Vander’s Human Physiology 14th Edition by Eric P. Widmaier Dr. -Test Bank

Complete Test Bank With Answers

 

 

Sample Questions Posted Below

 

Chapter 05 – Cell Signaling in Physiology

Chapter 05

Cell Signaling in Physiology

Multiple Choice Questions

1. What are the most common receptors for hydrophilic intercellular messenger molecules?

A. peripheral membrane proteins

B. integral membrane proteins

C. specialized phospholipids within the membrane

D. nucleic acids

E. intracellular proteins

Bloom’s: Level 1. Remember

HAPS Objective: C07.01 Describe how lipids are distributed in a cell membrane, and explain their functions.

HAPS Objective: C07.03 Describe how proteins are distributed in a cell membrane, and explain their functions.

HAPS Objective: J02.03 Compare and contrast the types of receptors (cell membrane or intracellular) that each class binds to.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Topic: Module C07 Membrane structure and function

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.01

Section: 05.01

Topic: Membrane structure and functionChapter 05 – Cell Signaling in Physiology

2. Specificity is an important characteristic of intercellular communication; which of these

best explains how it occurs?

A. The phospholipid composition of the plasma membrane differs among cells.

B. Protein receptors are only located on the surface of target cells.

C. All cells have the same DNA, so any cell can express protein receptors for a specific

chemical.

D. Chemical messengers are all proteins, so bind only to receptors that are proteins.

E. Protein receptors for chemical messengers are only expressed in specific target cells.

Bloom’s: Level 1. Remember

HAPS Objective: C07.01 Describe how lipids are distributed in a cell membrane, and explain their functions.

HAPS Objective: C07.03 Describe how proteins are distributed in a cell membrane, and explain their functions.

HAPS Objective: J02.03 Compare and contrast the types of receptors (cell membrane or intracellular) that each class binds to.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Topic: Module C07 Membrane structure and function

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.01

Section: 05.01

Topic: Membrane structure and function

3. Which of the following are ways in which binding of an intercellular chemical messenger

with a cell’s receptor can bring about a cellular response?

A. opening or closing of specific ionic channels in the plasma membrane

B. activation of an intracellular second-messenger system

C. promoting or inhibiting the transcription of genes that code for the synthesis of cellular

proteins

D. activating or inhibiting intracellular enzymes

E. All of the choices are correct.

Bloom’s: Level 1. Remember

HAPS Objective: H05.06 Explain how the receptors for neurotransmitters are related to chemically- gated ion channels.

HAPS Objective: H05.14 Describe the mechanism by which neurotransmitters may have indirect (metabotropic) effects on postsynaptic cells.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Topic: Module H05 Neurotransmitters and their roles in synaptic transmission.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.02

Section: 05.02

Topic: Genes and their action

Topic: Mechanisms for movement across cell membranesChapter 05 – Cell Signaling in Physiology

4. Which of these is a lipid-soluble messenger?

A. thyroid hormone

B. protein kinase

C. glucose

D. sodium

E. cyclic AMP

Bloom’s: Level 1. Remember

HAPS Objective: J02.01 List the major chemical classes of hormones found in the human body.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.02

Section: 05.02

Topic: Organic compounds

5. The process whereby repeated exposure to a hormone can cause a decrease in the number

of receptors for that hormone is called

A. competition.

B. inhibition.

C. down-regulation.

D. antagonism.

E. saturation.

Bloom’s: Level 1. Remember

HAPS Objective: C14.01 Provide specific examples to demonstrate how individual cells respond to their environment (e.g., in terms of

organelle function, transport processes, protein synthesis, or regulation of cell cycle) in order to maintain homeostasis in the body.

HAPS Objective: C15.01 Predict factors or situations that could disrupt organelle function, transport processes, protein synthesis, or the cell

cycle.

HAPS Topic: Module C14 Application of homeostatic mechanisms

HAPS Topic: Module C15 Predictions related to homeostatic imbalance, including disease states and disorders

Learning Outcome: 05.01

Section: 05.01

Topic: Clinical applications of homeostatic mechanisms of the cellChapter 05 – Cell Signaling in Physiology

6. Cocaine lowers the levels of a chemical messenger in the brain called enkephalin.

Researchers have found the number of enkephalin receptors to be higher in cocaine addicts

than nonaddicted people. This is an example of

A. saturation.

B. up-regulation.

C. antagonism.

D. affinity.

E. down-regulation.

Bloom’s: Level 2. Understand

HAPS Objective: C14.01 Provide specific examples to demonstrate how individual cells respond to their environment (e.g., in terms of

organelle function, transport processes, protein synthesis, or regulation of cell cycle) in order to maintain homeostasis in the body.

