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Deck 8: Gene Expression: the Flow of Information From Dna to Rna to Protein

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Question
Charles Yanofsky helped decipher the genetic code working with the ________ biosynthesis genes in ________.

A)leucine; Salmonella enteritidis
B)phenylalanine; Klebsiella pneumoniae
C)tryptophan; Escherichia coli
D)glycine; Serratia marcescens
Use Space or
up arrow
down arrow
to flip the card.
Question
The retroviruses, including HIV, are unique because they use

A)replication.
B)reverse transcription.
C)splicing.
D)reverse translation.
E)posttranslational modification.
Question
Which of these terms is NOT used as a nickname for a stop codon?

A)emerald
B)amber
C)opal
D)ochre
Question
Which of these is NOT a step in transcription?

A)replication
B)initiation
C)termination
D)elongation
Question
A codon is a three-base sequence of

A)mRNA that codes for an amino acid.
B)rRNA that codes for an amino acid.
C)tRNA that codes for an amino acid.
D)mRNA or tRNA that codes for an amino acid.
Question
Experiments that are done inside a living cell are described by the Latin term

A)in vino.
B)in vito.
C)in vivo.
D)in vitro.
Question
During maturation of a eukaryotic mRNA, sequences that are spliced out are

A)extremes.
B)exons.
C)inclusions.
D)introns.
E)spliceosomes.
Question
Nonsense codons are

A)codons that code for multiple amino acids.
B)codons that do not code for an amino acid.
C)codons that can be read forward or backward.
D)start codons.
Question
The Central Dogma describes the flow of genetic information as

A)Protein-RNA-DNA.
B)DNA-RNA-Protein.
C)RNA-DNA-Protein.
D)DNA-Protein-RNA.
Question
The pattern or sequence in which a molecule of mRNA is deciphered by a ribosome is the

A)synthesis platform.
B)code degeneration.
C)peptide transition.
D)reading frame.
Question
A complex of proteins and small nuclear RNAs that form discrete particles to mediate splicing is a

A)holoenzyme.
B)spliceosome.
C)nucleosome.
D)ribosome.
E)chromosome.
Question
Which of these statements does NOT describe a characteristic of the genetic code?

A)The number of codons and amino acids is the same.
B)The code is used by nearly every living organism.
C)Some amino acids have multiple codons.
D)The code is degenerate.
Question
How many different amino acids could be encoded by the synthetic mRNA sequence 5' UGCUGCUGC 3'?

A)0
B)1
C)2
D)3
E)6
Question
The cellular organelle responsible for protein synthesis is the

A)nucleus.
B)mitochondria.
C)centrioles.
D)ribosome.
Question
The genetic code includes

A)3 start codons and 1 stop codon.
B)2 start codons and 2 stop codons.
C)1 start codon and 3 stop codons.
D)0 start codons and 4 stop codons.
Question
Transcription occurs ________ and translation occurs ________ of eukaryotic cells.

A)in the nucleus; in the cytoplasm
B)in the cytoplasm; in the nucleus
C)in the nucleus; at the cell membrane
D)in the cytoplasm; at the cell membrane
Question
RNA molecules that act as enzymes to catalyze specific biochemical reactions are

A)RNases.
B)splice acceptors.
C)ribozymes.
D)tRNAs.
E)restriction enzymes.
Question
Experiments that are done outside a living cell are described by the Latin term

A)in vino.
B)in vito.
C)in vivo.
D)in vitro.
Question
The sequences found in a mature eukaryotic mRNAs are

A)extremes.
B)exons.
C)inclusions.
D)introns.
E)spliceosomes.
Question
The DNA sequence 5' ATGCCTGAATCAGCTTTA 3' could encode a maximum of ____ amino acids in a protein.

A)5
B)6
C)7
D)18
Question
Transcription occurs ________ and translation occurs ________ of prokaryotic cells.

