1) Which of the following variations on translation would be most disadvantageous for a cell?
A) translating polypeptides directly from DNA
B) using fewer
kinds of tRNA
C) having only one stop codon
D) lengthening
the half-life of mRNA
E) having a second codon (besides AUG) as a
start codon
A
2) Garrod hypothesized that "inborn errors of metabolism" such as alkaptonuria occur because
A) metabolic enzymes require vitamin cofactors, and affected
individuals have significant nutritional
deficiencies.
B)
enzymes are made of DNA, and affected individuals lack DNA
polymerase.
C) many metabolic enzymes use DNA as a cofactor, and
affected individuals have mutations that
prevent their enzymes
from interacting efficiently with DNA.
D) certain metabolic
reactions are carried out by ribozymes, and affected individuals lack
key splicing
factors.
E) genes dictate the production of
specific enzymes, and affected individuals have genetic defects
that
cause them to lack certain enzymes.
A
3) Garrod's information about the enzyme alteration resulting in
alkaptonuria led to further elucidation of the same pathway in humans.
Phenylketonuria (PKU) occurs when another enzyme in the pathway is
altered or missing, resulting in a failure of phenylalanine (phe) to
be metabolized to another amino acid: tyrosine. Tyrosine is an earlier
substrate in the pathway altered in alkaptonuria. How might PKU
affect
the presence or absence of alkaptonuria?
A) It would have no effect, because PKU occurs several steps away in
the pathway.
B) It would have no effect, because tyrosine is also
available from the diet.
C) Anyone with PKU must also have
alkaptonuria.
D) Anyone with PKU is born with a predisposition to
later alkaptonuria.
E) Anyone with PKU has mild symptoms of alkaptonuria.
B
4) The nitrogenous base adenine is found in all members of which group?
A) proteins, triglycerides, and testosterone
B) proteins, ATP,
and DNA
C) ATP, RNA, and DNA
D) α glucose, ATP, and
DNA
E) proteins, carbohydrates, and ATP
C
5) A particular triplet of bases in the template strand of DNA is 5' AGT 3'. The corresponding codon for the mRNA transcribed is
A) 3' UCA 5'
B) 3' UGA 5'
C) 5' TCA 3'
D) 3' ACU
5'
E) either UCA or TCA, depending on wobble in the first base.
A
6) The genetic code is essentially the same for all organisms. From this, one can logically assume which of the following?
A) A gene from an organism can theoretically be expressed by any
other organism.
B) All organisms have experienced convergent
evolution.
C) DNA was the first genetic material.
D) The
same codons in different organisms translate into the different amino
acids.
E) Different organisms have different numbers of different
types of amino acids.
A
7) The "universal" genetic code is now known to have exceptions. Evidence for this can be found if which of the following is true?
A) If UGA, usually a stop codon, is found to code for an amino acid
such as tryptophan (usually coded
for by UGG only).
B) If
one stop codon, such as UGA, is found to have a different effect on
translation than another stop
codon, such as UAA.
C) If
prokaryotic organisms are able to translate a eukaryotic mRNA and
produce the same polypeptide.
D) If several codons are found to
translate to the same amino acid, such as serine.
E) If a single
mRNA molecule is found to translate to more than one polypeptide when
there are two or
more AUG sites.
A
8) Which of the following nucleotide triplets best represents a codon?
A) a triplet separated spatially from other triplets
B) a
triplet that has no corresponding amino acid
C) a triplet at the
opposite end of tRNA from the attachment site of the amino
acid
D) a triplet in the same reading frame as an upstream
AUG
E) a sequence in tRNA at the 3' end
D
9) Which of the following provides some evidence that RNA probably evolved before DNA?
A) RNA polymerase uses DNA as a template.
B) RNA polymerase
makes a single-stranded molecule.
C) RNA polymerase does not
require localized unwinding of the DNA.
D) DNA polymerase uses
primer, usually made of RNA.
