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Deck 8: Cell Signaling Systems

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Question
Which of the following is activated or increased in a liver cell on exposure to either glucagon or epinephrine?

A) GTP <strong>Which of the following is activated or increased in a liver cell on exposure to either glucagon or epinephrine?</strong> A) GTP B) phospholipase C C) cAMP D) DAG <div style=padding-top: 35px>
B) phospholipase C
C) cAMP
D) DAG
Use Space or
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to flip the card.
Question
First messengers,but NOT second messengers

A) bind to a protein.
B) act as a transcription factor.
C) are located extracellularly.
D) are an allosteric effector.
Question
Which of the following is a GTPase?

A) <strong>Which of the following is a GTPase?</strong> A) B) C) D) <div style=padding-top: 35px>
B) <strong>Which of the following is a GTPase?</strong> A) B) C) D) <div style=padding-top: 35px>
C) <strong>Which of the following is a GTPase?</strong> A) B) C) D) <div style=padding-top: 35px>
D) <strong>Which of the following is a GTPase?</strong> A) B) C) D) <div style=padding-top: 35px>
Question
The <strong>The subunit of trimeric G proteins can function to</strong> A) regulate ion channels. B) activate adenylate cyclase. C) inhibit phospholipase A. D) inhibit phosphodiesterase. <div style=padding-top: 35px> subunit of trimeric G proteins can function to

A) regulate ion channels.
B) activate adenylate cyclase.
C) inhibit phospholipase A.
D) inhibit phosphodiesterase.
Question
Which of the following list includes ONLY first messengers?

A) cortisol, insulin, prostaglandins
B) nitric oxide, estradiol, heme
C) insulin, glucagon, glucose
D) Ca2+, testosterone, protein kinase A
Question
Cyclic GMP is the __________ during vasodilation.

A) first messenger
B) second messenger
C) paracrine signal
D) activator of nitric oxide synthetase
Question
The levels of the second messenger involved in vasodilation are increased by __________ and decreased by __________.

A) cGMP cyclase; guanylate phosphodiesterase
B) guanylate phosphodiesterase; cGMP cyclase
C) guanylate cyclase; cGMP phosphodiesterase
D) cGMP phosphodiesterase; guanylate cyclase
Question
Which class of proteins interacts with a heterotrimeric intracellular protein?

A) receptor tyrosine kinases
B) TNF receptor family
C) G protein-coupled receptors
D) nuclear transmembrane proteins
Question
An estrogen-dependent breast cancer cell line is grown in a medium that contains estrogen.Cell proliferation is monitored over time.In a separate experiment,the cell line is grown in a medium that lacks estrogen but includes bisphenol A,a compound found in polycarbonate plastics.When monitored,cell proliferation is higher than in the presence of estrogen.A possible explanation of these results is that bisphenol A

A) inhibits the binding of estrogen to the estrogen receptor.
B) is an agonist of the estrogen receptor.
C) inhibits adenylate cyclase.
D) is toxic to the cell line.
Question
Ligand binding causes which of the following to form trimers?

A) tumor necrosis factor receptors
B) receptor tyrosine kinases
C) G protein-coupled receptors
D) nicotinic acetylcholine receptors
Question
Acetylcholine is a neurotransmitter that stimulates muscle contraction.Acetylcholine is acting as a(n)

A) endocrine signal.
B) paracrine signal.
C) autocrine signal.
D) second messenger.
Question
Construct a functional signal transduction pathway by placing the following actors in the correct order: A.upstream signaling protein
B)second messenger
C)receptor protein
D)first messenger
E)target proteins
F)downstream signaling protein

A) D, E, C, A, B, F
B) C, D, A, B, F, E
C) D, C, A, B, F, E
D) D, C, B, A, F, E
Question
Which of the following is an example of a first or second messenger?

A) peptide hormone
B) G protein-coupled receptor
C) protein kinase
D) cyclic nucleotide phosphodiesterase
Question
Estradiol is secreted by the ovaries,travels through the bloodstream,and interacts with estrogen receptors on breast epithelial cells.In this scenario estradiol is acting through which type of mechanism?

A) synacrine
B) paracrine
C) endocrine
D) autocrine
Question
Levels of diacylglycerol increase in a cell on binding of a ligand to a taste receptor.Which trimeric G protein subunit is most likely to be bound to GTP?

A) <strong>Levels of diacylglycerol increase in a cell on binding of a ligand to a taste receptor.Which trimeric G protein subunit is most likely to be bound to GTP?</strong> A) B) C) D) <div style=padding-top: 35px>
B) <strong>Levels of diacylglycerol increase in a cell on binding of a ligand to a taste receptor.Which trimeric G protein subunit is most likely to be bound to GTP?</strong> A) B) C) D) <div style=padding-top: 35px>
C) <strong>Levels of diacylglycerol increase in a cell on binding of a ligand to a taste receptor.Which trimeric G protein subunit is most likely to be bound to GTP?</strong> A) B) C) D) <div style=padding-top: 35px>
D) <strong>Levels of diacylglycerol increase in a cell on binding of a ligand to a taste receptor.Which trimeric G protein subunit is most likely to be bound to GTP?</strong> A) B) C) D) <div style=padding-top: 35px>
Question
A ligand binds to a transmembrane protein.This causes a conformational change in the protein that is detected by an intracellular protein.The intracellular protein is an enzyme that adds phosphate groups to target proteins.The phosphorylated proteins cause a physiological change within the cell.This is an example of

A) a metabolic pathway.
B) homeostasis.
C) a signal transduction pathway.
D) an allosteric inhibition pathway.
Question
Which of the following does NOT participate in a signal transduction pathway?

A) second messenger
B) first messenger
C) receptor protein
D) lipid transporter
Question
Muscle relaxation in response to nitric oxide would be reduced if a(n)__________ was present.

A) stimulator of cGMP phosphodiesterase
B) inhibitor of protein kinase A
C) inhibitor of acetylcholine esterase
D) stimulator of guanylate cyclase
Question
A Western blot analysis of the expression of estrogen receptors in ovarian tissues at different times of the estrous cycle showed approximately four times greater protein levels at day 2 compared with day 10 of the cycle.Which of the following may be true given these data?

A) Estrogen is acting as an endocrine signal in the ovaries.
B) Estrogen is acting as an autocrine signal in the ovaries.
C) Ovaries only secrete estrogen early in the estrous cycle.
D) Ovarian tissue is responsive to estrogen only early in the estrous cycle.
Question
What characteristic is true for both RTKs and GPCRs?

A) The receptor binds to intracellular proteins only when activated.
B) When activated, the receptor has enzymatic activity.
C) The receptor transmits ions.
D) The receptor undergoes a conformational change on activation.
Question
Which of the following compounds is a pharmaceutical adrenergic receptor agonist?

A) dopamine
B) metoprolol
C) norepinephrine
D) clonidine
Question
If there were a technique that allowed one to isolate EGFR1 and EGFR2 at discrete steps along their activation pathway,which of the following would be isolated?

A) A dimer in which EGFR2 contains phosphotyrosines but EGFR1 does not.
B) A dimer in which EGFR1 contains phosphotyrosines but EGFR2 does not.
C) A monomer of EGFR1 that contains phosphotyrosines.
D) A monomer of EGFR2 that contains phosphotyrosines.
Question
A mutation causes a cell to divide uncontrollably.Analysis of the cell shows that both copies of the gene must have the mutation.From this information,it can be determined that the mutation is

A) dominant.
B) recessive.
C) in a gene coding a kinase.
D) in a tumor suppressor gene.
Question
Which of the following proteins contains an SH3 domain?