A)at the cell membrane; in the cytoplasm
B)in the cytoplasm; in the nucleus
C)in the cytoplasm; at the cell membrane
D)in the cytoplasm; in the cytoplasm
Question
A mutant tRNA that recognizes a nonsense codon and inserts an amino acid where protein synthesis should have stopped is a(n)

A)nonsense tRNA.
B)nonsense suppressor tRNA.
C)revertant tRNA.
D)uncharged tRNA.
Question
A neomorphic mutation could result in an allele that

A)produces no gene product.
B)produces a nonfunctional gene product.
C)produces a novel protein that gives rise to a new phenotype.
D)produces mutant protein subunits that aggregate with wild-type subunits, inactivating them.
E)produces an altered protein that functions more efficiently than the wild-type protein does.
Question
RNA polymerase binds to ________ before beginning transcription.

A)a promoter
B)an operator
C)a structural gene
D)a replication origin
E)the Shine-Dalgarno
Question
Aminoacyl-tRNA synthetase is the enzyme that

A)folds tRNA molecules into their proper configuration.
B)causes tRNA molecules to bind to the aminoacyl site of a ribosome.
C)produces tRNA by reading DNA molecules.
D)adds the appropriate amino acid to an uncharged tRNA.
Question
A mutation that changes a codon that originally coded for an amino acid into a stop codon is a

A)frameshift mutation.
B)missense mutation.
C)silent mutation.
D)nonsense mutation.
Question
A prokaryotic large ribosomal subunit is composed of

A)tRNA and protein.
B)mRNA and protein.
C)rRNA and protein.
D)only proteins folded together.
E)only rRNAs folded together.
Question
Drugs like AZT, ddC, or ddI work against the AIDS virus because they

A)destroy viral proteins.
B)look like hairpins to cause premature termination of viral mRNA.
C)look like tRNAs and block viral translation.
D)look like nitrogenous bases and block viral reverse transcriptase.
E)prevent the virus from releasing its genome into the cytoplasm.
Question
Mutations that result in the production of much less of a protein or a protein that functions less efficiently than wild type are

A)null mutations.
B)hypomorphic mutations.
C)hypermorphic mutations.
D)conditional mutations.
E)neomorphic mutations.
Question
In the modification of eukaryotic mRNA, ________ cap and ________ tail are usually added to the transcript.

A)an acetylated-guanine; a poly-cytosine
B)a poly-guanine; a methyl group
C)a poly-thymine; an acetyl group
D)a methylated-guanine; a poly-adenine
E)a methylated-adenine; a poly-guanine
Question
Which enzyme forms peptide bonds between adjacent amino acids during polypeptide synthesis?

A)RNA polymerase
B)phosphotransferase
C)peptidyl transferase
D)ribonuclease
Question
The appearance of a novel phenotype resulting from the substitution of a single base pair might be due to

A)a change in the amino acid sequence.
B)a change in the amount of protein expressed.
C)an alteration in a gene that codes for a nontranslated RNA.
D)a change in the developmental time or location at which a gene is expressed.
E)All of the choices are possible consequences of a single base pair substitution.
Question
Mutations that completely abolish the function of a wild-type allele are

A)null mutations.
B)hypomorphic mutations.
C)hypermorphic mutations.
D)conditional mutations.
E)neomorphic mutations.
Question
An anticodon is a physical component of ________ molecule.

A)a tRNA
B)an mRNA
C)an rRNA
D)a DNA
Question
A mutation that changes a codon sequence, and subsequently changes the amino acid that should have been placed at that point in the polypeptide chain, is a

A)frameshift mutation.
B)missense mutation.
C)silent mutation.
D)nonsense mutation.
Question
Select the statement that describes the stability of DNA and RNA under typical cellular conditions.

A)Double-stranded DNA in the nucleus and single-stranded RNA in the cytoplasm are equally stable.
B)Double-stranded DNA in the nucleus is more stable than single-stranded RNA in the cytoplasm.
C)Single-stranded RNA in the cytoplasm is more stable than double-stranded DNA in the nucleus.
D)Both RNA in the cytoplasm and double-stranded DNA in the nucleus can never be degraded within a cell.
Question
The ________ codon is used as the start codon by nearly all organisms.