E) DNA polymerase has proofreading function.
D
10) Which of the following statements best describes the termination of transcription in prokaryotes?
A) RNA polymerase transcribes through the polyadenylation signal,
causing proteins to associate with
the transcript and cut it free
from the polymerase.
B) RNA polymerase transcribes through the
terminator sequence, causing the polymerase to separate
from the
DNA and release the transcript.
C) RNA polymerase transcribes
through an intron, and the snRNPs cause the polymerase to let go of
the
transcript.
D) Once transcription has initiated, RNA
polymerase transcribes until it reaches the end of
the
chromosome.
E) RNA polymerase transcribes through a stop
codon, causing the polymerase to stop advancing through
the gene
and release the mRNA.
B
11) Which of the following does not occur in prokaryotic eukaryotic gene expression, but does in eukaryotic gene expression?
A) mRNA, tRNA, and rRNA are transcribed.
B) RNA polymerase
binds to the promoter.
C) A poly-A tail is added to the 3' end of
an mRNA and a cap is added to the 5' end.
D) Transcription can
begin as soon as translation has begun even a little.
E) RNA
polymerase requires a primer to elongate the molecule.
C
12) RNA polymerase in a prokaryote is composed of several subunits. Most of these subunits are the same for the transcription of any gene, but one, known as sigma, varies considerably. Which of the following is the most probable advantage for the organism of such sigma switching?
A) It might allow the transcription process to vary from one cell to
another.
B) It might allow the polymerase to recognize different
promoters under certain environmental
conditions.
C) It
could allow the polymerase to react differently to each stop
codon.
D) It could allow ribosomal subunits to assemble at faster
rates.
E) It could alter the rate of translation and of exon splicing.
B
13) Which of the following is a function of a poly-A signal sequence?
A) It adds the poly-A tail to the 3' end of the mRNA.
B) It
codes for a sequence in eukaryotic transcripts that signals enzymatic
cleavage ~1035 nucleotides
away.
C) It allows the 3' end of
the mRNA to attach to the ribosome.
D) It is a sequence that
codes for the hydrolysis of the RNA polymerase.
E) It adds a
7-methylguanosine cap to the 3' end of the mRNA.
B
14) In eukaryotes there are several different types of RNA polymerase. Which type is involved in transcription of mRNA for a globin protein?
A) ligase
B) RNA polymerase I
C) RNA polymerase II
D)
RNA polymerase III
E) primase
C
15) Transcription in eukaryotes requires which of the following in addition to RNA polymerase?
A) the protein product of the promoter
B) start and stop
codons
C) ribosomes and tRNA
D) several transcription
factors (TFs)
E) aminoacyl synthetase
D
16) A part of the promoter, called the TATA box, is said to be highly conserved in evolution. Which of the following might this illustrate?
A) The sequence evolves very rapidly.
B) The sequence does not
mutate.
C) Any mutation in the sequence is selected
against.
D) The sequence is found in many but not all
promoters.
E) The sequence is transcribed at the start of every gene.
C
17) The TATA sequence is found only several nucleotides away from the start site of transcription. This most probably relates to which of the following?
A) the number of hydrogen bonds between A and T in DNA
B) the
triplet nature of the codon
C) the ability of this sequence to
bind to the start site
D) the supercoiling of the DNA near the
start site
E) the 3-D shape of a DNA molecule
A
18) What is a ribozyme?
A) an enzyme that uses RNA as a substrate
B) an RNA with
enzymatic activity
C) an enzyme that catalyzes the association
between the large and small ribosomal subunits
D) an enzyme that
synthesizes RNA as part of the transcription process
E) an enzyme
that synthesizes RNA primers during DNA replication
B
19) A transcription unit that is 8,000 nucleotides long may use 1,200 nucleotides to make a protein consisting of approximately 400 amino acids. This is best explained by the fact that
A) many noncoding stretches of nucleotides are present in
mRNA.