HAPS Objective: C15.01 Predict factors or situations that could disrupt organelle function, transport processes, protein synthesis, or the cell

cycle.

HAPS Objective: H16.01 Predict factors or situations affecting the nervous system that could disrupt homeostasis.

HAPS Topic: Module C14 Application of homeostatic mechanisms

HAPS Topic: Module C15 Predictions related to homeostatic imbalance, including disease states and disorders

HAPS Topic: Module H16 Predictions related to homeostatic imbalance, including disease states and disorders.

Learning Outcome: 05.01

Section: 05.01

Topic: Clinical applications of homeostatic mechanisms of the cell

7. Methadone is a drug given to treat heroin addicts. It works by binding to the same

receptors as heroin but with greater affinity, thereby preventing heroin from binding. This is

an example of

A. competition.

B. down-regulation.

C. signal transduction.

D. agonistic behavior.

E. up-regulation.

Bloom’s: Level 2. Understand

HAPS Objective: C15.01 Predict factors or situations that could disrupt organelle function, transport processes, protein synthesis, or the cell

cycle.

HAPS Objective: H16.01 Predict factors or situations affecting the nervous system that could disrupt homeostasis.

HAPS Topic: Module C15 Predictions related to homeostatic imbalance, including disease states and disorders

HAPS Topic: Module H16 Predictions related to homeostatic imbalance, including disease states and disorders.

Learning Outcome: 05.01

Section: 05.01

Topic: Clinical applications of homeostatic mechanisms of the cellChapter 05 – Cell Signaling in Physiology

8. Epinephrine activates the cyclic AMP pathway in liver cells. In this example, epinephrine

is a ____________ and cAMP is a _____________.

A. ligand, receptor

B. first messenger, hydrophobic hormone

C. second messenger, ion channel

D. first messenger, second messenger

E. enzyme, second messenger

Bloom’s: Level 1. Remember

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Objective: J05.04c In the adrenal gland, name the target tissue or cells for the hormone and describe the effect(s) of glucocorticoids

(cortisol), mineralocorticoids (aldosterone), gonadocorticoids, epinephrine and norepinephrine on the target tissue or cells.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

HAPS Topic: Module J05 Identity, source, secretory control, and functional roles of the major hormones produced by the body

Learning Outcome: 05.02

Section: 05.02

Topic: Clinical applications of homeostatic mechanisms of the cellChapter 05 – Cell Signaling in Physiology

9. At very low concentrations, epinephrine causes an artery to dilate. At higher concentrations

epinephrine causes the same artery to constrict. How can these different effects be explained?

A. There is one type of epinephrine receptor that uses two second-messenger systems.

B. There are two types of epinephrine receptors with different affinities for epinephrine that

use two different second-messenger systems.

C. There are two types of receptors for epinephrine that use the same second-messenger

system.

D. At higher concentrations epinephrine can pass through the plasma membrane and directly

stimulate contraction within the cell.

Bloom’s: Level 2. Understand

HAPS Objective: H13.07 Differentiate between cholinergic and adrenergic nerve fibers and discuss the physiological interactions of

transmitters released by these neurons with specific cholinergic and adrenergic receptor subtypes.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Objective: J05.04c In the adrenal gland, name the target tissue or cells for the hormone and describe the effect(s) of glucocorticoids

(cortisol), mineralocorticoids (aldosterone), gonadocorticoids, epinephrine and norepinephrine on the target tissue or cells.

HAPS Objective: K14.10d Explain the role of hormones in regulation of blood pressure, including the mechanism by which specific

hormones affect preload, heart rate, inotropic state or vascular resistance.