A)AUG methionine
B)UGA arginine
C)AUG cysteine
D)UGA methionine
Question
A mutation that occurs when a base is inserted into or deleted from a DNA sequence, completely altering the subsequent sequence of codons, is a

A)frameshift mutation.
B)missense mutation.
C)silent mutation.
D)nonsense mutation.
Question
Which of these processes are coupled in prokaryotes but NOT in eukaryotes?

A)transcription and translation
B)replication and transcription
C)replication and translation
D)transcription and splicing
Question
A mutation that is characterized by a change in the DNA sequence, but no change in the resulting protein sequence, is a

A)frameshift mutation.
B)missense mutation.
C)silent mutation.
D)nonsense mutation.
Question
The DNA sequence 5′ ATGGGGGACACC 3′ encodes the amino acids Met Gly Asp Thr.A mutation changes the sequence to 5′ ATGGGTGACACC 3′, but the same amino acids are encoded.What type of mutation has occurred?

A)frameshift mutation
B)missense mutation
C)silent mutation
D)nonsense mutation
Question
A mutant allele results in a truncated form of a signaling protein.This protein can still bind its receptor protein but does not activate the receptor and inhibits wild-type signaling proteins from binding the receptor.What type of allele is this mutant allele?

A)hypomorphic allele
B)hypermorphic allele
C)neomorphic allele
D)antimorphic allele
Question
A neomorphic mutation in the Antennapedia (Antp)gene of Drosophila causes

A)kinks to form in their tails.
B)growth of antenna from the leg region.
C)total loss of color vision.
D)extra antenna on the head.
E)growth of a leg from the head region.
Question
The wobble base of a tRNA is

A)the 5′ base of the anticodon.
B)the 3′ base of the anticodon.
C)the 5′ base of the codon.
D)any base in the anticodon.
Question
The DNA sequence 5′ ATGGGGGACACC 3′ encodes the amino acids Met Gly Asp Thr.A mutation changes the sequence to 5′ ATGGGGAACACC 3′ that encodes the amino acids Met Gly Asn Thr.What type of mutation has occurred?

A)frameshift mutation
B)missense mutation
C)silent mutation
D)nonsense mutation
Question
A mutation creates a dominant negative allele of a particular gene.The gene encodes a protein that forms a trimer within the cell.If one or more of the subunits has the mutant structure, the entire trimeric protein is inactive.In a heterozygous cell, if the proteins of both alleles are present at the same levels, what percent of the trimers present in the cell will be active?

A)100%
B)87.5%
C)50%
D)33%
E)12.5%
Question
In the digestive system, some protease enzymes must be secreted as an inactive form and then activated later by proteolytic cleavage once outside of the secreting cell to prevent active proteases from damaging the secreting cells.What is the category of precursor proteins of this type?

A)ubiquitins
B)zymogens
C)glycosides
D)activins
Question
An anticodon of sequence 5′ GUA 3′ will recognize the codon sequence

A)5′ GTA 3′.
B)5′ UAC 3′.
C)5′ CAU 3′.
D)5′ AUG 3′.
E)None of the codon sequences are correct.
Question
A tRNA with the anticodon sequence 5′ IUA 3′ will not normally exist because

A)5′ UAA 3′ is a stop codon.
B)I is not a base present in tRNAs.
C)it will recognize codons for different amino acids.
D)5′ UAU 3′ and 5′ UAC 3′ both specify tyrosine.
Question
A tRNA with the anticodon sequence 5′ IUC 3′ will not normally exist because

A)5′ GAU 3′ and 5′ GAC 3′ specify asparagine, but 5′ GAA 3′ specifies glutamic acid.
B)5′ GAU 3′ and 5′ GAC 3′ specify different amino acids.
C)I is not a base present in tRNAs.
D)5′ GAU 3′ and 5′ GAC 3′ both specify asparagine.
Question
An anticodon of sequence 5′ GUA 3′ will recognize the codon sequence

A)5′ GTA 3′.
B)5′ UAU 3′.
C)5′ CAU 3′.
D)5′ AUG 3′.
E)None of the codon sequences are correct.
Question
A large deletion removes the promoter and first three exons of a gene.No mRNA or protein is detected.What type of allele is this mutant allele?