B) there is redundancy and ambiguity in the genetic
code.
C) many nucleotides are needed to code for each amino
acid.
D) nucleotides break off and are lost during the
transcription process.
E) there are termination exons near the
beginning of mRNA.
A
20) During splicing, which molecular component of the spliceosome catalyzes the excision reaction?
A) protein
B) DNA
C) RNA
D) lipid
E) sugar
C
21) Alternative RNA splicing
A) is a mechanism for increasing the rate of transcription.
B)
can allow the production of proteins of different sizes from a single
mRNA.
C) can allow the production of similar proteins from
different RNAs.
D) increases the rate of transcription.
E)
is due to the presence or absence of particular snRNPs.
B
22) In the structural organization of many eukaryotic genes, individual exons may be related to which of the following?
A) the sequence of the intron that immediately precedes each
exon
B) the number of polypeptides making up the functional
protein
C) the various domains of the polypeptide product
D)
the number of restriction enzyme cutting sites
E) the number of
start sites for transcription
C
23) In an experimental situation, a student researcher inserts an mRNA molecule into a eukaryotic cell after he has removed its 5' cap and poly-A tail. Which of the following would you expect him to find?
A) The mRNA could not exit the nucleus to be translated.
B) The
cell recognizes the absence of the tail and polyadenylates the
mRNA.
C) The molecule is digested by restriction enzymes in the
nucleus.
D) The molecule is digested by exonucleases since it is
no longer protected at the 5' end.
E) The molecule attaches to a
ribosome and is translated, but more slowly.
D
Use the following model of a eukaryotic transcript to answer the next
few questions.
5' UTR E1 I1 E2 I2 E3 I3 E4 UTR 3'
24) Which components of the previous molecule will also be found in mRNA in the cytosol?
A) 5' UTR I1 I2 I3 UTR 3'
B) 5' E1 E2 E3 E4 3'
C) 5' UTR
E1 E2 E3 E4 UTR 3'
D) 5' I1 I2 I3 3'
E) 5' E1 I1 E2 I2 E3 I3
E4 3'
C
Use the following model of a eukaryotic transcript to answer the next
few questions.
5' UTR E1 I1 E2 I2 E3 I3 E4 UTR 3'
25) When the spliceosome binds to elements of this structure, where can it attach?
A) to the exons
B) to the 5' UTR
C) to the 3' UTR
D)
to an adjacent intron and exon
E) to the end of an intron
E
Use the following model of a eukaryotic transcript to answer the next
few questions.
5' UTR E1 I1 E2 I2 E3 I3 E4 UTR 3'
26) Which of the following is a useful feature of introns for this model?
A) They are translated into small polypeptides.
B) They become
parts of snRNPs.
C) Each intron has enzymatic properties.
D)
Introns allow exon shuffling.
E) Introns protect exon structure.
D
27) Suppose that exposure to a chemical mutagen results in a change in the sequence that alters the 5' end of intron 1 (I1). What might occur?
A) loss of the gene product
B) loss of E1
C) premature
stop to the mRNA
D) inclusion of I1 in the mRNA
E) exclusion
of E2
D
28) Suppose that an induced mutation removes most of the 5' end of the 5' UTR. What might result?
A) Removal of the 5' UTR has no effect because the exons are still
maintained.
B) Removal of the 5' UTR also removes the 5' cap and
the mRNA will quickly degrade.
C) The 3' UTR will duplicate and
one copy will replace the 5' end.
D) The first exon will not be
read because I1 will now serve as the UTR.
E) Removal of the 5';
UTR will result in the strand not binding to tRNAs.
B
29) A particular triplet of bases in the coding sequence of DNA is AAA. The anticodon on the tRNA that binds the mRNA codon is
A) TTT.
B) UUA.
C) UUU.
D) AAA.
E) either UAA or
TAA, depending on first base wobble.
