Deck 14: Gene Regulation
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Deck 14: Gene Regulation
1
Bacterial enzymes that are part of a rarely used catabolic pathway are usually organized into a(n) __________.
A) inducible operon
B) repressible operon
C) inducible zinc finger
D) repressible leucine zipper
E) inducible catabolon
A) inducible operon
B) repressible operon
C) inducible zinc finger
D) repressible leucine zipper
E) inducible catabolon
A
2
An activator protein would have which of the following effects on an operon with a positive control mechanism?
A) stimulate transcription
B) turn off transcription
C) stimulate transcription when a coactivator is bound to the allosteric site
D) inhibit transcription when a coactivator is bound to the allosteric site
E) no response
A) stimulate transcription
B) turn off transcription
C) stimulate transcription when a coactivator is bound to the allosteric site
D) inhibit transcription when a coactivator is bound to the allosteric site
E) no response
C
3
Genes that encode proteins that are always needed are called:
A) repressible genes.
B) promoter genes.
C) constitutive genes.
D) inducible genes.
E) operons.
A) repressible genes.
B) promoter genes.
C) constitutive genes.
D) inducible genes.
E) operons.
C
4
How does the lactose repressor block transcription of the lactose operon?
A) by "turning off" the appropriate genes in the intron
B) by regulating the activity of the enzymes that the operon codes for
C) by binding allosterically to the appropriate genes
D) by slowing the uptake of lactose into the cell
E) by binding to the operator
A) by "turning off" the appropriate genes in the intron
B) by regulating the activity of the enzymes that the operon codes for
C) by binding allosterically to the appropriate genes
D) by slowing the uptake of lactose into the cell
E) by binding to the operator
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5
In the tryptophan operon, the repressor actively binds to the operator when:
A) tryptophan binds to an allosteric site on the repressor.
B) tryptophan levels are low.
C) lactose levels are low.
D) there is a great need for proteins.
E) allotryptophan levels are low.
A) tryptophan binds to an allosteric site on the repressor.
B) tryptophan levels are low.
C) lactose levels are low.
D) there is a great need for proteins.
E) allotryptophan levels are low.
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6
An inducible operon is usually controlled by:
A) an inducer molecule that keeps it in the "off" state.
B) an active repressor that keeps it in the "off" state.
C) being active at all times.
D) allolactose.
E) being turned "off," usually by the end product of the pathway.
A) an inducer molecule that keeps it in the "off" state.
B) an active repressor that keeps it in the "off" state.
C) being active at all times.
D) allolactose.
E) being turned "off," usually by the end product of the pathway.
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7
cAMP levels decrease when __________.This results in __________ of CAP.
A) lactose levels increase; activation
B) lactose levels decrease; inhibition
C) glucose levels increase; inhibition
D) glucose levels decrease; activation
E) glucose levels decrease; inhibition
A) lactose levels increase; activation
B) lactose levels decrease; inhibition
C) glucose levels increase; inhibition
D) glucose levels decrease; activation
E) glucose levels decrease; inhibition
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8
Lactose induces the transcription of the lactose operon by:
A) binding to the allosteric site of the repressor after being converted to allolactose.
B) stimulating lactose metabolism in the cell.
C) binding to the glucose operon, making it inoperable.
D) binding to the allosteric site of RNA polymerase.
E) inhibiting the activity of CAP.
A) binding to the allosteric site of the repressor after being converted to allolactose.
B) stimulating lactose metabolism in the cell.
C) binding to the glucose operon, making it inoperable.
D) binding to the allosteric site of RNA polymerase.
E) inhibiting the activity of CAP.
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9
The inducer of the lactose operon in E.coli is:
A) CAP.
B) AMP.
C) allolactose.
D) glucose.
E) galactose.
A) CAP.
B) AMP.
C) allolactose.
D) glucose.
E) galactose.
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10
The focus of gene regulation in multicellular organisms is on:
A) operons.
B) the specificity of products in different tissues.
C) economizing resources at all levels.
D) rapid turnover of RNA molecules.
E) controlling the transcription of genes involved in resource use
A) operons.