A)hypomorphic allele
B)hypermorphic allele
C)null allele
D)antimorphic allele
Question
Which of the following is required for initiation of eukaryotic translation?

A)Shine-Dalgarno sequence
B)5' cap
C)release factors
D)N-formylmethionine
E)introns
Question
Many cancers have a mutation that changes a valine to a glutamic acid in the RAF kinase protein which phosphorylates proteins that promote cell division.This mutant protein is a constitutively active kinase.What type of allele is this mutant allele?

A)hypomorphic allele
B)hypermorphic allele
C)null allele
D)antimorphic allele
Question
Which of the following mutant alleles is most likely to be dominant to the wild-type allele?

A)a silent mutation
B)a premature stop codon that results in a partial loss of protein function
C)a missense mutation that increases enzyme activity
D)a promoter mutation that reduces gene transcription
Question
A DNA sequence 5′ ATGGGGGACACC 3′ encodes the amino acids Met Gly Asp Thr.A mutation changes the sequence to 5′ ATGAGGGGACACC 3′ that encodes the amino acids Met Arg Gly His.What type of mutation has occurred?

A)frameshift mutation
B)missense mutation
C)silent mutation
D)nonsense mutation
Question
When the anticodon of a tRNA and the codon of an mRNA interact, the two sequences are

A)identical.
B)antiparallel.
C)parallel.
D)not related.
Question
The different tRNAs are produced by

A)different aminoacyl-tRNA synthetases that produce tRNAs from ribonucleotides in the cytoplasm.
B)RNA editing of transcripts of a single tRNA gene.
C)alternatively spliced of a single tRNA gene.
D)transcription of different tRNA genes in the genome.
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Deck 8: Gene Expression: the Flow of Information From Dna to Rna to Protein
1
Charles Yanofsky helped decipher the genetic code working with the ________ biosynthesis genes in ________.

A)leucine; Salmonella enteritidis
B)phenylalanine; Klebsiella pneumoniae
C)tryptophan; Escherichia coli
D)glycine; Serratia marcescens
C
2
The retroviruses, including HIV, are unique because they use

A)replication.
B)reverse transcription.
C)splicing.
D)reverse translation.
E)posttranslational modification.
B
3
Which of these terms is NOT used as a nickname for a stop codon?

A)emerald
B)amber
C)opal
D)ochre
A
4
Which of these is NOT a step in transcription?

A)replication
B)initiation
C)termination
D)elongation
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
5
A codon is a three-base sequence of

A)mRNA that codes for an amino acid.
B)rRNA that codes for an amino acid.
C)tRNA that codes for an amino acid.
D)mRNA or tRNA that codes for an amino acid.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
6
Experiments that are done inside a living cell are described by the Latin term

A)in vino.
B)in vito.
C)in vivo.
D)in vitro.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
7
During maturation of a eukaryotic mRNA, sequences that are spliced out are

A)extremes.
B)exons.
C)inclusions.
D)introns.
E)spliceosomes.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
8
Nonsense codons are

A)codons that code for multiple amino acids.
B)codons that do not code for an amino acid.
C)codons that can be read forward or backward.
D)start codons.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
9
The Central Dogma describes the flow of genetic information as

A)Protein-RNA-DNA.
B)DNA-RNA-Protein.
C)RNA-DNA-Protein.
D)DNA-Protein-RNA.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
10
The pattern or sequence in which a molecule of mRNA is deciphered by a ribosome is the

A)synthesis platform.
B)code degeneration.
C)peptide transition.
D)reading frame.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
11
A complex of proteins and small nuclear RNAs that form discrete particles to mediate splicing is a

A)holoenzyme.
B)spliceosome.
C)nucleosome.
D)ribosome.
E)chromosome.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
12
Which of these statements does NOT describe a characteristic of the genetic code?

