Chat with AI
Deck 9: From Dna to Protein
Full screen (f)
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Figure 9.3
The process of going from transcription to translation
A) explains the structural complexity of genes.
B) describes the flow of genetic information.
C) is based upon the role of proteins in controlling life.
D) does not explain how genes function.
E) explains evolution in terms of molecular biology.
The process of going from transcription to translation
A) explains the structural complexity of genes.
B) describes the flow of genetic information.
C) is based upon the role of proteins in controlling life.
D) does not explain how genes function.
E) explains evolution in terms of molecular biology.
Question
Question
Question
Question
Question
Question
Figure 9.3
The helix structure on the right of the above figure represents
A) DNA.
B) RNA.
C) lipid.
D) protein.
E) phospholipid.
The helix structure on the right of the above figure represents
A) DNA.
B) RNA.
C) lipid.
D) protein.
E) phospholipid.
Question
Question
Question
Figure 9.7
The following questions refer to the codon table above.
The sequence of amino acids specified by this mRNA (AUGCGUCCA) is
A) serine - histidine - lysine.
B) methionine - arginine - proline.
C) methionine - alanine - serine.
D) valine - arginine - leucine.
E) valine - proline - methionine.
The following questions refer to the codon table above.
The sequence of amino acids specified by this mRNA (AUGCGUCCA) is
A) serine - histidine - lysine.
B) methionine - arginine - proline.
C) methionine - alanine - serine.
D) valine - arginine - leucine.
E) valine - proline - methionine.
Question
Question
Figure 9.7
The following questions refer to the codon table above.
What carries amino acids to ribosomes during translation?
A) mRNA
B) tRNA
C) DNA
D) rRNA
E) exons
The following questions refer to the codon table above.
What carries amino acids to ribosomes during translation?
A) mRNA
B) tRNA
C) DNA
D) rRNA
E) exons
Question
Question
Figure 9.7
The following questions refer to the codon table above.
The first amino acid of a new polypeptide chain is
A) alanine.
B) cysteine.
C) variable.
D) phenylalanine.
E) methionine.
The following questions refer to the codon table above.
The first amino acid of a new polypeptide chain is
A) alanine.
B) cysteine.
C) variable.
D) phenylalanine.
E) methionine.
Question
Question
Question
Figure 9.11
What is shown in the figure above?
A) transcription in eukaryotes
B) translation in prokaryotes
C) translation in eukaryotes
D) DNA replication
E) transcription in prokaryotes
What is shown in the figure above?
A) transcription in eukaryotes
B) translation in prokaryotes
C) translation in eukaryotes
D) DNA replication
E) transcription in prokaryotes
Question
Question
Figure 9.11
A gene mutation
A) is a temporary change in the nucleotide sequence of DNA.
B) may be caused by environmental agents.
C) always arises spontaneously.
D) occurs only in eukaryotes.
E) is always damaging to the organism.
A gene mutation
A) is a temporary change in the nucleotide sequence of DNA.
B) may be caused by environmental agents.
C) always arises spontaneously.
D) occurs only in eukaryotes.
E) is always damaging to the organism.
Question
Question
Question
Question
Figure 9.7
The following questions refer to the codon table above.
If the DNA nucleotides read ATG-CGT-GAC, the amino acid sequence of the resulting polypeptide would be
A) tyrosine - alanine - leucine.
B) methionine - arginine - asparagine.
C) histidine - glycine - proline.
D) serine - lysine - glycine.
E) serine - lysine - isoleucine.
The following questions refer to the codon table above.
If the DNA nucleotides read ATG-CGT-GAC, the amino acid sequence of the resulting polypeptide would be
A) tyrosine - alanine - leucine.
B) methionine - arginine - asparagine.
C) histidine - glycine - proline.
D) serine - lysine - glycine.
E) serine - lysine - isoleucine.
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Question
Unlock Deck
Sign up to unlock the cards in this deck!