B) the specificity of products in different tissues.
C) economizing resources at all levels.
D) rapid turnover of RNA molecules.
E) controlling the transcription of genes involved in resource use
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11
The molecular switch that controls gene expression is known as:
A) the operon.
B) controller.
C) the operator.
D) repressor.
E) inducer.
A) the operon.
B) controller.
C) the operator.
D) repressor.
E) inducer.
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12
Repressible genes are usually actively transcribed when:
A) repressor molecules bind to the promoter.
B) the supply of the end product formed by the enzymes encoded by these genes is low.
C) tryptophan accumulates in the cell.
D) quantities of precursor materials are high.
E) there is no other substrate that can be used by the cell.
A) repressor molecules bind to the promoter.
B) the supply of the end product formed by the enzymes encoded by these genes is low.
C) tryptophan accumulates in the cell.
D) quantities of precursor materials are high.
E) there is no other substrate that can be used by the cell.
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13
Catabolite activator protein:
A) increases the affinity of the promoter region for RNA polymerase.
B) decreases RNA polymerase activity.
C) becomes nonfunctional when it binds to AMP.
D) binds and activates RNA polymerase.
E) blocks RNA polymerase access to the DNA template.
A) increases the affinity of the promoter region for RNA polymerase.
B) decreases RNA polymerase activity.
C) becomes nonfunctional when it binds to AMP.
D) binds and activates RNA polymerase.
E) blocks RNA polymerase access to the DNA template.
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14
Inducible genes are usually actively transcribed when:
A) the molecule degraded by the enzyme(s) is present in the cell.
B) repressor molecules bind to the promoter.
C) lactose is absent from the cell.
D) quantities of precursor materials are low.
E) there is no other substrate that can be used by the cell.
A) the molecule degraded by the enzyme(s) is present in the cell.
B) repressor molecules bind to the promoter.
C) lactose is absent from the cell.
D) quantities of precursor materials are low.
E) there is no other substrate that can be used by the cell.
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15
The gene that codes for the repressor protein of the E.coli lactose operon is:
A) located between the operator and the promoter.
B) downstream from the promoter region.
C) downstream from the operator.
D) constitutive.
E) turned off most of the time.
A) located between the operator and the promoter.
B) downstream from the promoter region.
C) downstream from the operator.
D) constitutive.
E) turned off most of the time.
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16
A repressible operon is usually controlled by:
A) an inactive repressor that allows it to be in the "on" state.
B) the supply of the precursor product for the enzymes.
C) an inactive repressor that keeps it in the "off" state.
D) tryptophan.
E) being turned "on," usually by the end product of the pathway.
A) an inactive repressor that allows it to be in the "on" state.
B) the supply of the precursor product for the enzymes.
C) an inactive repressor that keeps it in the "off" state.
D) tryptophan.
E) being turned "on," usually by the end product of the pathway.
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17
Regulation of gene expression can NOT be accomplished by controlling:
A) the activity of a protein product.
B) the amount of mRNA that is available.
C) the rate of translation of mRNA.
D) the rate of mRNA degradation.
E) the rate of DNA replication
A) the activity of a protein product.
B) the amount of mRNA that is available.
C) the rate of translation of mRNA.
D) the rate of mRNA degradation.
E) the rate of DNA replication
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18
Bacteria rarely regulate gene products through:
A) promoter sequences.
B) activator proteins.
C) repressor proteins.
D) protein degradation.
E) operons.
A) promoter sequences.
B) activator proteins.
C) repressor proteins.
D) protein degradation.
E) operons.
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19
The researchers who first discovered the mechanism of control of a bacterial gene were:
A) Hershey and Chase.
B) Griffith and Avery.
C) Watson and Crick.
D) Jacob and Monod.
E) McClintock and Morgan.
A) Hershey and Chase.
B) Griffith and Avery.
C) Watson and Crick.
D) Jacob and Monod.
E) McClintock and Morgan.
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20
The operator of the lactose operon in E.coli is located:
A) between the promoter and the TATA box.
B) upstream of the promoter.
C) between the promoter and the structural genes.
D) among the structural genes.