C
30) Accuracy in the translation of mRNA into the primary structure of
a polypeptide depends on
specificity in the
A) binding of ribosomes to mRNA.
B) shape of the A and P sites
of ribosomes.
C) bonding of the anticodon to the codon.
D)
attachment of amino acids to tRNAs.
E) bonding of the anticodon
to the codon and the attachment of amino acids to tRNAs.
E
31) What is the function of GTP in translation?
A) GTP energizes the formation of the initiation complex, using
initiation factors.
B) GTP hydrolyzes to provide phosphate groups
for tRNA binding.
C) GTP hydrolyzes to provide energy for making
peptide bonds.
D) GTP supplies phosphates and energy to make ATP
from ADP.
E) GTP separates the small and large subunits of the
ribosome at the stop codon.
A
32) A mutant bacterial cell has a defective aminoacyl synthetase that attaches a lysine to tRNAs with the anticodon AAA instead of the normal phenylalanine. The consequence of this for the cell will be that
A) none of the proteins in the cell will contain
phenylalanine.
B) proteins in the cell will include lysine
instead of phenylalanine at amino acid positions specified by
the
codon UUU.
C) the cell will compensate for the defect by
attaching phenylalanine to tRNAs with
lysine-specifying
anticodons.
D) the ribosome will skip a
codon every time a UUU is encountered.
E) none of the options
will occur; the cell will recognize the error and destroy the tRNA.
B
33) There are 61 mRNA codons that specify an amino acid, but only 45 tRNAs. This is best explained by the fact that
A) some tRNAs have anticodons that recognize four or more different
codons.
B) the rules for base pairing between the third base of a
codon and tRNA are flexible.
C) many codons are never used, so
the tRNAs that recognize them are dispensable.
D) the DNA codes
for all 61 tRNAs but some are then destroyed.
E) competitive
exclusion forces some tRNAs to be destroyed by nucleases.
B
34) Which of the following is the first event to take place in translation in eukaryotes?
A) elongation of the polypeptide
B) base pairing of activated
methionine-tRNA to AUG of the messenger RNA
C) binding of the
larger ribosomal subunit to smaller ribosomal subunits
D)
covalent bonding between the first two amino acids
E) the small
subunit of the ribosome recognizes and attaches to the 5' cap of mRNA
E
35) Which of the following is a function of a signal peptide?
A) to direct an mRNA molecule into the cisternal space of the
ER
B) to bind RNA polymerase to DNA and initiate
transcription
C) to terminate translation of the messenger
RNA
D) to translocate polypeptides across the ER membrane
E)
to signal the initiation of transcription
D
36) When translating secretory or membrane proteins, ribosomes are directed to the ER membrane by
A) a specific characteristic of the ribosome itself, which
distinguishes free ribosomes from bound
ribosomes.
B) a
signal-recognition particle that brings ribosomes to a receptor
protein in the ER membrane.
C) moving through a specialized
channel of the nucleus.
D) a chemical signal given off by the
ER.
E) a signal sequence of RNA that precedes the start codon of
the message.
B
37) An experimenter has altered the 3' end of the tRNA corresponding to the amino acid methionine in such a way as to remove the 3' AC. Which of the following hypotheses describes the most likely result?
A) tRNA will not form a cloverleaf.
B) The nearby stem end will
pair improperly.
C) The amino acid methionine will not
bind.
D) The anticodon will not bind with the mRNA codon.
E)
The aminoacylsynthetase will not be formed.
C
38) The process of translation, whether in prokaryotes or eukaryotes, requires tRNAs, amino acids, ribosomal subunits, and which of the following?
A) polypeptide factors plus ATP
B) polypeptide factors plus
GTP
C) polymerases plus GTP
D) SRP plus chaperones
E)
signal peptides plus release factor
B
39) When the ribosome reaches a stop codon on the mRNA, no corresponding tRNA enters the A site. If the translation reaction were to be experimentally stopped at this point, which of the following would you be able to isolate?
