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Deck 17: Control of Gene Expression in Bacteria
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Deck 17: Control of Gene Expression in Bacteria
1
In the first step of their experiments,Jacob and Monod treated E.coli cells with UV light or X-rays in order to _____.
A)decrease the rate of gene expression
B)induce DNA repair enzymes
C)increase the frequency of mutations in all genes
D)selectively mutate the lac operon,leaving all other genes unmutated
A)decrease the rate of gene expression
B)induce DNA repair enzymes
C)increase the frequency of mutations in all genes
D)selectively mutate the lac operon,leaving all other genes unmutated
C
2
Imagine that you've added the same indicator used by Monod to E.coli colonies growing on a plate with glucose and no lactose.One colony is yellow and the remainders are white.This result suggests that cells of the yellow colony _____.
A)have constitutively active lacZ and lacY genes
B)cannot activate either the lacZ or lacY gene
C)can activate the lacY gene but cannot activate the lacZ gene
D)cannot metabolize lactose
E)cannot transport lactose into the cell
A)have constitutively active lacZ and lacY genes
B)cannot activate either the lacZ or lacY gene
C)can activate the lacY gene but cannot activate the lacZ gene
D)cannot metabolize lactose
E)cannot transport lactose into the cell
A
3
Full induction of the lac operon occurs when _____.
A)lactose levels are low and glucose levels are low
B)lactose levels are low and glucose levels are high
C)lactose levels are high and glucose levels are low
D)lactose levels are high and glucose levels are high
A)lactose levels are low and glucose levels are low
B)lactose levels are low and glucose levels are high
C)lactose levels are high and glucose levels are low
D)lactose levels are high and glucose levels are high
C
4
According to the lac operon model proposed by Jacob and Monod,what is predicted to occur if the operator is removed from the operon?
A)The lac operon would be transcribed constitutively.
B)Only lacZ would be transcribed.
C)Only lacY would be transcribed.
D)Galactosidase permease would be produced,but would be incapable of transporting lactose.
A)The lac operon would be transcribed constitutively.
B)Only lacZ would be transcribed.
C)Only lacY would be transcribed.
D)Galactosidase permease would be produced,but would be incapable of transporting lactose.
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5
Imagine that you've set up a genetic screen to identify E.coli mutants that cannot metabolize the amino acid tryptophan.Beginning with a master plate containing many colonies,you prepare replica plates on medium with glucose or tryptophan as the only energy source.You would look for colonies that _____.
A)cannot grow on either type of media
B)can grow on both types of media
C)can grow only on the plates with tryptophan
D)can grow only on the plates with glucose
A)cannot grow on either type of media
B)can grow on both types of media
C)can grow only on the plates with tryptophan
D)can grow only on the plates with glucose
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6
Imagine that you discover a bacterial operon involved in the synthesis of vitamin B₁₂.This operon is regulated by a repressor protein that binds to an operator sequence.Vitamin B₁₂ is the allosteric effector of the repressor-the molecule that binds to the repressor to affect its activity.Predict how vitamin B₁₂ will influence repressor activity.
A)When vitamin B₁₂ binds to the repressor,the repressor binds to the operator.
B)When vitamin B₁₂ binds to the repressor,the repressor cannot bind to the operator.
C)When vitamin B₁₂ binds to the repressor,the repressor can bind to RNA polymerase.
D)When vitamin B₁₂ binds to the repressor,the repressor cannot bind to RNA polymerase.
A)When vitamin B₁₂ binds to the repressor,the repressor binds to the operator.
B)When vitamin B₁₂ binds to the repressor,the repressor cannot bind to the operator.
C)When vitamin B₁₂ binds to the repressor,the repressor can bind to RNA polymerase.
D)When vitamin B₁₂ binds to the repressor,the repressor cannot bind to RNA polymerase.
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7
The trp repressor blocks transcription of the trp operon when the repressor _____.
A)binds to inducer
B)is not bound to inducer
C)binds to tryptophan
D)is not bound to tryptophan
E)is not bound to the operator
A)binds to inducer
B)is not bound to inducer
C)binds to tryptophan
D)is not bound to tryptophan
E)is not bound to the operator
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8
Bacterial and eukaryotic cells primarily control gene expression at the level of transcription.If instead cells exerted control of gene expression primarily at the post-translational level,what would be different?
