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Deck 7: Genes, Proteins, and Genetic Engineering
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Deck 7: Genes, Proteins, and Genetic Engineering
1
All of the following can lead to cancer except
A)mutagens.
B)Bacteria.
C)mutations.
D)UV radiation.
E)carcinogens.
A)mutagens.
B)Bacteria.
C)mutations.
D)UV radiation.
E)carcinogens.
B
2
The anticodon
A)is found on mRNA.
B)has the same sequence as the codon.
C)is a sequence found on DNA.
D)helps the ribosome begin translation.
E)helps bring in the correct amino acid to add to the growing polypeptide chain.
A)is found on mRNA.
B)has the same sequence as the codon.
C)is a sequence found on DNA.
D)helps the ribosome begin translation.
E)helps bring in the correct amino acid to add to the growing polypeptide chain.
E
3
We refer to the DNA code as being redundant or repetitive. This means that
A)each triplet codes for one amino acid.
B)some codons code for the same amino acid.
C)one codon codes for one amino acid.
D)each triplet codes for a different amino acid.
E)a single triplet may code for more than one amino acid.
A)each triplet codes for one amino acid.
B)some codons code for the same amino acid.
C)one codon codes for one amino acid.
D)each triplet codes for a different amino acid.
E)a single triplet may code for more than one amino acid.
B
4
The AT3 protein that Harry Meade was working with.
A)is important to aid in clot formation.
B)has never been cloned.
C)can prevent blood clots from forming.
D)is found only in sheep.
E)is produced in the salivary glands.
A)is important to aid in clot formation.
B)has never been cloned.
C)can prevent blood clots from forming.
D)is found only in sheep.
E)is produced in the salivary glands.
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5
The two subunits of the ribosome join during
A)initiation of translation.
B)promotion of transcription.
C)elongation.
D)termination of translation.
E)termination of transcription.
A)initiation of translation.
B)promotion of transcription.
C)elongation.
D)termination of translation.
E)termination of transcription.
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6
Organisms carrying genes from another species are called
A)transformed.
B)transgenic.
C)cancerous.
D)hybrids.
E)vectors.
A)transformed.
B)transgenic.
C)cancerous.
D)hybrids.
E)vectors.
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7
What form of RNA carries instructions from the nucleus to the ribosome?
A)tRNA
B)mRNA
C)sRNA
D)rRNA
E)bRNA
A)tRNA
B)mRNA
C)sRNA
D)rRNA
E)bRNA
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8
When looking at a table depicting the genetic code, the base sequences signify
A)DNA.
B)mtDNA.
C)mRNA.
D)tRNA.
E)rRNA.
A)DNA.
B)mtDNA.
C)mRNA.
D)tRNA.
E)rRNA.
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9
The three-base sequence of DNA codes for
A)one protein.
B)one strand of mRNA.
C)one amino acid.
D)one polypeptide.
E)one strand of tRNA.
A)one protein.
B)one strand of mRNA.
C)one amino acid.
D)one polypeptide.
E)one strand of tRNA.
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10
In recombinant DNA technology, enzymes used to precisely cut DNA are called
A)DNA ligases.
B)restriction enzymes.
C)DNA polymerases.
D)RNA polymerases.
E)vectors.
A)DNA ligases.
B)restriction enzymes.
C)DNA polymerases.
D)RNA polymerases.
E)vectors.
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11
The "language" of the genetic code of RNA uses an alphabet of
A)nucleotide bases.
B)proteins.
C)amino acids.
D)Sugars.
E)phosphate molecules.
A)nucleotide bases.
B)proteins.
C)amino acids.
D)Sugars.
E)phosphate molecules.
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12
Promoters
A)determine the start of DNA strand separation.
B)are required to end transcription.
C)are a sequence of RNA nucleotides.
D)are involved in determining the start of translation.
E)aid in complementary base pairing.
A)determine the start of DNA strand separation.