A) growth factor receptor-bound 2 (GRB2)
B) phosphoinositide-3 kinase (PI-3K)
C) SOS protein
D) RasGAP
Question
If GRB2 were truncated so that the N-terminal domain was missing,the truncated protein would be unable to bind the

A) phosphorylated Tyr of the SOS protein.
B) phosphorylated Tyr of the RTK substrate.
C) proline-rich sequence of the SOS protein.
D) protein-rich sequence of the RTK substrate.
Question
The insulin receptor is a type of

A) G protein-linked receptor.
B) receptor tyrosine kinase.
C) oncogene.
D) MEK.
Question
Below is a schematic representation of a dimerized receptor tyrosine kinase.Where is the kinase function located? <strong>Below is a schematic representation of a dimerized receptor tyrosine kinase.Where is the kinase function located? </strong> A) A B) B C) C D) D <div style=padding-top: 35px>

A) A
B) B
C) C
D) D
Question
Which of the following prevents GPCR from reassociating with the <strong>Which of the following prevents GPCR from reassociating with the complex?</strong> A) -arrestin B) GTPase activating protein C) cAMP phosphodiesterase D) RGS <div style=padding-top: 35px> complex?

A) <strong>Which of the following prevents GPCR from reassociating with the complex?</strong> A) -arrestin B) GTPase activating protein C) cAMP phosphodiesterase D) RGS <div style=padding-top: 35px> -arrestin
B) GTPase activating protein
C) cAMP phosphodiesterase
D) RGS
Question
If protein kinase A is activated in a liver cell in response to glucagon binding to the <strong>If protein kinase A is activated in a liver cell in response to glucagon binding to the 2-adrenergic receptor,which of the following will result?</strong> A) Glycogen synthesis will be turned on. B) Glycogen degradation will be turned on. C) Glucose synthesis will be turned off. D) GLUT1 expression will be upregulated. <div style=padding-top: 35px> 2-adrenergic receptor,which of the following will result?

A) Glycogen synthesis will be turned on.
B) Glycogen degradation will be turned on.
C) Glucose synthesis will be turned off.
D) GLUT1 expression will be upregulated.
Question
Which scenario would allow <strong>Which scenario would allow -arrestin to bind to the GPCR?</strong> A) ARK is internalized into the endosome. B) The receptor is phosphorylated. C) is bound to GDP. D) The regulatory subunit of -arrestin is removed. <div style=padding-top: 35px> -arrestin to bind to the GPCR?

A) <strong>Which scenario would allow -arrestin to bind to the GPCR?</strong> A) ARK is internalized into the endosome. B) The receptor is phosphorylated. C) is bound to GDP. D) The regulatory subunit of -arrestin is removed. <div style=padding-top: 35px> ARK is internalized into the endosome.
B) The receptor is phosphorylated.
C) <strong>Which scenario would allow -arrestin to bind to the GPCR?</strong> A) ARK is internalized into the endosome. B) The receptor is phosphorylated. C) is bound to GDP. D) The regulatory subunit of -arrestin is removed. <div style=padding-top: 35px> is bound to GDP.
D) The regulatory subunit of <strong>Which scenario would allow -arrestin to bind to the GPCR?</strong> A) ARK is internalized into the endosome. B) The receptor is phosphorylated. C) is bound to GDP. D) The regulatory subunit of -arrestin is removed. <div style=padding-top: 35px>
-arrestin is removed.
Question
When the regulatory subunit of PKA is bound to cAMP,

A) it dissociates into monomers.
B) the pseudosubstrate is phosphorylated.
C) it cannot bind to catalytic subunit of PKA.
D) it is part of a tetramer.
Question
When PKA is inactive,which of the following is true?

A) The pseudosubstrate of the PKA regulatory subunits is bound in the active site of the catalytic subunits.
B) The regulatory subunits are bound by cAMP.
C) The regulatory subunits are bound by GTP.
D) ATP is unable to bind the catalytic subunits.
Question
When bound to GTP, <strong>When bound to GTP, obtains a conformation that promotes interaction with</strong> A) adenylate cyclase. B) PKA. C) the G protein-coupled receptor. D) phospholipase C. <div style=padding-top: 35px> obtains a conformation that promotes interaction with

A) adenylate cyclase.
B) PKA.
C) the G protein-coupled receptor.
D) phospholipase C.
Question
On binding of an insulin molecule to the insulin receptor,a conformational change occurs that

A) increases the affinity of a second insulin binding site.
B) causes the dimerization of the receptor.
C) brings the L1 region of the <strong>On binding of an insulin molecule to the insulin receptor,a conformational change occurs that</strong> A) increases the affinity of a second insulin binding site. B) causes the dimerization of the receptor. C) brings the L1 region of the subunit closer to the membrane. D) stimulates tyrosine autophosphorylation in the Subunits. <div style=padding-top: 35px>
subunit closer to the membrane.
D) stimulates tyrosine autophosphorylation in the <strong>On binding of an insulin molecule to the insulin receptor,a conformational change occurs that</strong> A) increases the affinity of a second insulin binding site. B) causes the dimerization of the receptor. C) brings the L1 region of the subunit closer to the membrane. D) stimulates tyrosine autophosphorylation in the Subunits. <div style=padding-top: 35px>
Subunits.
Question
Which of the following is true of a recessive oncogene mutation but NOT a dominant oncogene mutation?

A) It results in a disease phenotype any time the mutation is present in a cell.
B) It results in a disease phenotype only when both copies of the mutated oncogene are present in the same cell.
C) It is a gain-of-function mutation.
D) It is a mutation in a tumor suppressor gene.
Question
The __________ is a specific type of __________.

A) GRK; <strong>The __________ is a specific type of __________.</strong> A) GRK; ARK B) -adrenergic receptor kinase; -arrestin C) regulator of G protein signaling; GTPase activating protein D) GTPase activating protein; guanine nucleotide exchange factor <div style=padding-top: 35px>
ARK
B) <strong>The __________ is a specific type of __________.</strong> A) GRK; ARK B) -adrenergic receptor kinase; -arrestin C) regulator of G protein signaling; GTPase activating protein D) GTPase activating protein; guanine nucleotide exchange factor <div style=padding-top: 35px> -adrenergic receptor kinase; <strong>The __________ is a specific type of __________.</strong> A) GRK; ARK B) -adrenergic receptor kinase; -arrestin C) regulator of G protein signaling; GTPase activating protein D) GTPase activating protein; guanine nucleotide exchange factor <div style=padding-top: 35px>
-arrestin
C) regulator of G protein signaling; GTPase activating protein
D) GTPase activating protein; guanine nucleotide exchange factor
Question
Below is the molecular structure of a single bovine <strong>Below is the molecular structure of a single bovine -arrestin subunit.Two locations are indicated.What is most likely to interact with the protein at these locations? </strong> A) ARK B) GTP-bound C) dephosphorylated GPCR D) phosphorylated GPCR <div style=padding-top: 35px> -arrestin subunit.Two locations are indicated.What is most likely to interact with the protein at these locations? <strong>Below is the molecular structure of a single bovine -arrestin subunit.Two locations are indicated.What is most likely to interact with the protein at these locations? </strong> A) ARK B) GTP-bound C) dephosphorylated GPCR D) phosphorylated GPCR <div style=padding-top: 35px>