E) anywhere on the chromosome.
A) between the promoter and the TATA box.
B) upstream of the promoter.
C) between the promoter and the structural genes.
D) among the structural genes.
E) anywhere on the chromosome.
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21
The role of CAP in the lac operon is:
A) repression of RNA polymerase binding to the promoter.
B) negative control of the lac operon.
C) enhancement of RNA polymerase binding to the promoter.
D) to inactivate the repressor by binding to its allosteric site.
E) the activation of allolactose binding to the repressor protein.
A) repression of RNA polymerase binding to the promoter.
B) negative control of the lac operon.
C) enhancement of RNA polymerase binding to the promoter.
D) to inactivate the repressor by binding to its allosteric site.
E) the activation of allolactose binding to the repressor protein.
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22
Figure 14-1
Use the figure to answer the corresponding question(s).
The scenario in the accompanying figure reflects conditions of:
A) low levels of lactose.
B) high levels of lactose.
C) low levels of glucose.
D) high levels of glucose.
E) high levels of arabinose
Use the figure to answer the corresponding question(s).

The scenario in the accompanying figure reflects conditions of:

A) low levels of lactose.
B) high levels of lactose.
C) low levels of glucose.
D) high levels of glucose.
E) high levels of arabinose
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23
A new operon is discovered in a bacterium.The control of this operon is affected by a protein that is made by another gene, and is made in an active form that binds to the DNA near the operon to prevent transcription.This is an example of __________ control.
A) positive
B) negative
C) activational
D) repressing
E) inducing
A) positive
B) negative
C) activational
D) repressing
E) inducing
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24
Feedback inhibition of the first enzyme of a pathway by the end product of the pathway is an example of:
A) translational control.
B) posttranslational control.
C) transcriptional control.
D) inhibiting control.
E) repression.
A) translational control.
B) posttranslational control.
C) transcriptional control.
D) inhibiting control.
E) repression.
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25
Temporal gene regulation refers to which of the following circumstances?
A) Certain genes are induced only at a particular point in the life cycle.
B) Certain genes are induced only in specific tissues.
C) Heat-shock genes are induced during periods of temperature stress.
D) "Housekeeping" genes are induced in response to a viral infection.
E) Molecular chaperones are synthesized after heavy-metal ingestion.
A) Certain genes are induced only at a particular point in the life cycle.
B) Certain genes are induced only in specific tissues.
C) Heat-shock genes are induced during periods of temperature stress.
D) "Housekeeping" genes are induced in response to a viral infection.
E) Molecular chaperones are synthesized after heavy-metal ingestion.
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26
A repressor protein would have which of the following effects on repressible genes with a negative control mechanism?
A) stimulate transcription in the presence of a corepressor
B) turn off transcription in the presence of an inducer
C) stimulate transcription in the presence of a coactivator
D) turn off transcription in the presence of a corepressor
E) no response
A) stimulate transcription in the presence of a corepressor
B) turn off transcription in the presence of an inducer
C) stimulate transcription in the presence of a coactivator
D) turn off transcription in the presence of a corepressor
E) no response
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27
In female mammals, most of the inactive X chromosome has become:
A) associated with histones.
B) active X factor.
C) euchromatin.
D) replicated.
E) heterochromatin.
A) associated with histones.
B) active X factor.
C) euchromatin.
D) replicated.
E) heterochromatin.
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28
Translational controls regulate:
A) the activity of a protein end-product that is produced.
B) the rate at which an mRNA molecule is translated.
C) the rate at which an mRNA molecule is synthesized.
D) the uptake of nucleic acids into the cell.
E) the attachment of phosphate groups to polypeptides.
A) the activity of a protein end-product that is produced.
B) the rate at which an mRNA molecule is translated.
C) the rate at which an mRNA molecule is synthesized.
D) the uptake of nucleic acids into the cell.
E) the attachment of phosphate groups to polypeptides.
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29
Feedback inhibition is:
A) transcriptional control.
B) transcriptional control.
C) a mechanism affecting events after translation.
D) a repressible system.
E) constitiutive control
A) transcriptional control.
B) transcriptional control.