B)are required to end transcription.
C)are a sequence of RNA nucleotides.
D)are involved in determining the start of translation.
E)aid in complementary base pairing.
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13
The "language" of the genetic code of DNA uses an alphabet of
A)nucleotide bases.
B)proteins.
C)amino acids.
D)sugars.
E)phosphate molecules.
A)nucleotide bases.
B)proteins.
C)amino acids.
D)sugars.
E)phosphate molecules.
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14
DNA and RNA are similar in that both
A)contain the same sugar.
B)are double-stranded molecules.
C)contain nitrogenous bases.
D)are in the form of a double-helix.
E)are very long molecules.
A)contain the same sugar.
B)are double-stranded molecules.
C)contain nitrogenous bases.
D)are in the form of a double-helix.
E)are very long molecules.
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15
In DNA, cytosine bonds to guanine. In RNA, cytosine bonds to
A)thymine.
B)cytosine.
C)uracil.
D)guanine.
E)adenine.
A)thymine.
B)cytosine.
C)uracil.
D)guanine.
E)adenine.
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16
To determine whether gene transfer has been successful, one would add
A)nutrient broth to the medium.
B)plasmids to the culture dish.
C)amino acids to the culture dish.
D)antibiotics to the culture dish.
E)DNA to the medium.
A)nutrient broth to the medium.
B)plasmids to the culture dish.
C)amino acids to the culture dish.
D)antibiotics to the culture dish.
E)DNA to the medium.
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17
A component of bacteria that are often used in biotechnology are
A)operons.
B)introns.
C)exons.
D)polypeptides.
E)plasmids.
A)operons.
B)introns.
C)exons.
D)polypeptides.
E)plasmids.
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18
tRNA molecules are composed of
A)DNA.
B)nucleotides.
C)amino acids
D)polypeptides.
E)lipids.
A)DNA.
B)nucleotides.
C)amino acids
D)polypeptides.
E)lipids.
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19
Ultraviolet light can cause permanent changes in genes. These changes are called
A)mutations.
B)enzymes.
C)fibrin.
D)promoters.
E)polypeptides.
A)mutations.
B)enzymes.
C)fibrin.
D)promoters.
E)polypeptides.
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20
In eukaryotes, transcription occurs in the
A)cell membrane.
B)cytoplasm.
C)mitochondria.
D)nucleus.
E)ribosome.
A)cell membrane.
B)cytoplasm.
C)mitochondria.
D)nucleus.
E)ribosome.
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21
What enzymes are used to cut DNA molecules? How do they work?
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22
The anticodon of the tRNA molecule base pairs with
A)DNA.
B)mRNA.
C)amino acids.
D)polypeptides.
E)rRNA.
A)DNA.
B)mRNA.
C)amino acids.
D)polypeptides.
E)rRNA.
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23
What is the importance of a cell being able to regulate gene expression?
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24
What types of mutations are the most harmful, and why?
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25
Based on what you know about the genetic code, list one or two codons that would most likely code for the same amino acid. This is a hypothetical question; don't look at the table showing the genetic code.
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26
First, give the amino acid sequence for the following DNA segment: AATCGAGGTACA. If a base substitution mutation occurred in this segment of DNA, would the resultant amino acid chain be affected?
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27
Compare and contrast DNA and RNA.
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28
If a certain stretch of DNA reads ATTACGAG, what would the corresponding tRNA sequence be?
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29
If a certain stretch of DNA reads ATTACGAG, what would the corresponding amino acid sequence be?
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30
Explain the concept "the genetic code is almost universal." Why is it important?
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31
What enzyme is used to "glue" together the ends of cut pieces of DNA?
A)DNA polymerase
B)RNA polymerase
C)DNA ligase
D)restriction enzymes
E)protease
A)DNA polymerase
B)RNA polymerase
C)DNA ligase
D)restriction enzymes
E)protease
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33
Match between columns
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