A) <strong>Below is the molecular structure of a single bovine -arrestin subunit.Two locations are indicated.What is most likely to interact with the protein at these locations? </strong> A) ARK B) GTP-bound C) dephosphorylated GPCR D) phosphorylated GPCR <div style=padding-top: 35px> ARK
B) GTP-bound <strong>Below is the molecular structure of a single bovine -arrestin subunit.Two locations are indicated.What is most likely to interact with the protein at these locations? </strong> A) ARK B) GTP-bound C) dephosphorylated GPCR D) phosphorylated GPCR <div style=padding-top: 35px>
C) dephosphorylated GPCR
D) phosphorylated GPCR
Question
Below is shown a short sequence of a protein.Which of the following domains would most likely bind this sequence? <strong>Below is shown a short sequence of a protein.Which of the following domains would most likely bind this sequence? </strong> A) SH2 B) SH3 C) SH2a D) SHP <div style=padding-top: 35px>

A) SH2
B) SH3
C) SH2a
D) SHP
Question
Place the following steps in proper order: A.phosphorylation of RTK cytoplasmic tails
B)activation of downstream signaling pathways
C)ligand binding,receptor dimerization,and kinase activation
D)protein binding to RTK phosphotyrosines and phosphorylation of target proteins

A) C, D, A, B
B) C, B, A, D
C) C, A, D, B
D) B, C, A, D
Question
Liver cells were monitored for changes in metabolic enzymatic activity after exposure to glucagon.The enzymes that showed changes in activity were then analyzed to assess if they had been covalently modified.Which of the following results were likely observed?

A) Enzymes that showed lower activity were not phosphorylated.
B) Enzymes that showed higher activity were methylated.
C) Enzymes that showed altered activity (higher or lower) were phosphorylated.
D) Enzymes that showed altered activity (higher or lower) were methylated.
Question
Consider a mutation in procaspase 3 that changes Asp28 to an amino acid that is no longer a substrate for autocleavage.This mutant would

A) no longer be cleaved by caspase 8.
B) no longer obtain a quaternary structure.
C) be partially activated.
D) be fully activated.
Question
Caspases contain

A) phosphorylated tyrosines when activated.
B) death domains.
C) an active site cysteine residue.
D) SODD.
Question
Which of the following occurs after activation of the PI-3K signaling pathway?

A) Glycogen synthesis rates decrease.
B) GRB2 is activated.
C) GLUT-1 levels decrease.
D) Glucose uptake increases.
Question
Predict which bond of a target protein would be cleaved by caspase 3 executioner enzyme. <strong>Predict which bond of a target protein would be cleaved by caspase 3 executioner enzyme. </strong> A) 1 B) 2 C) 3 D) 4 <div style=padding-top: 35px>

A) 1
B) 2
C) 3
D) 4
Question
Place the following steps of the apoptotic pathway in their proper order. A.CASP3 cleavage of cellular proteins
B)Cleavage of procaspase 8
C)Cleavage of procaspase 3
D)Assembly of DD and DED protein complexes

A) D, C, B, A
B) B C, A, D
C) D, B, C, A
D) D, C, A, B
Question
On binding of an insulin molecule to the insulin receptor,which region of the receptor becomes phosphorylated? <strong>On binding of an insulin molecule to the insulin receptor,which region of the receptor becomes phosphorylated? </strong> A) CR B) TM C) TK D) L1 <div style=padding-top: 35px>

A) CR
B) TM
C) TK
D) L1
Question
Caspase 3 is responsible for

A) activating caspase 8.
B) phosphorylating Fas.
C) degrading key regulatory molecules.
D) dephosphorylating FasL.
Question
Which of the following acts as a transcription factor in the cell survival pathway activated by TNF- <strong>Which of the following acts as a transcription factor in the cell survival pathway activated by TNF- ?</strong> A) p50:p65 complex B) NIK:RIP complex C) I \kappa B D) IKK <div style=padding-top: 35px> ?

A) p50:p65 complex
B) NIK:RIP complex
C) I κ\kappa B <strong>Which of the following acts as a transcription factor in the cell survival pathway activated by TNF- ?</strong> A) p50:p65 complex B) NIK:RIP complex C) I \kappa B D) IKK <div style=padding-top: 35px>
D) IKK
Question
Both the silence of death domain and TNF receptor-associated death domain proteins

A) inhibit downstream signaling.
B) activate downstream signaling.
C) are phosphorylated when TNF- <strong>Both the silence of death domain and TNF receptor-associated death domain proteins</strong> A) inhibit downstream signaling. B) activate downstream signaling. C) are phosphorylated when TNF- Is bound to its receptor. D) bind TNF receptor death domains. <div style=padding-top: 35px>
Is bound to its receptor.
D) bind TNF receptor death domains.
Question
Which of the following is true of procaspase 8?

A) It is proteolytically active.
B) It can cleave caspase 3.
C) It can be activated by proteolysis.
D) It is a kinase.
Question
On insulin binding to the insulin receptor,MAP kinase signaling proteins are activated.Which of the following proteins are part of this signaling pathway?

A) Shc
B) IRS
C) PI-3K
D) GLUT-1
Question
Consider a mutant cell that does not form DISC on TNF signaling.Which of the following would occur in this mutant cell if exposed to TNF- <strong>Consider a mutant cell that does not form DISC on TNF signaling.Which of the following would occur in this mutant cell if exposed to TNF- ?</strong> A) Caspase 3 would be activated. B) TNF- Would bind to the TNF receptor. C) Caspase 8 would be activated. D) The cell would undergo apoptosis. <div style=padding-top: 35px> ?

A) Caspase 3 would be activated.
B) TNF- <strong>Consider a mutant cell that does not form DISC on TNF signaling.Which of the following would occur in this mutant cell if exposed to TNF- ?</strong> A) Caspase 3 would be activated. B) TNF- Would bind to the TNF receptor. C) Caspase 8 would be activated. D) The cell would undergo apoptosis. <div style=padding-top: 35px>
Would bind to the TNF receptor.
C) Caspase 8 would be activated.
D) The cell would undergo apoptosis.
Question
Which protein is part of the TNF receptor-activated programmed cell death signaling pathway?

A) FADD
B) TRAF2
C) NF κ\kappa B-inducing kinase
D) IKK
Question
Phosphorylation of which of the following is necessary for the increased expression of antiapoptotic genes?

A) RIP
B) TNF receptor
C) FADD
D) IKK
Question
Which of the following is true of active NF κ\kappa B?