A)The ability to rapidly respond to environmental change would be reduced.
B)Cells would expend significantly more energy.
C)Genes would no longer be transcribed.
D)Translation of mRNA into protein would not occur.
A)The ability to rapidly respond to environmental change would be reduced.
B)Cells would expend significantly more energy.
C)Genes would no longer be transcribed.
D)Translation of mRNA into protein would not occur.
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9
Jacob and Monod were intellectually primed to draw the conclusions they did concerning regulation of the lac operon.In part,this was due to their fascination with mechanisms of enzyme regulation.They knew that the activity of some enzymes is regulated when their reaction product binds to the enzyme,changing its shape and therefore its activity.This knowledge allowed them to easily make the intellectual leap to propose _____.
A)the existence of the CAP binding site
B)allosteric regulation of the repressor
C)positive regulation of the lac operon
D)the existence of the operator
E)co-transcribed and co-regulated genes of bacterial operons
A)the existence of the CAP binding site
B)allosteric regulation of the repressor
C)positive regulation of the lac operon
D)the existence of the operator
E)co-transcribed and co-regulated genes of bacterial operons
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10
Suppose several genes are grouped together in a genome and the group results in a single enzyme.If one of these genes is mutated and the enzyme is no longer produced,this gene must be part of _____.
A)an intron
B)an operon
C)a repressor
D)an activator
E)an inducer
A)an intron
B)an operon
C)a repressor
D)an activator
E)an inducer
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11
Which of the following levels of gene expression allows the most rapid response to environmental change?
A)transcriptional control
B)translational control
C)post-translational control
A)transcriptional control
B)translational control
C)post-translational control
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12
An E.coli cell without a functional lacI gene is expected to _____.
A)never produce β-galactosidase
B)always produce β-galactosidase
C)be unable to transport lactose into the cell
D)be unable to metabolize lactose within the cell
A)never produce β-galactosidase
B)always produce β-galactosidase
C)be unable to transport lactose into the cell
D)be unable to metabolize lactose within the cell
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13
In negative control of transcription,a gene is activated when _____.
A)a kinase adds a phosphate to DNA
B)lactose is transported into the cell
C)a regulatory protein binds to DNA
D)a regulatory protein is removed from DNA
A)a kinase adds a phosphate to DNA
B)lactose is transported into the cell
C)a regulatory protein binds to DNA
D)a regulatory protein is removed from DNA
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14
The product of the lacI gene is _____.
A)an enzyme
B)a transport protein embedded within the membrane
C)β-galactosidase
D)the repressor
A)an enzyme
B)a transport protein embedded within the membrane
C)β-galactosidase
D)the repressor
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15
Catabolite activator protein (CAP)activity is controlled by cAMP at the _____ level.
A)transcriptional
B)translational
C)post-translational
A)transcriptional
B)translational
C)post-translational
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16
A compound known as X-Gal is widely used in molecular genetic research.When wild-type (normal)E.coli is grown on medium containing X-Gal,the bacterial colonies turn blue.In contrast,when lacZ mutants are grown on medium containing X-Gal,the bacterial colonies remain their normal white color.What is X-Gal likely to be?
A)a compound chemically similar to glucose
B)a compound chemically similar to galactose
C)a compound chemically similar to lactose
D)a compound that cannot be transported into lacZ mutants
E)a compound that can only be transported into lacA mutants
A)a compound chemically similar to glucose
B)a compound chemically similar to galactose
C)a compound chemically similar to lactose
D)a compound that cannot be transported into lacZ mutants
E)a compound that can only be transported into lacA mutants
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17
Recall from Chapter 11 that cyclin-dependent kinases are activated when they bind to a cyclin protein.This form of regulation is _____.
A)constitutive control
B)transcriptional control
C)translational control
D)post-translational control
A)constitutive control
B)transcriptional control
C)translational control
D)post-translational control
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18
The product of the lacI gene is most like a car's _____.
A)parking brake
B)accelerator pedal
C)steering wheel
D)engine
E)gear shift
A)parking brake
B)accelerator pedal
C)steering wheel
D)engine
E)gear shift
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19
Although the expression of most genes is tightly regulated,some genes are expressed at roughly constant rates (i.e. ,constitutively).Which of the following genes would you predict to be constitutively expressed?