Unlock Deck
Unlock Deck
1/64
Play
Full screen (f)
Deck 9: From Dna to Protein
1
The genetic code is made up of codons consisting of how many nucleotides?
A) two
B) three
C) five
D) six
E) nine
A) two
B) three
C) five
D) six
E) nine
B
2
The portion of the DNA molecule that is translated is composed of
A) introns.
B) anticodons.
C) exons.
D) transcriptions.
E) exons and transcriptions.
A) introns.
B) anticodons.
C) exons.
D) transcriptions.
E) exons and transcriptions.
C
3
Which of the following initiates the process of transcription?
A) RNA polymerase
B) DNA polymerase
C) helicase
D) transfer RNA
E) exons
A) RNA polymerase
B) DNA polymerase
C) helicase
D) transfer RNA
E) exons
A
4
Transcription starts at a region of DNA called a(n)
A) sequencer.
B) promoter.
C) activator.
D) terminator.
E) transcriber.
A) sequencer.
B) promoter.
C) activator.
D) terminator.
E) transcriber.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
5
If the DNA sequence isATG-CGT, the mRNA codons are
A) AUG-CGU.
B) ATG-CGT.
C) UAC-GCA.
D) UAG-CGU.
E) GUA-CGU.
A) AUG-CGU.
B) ATG-CGT.
C) UAC-GCA.
D) UAG-CGU.
E) GUA-CGU.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
6
A segment of DNA that specifies a sequence of amino acids in a polypeptide is called a(n)
A) codon.
B) intron.
C) messenger.
D) gene.
E) enzyme.
A) codon.
B) intron.
C) messenger.
D) gene.
E) enzyme.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
7
Ricin is a(n)
A) substance found in castor bean seeds.
B) polysaccharide extracted from rice.
C) ingredient in many paints and cosmetics.
D) protein that inactivates ribosomes.
E) substance found in castor bean seeds and a protein that inactivates ribosomes.
A) substance found in castor bean seeds.
B) polysaccharide extracted from rice.
C) ingredient in many paints and cosmetics.
D) protein that inactivates ribosomes.
E) substance found in castor bean seeds and a protein that inactivates ribosomes.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
8
There are how many different kinds of RNA codons?
A) 3
B) 72
C) 28
D) 64
E) 120
A) 3
B) 72
C) 28
D) 64
E) 120
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
9
In eukaryotes, all of the different types of RNA are transcribed in the
A) mitochondria.
B) cytoplasm.
C) ribosomes.
D) nucleus.
E) endoplasmic reticulum.
A) mitochondria.
B) cytoplasm.
C) ribosomes.
D) nucleus.
E) endoplasmic reticulum.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
10
During transcription, uracil pairs with
A) ribose.
B) adenine.
C) cytosine.
D) thymine.
E) guanine.
A) ribose.
B) adenine.
C) cytosine.
D) thymine.
E) guanine.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
11
There are how many different kinds of amino acids?
A) 3
B) 6
C) 12
D) 20
E) 28
A) 3
B) 6
C) 12
D) 20
E) 28
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
12
Ricin is toxic because it
A) binds to eukaryotic DNA.
B) binds to eukaryotic mRNA.
C) blocks food from entering the cell.
D) inactivates ribosomes.
E) binds to nerve tissue and causes paralysis.
A) binds to eukaryotic DNA.
B) binds to eukaryotic mRNA.
C) blocks food from entering the cell.
D) inactivates ribosomes.
E) binds to nerve tissue and causes paralysis.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
13
The relationship between strands of RNA and DNA during transcription is
A) antagonistic.
B) opposite.
C) complementary.
D) an exact duplicate.
E) unrelated.
A) antagonistic.
B) opposite.
C) complementary.
D) an exact duplicate.
E) unrelated.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
14
Figure 9.3
The process of going from transcription to translation
A) explains the structural complexity of genes.
B) describes the flow of genetic information.