A) It is a dimer.
B) It is phosphorylated.
C) It is in a complex with a DD.
D) It has been proteolytically activated.
Question
A caspase is a

A) protease.
B) kinase.
C) phosphatase.
D) transmembrane receptor.
Question
Below shows the cell survival pathway promoted by TNF- <strong>Below shows the cell survival pathway promoted by TNF- .A complex is indicated with a question mark.What is this complex? </strong> A) inactive NF \kappa B B) active NF \kappa B C) active CASP3 D) NIK <div style=padding-top: 35px> .A complex is indicated with a question mark.What is this complex? <strong>Below shows the cell survival pathway promoted by TNF- .A complex is indicated with a question mark.What is this complex? </strong> A) inactive NF \kappa B B) active NF \kappa B C) active CASP3 D) NIK <div style=padding-top: 35px>

A) inactive NF κ\kappa B
B) active NF κ\kappa B
C) active CASP3
D) NIK
Question
Construct a functional pathway out of the following steps. A: Phosphorylation of <strong>Construct a functional pathway out of the following steps. A: Phosphorylation of Subunits of the insulin receptor occurs. B: Insulin binds to Subunits of the insulin receptor. C: PI-3K is activated.D: IRS is phosphorylated.</strong> A) C, A, B, D B) B, D, A, C C) B, A, C, D D) B, A, D, C <div style=padding-top: 35px>
Subunits of the insulin receptor occurs.
B: Insulin binds to <strong>Construct a functional pathway out of the following steps. A: Phosphorylation of Subunits of the insulin receptor occurs. B: Insulin binds to Subunits of the insulin receptor. C: PI-3K is activated.D: IRS is phosphorylated.</strong> A) C, A, B, D B) B, D, A, C C) B, A, C, D D) B, A, D, C <div style=padding-top: 35px>
Subunits of the insulin receptor.
C: PI-3K is activated.D: IRS is phosphorylated.

A) C, A, B, D
B) B, D, A, C
C) B, A, C, D
D) B, A, D, C
Question
A new protein is discovered that contains a pleckstrin homology domain.Which of the following is likely to bind to the protein?

A) PIP3
B) PI-3K
C) phosphorylated tyrosines
D) Ca2+
Question
If a mutation occurred in SODD that prohibited its interaction with the DD of TNF receptor,the TNF receptor would

A) no longer form a trimer.
B) no longer be able to release TNF- <strong>If a mutation occurred in SODD that prohibited its interaction with the DD of TNF receptor,the TNF receptor would</strong> A) no longer form a trimer. B) no longer be able to release TNF- C) bind TRADD, even in the absence of TNF- D) bind NF \kappa B, even in the absence of TNF- <div style=padding-top: 35px>
C) bind TRADD, even in the absence of TNF- <strong>If a mutation occurred in SODD that prohibited its interaction with the DD of TNF receptor,the TNF receptor would</strong> A) no longer form a trimer. B) no longer be able to release TNF- C) bind TRADD, even in the absence of TNF- D) bind NF \kappa B, even in the absence of TNF- <div style=padding-top: 35px>
D) bind NF κ\kappa B, even in the absence of TNF- <strong>If a mutation occurred in SODD that prohibited its interaction with the DD of TNF receptor,the TNF receptor would</strong> A) no longer form a trimer. B) no longer be able to release TNF- C) bind TRADD, even in the absence of TNF- D) bind NF \kappa B, even in the absence of TNF- <div style=padding-top: 35px>
Question
Nuclear receptors are ligand-activated transcription factors that control a wide range of physiologic responses.The responses are governed by cell-specific expression of nuclear receptors and coregulatory proteins and accessibility of target gene DNA sequences.What else governs the responses?
Question
Which of the following DNA sequences is MOST likely to be bound by a steroid receptor?

A) AGGAGAACATCATGTTCT
B) AGGAGATAGGAGAACT
C) TTTGATCCAGTTTCCAGT
D) CCCAAGTTCCCAAG
Question
Cultures of two different cell types are exposed to the same signaling ligand.Analysis of gene expression shows that only one of the cell types responded to the ligand.Which of the following may account for this difference?

A) The ligand was only bioavailable to one of the cell types.
B) Only one of the cell types contained accessible target gene DNA sequences.
C) Only one cell type contained DNA.
D) The ligand could only pass through the membrane of one of the cell types.
Question
A response element is

A) any protein whose expression is changed in response to a signal.
B) a sequence of regulatory DNA.
C) a domain of the glucocorticoid receptor that binds DNA.
D) a sequence of DNA coding for a steroid or metabolite receptor.
Question
Which of the following is a metabolite receptor?

A) aldosterone receptor
B) glucocorticoid receptor
C) progesterone receptor
D) thyroid hormone receptor
Question
The __________ domain functions as a protein-protein interaction module and is located in the cytoplasmic tail of TNF receptors.

A) death
B) SH2
C) SH3
D) RIP
Question
Explain how the conformational organization of a nuclear receptor homodimer allows it to recognize inverted repeat sequences of DNA.
Question
Differentiate between the caspase in the apoptotic pathway that is activated by autocleavage and the caspase that is activated by another enzyme.Clearly name each caspase.
Question
The PPAR <strong>The PPAR -RXR Heterodimer interacts with DNA via</strong> A) the LXXLL sequences. B) leucine zipper motifs. C) zinc finger motifs. D) basic leucine zipper motifs. <div style=padding-top: 35px> -RXR <strong>The PPAR -RXR Heterodimer interacts with DNA via</strong> A) the LXXLL sequences. B) leucine zipper motifs. C) zinc finger motifs. D) basic leucine zipper motifs. <div style=padding-top: 35px>
Heterodimer interacts with DNA via

A) the LXXLL sequences.
B) leucine zipper motifs.
C) zinc finger motifs.
D) basic leucine zipper motifs.
Question
A class of proteins that assist other proteins to fold are known as __________ proteins.

A) folding assist
B) proteasome
C) chaperonin
D) overseer
Question
The result of TRADD proteins binding to TNF receptors is that

A) TRADD is phosphorylated.
B) an activated adaptor complex is formed.
C) downstream signaling proteins are inactivated.
D) TNF is degraded.
Question
Hsp90 is a type of

A) chaperonin.
B) kinase.
C) response element.
D) heat sensing protease.
Question
Which of the following is NOT an expected effect of the binding of the glucocorticoid response element by GR?

A) upregulation of annexin I
B) inhibition of the inflammatory response
C) upregulation of cyclooxygenase-2
D) decreased interaction of p65 and p50 of NF κ\kappa B
Question
The ligands for metabolite receptors are often derived from dietary nutrients,including all EXCEPT which of the following?

A) essential amino acids
B) vitamins
C) unsaturated fatty acids
D) saturated fatty acids
Question
Cell-specific responses to signaling molecules are possible because

A) nuclear receptor expression is cell specific.
B) target palindromic DNA sequences are ubiquitous.
C) signaling molecules are hydrophobic and can pass through the plasma membrane.
D) only some cells express gated channels for the signaling molecules.
Question
This Zn2+-containing homodimer is part of <strong>This Zn<sup>2+</sup>-containing homodimer is part of </strong> A) the glucocorticoid receptor. B) PPAR -RXR ) C) TRADD. D) the retinoic acid receptor. <div style=padding-top: 35px>

A) the glucocorticoid receptor.
B) PPAR <strong>This Zn<sup>2+</sup>-containing homodimer is part of </strong> A) the glucocorticoid receptor. B) PPAR -RXR ) C) TRADD. D) the retinoic acid receptor. <div style=padding-top: 35px>
-RXR <strong>This Zn<sup>2+</sup>-containing homodimer is part of </strong> A) the glucocorticoid receptor. B) PPAR -RXR ) C) TRADD. D) the retinoic acid receptor. <div style=padding-top: 35px>
)
C) TRADD.
D) the retinoic acid receptor.
Question
What is the TNF receptor-TRADD-FADD-procaspase 8 adaptor complex also known as?
Question
Removal of which metal ion would likely alter the structure of the GR DNA-binding domain and preclude it from binding to DNA?