C) a mechanism affecting events after translation.
D) a repressible system.
E) constitiutive control
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30
Genes in euchromatic regions are:
A) inhibited.
B) duplicated
C) actively being transcribed.
D) repressed.
E) unregulated.
A) inhibited.
B) duplicated
C) actively being transcribed.
D) repressed.
E) unregulated.
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31
Densely staining regions of highly compacted chromatin that are generally not transcribed are:
A) heterochromatin.
B) homochromatin.
C) histone-dependent chromatin.
D) primary chromatin.
E) heterochromatinization
A) heterochromatin.
B) homochromatin.
C) histone-dependent chromatin.
D) primary chromatin.
E) heterochromatinization
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32
In the lac operon, cAMP binds to:
A) DNA.
B) the repressor gene.
C) the operator gene.
D) the repressor protein.
E) catabolite activator protein.
A) DNA.
B) the repressor gene.
C) the operator gene.
D) the repressor protein.
E) catabolite activator protein.
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33
Which of the following statements concerning gene regulation in eukaryotes is FALSE?
A) The organization of tissues and organs is regulated mainly via transcription.
B) Some eukaryotic genes are constitutive.
C) Eukaryotic genes do not usually form operon-like clusters.
D) "Housekeeping" enzymes are expressed at all times.
E) Eukaryotic cells lack inducible genes.
A) The organization of tissues and organs is regulated mainly via transcription.
B) Some eukaryotic genes are constitutive.
C) Eukaryotic genes do not usually form operon-like clusters.
D) "Housekeeping" enzymes are expressed at all times.
E) Eukaryotic cells lack inducible genes.
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34
Translational controls of protein levels in bacteria are governed by:
A) the rate at which small and large subunits of ribosomes assemble.
B) the rate at which the cap and tail of pre mRNA are removed.
C) the rate at which ribosomes attach to mRNA molecules.
D) the concentration of proteins in the cytoplasm.
E) the rate at which sugars are incorporated into the cell.
A) the rate at which small and large subunits of ribosomes assemble.
B) the rate at which the cap and tail of pre mRNA are removed.
C) the rate at which ribosomes attach to mRNA molecules.
D) the concentration of proteins in the cytoplasm.
E) the rate at which sugars are incorporated into the cell.
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35
Which of the following statements about the regulation of gene expression in bacteria is false?
A) Genes can be turned on and off as environmental conditions change.
B) Constitutive genes producing enzymes that are more stable are transcribed at a slower rate.
C) Most gene regulation in bacteria occurs at the level of translation.
D) Constitutive genes encoding proteins required in large amounts are transcribed more rapidly than genes for proteins required in smaller amounts.
E) Constitutive genes with "strong" promoters bind RNA polymerase more frequently than genes with "weak" promoters.
A) Genes can be turned on and off as environmental conditions change.
B) Constitutive genes producing enzymes that are more stable are transcribed at a slower rate.
C) Most gene regulation in bacteria occurs at the level of translation.
D) Constitutive genes encoding proteins required in large amounts are transcribed more rapidly than genes for proteins required in smaller amounts.
E) Constitutive genes with "strong" promoters bind RNA polymerase more frequently than genes with "weak" promoters.
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36
Figure 14-1
Use the figure to answer the corresponding question(s).
The promoter in Figure 14-1 is labeled __________.
A) 6
B) 3
C) 1
D) 2
E) 7
Use the figure to answer the corresponding question(s).

The promoter in Figure 14-1 is labeled __________.
A) 6
B) 3
C) 1
D) 2
E) 7
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37
Bacterial gene regulation occurs mainly at the __________ level.
A) translational
B) transcriptional
C) posttranscriptional
D) feedback inhibition
E) posttranslational
A) translational
B) transcriptional
C) posttranscriptional
D) feedback inhibition
E) posttranslational
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38
DNA sequences that are methylated by a cell are usually genes that:
A) have been replicated
B) are actively expressed.
C) are inactive.
D) are constitutive.
E) are repressed.
A) have been replicated
B) are actively expressed.
C) are inactive.
D) are constitutive.
E) are repressed.