C) is based upon the role of proteins in controlling life.
D) does not explain how genes function.
E) explains evolution in terms of molecular biology.
The process of going from transcription to translation
A) explains the structural complexity of genes.
B) describes the flow of genetic information.
C) is based upon the role of proteins in controlling life.
D) does not explain how genes function.
E) explains evolution in terms of molecular biology.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
15
DNA and RNA are alike in that they
A) both have same pentose sugar.
B) use the same nitrogenous bases to assemble the genetic code.
C) have the same number of strands.
D) both play vital roles in gene expression.
E) are both made in the cytoplasm.
A) both have same pentose sugar.
B) use the same nitrogenous bases to assemble the genetic code.
C) have the same number of strands.
D) both play vital roles in gene expression.
E) are both made in the cytoplasm.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
16
The form of RNA that carries the code from DNA to the site of protein assembly is called
A) messenger RNA.
B) nuclear RNA.
C) ribosomal RNA.
D) transfer RNA.
E) structural RNA.
A) messenger RNA.
B) nuclear RNA.
C) ribosomal RNA.
D) transfer RNA.
E) structural RNA.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
17
In this depiction of transcription (accompanying figure), the ____ strand is ____ because it ____.
A) upper; RNA; contains guanine
B) upper; RNA; contains uracil
C) lower; RNA; contains thymine
D) upper; RNA; has no uracil
E) lower; DNA; contains adenine
A) upper; RNA; contains guanine
B) upper; RNA; contains uracil
C) lower; RNA; contains thymine
D) upper; RNA; has no uracil
E) lower; DNA; contains adenine
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
18
____ carries protein-assembly instructions from the nucleus to the cytoplasm.
A) Template DNA
B) Messenger RNA
C) Transfer RNA
D) Ribosomal RNA
E) Total RNA
A) Template DNA
B) Messenger RNA
C) Transfer RNA
D) Ribosomal RNA
E) Total RNA
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
19
Before messenger RNA fully matures,
A) all exons are deleted and removed.
B) a poly-A tail and modified guanine "cap" are added.
C) anticodons are assembled.
D) the transfer RNA transfers the messenger RNA to the ribosome.
E) the single RNA strand duplicates itself in much the same way as DNA.
A) all exons are deleted and removed.
B) a poly-A tail and modified guanine "cap" are added.
C) anticodons are assembled.
D) the transfer RNA transfers the messenger RNA to the ribosome.
E) the single RNA strand duplicates itself in much the same way as DNA.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
20
Figure 9.3
The helix structure on the right of the above figure represents
A) DNA.
B) RNA.
C) lipid.
D) protein.
E) phospholipid.
The helix structure on the right of the above figure represents
A) DNA.
B) RNA.
C) lipid.
D) protein.
E) phospholipid.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
21
Frameshift mutations may involve the
A) substitution of nucleotides.
B) substitution of codons.
C) substitution of amino acids.
D) addition or deletion of one or more base pairs.
E) rearrangement of amino acids.
A) substitution of nucleotides.
B) substitution of codons.
C) substitution of amino acids.
D) addition or deletion of one or more base pairs.
E) rearrangement of amino acids.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
22
Which statement is true?
A) Gene mutations never occur independently of each other.
B) Gene mutations are very common.
C) Ionizing radiation is caused by chromosomal damage.
D) Mutations are random.
E) The loci of gene mutations can be predicted.
A) Gene mutations never occur independently of each other.
B) Gene mutations are very common.
C) Ionizing radiation is caused by chromosomal damage.
D) Mutations are random.
E) The loci of gene mutations can be predicted.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
23
Figure 9.7
The following questions refer to the codon table above.
The sequence of amino acids specified by this mRNA (AUGCGUCCA) is
A) serine - histidine - lysine.
B) methionine - arginine - proline.
C) methionine - alanine - serine.
D) valine - arginine - leucine.