A) Zn2+
B) Mg2+
C) Ca2+
D) Fe2+
Question
Below is shown the structure of a homodimer of the GR DNA-binding domain.Four areas are highlighted.Which is most likely to interact with DNA? <strong>Below is shown the structure of a homodimer of the GR DNA-binding domain.Four areas are highlighted.Which is most likely to interact with DNA? </strong> A) A B) B C) C D) D <div style=padding-top: 35px>

A) A
B) B
C) C
D) D
Question
Activation of caspases ultimately leads to the programmed death of the cell.What is this process known as? Explain why this may be a beneficial outcome to the organism.
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Deck 8: Cell Signaling Systems
1
Which of the following is activated or increased in a liver cell on exposure to either glucagon or epinephrine?

A) GTP <strong>Which of the following is activated or increased in a liver cell on exposure to either glucagon or epinephrine?</strong> A) GTP B) phospholipase C C) cAMP D) DAG
B) phospholipase C
C) cAMP
D) DAG
C
2
First messengers,but NOT second messengers

A) bind to a protein.
B) act as a transcription factor.
C) are located extracellularly.
D) are an allosteric effector.
C
3
Which of the following is a GTPase?

A) <strong>Which of the following is a GTPase?</strong> A) B) C) D)
B) <strong>Which of the following is a GTPase?</strong> A) B) C) D)
C) <strong>Which of the following is a GTPase?</strong> A) B) C) D)
D) <strong>Which of the following is a GTPase?</strong> A) B) C) D)
C
4
The <strong>The subunit of trimeric G proteins can function to</strong> A) regulate ion channels. B) activate adenylate cyclase. C) inhibit phospholipase A. D) inhibit phosphodiesterase. subunit of trimeric G proteins can function to

A) regulate ion channels.
B) activate adenylate cyclase.
C) inhibit phospholipase A.
D) inhibit phosphodiesterase.
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5
Which of the following list includes ONLY first messengers?

A) cortisol, insulin, prostaglandins
B) nitric oxide, estradiol, heme
C) insulin, glucagon, glucose
D) Ca2+, testosterone, protein kinase A
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6
Cyclic GMP is the __________ during vasodilation.

A) first messenger
B) second messenger
C) paracrine signal
D) activator of nitric oxide synthetase
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7
The levels of the second messenger involved in vasodilation are increased by __________ and decreased by __________.

A) cGMP cyclase; guanylate phosphodiesterase
B) guanylate phosphodiesterase; cGMP cyclase
C) guanylate cyclase; cGMP phosphodiesterase
D) cGMP phosphodiesterase; guanylate cyclase
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8
Which class of proteins interacts with a heterotrimeric intracellular protein?

A) receptor tyrosine kinases
B) TNF receptor family
C) G protein-coupled receptors
D) nuclear transmembrane proteins
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9
An estrogen-dependent breast cancer cell line is grown in a medium that contains estrogen.Cell proliferation is monitored over time.In a separate experiment,the cell line is grown in a medium that lacks estrogen but includes bisphenol A,a compound found in polycarbonate plastics.When monitored,cell proliferation is higher than in the presence of estrogen.A possible explanation of these results is that bisphenol A

A) inhibits the binding of estrogen to the estrogen receptor.
B) is an agonist of the estrogen receptor.
C) inhibits adenylate cyclase.
D) is toxic to the cell line.
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10
Ligand binding causes which of the following to form trimers?

A) tumor necrosis factor receptors
B) receptor tyrosine kinases
C) G protein-coupled receptors
D) nicotinic acetylcholine receptors
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11
Acetylcholine is a neurotransmitter that stimulates muscle contraction.Acetylcholine is acting as a(n)

A) endocrine signal.
B) paracrine signal.
C) autocrine signal.
D) second messenger.
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12
Construct a functional signal transduction pathway by placing the following actors in the correct order: A.upstream signaling protein
B)second messenger
C)receptor protein
D)first messenger
E)target proteins
F)downstream signaling protein

A) D, E, C, A, B, F
B) C, D, A, B, F, E
C) D, C, A, B, F, E
D) D, C, B, A, F, E
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13
Which of the following is an example of a first or second messenger?

A) peptide hormone
B) G protein-coupled receptor
C) protein kinase
D) cyclic nucleotide phosphodiesterase
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14
Estradiol is secreted by the ovaries,travels through the bloodstream,and interacts with estrogen receptors on breast epithelial cells.In this scenario estradiol is acting through which type of mechanism?

A) synacrine
B) paracrine
C) endocrine
D) autocrine
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15
Levels of diacylglycerol increase in a cell on binding of a ligand to a taste receptor.Which trimeric G protein subunit is most likely to be bound to GTP?

A) <strong>Levels of diacylglycerol increase in a cell on binding of a ligand to a taste receptor.Which trimeric G protein subunit is most likely to be bound to GTP?</strong> A) B) C) D)
B) <strong>Levels of diacylglycerol increase in a cell on binding of a ligand to a taste receptor.Which trimeric G protein subunit is most likely to be bound to GTP?</strong> A) B) C) D)
C) <strong>Levels of diacylglycerol increase in a cell on binding of a ligand to a taste receptor.Which trimeric G protein subunit is most likely to be bound to GTP?</strong> A) B) C) D)
D) <strong>Levels of diacylglycerol increase in a cell on binding of a ligand to a taste receptor.Which trimeric G protein subunit is most likely to be bound to GTP?</strong> A) B) C) D)
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16
A ligand binds to a transmembrane protein.This causes a conformational change in the protein that is detected by an intracellular protein.The intracellular protein is an enzyme that adds phosphate groups to target proteins.The phosphorylated proteins cause a physiological change within the cell.This is an example of

A) a metabolic pathway.
B) homeostasis.
C) a signal transduction pathway.
D) an allosteric inhibition pathway.
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17
Which of the following does NOT participate in a signal transduction pathway?

A) second messenger
B) first messenger
C) receptor protein
D) lipid transporter
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18
Muscle relaxation in response to nitric oxide would be reduced if a(n)__________ was present.

A) stimulator of cGMP phosphodiesterase
B) inhibitor of protein kinase A
C) inhibitor of acetylcholine esterase
D) stimulator of guanylate cyclase
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19
A Western blot analysis of the expression of estrogen receptors in ovarian tissues at different times of the estrous cycle showed approximately four times greater protein levels at day 2 compared with day 10 of the cycle.Which of the following may be true given these data?

A) Estrogen is acting as an endocrine signal in the ovaries.
B) Estrogen is acting as an autocrine signal in the ovaries.
C) Ovaries only secrete estrogen early in the estrous cycle.
D) Ovarian tissue is responsive to estrogen only early in the estrous cycle.
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20
What characteristic is true for both RTKs and GPCRs?

A) The receptor binds to intracellular proteins only when activated.
B) When activated, the receptor has enzymatic activity.
C) The receptor transmits ions.
D) The receptor undergoes a conformational change on activation.
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21
Which of the following compounds is a pharmaceutical adrenergic receptor agonist?