A) an assembled ribosome with a polypeptide attached to the tRNA in
the P site
B) separated ribosomal subunits, a polypeptide, and
free tRNA
C) an assembled ribosome with a separated
polypeptide
D) separated ribosomal subunits with a polypeptide
attached to the tRNA
E) a cell with fewer ribosomes
A
40) What is the function of the release factor (RF)?
A) It separates tRNA in the A site from the growing
polypeptide.
B) It binds to the stop codon in the A site in place
of a tRNA.
C) It releases the amino acid from its tRNA to allow
the amino acid to form a peptide bond.
D) It supplies a source of
energy for termination of translation.
E) It releases the
ribosome from the ER to allow polypeptides into the cytosol.
B
41) When the function of the newly made polypeptide is to be secreted from the cell where it has been made, what must occur?
A) It must be translated by a ribosome that remains free of
attachment to the ER.
B) Its signal sequence must target it to
the ER, from which it goes to the Golgi.
C) It has a signal
sequence that must be cleaved off before it can enter the ER.
D)
It has a signal sequence that targets it to the cell&'s plasma
membrane where it causes exocytosis.
E) Its signal sequence
causes it to be encased in a vesicle as soon as it is translated.
B
42) Suppose that a mutation alters the formation of a tRNA such that it still attaches to the same amino acid (phe) but its anticodon loop has the sequence AAU that binds to the mRNA codon UUA (that usually specifies leucine leu).
A) The modified tRNA will cause this mRNA to make only
nonfunctioning product.
B) The tRNA-leu will not be able to enter
the site of the ribosome to bind to the UUA.
C) One mutated tRNA
molecule will be relatively inconsequential because it will compete
with many
"normal" ones.
D) The tRNA will be so
unstable that it will not participate in translation.
E) The
mutated tRNA will result in an amino acid variant in all copies of the protein.
C
43) Why might a point mutation in DNA make a difference in the level of protein's activity?
A) It might result in a chromosomal translocation.
B) It might
exchange one stop codon for another stop codon.
C) It might
exchange one serine codon for a different serine codon.
D) It
might substitute an amino acid in the active site.
E) It might
substitute the N-terminus of the polypeptide for the C-terminus.
D
44) In the 1920s Muller discovered that X-rays caused mutation in Drosophila. In a related series of experiments in the 1940s, Charlotte Auerbach discovered that chemicals–she used nitrogen mustards–have a similar effect. A new chemical food additive is developed by a cereal manufacturer.
Why do we test for its ability to induce mutation?
A) We worry that it might cause mutation in cereal grain
plants.
B) We want to make sure that it does not emit
radiation.
C) We want to be sure that it increases the rate of
mutation sufficiently.
D) We want to prevent any increase in
mutation frequency.
E) We worry about its ability to cause infection.
D
45) Which of the following types of mutation, resulting in an error in the mRNA just after the AUG start of translation, is likely to have the most serious effect on the polypeptide product?
A) a deletion of a codon
B) a deletion of two
nucleotides
C) a substitution of the third nucleotide in an ACC
codon
D) a substitution of the first nucleotide of a GGG
codon
E) an insertion of a codon
B
46) What is the effect of a nonsense mutation in a gene?
A) It changes an amino acid in the encoded protein.
B) It has
no effect on the amino acid sequence of the encoded protein.
C)
It introduces a premature stop codon into the mRNA.
D) It alters
the reading frame of the mRNA.
E) It prevents introns from being excised.
C
47) A frameshift mutation could result from
A) a base insertion only.
B) a base deletion only.
C) a
base substitution only.
D) deletion of three consecutive
bases.
E) either an insertion or a deletion of a base.
E
48) Which of the following DNA mutations is the most likely to be damaging to the protein it specifies?