E) valine - proline - methionine.
The following questions refer to the codon table above.
The sequence of amino acids specified by this mRNA (AUGCGUCCA) is
A) serine - histidine - lysine.
B) methionine - arginine - proline.
C) methionine - alanine - serine.
D) valine - arginine - leucine.
E) valine - proline - methionine.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
24
The difference between normal and sickle-cell hemoglobin is based upon the
A) number of amino acids in the molecule.
B) substitution of one amino acid for another.
C) number and orientation of the amino acid chains attached to the heme portion of the molecule.
D) number of oxygen molecules that can be carried.
E) type of bone marrow that produces it.
A) number of amino acids in the molecule.
B) substitution of one amino acid for another.
C) number and orientation of the amino acid chains attached to the heme portion of the molecule.
D) number of oxygen molecules that can be carried.
E) type of bone marrow that produces it.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
25
Figure 9.7
The following questions refer to the codon table above.
What carries amino acids to ribosomes during translation?
A) mRNA
B) tRNA
C) DNA
D) rRNA
E) exons
The following questions refer to the codon table above.
What carries amino acids to ribosomes during translation?
A) mRNA
B) tRNA
C) DNA
D) rRNA
E) exons
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
26
A polysome is
A) one of the units of a ribosome.
B) the nuclear organelle that synthesizes RNA.
C) an organelle that functions similarly to a ribosome during meiosis.
D) the two units of a ribosome considered together.
E) an mRNA molecule with several ribosomes attached.
A) one of the units of a ribosome.
B) the nuclear organelle that synthesizes RNA.
C) an organelle that functions similarly to a ribosome during meiosis.
D) the two units of a ribosome considered together.
E) an mRNA molecule with several ribosomes attached.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
27
Figure 9.7
The following questions refer to the codon table above.
The first amino acid of a new polypeptide chain is
A) alanine.
B) cysteine.
C) variable.
D) phenylalanine.
E) methionine.
The following questions refer to the codon table above.
The first amino acid of a new polypeptide chain is
A) alanine.
B) cysteine.
C) variable.
D) phenylalanine.
E) methionine.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
28
Anticodons pair with
A) codons on DNA
B) codons on mRNA.
C) codons on tRNA
D) codons on rRNA
E) messenger RNA and ribosomal RNA.
A) codons on DNA
B) codons on mRNA.
C) codons on tRNA
D) codons on rRNA
E) messenger RNA and ribosomal RNA.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
29
A frameshift mutation results in
A) a normal protein due to the redundancy of the genetic code.
B) errors in DNA replication
C) errors in DNA splicing
D) a change in all mRNA codons downstream from the mutation
E) a change in the third position of one codon
A) a normal protein due to the redundancy of the genetic code.
B) errors in DNA replication
C) errors in DNA splicing
D) a change in all mRNA codons downstream from the mutation
E) a change in the third position of one codon
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
30
Figure 9.11
What is shown in the figure above?
A) transcription in eukaryotes
B) translation in prokaryotes
C) translation in eukaryotes
D) DNA replication
E) transcription in prokaryotes
What is shown in the figure above?
A) transcription in eukaryotes
B) translation in prokaryotes
C) translation in eukaryotes
D) DNA replication
E) transcription in prokaryotes
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
31
Which event occurs during the elongation stage?
A) Peptide bonds form.
B) Free amino acids bind to the mRNA binding site.
C) Anticodons bind to complementary codons.
D) A stop codon enters the ribosome.
E) Peptide bonds form, and anticodons bind to complementary codons.
A) Peptide bonds form.
B) Free amino acids bind to the mRNA binding site.
C) Anticodons bind to complementary codons.
D) A stop codon enters the ribosome.
E) Peptide bonds form, and anticodons bind to complementary codons.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
32
Figure 9.11
A gene mutation
A) is a temporary change in the nucleotide sequence of DNA.
B) may be caused by environmental agents.