A) dopamine
B) metoprolol
C) norepinephrine
D) clonidine
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22
If there were a technique that allowed one to isolate EGFR1 and EGFR2 at discrete steps along their activation pathway,which of the following would be isolated?

A) A dimer in which EGFR2 contains phosphotyrosines but EGFR1 does not.
B) A dimer in which EGFR1 contains phosphotyrosines but EGFR2 does not.
C) A monomer of EGFR1 that contains phosphotyrosines.
D) A monomer of EGFR2 that contains phosphotyrosines.
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23
A mutation causes a cell to divide uncontrollably.Analysis of the cell shows that both copies of the gene must have the mutation.From this information,it can be determined that the mutation is

A) dominant.
B) recessive.
C) in a gene coding a kinase.
D) in a tumor suppressor gene.
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24
Which of the following proteins contains an SH3 domain?

A) growth factor receptor-bound 2 (GRB2)
B) phosphoinositide-3 kinase (PI-3K)
C) SOS protein
D) RasGAP
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25
If GRB2 were truncated so that the N-terminal domain was missing,the truncated protein would be unable to bind the

A) phosphorylated Tyr of the SOS protein.
B) phosphorylated Tyr of the RTK substrate.
C) proline-rich sequence of the SOS protein.
D) protein-rich sequence of the RTK substrate.
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26
The insulin receptor is a type of

A) G protein-linked receptor.
B) receptor tyrosine kinase.
C) oncogene.
D) MEK.
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27
Below is a schematic representation of a dimerized receptor tyrosine kinase.Where is the kinase function located? <strong>Below is a schematic representation of a dimerized receptor tyrosine kinase.Where is the kinase function located? </strong> A) A B) B C) C D) D

A) A
B) B
C) C
D) D
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28
Which of the following prevents GPCR from reassociating with the <strong>Which of the following prevents GPCR from reassociating with the complex?</strong> A) -arrestin B) GTPase activating protein C) cAMP phosphodiesterase D) RGS complex?

A) <strong>Which of the following prevents GPCR from reassociating with the complex?</strong> A) -arrestin B) GTPase activating protein C) cAMP phosphodiesterase D) RGS -arrestin
B) GTPase activating protein
C) cAMP phosphodiesterase
D) RGS
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29
If protein kinase A is activated in a liver cell in response to glucagon binding to the <strong>If protein kinase A is activated in a liver cell in response to glucagon binding to the 2-adrenergic receptor,which of the following will result?</strong> A) Glycogen synthesis will be turned on. B) Glycogen degradation will be turned on. C) Glucose synthesis will be turned off. D) GLUT1 expression will be upregulated. 2-adrenergic receptor,which of the following will result?

A) Glycogen synthesis will be turned on.
B) Glycogen degradation will be turned on.
C) Glucose synthesis will be turned off.
D) GLUT1 expression will be upregulated.
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30
Which scenario would allow <strong>Which scenario would allow -arrestin to bind to the GPCR?</strong> A) ARK is internalized into the endosome. B) The receptor is phosphorylated. C) is bound to GDP. D) The regulatory subunit of -arrestin is removed. -arrestin to bind to the GPCR?

A) <strong>Which scenario would allow -arrestin to bind to the GPCR?</strong> A) ARK is internalized into the endosome. B) The receptor is phosphorylated. C) is bound to GDP. D) The regulatory subunit of -arrestin is removed. ARK is internalized into the endosome.
B) The receptor is phosphorylated.
C) <strong>Which scenario would allow -arrestin to bind to the GPCR?</strong> A) ARK is internalized into the endosome. B) The receptor is phosphorylated. C) is bound to GDP. D) The regulatory subunit of -arrestin is removed. is bound to GDP.
D) The regulatory subunit of <strong>Which scenario would allow -arrestin to bind to the GPCR?</strong> A) ARK is internalized into the endosome. B) The receptor is phosphorylated. C) is bound to GDP. D) The regulatory subunit of -arrestin is removed.
-arrestin is removed.
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31
When the regulatory subunit of PKA is bound to cAMP,

A) it dissociates into monomers.
B) the pseudosubstrate is phosphorylated.
C) it cannot bind to catalytic subunit of PKA.
D) it is part of a tetramer.
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32
When PKA is inactive,which of the following is true?

A) The pseudosubstrate of the PKA regulatory subunits is bound in the active site of the catalytic subunits.
B) The regulatory subunits are bound by cAMP.
C) The regulatory subunits are bound by GTP.
D) ATP is unable to bind the catalytic subunits.
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33
When bound to GTP, <strong>When bound to GTP, obtains a conformation that promotes interaction with</strong> A) adenylate cyclase. B) PKA. C) the G protein-coupled receptor. D) phospholipase C. obtains a conformation that promotes interaction with

A) adenylate cyclase.
B) PKA.
C) the G protein-coupled receptor.
D) phospholipase C.
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34
On binding of an insulin molecule to the insulin receptor,a conformational change occurs that

A) increases the affinity of a second insulin binding site.
B) causes the dimerization of the receptor.
C) brings the L1 region of the <strong>On binding of an insulin molecule to the insulin receptor,a conformational change occurs that</strong> A) increases the affinity of a second insulin binding site. B) causes the dimerization of the receptor. C) brings the L1 region of the subunit closer to the membrane. D) stimulates tyrosine autophosphorylation in the Subunits.
subunit closer to the membrane.
D) stimulates tyrosine autophosphorylation in the <strong>On binding of an insulin molecule to the insulin receptor,a conformational change occurs that</strong> A) increases the affinity of a second insulin binding site. B) causes the dimerization of the receptor. C) brings the L1 region of the subunit closer to the membrane. D) stimulates tyrosine autophosphorylation in the Subunits.
Subunits.
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35
Which of the following is true of a recessive oncogene mutation but NOT a dominant oncogene mutation?

A) It results in a disease phenotype any time the mutation is present in a cell.
B) It results in a disease phenotype only when both copies of the mutated oncogene are present in the same cell.
C) It is a gain-of-function mutation.
D) It is a mutation in a tumor suppressor gene.
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36
The __________ is a specific type of __________.

A) GRK; <strong>The __________ is a specific type of __________.</strong> A) GRK; ARK B) -adrenergic receptor kinase; -arrestin C) regulator of G protein signaling; GTPase activating protein D) GTPase activating protein; guanine nucleotide exchange factor
ARK
B) <strong>The __________ is a specific type of __________.</strong> A) GRK; ARK B) -adrenergic receptor kinase; -arrestin C) regulator of G protein signaling; GTPase activating protein D) GTPase activating protein; guanine nucleotide exchange factor -adrenergic receptor kinase; <strong>The __________ is a specific type of __________.</strong> A) GRK; ARK B) -adrenergic receptor kinase; -arrestin C) regulator of G protein signaling; GTPase activating protein D) GTPase activating protein; guanine nucleotide exchange factor
-arrestin
C) regulator of G protein signaling; GTPase activating protein
D) GTPase activating protein; guanine nucleotide exchange factor
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37
Below is the molecular structure of a single bovine <strong>Below is the molecular structure of a single bovine -arrestin subunit.Two locations are indicated.What is most likely to interact with the protein at these locations? </strong> A) ARK B) GTP-bound C) dephosphorylated GPCR D) phosphorylated GPCR -arrestin subunit.Two locations are indicated.What is most likely to interact with the protein at these locations? <strong>Below is the molecular structure of a single bovine -arrestin subunit.Two locations are indicated.What is most likely to interact with the protein at these locations? </strong> A) ARK B) GTP-bound C) dephosphorylated GPCR D) phosphorylated GPCR