A) a base-pair deletion
B) a codon substitution
C) a
substitution in the last base of a codon
D) a codon
deletion
E) a point mutation
A
49) Which small-scale mutation would be most likely to have a catastrophic effect on the functioning of a protein?
A) a base substitution
B) a base deletion near the start of a
gene
C) a base deletion near the end of the coding sequence, but
not in the terminator codon
D) deletion of three bases near the
start of the coding sequence, but not in the initiator codon
E) a
base insertion near the end of the coding sequence, but not in the
terminator codon
B
50) The most commonly occurring mutation in people with cystic fibrosis is a deletion of a single codon. This results in
A) a base-pair substitution.
B) a nucleotide mismatch.
C)
a frameshift mutation.
D) a polypeptide missing an amino
acid.
E) a nonsense mutation.
D
51) Which of the following mutations is most likely to cause a phenotypic change?
A) a duplication of all or most introns
B) a large inversion
whose ends are each in intergenic regions
C) a nucleotide
substitution in an exon coding for a transmembrane domain
D) a
single nucleotide deletion in an exon coding for an active
site
E) a frameshift mutation one codon away from the 3' end of
the nontemplate strand
D
52) If a protein is coded for by a single gene and this protein has six clearly defined domains, which number of exons below is the gene likely to have?
A) 1
B) 5
C) 8
D) 12
E) 14
C
53) Which of the following statements is true about protein synthesis in prokaryotes?
A) Extensive RNA processing is required before prokaryotic
transcripts can be translated.
B) Translation can begin while
transcription is still in progress.
C) Prokaryotic cells have
complicated mechanisms for targeting proteins to the appropriate
cellular
organelles.
D) Translation requires antibiotic
activity.
E) Unlike eukaryotes, prokaryotes require no initiation
or elongation factors.
B
54) Of the following, which is the most current description of a gene?
A) a unit of heredity that causes formation of a phenotypic
characteristic
B) a DNA subunit that codes for a single complete
protein
C) a DNA sequence that is expressed to form a functional
product: either RNA or polypeptide
D) a DNA—RNA sequence
combination that results in an enzymatic product
E) a discrete
unit of hereditary information that consists of a sequence of amino acids
C
55) Gene expression in the domain Archaea in part resembles that of bacteria and in part that of the domain Eukarya. In which way is it most like the domain Eukarya?
A) Domain Archaea have numerous transcription factors.
B)
Initiation of translation is like that of domain Eukarya.
C)
There is only one RNA polymerase.
D) Transcription termination
often involves attenuation.
E) Post-transcriptional splicing is
like that of Eukarya.
A
56) Which of the following is true of transcription in domain Archaea?
A) It is regulated in the same way as in domain Bacteria.
B)
There is only one kind of RNA polymerase.
C) It is roughly
simultaneous with translation.
D) Promoters are identical to
those in domain Eukarya.
E) It terminates in a manner similar to bacteria.
C
57) In comparing DNA replication with RNA transcription in the same cell, which of the following is true only of replication?
A) It uses RNA polymerase.
B) It makes a new molecule from its
5' end to its 3' end.
C) The process is extremely fast once it is
initiated.
D) The process occurs in the nucleus of a eukaryotic
cell.
E) The entire template molecule is represented in the product.
E
58) In order for a eukaryotic gene to be engineered into a bacterial colony to be expressed, what must be included in addition to the coding exons of the gene?
A) the introns
B) eukaryotic polymerases
C) a bacterial
promoter sequence
D) eukaryotic ribosomal subunits
E)
eukaryotic tRNAs
C
59) When the genome of a particular species is said to include 20,000 protein-coding regions, what does this imply?
A) There are 20,000 genes.
B) Each gene codes for one
protein.
C) Any other regions are "junk"
DNA.
D) There are also genes for RNAs other than mRNA.
E)
The species is highly evolved.
