotes, translation continues until the ribosomeencounters the poly-A tail.
15) Every amino acid contains
A) an amino group
B) an acetyl group.
C) a hydroxyl group
D) a carboxyl group
E) an R group
16) What is the role of tRNA in translation?
A) It brings together two subunits of a ribosome.
B) It couples an amino acid with aminoacyl-tRNA synthetase.
C) It helps fold up the finished polypeptide chain.
D) It catalyzes peptidyl transferase activity.
E) It binds to an mRNA codon and carries the corresponding aminoacid
17) But the following steps of translation in prokaryotes inorder:
_____ Termination of translation is signaled by one of threestop codons
_____ An Aminoacyl-tRNA binds to the ribosome in the A site
_____ The small subunit binds to the Shine-Dalgarno sequence
_____ The ribosome moves along the mRNA one codon toward the3%u2019 end
_____ The small subunit of migrates to the region of the mRNAcontaining AUG codon
_____ The large subunit binds to the small subunit
_____ A peptide bond is formed between the amino acids in the Pand A sites
_____ A special initiator tRNA binds to the AUG
1) A mutation that changes a codon sequence, and subsequentlychanges the amino acid that should have been placed at that pointin the polypeptide chain, is called a
A. frameshift mutation.
B. missense mutation.
C. silent mutation.
D. nonsense mutation.
2) A mutation that changes a codon that originally coded for anamino acid into a stop codon is called a
A. frameshift mutation.
B. missense mutation.
C. silent mutation.
D. nonsense mutation.
3) Assume that a new low-calorie sweetener is developed. Thestructure is novel and is tested with the Ames test formutagenicity. The following results are obtained:
Sample Number of his+ revertant colonies
distilled water 2
distilled water + rat liver enzymes 3
Sweetener 1
sweetener + rat liver enzymes 805
What conclusion is most consistent with this data?
A. The sweetener is not mutagenic.
B. Rat liver enzymes are highly mutagenic.
C. The sweetener is not mutagenic but can be converted intostrong mutagens.
D. The sweetener is mutagenic and can be converted into strongmutagens.
E. The sweetener and its conversion products are equallymutagenic.
4) What protein makes Okazaki fragments?
A. primase.
B. helicase.
C. DNA polymerase III.
D. DNA polymerase I.
E. ligase.
5) In the modification of eukaryotic mRNA, a "cap" consisting ofa/an _________ and a tail consisting of _______ are usually addedto the transcript.
A. acetyl group; multiple cytosines
B. multiple guanines; methyl group
C. multiple thymines; acetyl group
D. methyl group; multiple adenines
6). RNA polymerase binds to a sequence called a/an______________ before beginning transcription.
A. promoter
B. operator
C. structural gene
D. replication origin
7) In Sanger (enzymatic extension) sequencing, what causes DNAsynthesis to terminate at a specific base?
A. chemicals that cleave DNA after particular bases
B. fluorescent chemicals
C. nucleotide triphosphates that lack a base
D. nucleotide triphosphates that lack a hydroxyl
E. nucleosides that lack a 5' phosphate
8) What are differences between chromosomes of most prokaryotesand those of eukaryotes?
A) The prokaryotic chromosome is linear, while the eukaryoticchromosome is circular.
B) The prokaryotic chromosome is circular, while the eukaryoticchromosome is linear.
C) The prokaryotic chromosome has one origin of replication,while eukaryotic chromosomes have several.
D) The prokaryotic chromosome does not have nucleosomes, whilethe eukaryotic chromosome does.
E) The prokaryotic chromosome is not necessary for theorganism's survival, while the eukaryotic chromosome is.
9) As helicase unwinds the DNA molecule, what keeps the strandsapart?
A) DNA polymerase
B) Reverse transcriptase
C) Replication fork
D) Single-strand binding proteins
E) Okazaki fragments
10) Which enzymes are responsible removal of the RNA primers andreplacement with DNA nucleotides and repairing the single-strandednick adjacent to Okazaki?
A) DNA primase
B) DNA polymerase I
C) DNA polymerase III
D) DNA ligase
E) DNA polymerase II
11) Which enzyme activity is associated with the proofreadingmechanism of DNA polymerase I?
A) 5'-to-3' exonuclease activity
B) 3'-to-5' exonuclease activity
C) 5'-to-3' polymerase activity
D) 3'-to-5' polymerase activity
12) Which type of RNA is found only in eukaryotes?
A) mRNA
B) tRNA
C) rRNA
D) snRNA
13) During transcription, the synthesis of the mRNA strandproceeds in which direction?
A) 5' to 3' only
B) 3' to 5' only
C) Both 5' to 3' and 3' to 5'
D) Either 5' to 3' or 3' to 5'
E) First 5' to 3', and then 3' to 5'
14) Which of the following are true?
A) Prokaryotes have only one kind of RNA polymerase, but severaldifferent sigma factors
B) Prokaryotic messages are polycistronic.
C) In eukaryotes, small ribosomal subunit binds to 5%u2019methylated cap and migrates to AUG start codon.
D) In eukaryotes, the mRNA can only be translated by oneribosome at a time.
E) Exons are spliced out of prokaryotic mRNAs
F) Initiating tRNA in prokaryotes is fMet.
G) Eukaryotes, nuclear membrane prevents coupling oftranscription and translation.
H) In eukaryotes, translation continues until the ribosomeencounters the poly-A tail.
15) Every amino acid contains
A) an amino group
B) an acetyl group.
C) a hydroxyl group
D) a carboxyl group
E) an R group
16) What is the role of tRNA in translation?
A) It brings together two subunits of a ribosome.
B) It couples an amino acid with aminoacyl-tRNA synthetase.
C) It helps fold up the finished polypeptide chain.
D) It catalyzes peptidyl transferase activity.
E) It binds to an mRNA codon and carries the corresponding aminoacid
17) But the following steps of translation in prokaryotes inorder:
_____ Termination of translation is signaled by one of threestop codons
_____ An Aminoacyl-tRNA binds to the ribosome in the A site
_____ The small subunit binds to the Shine-Dalgarno sequence
_____ The ribosome moves along the mRNA one codon toward the3%u2019 end
_____ The small subunit of migrates to the region of the mRNAcontaining AUG codon
_____ The large subunit binds to the small subunit
_____ A peptide bond is formed between the amino acids in the Pand A sites
_____ A special initiator tRNA binds to the AUG