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39
Figure 14-1
Use the figure to answer the corresponding question(s).
Refer to Figure 14-1.The area of the tryptophan operon labeled 3 is the:
A) promoter.
B) repressor gene.
C) ribosome.
D) RNA polymerase.
E) operator
Use the figure to answer the corresponding question(s).

Refer to Figure 14-1.The area of the tryptophan operon labeled 3 is the:
A) promoter.
B) repressor gene.
C) ribosome.
D) RNA polymerase.
E) operator
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40
Figure 14-1
Use the figure to answer the corresponding question(s).
Refer to Figure 14-1.The structure labeled 7 in the figure of the tryptophan operon is:
A) an active repressor protein.
B) an inactive repressor protein.
C) an active RNA polymerase.
D) an inactive RNA polymerase.
E) a ribosome.
Use the figure to answer the corresponding question(s).

Refer to Figure 14-1.The structure labeled 7 in the figure of the tryptophan operon is:
A) an active repressor protein.
B) an inactive repressor protein.
C) an active RNA polymerase.
D) an inactive RNA polymerase.
E) a ribosome.
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41
Enzymes that alter another protein or enzyme's activity by attaching a phosphate group are called:
A) kinases.
B) phosphatases.
C) phospators.
D) transcription factors.
E) coenzymes.
A) kinases.
B) phosphatases.
C) phospators.
D) transcription factors.
E) coenzymes.
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42
In an operon, the switch that controls mRNA synthesis is the promotor, which is a sequence of bases upstream from the first structural gene.
__________________
__________________
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43
Proteolytic processing of eukaryotic proteins involves:
A) removal of a portion of the polypeptide chain from an inactive precursor of the protein.
B) the addition of one or more functional groups to a precursor protein.
C) the removal of one or more functional groups from a precursor protein.
D) removal of histones.
E) removing the cap and tail of a newly synthesized protein.
A) removal of a portion of the polypeptide chain from an inactive precursor of the protein.
B) the addition of one or more functional groups to a precursor protein.
C) the removal of one or more functional groups from a precursor protein.
D) removal of histones.
E) removing the cap and tail of a newly synthesized protein.
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44
Which of the following types of processing does eukaryotic mRNA NOT undergo before it becomes functional?
A) splicing
B) capping
C) polyadenylation
D) removal of introns
E) protein proteolysis
A) splicing
B) capping
C) polyadenylation
D) removal of introns
E) protein proteolysis
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45
A cell may meet the need for large quantities of a specific protein by all of the following EXCEPT :
A) continuously synthesizing the mRNA molecule that specifies that protein.
B) increasing the half-life of the mRNA that specifies the protein.
C) having multiple copies of the gene that codes for that protein.
D) amplifying protein genes by DNA replication
E) inhibition of DNA synthesis
A) continuously synthesizing the mRNA molecule that specifies that protein.
B) increasing the half-life of the mRNA that specifies the protein.
C) having multiple copies of the gene that codes for that protein.
D) amplifying protein genes by DNA replication
E) inhibition of DNA synthesis
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46
In eukaryotes, some DNA sequences act as introns in some cells and as exons in other cells.This is an example of __________.
A) gene repression
B) mRNA splicing
C) gene amplification
D) differential mRNA processing
E) gene processing
A) gene repression
B) mRNA splicing
C) gene amplification
D) differential mRNA processing
E) gene processing
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47
Increasing the stability of a particular mRNA __________ the expression of that gene.
A) increases
B) does not affect
C) eliminates
D) decreases
E) silencers
A) increases
B) does not affect
C) eliminates
D) decreases
E) silencers
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48
Which of the following statements concerning leucine zipper proteins is FALSE?
A) They are transcription factors.
B) They contain loops held together by zinc ions.
C) They form homodimers.
D) They form heterodimers.
E) They contain DNA-binding domains.
A) They are transcription factors.
B) They contain loops held together by zinc ions.
C) They form homodimers.
D) They form heterodimers.
E) They contain DNA-binding domains.
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49
The rate of eukaryotic transcription after initiation is affected by:
A) upstream promoter elements.