D
The following question refers to this figure of a simple metabolic pathway:
enzyme a enzyme b
A----------->B------------>C
60) According to Beadle and Tatum's hypothesis, how many genes are necessary for this pathway?
A) 0
B) 1
C) 2
D) 3
E) It cannot be determined
from the pathway.
C
61) A mutation results in a defective enzyme A. Which of the following would be a consequence of that mutation?
A) an accumulation of A and no production of B and C
B) an
accumulation of A and B and no production of C
C) an accumulation
of B and no production of A and C
D) an accumulation of B and C
and no production of A
E) an accumulation of C and no production
of A and B
A
62) If A, B, and C are all required for growth, a strain that is mutant for the gene-encoding enzyme A would be able to grow on which of the following media?
A) minimal medium
B) minimal medium supplemented with nutrient
A only
C) minimal medium supplemented with nutrient B
only
D) minimal medium supplemented with nutrient C only
E)
minimal medium supplemented with nutrients A and C
C
63) If A, B, and C are all required for growth, a strain mutant for the gene-encoding enzyme B would be capable of growing on which of the following media?
A) minimal medium
B) minimal medium supplemented with A
only
C) minimal medium supplemented with B only
D) minimal
medium supplemented with C only
E) minimal medium supplemented
with nutrients A and B
D
64) A possible sequence of nucleotides in the template strand of DNA
that would code for the
polypeptide sequence phe-leu- ile-val
would be
A) 5' TTG-CTA- CAG-TAG 3'
B) 3' AAC-GAC- GUC-AUA 5'
C) 5'
AUG-CTG- CAG-TAT 3'
D) 3' AAA-AAT- ATA-ACA 5'
E) 3' AAA-GAA-
TAA-CAA 5'
E
65) What amino acid sequence will be generated, based on the following mRNA codon sequence?
5' AUG-UCU- UCG-UUA- UCC-UUG 3'
A) met-arg- glu-arg- glu-arg
B) met-glu- arg-arg-
glu-leu
C) met-ser- leu-ser- leu-ser
D) met-ser- ser-leu-
ser-leu
E) met-leu- phe-arg- glu-glu
D
66) A peptide has the sequence NH2-phe- pro-lys- gly-phe- pro-COOH. Which of the following sequences in the coding strand of the DNA could code for this peptide?
A) 3' UUU-CCC- AAA-GGG- UUU-CCC
B) 3' AUG-AAA- GGG-TTT-
CCC-AAA- GGG
C) 5' TTT-CCC- AAA-GGG- TTT-CCC
D) 5' GGG-AAA-
TTT-AAA- CCC-ACT- GGG
E) 5' ACT-TAC- CAT-AAA- CAT-TAC- UGA
C
67) Given the locally unwound double strand above, in which direction does the RNA polymerase move?
A) 3' → 5' along the template strand
B) 5' → 3' along the
template strand
C) 3' → 5' along the complementary strand
D)
5' → 3' along the complementary strand
E) 5' → 3' along the
double-stranded DNA
A
68) In the transcription event of the previous DNA, where would the promoter be located?
A) at the 3' end of the newly made RNA
B) to the right of the
template strand
C) to the left of the template strand
D) to
the right of the sense strand
E) to the left of the sense strand
B
69) The dipeptide that will form will be
A) cysteine-alanine.
B) proline-threonine.
C)
glycine-cysteine.
D) alanine-alanine.
E) threonine-glycine.
B
70) The anticodon loop of the first tRNA that will complement this mRNA is
A) 3' GGC 5'
B) 5' GGC 3'
C) 5' ACG 3&'
D) 5' UGC
3'
E) 3' UGC 5'
A
71) What type of bonding is responsible for maintaining the shape of the tRNA molecule?
A) covalent bonding between sulfur atoms
B) ionic bonding
between phosphates
C) hydrogen bonding between base pairs
D)
van der Waals interactions between hydrogen atoms
E) peptide
bonding between amino acids
C
72) The figure represents tRNA that recognizes and binds a particular amino acid (in this instance,phenylalanine). Which codon on the mRNA strand codes for this amino acid?