A)The number of codons and amino acids is the same.
B)The code is used by nearly every living organism.
C)Some amino acids have multiple codons.
D)The code is degenerate.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
13
How many different amino acids could be encoded by the synthetic mRNA sequence 5' UGCUGCUGC 3'?

A)0
B)1
C)2
D)3
E)6
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
14
The cellular organelle responsible for protein synthesis is the

A)nucleus.
B)mitochondria.
C)centrioles.
D)ribosome.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
15
The genetic code includes

A)3 start codons and 1 stop codon.
B)2 start codons and 2 stop codons.
C)1 start codon and 3 stop codons.
D)0 start codons and 4 stop codons.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
16
Transcription occurs ________ and translation occurs ________ of eukaryotic cells.

A)in the nucleus; in the cytoplasm
B)in the cytoplasm; in the nucleus
C)in the nucleus; at the cell membrane
D)in the cytoplasm; at the cell membrane
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
17
RNA molecules that act as enzymes to catalyze specific biochemical reactions are

A)RNases.
B)splice acceptors.
C)ribozymes.
D)tRNAs.
E)restriction enzymes.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
18
Experiments that are done outside a living cell are described by the Latin term

A)in vino.
B)in vito.
C)in vivo.
D)in vitro.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
19
The sequences found in a mature eukaryotic mRNAs are

A)extremes.
B)exons.
C)inclusions.
D)introns.
E)spliceosomes.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
20
The DNA sequence 5' ATGCCTGAATCAGCTTTA 3' could encode a maximum of ____ amino acids in a protein.

A)5
B)6
C)7
D)18
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
21
Transcription occurs ________ and translation occurs ________ of prokaryotic cells.

A)at the cell membrane; in the cytoplasm
B)in the cytoplasm; in the nucleus
C)in the cytoplasm; at the cell membrane
D)in the cytoplasm; in the cytoplasm
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
22
A mutant tRNA that recognizes a nonsense codon and inserts an amino acid where protein synthesis should have stopped is a(n)

A)nonsense tRNA.
B)nonsense suppressor tRNA.
C)revertant tRNA.
D)uncharged tRNA.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
23
A neomorphic mutation could result in an allele that

A)produces no gene product.
B)produces a nonfunctional gene product.
C)produces a novel protein that gives rise to a new phenotype.
D)produces mutant protein subunits that aggregate with wild-type subunits, inactivating them.
E)produces an altered protein that functions more efficiently than the wild-type protein does.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
24
RNA polymerase binds to ________ before beginning transcription.

A)a promoter
B)an operator
C)a structural gene
D)a replication origin
E)the Shine-Dalgarno
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
25
Aminoacyl-tRNA synthetase is the enzyme that

A)folds tRNA molecules into their proper configuration.
B)causes tRNA molecules to bind to the aminoacyl site of a ribosome.
C)produces tRNA by reading DNA molecules.
D)adds the appropriate amino acid to an uncharged tRNA.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
26
A mutation that changes a codon that originally coded for an amino acid into a stop codon is a

A)frameshift mutation.
B)missense mutation.
C)silent mutation.
D)nonsense mutation.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
27
A prokaryotic large ribosomal subunit is composed of

A)tRNA and protein.
B)mRNA and protein.
C)rRNA and protein.
D)only proteins folded together.
E)only rRNAs folded together.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
28
Drugs like AZT, ddC, or ddI work against the AIDS virus because they

A)destroy viral proteins.
B)look like hairpins to cause premature termination of viral mRNA.
C)look like tRNAs and block viral translation.
D)look like nitrogenous bases and block viral reverse transcriptase.
E)prevent the virus from releasing its genome into the cytoplasm.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
29
Mutations that result in the production of much less of a protein or a protein that functions less efficiently than wild type are

A)null mutations.
B)hypomorphic mutations.
C)hypermorphic mutations.
D)conditional mutations.
E)neomorphic mutations.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
30
In the modification of eukaryotic mRNA, ________ cap and ________ tail are usually added to the transcript.