B) groups of genes arranged into operons.
C) the action of catabolite activator proteins.
D) how fast caps and tails can be added to pre-mRNA.
E) enhancers.
A) upstream promoter elements.
B) groups of genes arranged into operons.
C) the action of catabolite activator proteins.
D) how fast caps and tails can be added to pre-mRNA.
E) enhancers.
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50
Some eukaryotic DNA sequences act as introns in the cells of some tissues and exons in the cells of other tissues.This allows:
A) prevention of harmful mutation.
B) regulation of the rate of transcription.
C) formation of different types of closely related proteins.
D) regulation of the rate of translation.
E) repression of DNA replication.
A) prevention of harmful mutation.
B) regulation of the rate of transcription.
C) formation of different types of closely related proteins.
D) regulation of the rate of translation.
E) repression of DNA replication.
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51
Upstream promoter elements in eukaryotes are:
A) nucleotide sequences that act as binding sites for RNA polymerase.
B) nucleotide sequences that regulate the efficiency of transcription initiation.
C) nucleotide sequences that contain the TATA box.
D) proteins that enhance RNA polymerase binding to the promoter.
E) proteins that inhibit RNA polymerase binding to the promoter.
A) nucleotide sequences that act as binding sites for RNA polymerase.
B) nucleotide sequences that regulate the efficiency of transcription initiation.
C) nucleotide sequences that contain the TATA box.
D) proteins that enhance RNA polymerase binding to the promoter.
E) proteins that inhibit RNA polymerase binding to the promoter.
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52
Constitutive genes code for proteins that are needed for survival .
__________________
__________________
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53
Explain the respective advantages associated with operons being inducible (e.g., the lactose operon) or repressible (e.g., the tryptophan operon).
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54
Gene amplification involves:
A) increasing the affinity of a gene to DNA polymerase.
B) extra replication of genes that specify a certain gene product only in cells needing this product.
C) improving the accuracy by which a gene is copied to produce an mRNA molecule.
D) enhancing the activity of RNA polymerase.
E) increasing the size of the gene that encodes a needed protein.
A) increasing the affinity of a gene to DNA polymerase.
B) extra replication of genes that specify a certain gene product only in cells needing this product.
C) improving the accuracy by which a gene is copied to produce an mRNA molecule.
D) enhancing the activity of RNA polymerase.
E) increasing the size of the gene that encodes a needed protein.
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55
A TATA box is seen in __________ cells and is the site where __________.
A) bacterial; RNA polymerase binds
B) eukaryotic; DNA ligase cleaves introns
C) eukaryotic; RNA polymerase binds
D) both bacterial and eukaryotic; transcription factors bind
E) bacterial; a repressor protein binds
A) bacterial; RNA polymerase binds
B) eukaryotic; DNA ligase cleaves introns
C) eukaryotic; RNA polymerase binds
D) both bacterial and eukaryotic; transcription factors bind
E) bacterial; a repressor protein binds
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56
Identify two ways in which posttranscriptional gene regulation occurs in eukaryotes and briefly explain each.
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57
Define operons as they occur in bacterial cells.
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58
DNA sequences called __________ increase the rate of RNA synthesis after initiation of transcription.
A) promoters
B) TATA boxes
C) UPEs
D) enhancers
E) regulators
A) promoters
B) TATA boxes
C) UPEs
D) enhancers
E) regulators
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59
Eukaryotic transcription factors:
A) are always simpler than bacterial regulators.
B) may be activators or repressors of transcription.
C) are inducers.
D) are corepressors.
E) are also known as enhancers.
A) are always simpler than bacterial regulators.
B) may be activators or repressors of transcription.
C) are inducers.
D) are corepressors.
E) are also known as enhancers.
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60
Eukaryotic enhancers are capable of which of the following EXCEPT ?
A) regulating a gene even if they are cut out of the DNA and reinserted inverted
B) regulating a gene from very long distances
C) interacting with proteins that regulate transcription
D) increasing the rate of RNA synthesis after initiation
E) decrease the rate of transcription
A) regulating a gene even if they are cut out of the DNA and reinserted inverted
B) regulating a gene from very long distances
C) interacting with proteins that regulate transcription
D) increasing the rate of RNA synthesis after initiation
E) decrease the rate of transcription
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61
Much gene expression in multicelluar organisms focuses on quantitative gene expression of the genes in various tissues.