HAPS Topic: Module H13 Functions of the autonomic nervous system.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

HAPS Topic: Module J05 Identity, source, secretory control, and functional roles of the major hormones produced by the body

HAPS Topic: Module K14 Blood pressure and its functional interrelationships with cardiac output, peripheral resistance, and hemodynamics

Learning Outcome: 05.02

Section: 05.02

Topic: Clinical applications of homeostatic mechanisms of the cellChapter 05 – Cell Signaling in Physiology

10. With regard to the action of hormones and neurotransmitters on cellular receptors, which

of these describes “amplification”?

A. When the extracellular concentration of a chemical messenger reaches a very high level, it

overwhelms transporter molecules and the chemical floods into the cell.

B. Only hydrophilic first-messenger molecules can activate second-messenger molecules

within the cell cytosol.

C. A single first-messenger molecule activates multiple second-messenger molecules, each of

which activate thousands of enzymes.

D. Some cellular receptors have such low affinity for chemical ligands that it can require a

million or more molecules to activate them.

Bloom’s: Level 1. Remember

HAPS Objective: H05.14 Describe the mechanism by which neurotransmitters may have indirect (metabotropic) effects on postsynaptic cells.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Topic: Module H05 Neurotransmitters and their roles in synaptic transmission.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.02

Section: 05.02

Topic: Clinical applications of homeostatic mechanisms of the cell

11. Cells can increase their responsiveness to an external chemical regulator by

A. increasing the number of their transmembrane receptors by exocytosis.

B. decreasing the number of their transmembrane receptors by endocytosis.

C. uncoupling their receptors from the second message generator.

D. increasing the number of their transmembrane receptors by endocytosis.

E. mutating their extracellular receptors so that the affinity for the chemical regulator is

reduced.

Bloom’s: Level 2. Understand

HAPS Objective: C14.01 Provide specific examples to demonstrate how individual cells respond to their environment (e.g., in terms of

organelle function, transport processes, protein synthesis, or regulation of cell cycle) in order to maintain homeostasis in the body.

HAPS Objective: H05.14 Describe the mechanism by which neurotransmitters may have indirect (metabotropic) effects on postsynaptic cells.

HAPS Objective: J02.03 Compare and contrast the types of receptors (cell membrane or intracellular) that each class binds to.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Topic: Module C14 Application of homeostatic mechanisms

HAPS Topic: Module H05 Neurotransmitters and their roles in synaptic transmission.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.01

Section: 05.01

Topic: Clinical applications of homeostatic mechanisms of the cellChapter 05 – Cell Signaling in Physiology

12. In which situation would an injected drug be the most effective agonist for an endogenous

chemical messenger?

A. The drug has a lower affinity for the messenger’s receptors than the messenger does.

B. The drug achieves 50% saturation of the messenger’s receptors at a lower concentration

than that required by the messenger.

C. The drug does not couple to the binding site of the messenger’s receptor.

D. The drug binds to an alternate binding site on the protein receptor and reduces its affinity

for the endogenous chemical messenger.

Bloom’s: Level 3. Apply

HAPS Objective: C15.01 Predict factors or situations that could disrupt organelle function, transport processes, protein synthesis, or the cell

cycle.

HAPS Objective: H16.01 Predict factors or situations affecting the nervous system that could disrupt homeostasis.

HAPS Topic: Module C15 Predictions related to homeostatic imbalance, including disease states and disorders

HAPS Topic: Module H16 Predictions related to homeostatic imbalance, including disease states and disorders.

Learning Outcome: 05.01

Section: 05.01

Topic: Clinical applications of homeostatic mechanisms of the cell

13. A fat cell responds to the presence of the hormone epinephrine by increasing cytosolic

cyclic AMP production, which leads to the catabolism of both glycogen and fat. What is the

most likely explanation for this phenomenon?

A. Epinephrine is binding to two types of receptors in the plasma membrane.

B. The activated receptor complex stimulates production of two different second messengers.

C. Cyclic AMP directly activates enzymes that catabolize glycogen and fat.

D. Cyclic AMP-dependent protein kinase activates two kinds of enzymes.

Bloom’s: Level 2. Understand

HAPS Objective: C04.06 Demonstrate factors that affect enzyme activity, including denaturation, and interpret graphs showing the effects of

various factors on the rate of enzyme-catalyzed reactions.