A)an acetylated-guanine; a poly-cytosine
B)a poly-guanine; a methyl group
C)a poly-thymine; an acetyl group
D)a methylated-guanine; a poly-adenine
E)a methylated-adenine; a poly-guanine
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
31
Which enzyme forms peptide bonds between adjacent amino acids during polypeptide synthesis?

A)RNA polymerase
B)phosphotransferase
C)peptidyl transferase
D)ribonuclease
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
32
The appearance of a novel phenotype resulting from the substitution of a single base pair might be due to

A)a change in the amino acid sequence.
B)a change in the amount of protein expressed.
C)an alteration in a gene that codes for a nontranslated RNA.
D)a change in the developmental time or location at which a gene is expressed.
E)All of the choices are possible consequences of a single base pair substitution.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
33
Mutations that completely abolish the function of a wild-type allele are

A)null mutations.
B)hypomorphic mutations.
C)hypermorphic mutations.
D)conditional mutations.
E)neomorphic mutations.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
34
An anticodon is a physical component of ________ molecule.

A)a tRNA
B)an mRNA
C)an rRNA
D)a DNA
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
35
A mutation that changes a codon sequence, and subsequently changes the amino acid that should have been placed at that point in the polypeptide chain, is a

A)frameshift mutation.
B)missense mutation.
C)silent mutation.
D)nonsense mutation.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
36
Select the statement that describes the stability of DNA and RNA under typical cellular conditions.

A)Double-stranded DNA in the nucleus and single-stranded RNA in the cytoplasm are equally stable.
B)Double-stranded DNA in the nucleus is more stable than single-stranded RNA in the cytoplasm.
C)Single-stranded RNA in the cytoplasm is more stable than double-stranded DNA in the nucleus.
D)Both RNA in the cytoplasm and double-stranded DNA in the nucleus can never be degraded within a cell.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
37
The ________ codon is used as the start codon by nearly all organisms.

A)AUG methionine
B)UGA arginine
C)AUG cysteine
D)UGA methionine
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
38
A mutation that occurs when a base is inserted into or deleted from a DNA sequence, completely altering the subsequent sequence of codons, is a

A)frameshift mutation.
B)missense mutation.
C)silent mutation.
D)nonsense mutation.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
39
Which of these processes are coupled in prokaryotes but NOT in eukaryotes?

A)transcription and translation
B)replication and transcription
C)replication and translation
D)transcription and splicing
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
40
A mutation that is characterized by a change in the DNA sequence, but no change in the resulting protein sequence, is a

A)frameshift mutation.
B)missense mutation.
C)silent mutation.
D)nonsense mutation.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
41
The DNA sequence 5′ ATGGGGGACACC 3′ encodes the amino acids Met Gly Asp Thr.A mutation changes the sequence to 5′ ATGGGTGACACC 3′, but the same amino acids are encoded.What type of mutation has occurred?

A)frameshift mutation
B)missense mutation
C)silent mutation
D)nonsense mutation
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
42
A mutant allele results in a truncated form of a signaling protein.This protein can still bind its receptor protein but does not activate the receptor and inhibits wild-type signaling proteins from binding the receptor.What type of allele is this mutant allele?

A)hypomorphic allele
B)hypermorphic allele
C)neomorphic allele
D)antimorphic allele
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
43
A neomorphic mutation in the Antennapedia (Antp)gene of Drosophila causes

A)kinks to form in their tails.
B)growth of antenna from the leg region.
C)total loss of color vision.
D)extra antenna on the head.
E)growth of a leg from the head region.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
Unlock Deck
k this deck
44
The wobble base of a tRNA is

A)the 5′ base of the anticodon.
B)the 3′ base of the anticodon.
C)the 5′ base of the codon.
D)any base in the anticodon.
Unlock Deck
Unlock for access to all 58 flashcards in this deck.
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45
The DNA sequence 5′ ATGGGGGACACC 3′ encodes the amino acids Met Gly Asp Thr.A mutation changes the sequence to 5′ ATGGGGAACACC 3′ that encodes the amino acids Met Gly Asn Thr.What type of mutation has occurred?