C) always arises spontaneously.
D) occurs only in eukaryotes.
E) is always damaging to the organism.
A gene mutation
A) is a temporary change in the nucleotide sequence of DNA.
B) may be caused by environmental agents.
C) always arises spontaneously.
D) occurs only in eukaryotes.
E) is always damaging to the organism.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
33
Mutations are
A) random.
B) beneficial.
C) always lethal.
D) always heritable.
E) largely predictable.
A) random.
B) beneficial.
C) always lethal.
D) always heritable.
E) largely predictable.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
34
What stage of translation occurs when ribosomal subunits and tRNAs converge on mRNA?
A) initiation
B) elongation
C) termination
D) peptide bond formation
E) elongation and peptide bond formation
A) initiation
B) elongation
C) termination
D) peptide bond formation
E) elongation and peptide bond formation
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
35
Of all the different codons that exist, three of them
A) are involved in mutations.
B) do not specify a particular amino acid.
C) cannot be copied.
D) do not specify a particular amino acid and are signals to begin translation.
E) do not specify a particular amino acid and are signals to terminate translation.
A) are involved in mutations.
B) do not specify a particular amino acid.
C) cannot be copied.
D) do not specify a particular amino acid and are signals to begin translation.
E) do not specify a particular amino acid and are signals to terminate translation.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
36
Figure 9.7
The following questions refer to the codon table above.
If the DNA nucleotides read ATG-CGT-GAC, the amino acid sequence of the resulting polypeptide would be
A) tyrosine - alanine - leucine.
B) methionine - arginine - asparagine.
C) histidine - glycine - proline.
D) serine - lysine - glycine.
E) serine - lysine - isoleucine.
The following questions refer to the codon table above.
If the DNA nucleotides read ATG-CGT-GAC, the amino acid sequence of the resulting polypeptide would be
A) tyrosine - alanine - leucine.
B) methionine - arginine - asparagine.
C) histidine - glycine - proline.
D) serine - lysine - glycine.
E) serine - lysine - isoleucine.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
37
In correct order, the three stages of translation are
A) initiation, replication, and termination.
B) elongation, peptide bond formation, and codon-anticodon pairing.
C) initiation, chain elongation, and termination.
D) termination, initiation, and replication.
E) initiation, codon-anticodon pairing, and termination.
A) initiation, replication, and termination.
B) elongation, peptide bond formation, and codon-anticodon pairing.
C) initiation, chain elongation, and termination.
D) termination, initiation, and replication.
E) initiation, codon-anticodon pairing, and termination.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
38
The structure in the above figure demonstrates which of the following?
A) transcription and translation occur simultaneously on a single strand
B) ribosomes attached to a strand of DNA
C) a small ribosomal subunit
D) multiple ribosomes on a strand of mRNA
E) a single unattached ribosome
A) transcription and translation occur simultaneously on a single strand
B) ribosomes attached to a strand of DNA
C) a small ribosomal subunit
D) multiple ribosomes on a strand of mRNA
E) a single unattached ribosome
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
39
During the termination stage
A) a start codon enters the ribosome.
B) release factors separate the ribosomal subunits.
C) mRNA attaches to the ribosome and the polypeptide chain.
D) ribosomal subunits join.
E) a stop codon enters the ribosome.
A) a start codon enters the ribosome.
B) release factors separate the ribosomal subunits.
C) mRNA attaches to the ribosome and the polypeptide chain.
D) ribosomal subunits join.
E) a stop codon enters the ribosome.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
40
Ribosomal subunits
A) come together in threes to form functional units.
B) are composed of mRNA and structural proteins.
C) are synthesized in the cytoplasm.
D) converge with tRNA when mRNA is to be translated.
E) are transcribed from the complementary strand of DNA that is used for tRNA transcription.
A) come together in threes to form functional units.
B) are composed of mRNA and structural proteins.
C) are synthesized in the cytoplasm.