A) UGG
B) GUG
C) GUA
D) UUC
E) CAU
D
73) The tRNA shown in the figure has its 3' end projecting beyond its 5' end. What will occur at this 3' end?
A) The codon and anticodon complement one another.
B) The amino
acid binds covalently.
C) The excess nucleotides (ACCA) will be
cleaved off at the ribosome.
D) The small and large subunits of
the ribosome will attach to it.
E) The 5' cap of the mRNA will
become covalently bound.
B
The enzyme polynucleotide phosphorylase randomly assembles nucleotides into a polynucleotide polymer.
74) You add polynucleotide phosphorylase to a solution of adenosine triphosphate and guanosine triphosphate. How many artificial mRNA 3 nucleotide codons would be possible?
A) 3
B) 4
C) 8
D) 16
E) 64
C
The enzyme polynucleotide phosphorylase randomly assembles nucleotides into a polynucleotide polymer.
75) You add polynucleotide phosphorylase to a solution of ATP, GTP, and UTP. How many artificial mRNA 3 nucleotide codons would be possible?
A) 3
B) 6
C) 9
D) 27
E) 81
D
A transfer RNA (#1) attached to the amino acid lysine enters the ribosome. The lysine binds to the growing polypeptide on the other tRNA (#2) in the ribosome already.
76) Where does tRNA #2 move to after this bonding of lysine to the polypeptide?
A) A site
B) P site
C) E site
D) exit tunnel
E)
directly to the cytosol
C
A transfer RNA (#1) attached to the amino acid lysine enters the ribosome. The lysine binds to the growing polypeptide on the other tRNA (#2) in the ribosome already.
77) Which component of the complex described enters the exit tunnel through the large subunit of the ribosome?
A) tRNA with attached lysine (#1)
B) tRNA with polypeptide
(#2)
C) tRNA that no longer has attached amino acid
D) newly
formed polypeptide
E) initiation and elongation factors
D
78) In eukaryotic cells, transcription cannot begin until
A) the two DNA strands have completely separated and exposed the
promoter.
B) several transcription factors have bound to the
promoter.
C) the 5' caps are removed from the mRNA.
D) the
DNA introns are removed from the template.
E) DNA nucleases have
isolated the transcription unit.
B
79) Which of the following is not true of a codon?
A) It consists of three nucleotides.
B) It may code for the
same amino acid as another codon.
C) It never codes for more than
one amino acid.
D) It extends from one end of a tRNA
molecule.
E) It is the basic unit of the genetic code.
D
80) The anticodon of a particular tRNA molecule is
A) complementary to the corresponding mRNA codon.
B)
complementary to the corresponding triplet in rRNA.
C) the part
of tRNA that bonds to a specific amino acid.
D) changeable,
depending on the amino acid that attaches to the tRNA.
E)
catalytic, making the tRNA a ribozyme.
A
81) Which of the following is not true of RNA processing?
A) Exons are cut out before mRNA leaves the nucleus.
B)
Nucleotides may be added at both ends of the RNA.
C) Ribozymes
may function in RNA splicing.
D) RNA splicing can be catalyzed by
spliceosomes.
E) A primary transcript is often much longer than
the final RNA molecule that leaves the nucleus.
A
82) Which component is not directly involved in translation?
A) mRNA
B) DNA
C) tRNA
D) ribosomes
E) GTP
B
83) Which of the following mutations would be most likely to have a harmful effect on an organism?
A) a nucleotide-pair substitution
B) a deletion of three
nucleotides near the middle of a gene
C) a single nucleotide
deletion in the middle of an intron
D) a single nucleotide
deletion near the end of the coding sequence
E) a single
nucleotide insertion downstream of, and close to, the start of the
coding sequence
E