__________________
__________________
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62
Genomic imprinting is an example of epigenetics.
__________________
__________________
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63
Eukaryotes have inducible genes that respond to environmental stimuli.
__________________
__________________
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64
DNA methylation is a form of transcriptional regulation by eukaryotes.
____________________
____________________
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65
Mutations in the TATA box increase the rate of transcription.
__________________
__________________
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66
MATCHING
Match the type of gene regulation with the process.
a.regulation of transcription
d.regulation of translation
b.regulation of mRNA processing
e.regulation of chromatin
c.regulation of mRNA transport
Exon/intron processing
Match the type of gene regulation with the process.
a.regulation of transcription
d.regulation of translation
b.regulation of mRNA processing
e.regulation of chromatin
c.regulation of mRNA transport
Exon/intron processing
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67
The leucine zipper has a unique structure compared to the other transcription factors because it is a dimer.
__________________
__________________
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68
MATCHING
Match the type of gene regulation with the process.
a.regulation of transcription
d.regulation of translation
b.regulation of mRNA processing
e.regulation of chromatin
c.regulation of mRNA transport
Controlling access to nuclear pores
Match the type of gene regulation with the process.
a.regulation of transcription
d.regulation of translation
b.regulation of mRNA processing
e.regulation of chromatin
c.regulation of mRNA transport
Controlling access to nuclear pores
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69
Why is it important that a few -galactosidase molecules be present in E.coli even if these cells have been growing on a lactose-free medium?
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70
Outline the various ways in which chromosomes can regulate how much of an enzyme is present at any given time within a eukaryotic cell.
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71
When the intracellular level of lactose drops, the repressor protein binds to the operator and shuts down translation.
__________________
__________________
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72
MATCHING
Match the type of gene regulation with the process.
a.regulation of transcription
d.regulation of translation
b.regulation of mRNA processing
e.regulation of chromatin
c.regulation of mRNA transport
Sketch the main elements of an inducible operon, such as the lactose operon, and explain the functions of the operator and promoter regions.
Match the type of gene regulation with the process.
a.regulation of transcription
d.regulation of translation
b.regulation of mRNA processing
e.regulation of chromatin
c.regulation of mRNA transport
Sketch the main elements of an inducible operon, such as the lactose operon, and explain the functions of the operator and promoter regions.
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73
MATCHING
Match the type of gene regulation with the process.
a.regulation of transcription
d.regulation of translation
b.regulation of mRNA processing
e.regulation of chromatin
c.regulation of mRNA transport
Promotor and enhancer elements in DNA
Match the type of gene regulation with the process.
a.regulation of transcription
d.regulation of translation
b.regulation of mRNA processing
e.regulation of chromatin
c.regulation of mRNA transport
Promotor and enhancer elements in DNA
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74
The binding of active CAP near the lac operon promoter decreases the rate of transcription of the lac operon.
__________________
__________________
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75
A repressor operon regulates the gene expression of anabolic pathways.
__________________
__________________
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76
MATCHING
Match the type of gene regulation with the process.
a.regulation of transcription
d.regulation of translation
b.regulation of mRNA processing
e.regulation of chromatin
c.regulation of mRNA transport
Unpacked heterochromatin
Match the type of gene regulation with the process.
a.regulation of transcription
d.regulation of translation
b.regulation of mRNA processing
e.regulation of chromatin
c.regulation of mRNA transport
Unpacked heterochromatin
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77
MATCHING
Match the type of gene regulation with the process.
a.regulation of transcription
d.regulation of translation
b.regulation of mRNA processing
e.regulation of chromatin
c.regulation of mRNA transport
Degradation of mRNA
Match the type of gene regulation with the process.
a.regulation of transcription
d.regulation of translation
b.regulation of mRNA processing
e.regulation of chromatin
c.regulation of mRNA transport
Degradation of mRNA
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