D) converge with tRNA when mRNA is to be translated.
E) are transcribed from the complementary strand of DNA that is used for tRNA transcription.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
41
Choose the best matching element.
a.results in a hairless appearance of the sphynx cat
b.RNA-directed process involving polypeptide chains
c.sites at which RNA polymerases can bind and initiate transcription
d.binds to small subunit platform of a ribosome
e.guided and catalyzed by RNA polymerases
f.polypeptide chain elongation proceeds independently at each body in this cluster
g.adds nucleotides to the end of a growing RNA
h.a tRNA triplet opposite a codon
i.a set of three nucleotides
messenger RNA
a.results in a hairless appearance of the sphynx cat
b.RNA-directed process involving polypeptide chains
c.sites at which RNA polymerases can bind and initiate transcription
d.binds to small subunit platform of a ribosome
e.guided and catalyzed by RNA polymerases
f.polypeptide chain elongation proceeds independently at each body in this cluster
g.adds nucleotides to the end of a growing RNA
h.a tRNA triplet opposite a codon
i.a set of three nucleotides
messenger RNA
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
42
Each tRNA has a(n) __________ that base-pairs with a codon, and each binds to the amino acid specified by the codon.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
43
Choose the best matching element.
a.results in a hairless appearance of the sphynx cat
b.RNA-directed process involving polypeptide chains
c.sites at which RNA polymerases can bind and initiate transcription
d.binds to small subunit platform of a ribosome
e.guided and catalyzed by RNA polymerases
f.polypeptide chain elongation proceeds independently at each body in this cluster
g.adds nucleotides to the end of a growing RNA
h.a tRNA triplet opposite a codon
i.a set of three nucleotides
anticodon
a.results in a hairless appearance of the sphynx cat
b.RNA-directed process involving polypeptide chains
c.sites at which RNA polymerases can bind and initiate transcription
d.binds to small subunit platform of a ribosome
e.guided and catalyzed by RNA polymerases
f.polypeptide chain elongation proceeds independently at each body in this cluster
g.adds nucleotides to the end of a growing RNA
h.a tRNA triplet opposite a codon
i.a set of three nucleotides
anticodon
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
44
In transcription, RNA polymerase binds to a(n) _____________________ sequence near a gene, and then assembles a strand of RNA.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
45
Classification. You will need a genetic code table to answer the following. The following statements refer to the five RNA codons listed below; match them appropriately:
a.AUG
b.UAA
c.UUU
d.UUA
e.AAA
The anticodon AAA pairs with this codon.
a.AUG
b.UAA
c.UUU
d.UUA
e.AAA
The anticodon AAA pairs with this codon.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
46
Genetic information carried by a(n) _____________________ directs the synthesis of a(n) _____________________ chain during translation.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
47
Choose the best matching element.
a.results in a hairless appearance of the sphynx cat
b.RNA-directed process involving polypeptide chains
c.sites at which RNA polymerases can bind and initiate transcription
d.binds to small subunit platform of a ribosome
e.guided and catalyzed by RNA polymerases
f.polypeptide chain elongation proceeds independently at each body in this cluster
g.adds nucleotides to the end of a growing RNA
h.a tRNA triplet opposite a codon
i.a set of three nucleotides
promoters
a.results in a hairless appearance of the sphynx cat
b.RNA-directed process involving polypeptide chains
c.sites at which RNA polymerases can bind and initiate transcription
d.binds to small subunit platform of a ribosome
e.guided and catalyzed by RNA polymerases
f.polypeptide chain elongation proceeds independently at each body in this cluster
g.adds nucleotides to the end of a growing RNA
h.a tRNA triplet opposite a codon
i.a set of three nucleotides
promoters
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
48
Choose the best matching element.