A) <strong>Below is the molecular structure of a single bovine -arrestin subunit.Two locations are indicated.What is most likely to interact with the protein at these locations? </strong> A) ARK B) GTP-bound C) dephosphorylated GPCR D) phosphorylated GPCR ARK
B) GTP-bound <strong>Below is the molecular structure of a single bovine -arrestin subunit.Two locations are indicated.What is most likely to interact with the protein at these locations? </strong> A) ARK B) GTP-bound C) dephosphorylated GPCR D) phosphorylated GPCR
C) dephosphorylated GPCR
D) phosphorylated GPCR
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38
Below is shown a short sequence of a protein.Which of the following domains would most likely bind this sequence? <strong>Below is shown a short sequence of a protein.Which of the following domains would most likely bind this sequence? </strong> A) SH2 B) SH3 C) SH2a D) SHP

A) SH2
B) SH3
C) SH2a
D) SHP
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39
Place the following steps in proper order: A.phosphorylation of RTK cytoplasmic tails
B)activation of downstream signaling pathways
C)ligand binding,receptor dimerization,and kinase activation
D)protein binding to RTK phosphotyrosines and phosphorylation of target proteins

A) C, D, A, B
B) C, B, A, D
C) C, A, D, B
D) B, C, A, D
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40
Liver cells were monitored for changes in metabolic enzymatic activity after exposure to glucagon.The enzymes that showed changes in activity were then analyzed to assess if they had been covalently modified.Which of the following results were likely observed?

A) Enzymes that showed lower activity were not phosphorylated.
B) Enzymes that showed higher activity were methylated.
C) Enzymes that showed altered activity (higher or lower) were phosphorylated.
D) Enzymes that showed altered activity (higher or lower) were methylated.
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41
Consider a mutation in procaspase 3 that changes Asp28 to an amino acid that is no longer a substrate for autocleavage.This mutant would

A) no longer be cleaved by caspase 8.
B) no longer obtain a quaternary structure.
C) be partially activated.
D) be fully activated.
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42
Caspases contain

A) phosphorylated tyrosines when activated.
B) death domains.
C) an active site cysteine residue.
D) SODD.
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43
Which of the following occurs after activation of the PI-3K signaling pathway?

A) Glycogen synthesis rates decrease.
B) GRB2 is activated.
C) GLUT-1 levels decrease.
D) Glucose uptake increases.
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44
Predict which bond of a target protein would be cleaved by caspase 3 executioner enzyme. <strong>Predict which bond of a target protein would be cleaved by caspase 3 executioner enzyme. </strong> A) 1 B) 2 C) 3 D) 4

A) 1
B) 2
C) 3
D) 4
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45
Place the following steps of the apoptotic pathway in their proper order. A.CASP3 cleavage of cellular proteins
B)Cleavage of procaspase 8
C)Cleavage of procaspase 3
D)Assembly of DD and DED protein complexes

A) D, C, B, A
B) B C, A, D
C) D, B, C, A
D) D, C, A, B
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46
On binding of an insulin molecule to the insulin receptor,which region of the receptor becomes phosphorylated? <strong>On binding of an insulin molecule to the insulin receptor,which region of the receptor becomes phosphorylated? </strong> A) CR B) TM C) TK D) L1

A) CR
B) TM
C) TK
D) L1
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47
Caspase 3 is responsible for

A) activating caspase 8.
B) phosphorylating Fas.
C) degrading key regulatory molecules.
D) dephosphorylating FasL.
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48
Which of the following acts as a transcription factor in the cell survival pathway activated by TNF- <strong>Which of the following acts as a transcription factor in the cell survival pathway activated by TNF- ?</strong> A) p50:p65 complex B) NIK:RIP complex C) I \kappa B D) IKK ?

A) p50:p65 complex
B) NIK:RIP complex
C) I κ\kappa B <strong>Which of the following acts as a transcription factor in the cell survival pathway activated by TNF- ?</strong> A) p50:p65 complex B) NIK:RIP complex C) I \kappa B D) IKK
D) IKK
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49
Both the silence of death domain and TNF receptor-associated death domain proteins

A) inhibit downstream signaling.
B) activate downstream signaling.
C) are phosphorylated when TNF- <strong>Both the silence of death domain and TNF receptor-associated death domain proteins</strong> A) inhibit downstream signaling. B) activate downstream signaling. C) are phosphorylated when TNF- Is bound to its receptor. D) bind TNF receptor death domains.
Is bound to its receptor.
D) bind TNF receptor death domains.
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50
Which of the following is true of procaspase 8?

A) It is proteolytically active.
B) It can cleave caspase 3.
C) It can be activated by proteolysis.
D) It is a kinase.
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51
On insulin binding to the insulin receptor,MAP kinase signaling proteins are activated.Which of the following proteins are part of this signaling pathway?

A) Shc
B) IRS
C) PI-3K
D) GLUT-1
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52
Consider a mutant cell that does not form DISC on TNF signaling.Which of the following would occur in this mutant cell if exposed to TNF- <strong>Consider a mutant cell that does not form DISC on TNF signaling.Which of the following would occur in this mutant cell if exposed to TNF- ?</strong> A) Caspase 3 would be activated. B) TNF- Would bind to the TNF receptor. C) Caspase 8 would be activated. D) The cell would undergo apoptosis. ?

A) Caspase 3 would be activated.
B) TNF- <strong>Consider a mutant cell that does not form DISC on TNF signaling.Which of the following would occur in this mutant cell if exposed to TNF- ?</strong> A) Caspase 3 would be activated. B) TNF- Would bind to the TNF receptor. C) Caspase 8 would be activated. D) The cell would undergo apoptosis.
Would bind to the TNF receptor.
C) Caspase 8 would be activated.
D) The cell would undergo apoptosis.
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53
Which protein is part of the TNF receptor-activated programmed cell death signaling pathway?

A) FADD
B) TRAF2
C) NF κ\kappa B-inducing kinase
D) IKK
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54
Phosphorylation of which of the following is necessary for the increased expression of antiapoptotic genes?

A) RIP
B) TNF receptor
C) FADD
D) IKK
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55
Which of the following is true of active NF κ\kappa B?

A) It is a dimer.
B) It is phosphorylated.
C) It is in a complex with a DD.
D) It has been proteolytically activated.
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56
A caspase is a

A) protease.
B) kinase.
C) phosphatase.
D) transmembrane receptor.
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57
Below shows the cell survival pathway promoted by TNF- <strong>Below shows the cell survival pathway promoted by TNF- .A complex is indicated with a question mark.What is this complex? </strong> A) inactive NF \kappa B B) active NF \kappa B C) active CASP3 D) NIK .A complex is indicated with a question mark.What is this complex? <strong>Below shows the cell survival pathway promoted by TNF- .A complex is indicated with a question mark.What is this complex? </strong> A) inactive NF \kappa B B) active NF \kappa B C) active CASP3 D) NIK

A) inactive NF κ\kappa B
B) active NF κ\kappa B
C) active CASP3
D) NIK
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58
Construct a functional pathway out of the following steps. A: Phosphorylation of <strong>Construct a functional pathway out of the following steps. A: Phosphorylation of Subunits of the insulin receptor occurs. B: Insulin binds to Subunits of the insulin receptor. C: PI-3K is activated.D: IRS is phosphorylated.</strong> A) C, A, B, D B) B, D, A, C C) B, A, C, D D) B, A, D, C
Subunits of the insulin receptor occurs.
B: Insulin binds to <strong>Construct a functional pathway out of the following steps. A: Phosphorylation of Subunits of the insulin receptor occurs. B: Insulin binds to Subunits of the insulin receptor. C: PI-3K is activated.D: IRS is phosphorylated.</strong> A) C, A, B, D B) B, D, A, C C) B, A, C, D D) B, A, D, C
Subunits of the insulin receptor.
C: PI-3K is activated.D: IRS is phosphorylated.