A)genes involved in the biosynthesis of the amino acid tryptophan
B)genes involved in the degradation of tryptophan
C)genes involved in the degradation of arabinose,a sugar
D)genes that code for ribosomal RNAs
E)genes involved in the transport of the sugar maltose
A)genes involved in the biosynthesis of the amino acid tryptophan
B)genes involved in the degradation of tryptophan
C)genes involved in the degradation of arabinose,a sugar
D)genes that code for ribosomal RNAs
E)genes involved in the transport of the sugar maltose
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20
E)coli and many other bacteria of the human gut need to have fine-tuned regulation of gene expression in order to _____.
A)replicate their DNA
B)metabolize any nutrient
C)effectively compete for space and nutrients
D)grow
E)evolve
A)replicate their DNA
B)metabolize any nutrient
C)effectively compete for space and nutrients
D)grow
E)evolve
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21
Use the following information when answering the corresponding question(s).
The lac operon is used in countless ways for genetics research and biotechnology.One important use of the lac operon is to regulate the expression of cloned genes.In this application,some regulatory elements of the operon are fused to the cloned gene that is to be regulated.One application of such technology was reported by Cronin et al. ,The lac operator-repressor system is functional in the mouse,Genes and Development 15 (2001):1506-17.These investigators fused a portion of the lac operon to the mouse tyrosinase gene,a gene required for pigment production.This recombinant DNA,composed of E.coli lac operon sequences and the mouse tyrosinase gene,was introduced into albino mice using techniques that will be described in Chapter 19.Using the lac operon regulatory sequences,the investigators were able to regulate tyrosinase gene expression.In fact,they were able to convert albino (white)mice into brown mice.The following questions ask you to use your knowledge of the lac operon to deduce how Cronin et al.were able to regulate tyrosinase gene expression in mice.
Refer to the paragraph about the lac operon experiment by Cronin et al.If the genetically engineered albino mice were given no special treatment,how would the tyrosinase gene be expressed?
A)It would not be transcribed.
B)It would be transcribed to a moderate level.
C)It would be transcribed to a high level.
The lac operon is used in countless ways for genetics research and biotechnology.One important use of the lac operon is to regulate the expression of cloned genes.In this application,some regulatory elements of the operon are fused to the cloned gene that is to be regulated.One application of such technology was reported by Cronin et al. ,The lac operator-repressor system is functional in the mouse,Genes and Development 15 (2001):1506-17.These investigators fused a portion of the lac operon to the mouse tyrosinase gene,a gene required for pigment production.This recombinant DNA,composed of E.coli lac operon sequences and the mouse tyrosinase gene,was introduced into albino mice using techniques that will be described in Chapter 19.Using the lac operon regulatory sequences,the investigators were able to regulate tyrosinase gene expression.In fact,they were able to convert albino (white)mice into brown mice.The following questions ask you to use your knowledge of the lac operon to deduce how Cronin et al.were able to regulate tyrosinase gene expression in mice.
Refer to the paragraph about the lac operon experiment by Cronin et al.If the genetically engineered albino mice were given no special treatment,how would the tyrosinase gene be expressed?
A)It would not be transcribed.
B)It would be transcribed to a moderate level.
C)It would be transcribed to a high level.
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22
Extracellular glucose inhibits transcription of the lac operon by _____.
A)strengthening the binding of repressor to the operator
B)weakening the binding of repressor to the operator
C)inhibiting RNA polymerase from opening the strands of DNA to initiate transcription
D)reducing the levels of intracellular cAMP
E)activating adenylyl cyclase
A)strengthening the binding of repressor to the operator
B)weakening the binding of repressor to the operator
C)inhibiting RNA polymerase from opening the strands of DNA to initiate transcription
D)reducing the levels of intracellular cAMP
E)activating adenylyl cyclase
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23
Which of the following is associated with negative control of the lac operon?
A)glucose
B)repressor
C)CAP
D)adenylyl cyclase
A)glucose
B)repressor
C)CAP
D)adenylyl cyclase
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24
If a scientist wanted to prevent a regulatory protein from changing gene expression,he must prevent physical contact between the protein and _____.
A)ribosomes
B)DNA
C)ribozymes
D)mRNA
A)ribosomes
B)DNA
C)ribozymes
D)mRNA
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25
CAP is said to be responsible for positive regulation of the lac operon because _____.