a.results in a hairless appearance of the sphynx cat
b.RNA-directed process involving polypeptide chains
c.sites at which RNA polymerases can bind and initiate transcription
d.binds to small subunit platform of a ribosome
e.guided and catalyzed by RNA polymerases
f.polypeptide chain elongation proceeds independently at each body in this cluster
g.adds nucleotides to the end of a growing RNA
h.a tRNA triplet opposite a codon
i.a set of three nucleotides
polysome
a.results in a hairless appearance of the sphynx cat
b.RNA-directed process involving polypeptide chains
c.sites at which RNA polymerases can bind and initiate transcription
d.binds to small subunit platform of a ribosome
e.guided and catalyzed by RNA polymerases
f.polypeptide chain elongation proceeds independently at each body in this cluster
g.adds nucleotides to the end of a growing RNA
h.a tRNA triplet opposite a codon
i.a set of three nucleotides
polysome
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
49
Classification. You will need a genetic code table to answer the following. The following statements refer to the five RNA codons listed below; match them appropriately:
a.AUG
b.UAA
c.UUU
d.UUA
e.AAA
A DNA codon of ATT is complementary to this RNA codon.
a.AUG
b.UAA
c.UUU
d.UUA
e.AAA
A DNA codon of ATT is complementary to this RNA codon.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
50
A base-pair substitution may alter a protein by changing an amino acid or by introducing a(n) _____________________.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
51
Classification. You will need a genetic code table to answer the following. The following statements refer to the five RNA codons listed below; match them appropriately:
a.AUG
b.UAA
c.UUU
d.UUA
e.AAA
This codon codes for an amino acid and indicates the beginning of a coding region.
a.AUG
b.UAA
c.UUU
d.UUA
e.AAA
This codon codes for an amino acid and indicates the beginning of a coding region.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
52
Choose the best matching element.
a.results in a hairless appearance of the sphynx cat
b.RNA-directed process involving polypeptide chains
c.sites at which RNA polymerases can bind and initiate transcription
d.binds to small subunit platform of a ribosome
e.guided and catalyzed by RNA polymerases
f.polypeptide chain elongation proceeds independently at each body in this cluster
g.adds nucleotides to the end of a growing RNA
h.a tRNA triplet opposite a codon
i.a set of three nucleotides
single base-pair mutation
a.results in a hairless appearance of the sphynx cat
b.RNA-directed process involving polypeptide chains
c.sites at which RNA polymerases can bind and initiate transcription
d.binds to small subunit platform of a ribosome
e.guided and catalyzed by RNA polymerases
f.polypeptide chain elongation proceeds independently at each body in this cluster
g.adds nucleotides to the end of a growing RNA
h.a tRNA triplet opposite a codon
i.a set of three nucleotides
single base-pair mutation
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
53
Gene _____________________ requires the participation of RNA, tRNA, and _____________________.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
54
Choose the best matching element.
a.results in a hairless appearance of the sphynx cat
b.RNA-directed process involving polypeptide chains
c.sites at which RNA polymerases can bind and initiate transcription
d.binds to small subunit platform of a ribosome
e.guided and catalyzed by RNA polymerases
f.polypeptide chain elongation proceeds independently at each body in this cluster
g.adds nucleotides to the end of a growing RNA
h.a tRNA triplet opposite a codon
i.a set of three nucleotides
transcription
a.results in a hairless appearance of the sphynx cat
b.RNA-directed process involving polypeptide chains
c.sites at which RNA polymerases can bind and initiate transcription
d.binds to small subunit platform of a ribosome
e.guided and catalyzed by RNA polymerases
f.polypeptide chain elongation proceeds independently at each body in this cluster
g.adds nucleotides to the end of a growing RNA
h.a tRNA triplet opposite a codon
i.a set of three nucleotides
transcription
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
55
Choose the best matching element.