A)frameshift mutation
B)missense mutation
C)silent mutation
D)nonsense mutation
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46
A mutation creates a dominant negative allele of a particular gene.The gene encodes a protein that forms a trimer within the cell.If one or more of the subunits has the mutant structure, the entire trimeric protein is inactive.In a heterozygous cell, if the proteins of both alleles are present at the same levels, what percent of the trimers present in the cell will be active?

A)100%
B)87.5%
C)50%
D)33%
E)12.5%
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47
In the digestive system, some protease enzymes must be secreted as an inactive form and then activated later by proteolytic cleavage once outside of the secreting cell to prevent active proteases from damaging the secreting cells.What is the category of precursor proteins of this type?

A)ubiquitins
B)zymogens
C)glycosides
D)activins
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48
An anticodon of sequence 5′ GUA 3′ will recognize the codon sequence

A)5′ GTA 3′.
B)5′ UAC 3′.
C)5′ CAU 3′.
D)5′ AUG 3′.
E)None of the codon sequences are correct.
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49
A tRNA with the anticodon sequence 5′ IUA 3′ will not normally exist because

A)5′ UAA 3′ is a stop codon.
B)I is not a base present in tRNAs.
C)it will recognize codons for different amino acids.
D)5′ UAU 3′ and 5′ UAC 3′ both specify tyrosine.
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50
A tRNA with the anticodon sequence 5′ IUC 3′ will not normally exist because

A)5′ GAU 3′ and 5′ GAC 3′ specify asparagine, but 5′ GAA 3′ specifies glutamic acid.
B)5′ GAU 3′ and 5′ GAC 3′ specify different amino acids.
C)I is not a base present in tRNAs.
D)5′ GAU 3′ and 5′ GAC 3′ both specify asparagine.
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51
An anticodon of sequence 5′ GUA 3′ will recognize the codon sequence

A)5′ GTA 3′.
B)5′ UAU 3′.
C)5′ CAU 3′.
D)5′ AUG 3′.
E)None of the codon sequences are correct.
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52
A large deletion removes the promoter and first three exons of a gene.No mRNA or protein is detected.What type of allele is this mutant allele?

A)hypomorphic allele
B)hypermorphic allele
C)null allele
D)antimorphic allele
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53
Which of the following is required for initiation of eukaryotic translation?

A)Shine-Dalgarno sequence
B)5' cap
C)release factors
D)N-formylmethionine
E)introns
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54
Many cancers have a mutation that changes a valine to a glutamic acid in the RAF kinase protein which phosphorylates proteins that promote cell division.This mutant protein is a constitutively active kinase.What type of allele is this mutant allele?

A)hypomorphic allele
B)hypermorphic allele
C)null allele
D)antimorphic allele
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55
Which of the following mutant alleles is most likely to be dominant to the wild-type allele?

A)a silent mutation
B)a premature stop codon that results in a partial loss of protein function
C)a missense mutation that increases enzyme activity
D)a promoter mutation that reduces gene transcription
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56
A DNA sequence 5′ ATGGGGGACACC 3′ encodes the amino acids Met Gly Asp Thr.A mutation changes the sequence to 5′ ATGAGGGGACACC 3′ that encodes the amino acids Met Arg Gly His.What type of mutation has occurred?

A)frameshift mutation
B)missense mutation
C)silent mutation
D)nonsense mutation
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Unlock Deck
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57
When the anticodon of a tRNA and the codon of an mRNA interact, the two sequences are

A)identical.
B)antiparallel.
C)parallel.
D)not related.
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58
The different tRNAs are produced by

A)different aminoacyl-tRNA synthetases that produce tRNAs from ribonucleotides in the cytoplasm.
B)RNA editing of transcripts of a single tRNA gene.
C)alternatively spliced of a single tRNA gene.
D)transcription of different tRNA genes in the genome.
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