A)CAP binds cAMP
B)CAP binds the CAP binding site
C)CAP prevents binding of the repressor to the operator
D)CAP bound to the CAP binding site increases the frequency of transcription initiation
E)extracellular glucose levels influence the ability of CAP to bind to the CAP binding site
A)CAP binds cAMP
B)CAP binds the CAP binding site
C)CAP prevents binding of the repressor to the operator
D)CAP bound to the CAP binding site increases the frequency of transcription initiation
E)extracellular glucose levels influence the ability of CAP to bind to the CAP binding site
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26
Use the following information when answering the corresponding question(s).
The lac operon is used in countless ways for genetics research and biotechnology.One important use of the lac operon is to regulate the expression of cloned genes.In this application,some regulatory elements of the operon are fused to the cloned gene that is to be regulated.One application of such technology was reported by Cronin et al. ,The lac operator-repressor system is functional in the mouse,Genes and Development 15 (2001):1506-17.These investigators fused a portion of the lac operon to the mouse tyrosinase gene,a gene required for pigment production.This recombinant DNA,composed of E.coli lac operon sequences and the mouse tyrosinase gene,was introduced into albino mice using techniques that will be described in Chapter 19.Using the lac operon regulatory sequences,the investigators were able to regulate tyrosinase gene expression.In fact,they were able to convert albino (white)mice into brown mice.The following questions ask you to use your knowledge of the lac operon to deduce how Cronin et al.were able to regulate tyrosinase gene expression in mice.
Refer to the paragraph about the lac operon experiment by Cronin et al.How did Cronin et al.activate expression of tyrosinase to change the color of a white (albino)mouse to brown?
A)They add sucrose to the drinking water.
B)They fed the mice a diet rich in glucose.
C)They added IPTG,a lactose analogue,to the drinking water.
D)They added cAMP to the drinking water.
The lac operon is used in countless ways for genetics research and biotechnology.One important use of the lac operon is to regulate the expression of cloned genes.In this application,some regulatory elements of the operon are fused to the cloned gene that is to be regulated.One application of such technology was reported by Cronin et al. ,The lac operator-repressor system is functional in the mouse,Genes and Development 15 (2001):1506-17.These investigators fused a portion of the lac operon to the mouse tyrosinase gene,a gene required for pigment production.This recombinant DNA,composed of E.coli lac operon sequences and the mouse tyrosinase gene,was introduced into albino mice using techniques that will be described in Chapter 19.Using the lac operon regulatory sequences,the investigators were able to regulate tyrosinase gene expression.In fact,they were able to convert albino (white)mice into brown mice.The following questions ask you to use your knowledge of the lac operon to deduce how Cronin et al.were able to regulate tyrosinase gene expression in mice.
Refer to the paragraph about the lac operon experiment by Cronin et al.How did Cronin et al.activate expression of tyrosinase to change the color of a white (albino)mouse to brown?
A)They add sucrose to the drinking water.
B)They fed the mice a diet rich in glucose.
C)They added IPTG,a lactose analogue,to the drinking water.
D)They added cAMP to the drinking water.
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27
E.coli adenylyl cyclase is most active when _____.
A)extracellular glucose levels are low
B)intracellular levels of lactose are low
C)intracellular levels of lactose are high
D)intracellular levels of cAMP are high
A)extracellular glucose levels are low
B)intracellular levels of lactose are low
C)intracellular levels of lactose are high
D)intracellular levels of cAMP are high
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28
Use the following information when answering the corresponding question(s).
The lac operon is used in countless ways for genetics research and biotechnology.One important use of the lac operon is to regulate the expression of cloned genes.In this application,some regulatory elements of the operon are fused to the cloned gene that is to be regulated.One application of such technology was reported by Cronin et al. ,The lac operator-repressor system is functional in the mouse,Genes and Development 15 (2001):1506-17.These investigators fused a portion of the lac operon to the mouse tyrosinase gene,a gene required for pigment production.This recombinant DNA,composed of E.coli lac operon sequences and the mouse tyrosinase gene,was introduced into albino mice using techniques that will be described in Chapter 19.Using the lac operon regulatory sequences,the investigators were able to regulate tyrosinase gene expression.In fact,they were able to convert albino (white)mice into brown mice.The following questions ask you to use your knowledge of the lac operon to deduce how Cronin et al.were able to regulate tyrosinase gene expression in mice.