a.results in a hairless appearance of the sphynx cat
b.RNA-directed process involving polypeptide chains
c.sites at which RNA polymerases can bind and initiate transcription
d.binds to small subunit platform of a ribosome
e.guided and catalyzed by RNA polymerases
f.polypeptide chain elongation proceeds independently at each body in this cluster
g.adds nucleotides to the end of a growing RNA
h.a tRNA triplet opposite a codon
i.a set of three nucleotides
RNA polymerase
a.results in a hairless appearance of the sphynx cat
b.RNA-directed process involving polypeptide chains
c.sites at which RNA polymerases can bind and initiate transcription
d.binds to small subunit platform of a ribosome
e.guided and catalyzed by RNA polymerases
f.polypeptide chain elongation proceeds independently at each body in this cluster
g.adds nucleotides to the end of a growing RNA
h.a tRNA triplet opposite a codon
i.a set of three nucleotides
RNA polymerase
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
56
Classification. You will need a genetic code table to answer the following. The following statements refer to the five RNA codons listed below; match them appropriately:
a.AUG
b.UAA
c.UUU
d.UUA
e.AAA
A single mutation involving the second letter of codon AUA could convert it to this codon.
a.AUG
b.UAA
c.UUU
d.UUA
e.AAA
A single mutation involving the second letter of codon AUA could convert it to this codon.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
57
Classification. You will need a genetic code table to answer the following. The following statements refer to the five RNA codons listed below; match them appropriately:
a.AUG
b.UAA
c.UUU
d.UUA
e.AAA
This codon terminates a coding region.
a.AUG
b.UAA
c.UUU
d.UUA
e.AAA
This codon terminates a coding region.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
58
Choose the best matching element.
a.results in a hairless appearance of the sphynx cat
b.RNA-directed process involving polypeptide chains
c.sites at which RNA polymerases can bind and initiate transcription
d.binds to small subunit platform of a ribosome
e.guided and catalyzed by RNA polymerases
f.polypeptide chain elongation proceeds independently at each body in this cluster
g.adds nucleotides to the end of a growing RNA
h.a tRNA triplet opposite a codon
i.a set of three nucleotides
translation
a.results in a hairless appearance of the sphynx cat
b.RNA-directed process involving polypeptide chains
c.sites at which RNA polymerases can bind and initiate transcription
d.binds to small subunit platform of a ribosome
e.guided and catalyzed by RNA polymerases
f.polypeptide chain elongation proceeds independently at each body in this cluster
g.adds nucleotides to the end of a growing RNA
h.a tRNA triplet opposite a codon
i.a set of three nucleotides
translation
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
59
The process of gene expression includes two steps: ____________________ and ____________________.
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
60
Choose the best matching element.
a.results in a hairless appearance of the sphynx cat
b.RNA-directed process involving polypeptide chains
c.sites at which RNA polymerases can bind and initiate transcription
d.binds to small subunit platform of a ribosome
e.guided and catalyzed by RNA polymerases
f.polypeptide chain elongation proceeds independently at each body in this cluster
g.adds nucleotides to the end of a growing RNA
h.a tRNA triplet opposite a codon
i.a set of three nucleotides
codon
a.results in a hairless appearance of the sphynx cat
b.RNA-directed process involving polypeptide chains
c.sites at which RNA polymerases can bind and initiate transcription
d.binds to small subunit platform of a ribosome
e.guided and catalyzed by RNA polymerases
f.polypeptide chain elongation proceeds independently at each body in this cluster
g.adds nucleotides to the end of a growing RNA
h.a tRNA triplet opposite a codon
i.a set of three nucleotides
codon
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
61
What is the probability of a mutation occurring within the protein coding region of the human genome during a single cell division event?
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
62
The concepts of transcription and translation have been said to form the 'central dogma' of molecular biology. Is this a fitting description?
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
63
What does the fact that all organisms use essentially the same genetic code suggest about the origin of life?
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
64
Assume alternative splicing can generate all permutations and combination. How many proteins could a gene with three exons and two introns generate?
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
Unlock Deck
k this deck
Unlock Deck
Unlock for access to all 64 flashcards in this deck.