A) C, A, B, D
B) B, D, A, C
C) B, A, C, D
D) B, A, D, C
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59
A new protein is discovered that contains a pleckstrin homology domain.Which of the following is likely to bind to the protein?

A) PIP3
B) PI-3K
C) phosphorylated tyrosines
D) Ca2+
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60
If a mutation occurred in SODD that prohibited its interaction with the DD of TNF receptor,the TNF receptor would

A) no longer form a trimer.
B) no longer be able to release TNF- <strong>If a mutation occurred in SODD that prohibited its interaction with the DD of TNF receptor,the TNF receptor would</strong> A) no longer form a trimer. B) no longer be able to release TNF- C) bind TRADD, even in the absence of TNF- D) bind NF \kappa B, even in the absence of TNF-
C) bind TRADD, even in the absence of TNF- <strong>If a mutation occurred in SODD that prohibited its interaction with the DD of TNF receptor,the TNF receptor would</strong> A) no longer form a trimer. B) no longer be able to release TNF- C) bind TRADD, even in the absence of TNF- D) bind NF \kappa B, even in the absence of TNF-
D) bind NF κ\kappa B, even in the absence of TNF- <strong>If a mutation occurred in SODD that prohibited its interaction with the DD of TNF receptor,the TNF receptor would</strong> A) no longer form a trimer. B) no longer be able to release TNF- C) bind TRADD, even in the absence of TNF- D) bind NF \kappa B, even in the absence of TNF-
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61
Nuclear receptors are ligand-activated transcription factors that control a wide range of physiologic responses.The responses are governed by cell-specific expression of nuclear receptors and coregulatory proteins and accessibility of target gene DNA sequences.What else governs the responses?
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62
Which of the following DNA sequences is MOST likely to be bound by a steroid receptor?

A) AGGAGAACATCATGTTCT
B) AGGAGATAGGAGAACT
C) TTTGATCCAGTTTCCAGT
D) CCCAAGTTCCCAAG
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63
Cultures of two different cell types are exposed to the same signaling ligand.Analysis of gene expression shows that only one of the cell types responded to the ligand.Which of the following may account for this difference?

A) The ligand was only bioavailable to one of the cell types.
B) Only one of the cell types contained accessible target gene DNA sequences.
C) Only one cell type contained DNA.
D) The ligand could only pass through the membrane of one of the cell types.
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64
A response element is

A) any protein whose expression is changed in response to a signal.
B) a sequence of regulatory DNA.
C) a domain of the glucocorticoid receptor that binds DNA.
D) a sequence of DNA coding for a steroid or metabolite receptor.
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65
Which of the following is a metabolite receptor?

A) aldosterone receptor
B) glucocorticoid receptor
C) progesterone receptor
D) thyroid hormone receptor
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66
The __________ domain functions as a protein-protein interaction module and is located in the cytoplasmic tail of TNF receptors.

A) death
B) SH2
C) SH3
D) RIP
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67
Explain how the conformational organization of a nuclear receptor homodimer allows it to recognize inverted repeat sequences of DNA.
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68
Differentiate between the caspase in the apoptotic pathway that is activated by autocleavage and the caspase that is activated by another enzyme.Clearly name each caspase.
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69
The PPAR <strong>The PPAR -RXR Heterodimer interacts with DNA via</strong> A) the LXXLL sequences. B) leucine zipper motifs. C) zinc finger motifs. D) basic leucine zipper motifs. -RXR <strong>The PPAR -RXR Heterodimer interacts with DNA via</strong> A) the LXXLL sequences. B) leucine zipper motifs. C) zinc finger motifs. D) basic leucine zipper motifs.
Heterodimer interacts with DNA via

A) the LXXLL sequences.
B) leucine zipper motifs.
C) zinc finger motifs.
D) basic leucine zipper motifs.
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70
A class of proteins that assist other proteins to fold are known as __________ proteins.

A) folding assist
B) proteasome
C) chaperonin
D) overseer
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71
The result of TRADD proteins binding to TNF receptors is that

A) TRADD is phosphorylated.
B) an activated adaptor complex is formed.
C) downstream signaling proteins are inactivated.
D) TNF is degraded.
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72
Hsp90 is a type of

A) chaperonin.
B) kinase.
C) response element.
D) heat sensing protease.
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73
Which of the following is NOT an expected effect of the binding of the glucocorticoid response element by GR?

A) upregulation of annexin I
B) inhibition of the inflammatory response
C) upregulation of cyclooxygenase-2
D) decreased interaction of p65 and p50 of NF κ\kappa B
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74
The ligands for metabolite receptors are often derived from dietary nutrients,including all EXCEPT which of the following?

A) essential amino acids
B) vitamins
C) unsaturated fatty acids
D) saturated fatty acids
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75
Cell-specific responses to signaling molecules are possible because

A) nuclear receptor expression is cell specific.
B) target palindromic DNA sequences are ubiquitous.
C) signaling molecules are hydrophobic and can pass through the plasma membrane.
D) only some cells express gated channels for the signaling molecules.
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76
This Zn2+-containing homodimer is part of <strong>This Zn<sup>2+</sup>-containing homodimer is part of </strong> A) the glucocorticoid receptor. B) PPAR -RXR ) C) TRADD. D) the retinoic acid receptor.

A) the glucocorticoid receptor.
B) PPAR <strong>This Zn<sup>2+</sup>-containing homodimer is part of </strong> A) the glucocorticoid receptor. B) PPAR -RXR ) C) TRADD. D) the retinoic acid receptor.
-RXR <strong>This Zn<sup>2+</sup>-containing homodimer is part of </strong> A) the glucocorticoid receptor. B) PPAR -RXR ) C) TRADD. D) the retinoic acid receptor.
)
C) TRADD.
D) the retinoic acid receptor.
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77
What is the TNF receptor-TRADD-FADD-procaspase 8 adaptor complex also known as?
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78
Removal of which metal ion would likely alter the structure of the GR DNA-binding domain and preclude it from binding to DNA?

A) Zn2+
B) Mg2+
C) Ca2+
D) Fe2+
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79
Below is shown the structure of a homodimer of the GR DNA-binding domain.Four areas are highlighted.Which is most likely to interact with DNA? <strong>Below is shown the structure of a homodimer of the GR DNA-binding domain.Four areas are highlighted.Which is most likely to interact with DNA? </strong> A) A B) B C) C D) D

A) A
B) B
C) C
D) D
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80
Activation of caspases ultimately leads to the programmed death of the cell.What is this process known as? Explain why this may be a beneficial outcome to the organism.
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