Refer to the paragraph about the lac operon experiment by Cronin et al.Introducing the recombinant lac operon/mouse tyrosinase DNA into mice is only half of the equation for regulating tyrosinase.In addition to lac operon/mouse tyrosinase DNA,what other gene must be added to mice to regulate tyrosinase expression?
A)the lacZ gene
B)the lacY gene
C)the lacI gene
D)the lac operator
The lac operon is used in countless ways for genetics research and biotechnology.One important use of the lac operon is to regulate the expression of cloned genes.In this application,some regulatory elements of the operon are fused to the cloned gene that is to be regulated.One application of such technology was reported by Cronin et al. ,The lac operator-repressor system is functional in the mouse,Genes and Development 15 (2001):1506-17.These investigators fused a portion of the lac operon to the mouse tyrosinase gene,a gene required for pigment production.This recombinant DNA,composed of E.coli lac operon sequences and the mouse tyrosinase gene,was introduced into albino mice using techniques that will be described in Chapter 19.Using the lac operon regulatory sequences,the investigators were able to regulate tyrosinase gene expression.In fact,they were able to convert albino (white)mice into brown mice.The following questions ask you to use your knowledge of the lac operon to deduce how Cronin et al.were able to regulate tyrosinase gene expression in mice.
Refer to the paragraph about the lac operon experiment by Cronin et al.Introducing the recombinant lac operon/mouse tyrosinase DNA into mice is only half of the equation for regulating tyrosinase.In addition to lac operon/mouse tyrosinase DNA,what other gene must be added to mice to regulate tyrosinase expression?
A)the lacZ gene
B)the lacY gene
C)the lacI gene
D)the lac operator
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29
Use the following information when answering the corresponding question(s).
The lac operon is used in countless ways for genetics research and biotechnology.One important use of the lac operon is to regulate the expression of cloned genes.In this application,some regulatory elements of the operon are fused to the cloned gene that is to be regulated.One application of such technology was reported by Cronin et al. ,The lac operator-repressor system is functional in the mouse,Genes and Development 15 (2001):1506-17.These investigators fused a portion of the lac operon to the mouse tyrosinase gene,a gene required for pigment production.This recombinant DNA,composed of E.coli lac operon sequences and the mouse tyrosinase gene,was introduced into albino mice using techniques that will be described in Chapter 19.Using the lac operon regulatory sequences,the investigators were able to regulate tyrosinase gene expression.In fact,they were able to convert albino (white)mice into brown mice.The following questions ask you to use your knowledge of the lac operon to deduce how Cronin et al.were able to regulate tyrosinase gene expression in mice.
Refer to the paragraph about the lac operon experiment by Cronin et al.Controlling the production of a pigment is interesting,but in itself seems more a stunt than a valuable research endeavor.What is the broader significance of the results of Cronin et al.?
A)The same genetic system will potentially cure most cancers.
B)This same genetic system potentially can be used to treat hair loss in mice and humans.
C)This same genetic system potentially can be used to control the expression of genes involved in weight control.
D)This same genetic system potentially can be used to control the expression of almost any gene.
The lac operon is used in countless ways for genetics research and biotechnology.One important use of the lac operon is to regulate the expression of cloned genes.In this application,some regulatory elements of the operon are fused to the cloned gene that is to be regulated.One application of such technology was reported by Cronin et al. ,The lac operator-repressor system is functional in the mouse,Genes and Development 15 (2001):1506-17.These investigators fused a portion of the lac operon to the mouse tyrosinase gene,a gene required for pigment production.This recombinant DNA,composed of E.coli lac operon sequences and the mouse tyrosinase gene,was introduced into albino mice using techniques that will be described in Chapter 19.Using the lac operon regulatory sequences,the investigators were able to regulate tyrosinase gene expression.In fact,they were able to convert albino (white)mice into brown mice.The following questions ask you to use your knowledge of the lac operon to deduce how Cronin et al.were able to regulate tyrosinase gene expression in mice.
Refer to the paragraph about the lac operon experiment by Cronin et al.Controlling the production of a pigment is interesting,but in itself seems more a stunt than a valuable research endeavor.What is the broader significance of the results of Cronin et al.?
A)The same genetic system will potentially cure most cancers.
B)This same genetic system potentially can be used to treat hair loss in mice and humans.
C)This same genetic system potentially can be used to control the expression of genes involved in weight control.
D)This same genetic system potentially can be used to control the expression of almost any gene.
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30
How does the inducer change the repressor's affinity for DNA?
A)Inducer binding changes the repressor's shape so that the promoter is bent from a rectangular to a loop-like shape.
B)Inducer binding changes the repressor's shape to alter the positioning of the repressor's DNA-binding domains so they no longer interact with DNA.
C)Inducer binding makes the repressor's DNA-binding domains more positively charged,so they can no longer bind the operator.
D)Inducer binding makes the repressor's DNA-binding domains more negatively charged,so they can no longer bind the operator.
A)Inducer binding changes the repressor's shape so that the promoter is bent from a rectangular to a loop-like shape.
B)Inducer binding changes the repressor's shape to alter the positioning of the repressor's DNA-binding domains so they no longer interact with DNA.
C)Inducer binding makes the repressor's DNA-binding domains more positively charged,so they can no longer bind the operator.
D)Inducer binding makes the repressor's DNA-binding domains more negatively charged,so they can no longer bind the operator.
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31
Use the following information when answering the corresponding question(s).
The lac operon is used in countless ways for genetics research and biotechnology.One important use of the lac operon is to regulate the expression of cloned genes.In this application,some regulatory elements of the operon are fused to the cloned gene that is to be regulated.One application of such technology was reported by Cronin et al. ,The lac operator-repressor system is functional in the mouse,Genes and Development 15 (2001):1506-17.These investigators fused a portion of the lac operon to the mouse tyrosinase gene,a gene required for pigment production.This recombinant DNA,composed of E.coli lac operon sequences and the mouse tyrosinase gene,was introduced into albino mice using techniques that will be described in Chapter 19.Using the lac operon regulatory sequences,the investigators were able to regulate tyrosinase gene expression.In fact,they were able to convert albino (white)mice into brown mice.The following questions ask you to use your knowledge of the lac operon to deduce how Cronin et al.were able to regulate tyrosinase gene expression in mice.
Refer to the paragraph about the lac operon experiment by Cronin et al.The tyrosinase gene used by Cronin et al.contained the protein-coding sequence and the normal mouse regulatory sequences.These regulatory sequences provide positive control of tyrosinase transcription.If nothing else is done to this DNA and it is introduced into a mouse,tyrosinase will always be expressed.Because the goal was to regulate expression of tyrosinase,what portion of the lac operon do you think was added to this mouse gene?
A)the lacZ gene
B)the lacY gene
C)the lacI gene
D)the lac operator
E)CAP
The lac operon is used in countless ways for genetics research and biotechnology.One important use of the lac operon is to regulate the expression of cloned genes.In this application,some regulatory elements of the operon are fused to the cloned gene that is to be regulated.One application of such technology was reported by Cronin et al. ,The lac operator-repressor system is functional in the mouse,Genes and Development 15 (2001):1506-17.These investigators fused a portion of the lac operon to the mouse tyrosinase gene,a gene required for pigment production.This recombinant DNA,composed of E.coli lac operon sequences and the mouse tyrosinase gene,was introduced into albino mice using techniques that will be described in Chapter 19.Using the lac operon regulatory sequences,the investigators were able to regulate tyrosinase gene expression.In fact,they were able to convert albino (white)mice into brown mice.The following questions ask you to use your knowledge of the lac operon to deduce how Cronin et al.were able to regulate tyrosinase gene expression in mice.
Refer to the paragraph about the lac operon experiment by Cronin et al.The tyrosinase gene used by Cronin et al.contained the protein-coding sequence and the normal mouse regulatory sequences.These regulatory sequences provide positive control of tyrosinase transcription.If nothing else is done to this DNA and it is introduced into a mouse,tyrosinase will always be expressed.Because the goal was to regulate expression of tyrosinase,what portion of the lac operon do you think was added to this mouse gene?
A)the lacZ gene
B)the lacY gene
C)the lacI gene
D)the lac operator
E)CAP
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Unlock Deck
Unlock for access to all 31 flashcards in this deck.