HAPS Objective: J02.03 Compare and contrast the types of receptors (cell membrane or intracellular) that each class binds to.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Objective: J05.04c In the adrenal gland, name the target tissue or cells for the hormone and describe the effect(s) of glucocorticoids

(cortisol), mineralocorticoids (aldosterone), gonadocorticoids, epinephrine and norepinephrine on the target tissue or cells.

HAPS Objective: O02.01 Define metabolism, anabolism and catabolism.

HAPS Topic: Module C04 Organic compounds

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

HAPS Topic: Module J05 Identity, source, secretory control, and functional roles of the major hormones produced by the body

HAPS Topic: Module O02 Introduction to metabolism

Learning Outcome: 05.02

Section: 05.02

Topic: Clinical applications of homeostatic mechanisms of the cellChapter 05 – Cell Signaling in Physiology

14. Which of the following is NOT typically true about G proteins?

A. They act as second messengers.

B. They can be stimulatory for second-messenger production.

C. They can be inhibitory for second-messenger production.

D. They can act as transducers for activated receptors by opening or closing ion channels.

Bloom’s: Level 2. Understand

HAPS Objective: H05.06 Explain how the receptors for neurotransmitters are related to chemically- gated ion channels.

HAPS Objective: H05.14 Describe the mechanism by which neurotransmitters may have indirect (metabotropic) effects on postsynaptic cells.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Topic: Module H05 Neurotransmitters and their roles in synaptic transmission.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.02

Section: 05.02

Topic: Clinical applications of homeostatic mechanisms of the cell

15. Which is NOT typically a step in the cAMP second-messenger system?

A. A first messenger binds to a transmembrane receptor.

B. There is dissociation of G-protein subunits.

C. An activated G-protein subunit phosphorylates cAMP-dependent protein kinase.

D. Adenylyl cyclase converts ATP into cAMP.

E. Active cAMP-dependent protein kinase phosphorylates cell proteins.

Bloom’s: Level 1. Remember

HAPS Objective: C04.06 Demonstrate factors that affect enzyme activity, including denaturation, and interpret graphs showing the effects of

various factors on the rate of enzyme-catalyzed reactions.

HAPS Objective: H05.14 Describe the mechanism by which neurotransmitters may have indirect (metabotropic) effects on postsynaptic cells.

HAPS Objective: J02.03 Compare and contrast the types of receptors (cell membrane or intracellular) that each class binds to.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Topic: Module C04 Organic compounds

HAPS Topic: Module H05 Neurotransmitters and their roles in synaptic transmission.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.02

Section: 05.02

Topic: Clinical applications of homeostatic mechanisms of the cellChapter 05 – Cell Signaling in Physiology

16. Second messengers:

A. are necessary for all receptor signal transduction mechanisms.

B. act in the cell cytoplasm.

C. only function as intercellular messengers.

D. always function to activate enzymes.

E. are always proteins.

Bloom’s: Level 1. Remember

HAPS Objective: C04.06 Demonstrate factors that affect enzyme activity, including denaturation, and interpret graphs showing the effects of

various factors on the rate of enzyme-catalyzed reactions.

HAPS Objective: H05.14 Describe the mechanism by which neurotransmitters may have indirect (metabotropic) effects on postsynaptic cells.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Topic: Module C04 Organic compounds

HAPS Topic: Module H05 Neurotransmitters and their roles in synaptic transmission.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.02

Section: 05.02

Topic: Clinical applications of homeostatic mechanisms of the cell

17. Which of the following statements is TRUE?

A. Phosphorylation by protein kinases can stimulate or inhibit the activity of effector

proteins.

B. Ca2+ is not a second messenger.

C. Phosphodiesterase converts GMP into cGMP

D. Conversion of ATP to cAMP is a phosphorylation reaction.

E. Phospholipase C converts ATP to cAMP.

Bloom’s: Level 1. Remember

HAPS Objective: C04.06 Demonstrate factors that affect enzyme activity, including denaturation, and interpret graphs showing the effects of

various factors on the rate of enzyme-catalyzed reactions.

HAPS Objective: H05.14 Describe the mechanism by which neurotransmitters may have indirect (metabotropic) effects on postsynaptic cells.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Topic: Module C04 Organic compounds

HAPS Topic: Module H05 Neurotransmitters and their roles in synaptic transmission.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.02

Section: 05.02

Topic: Clinical applications of homeostatic mechanisms of the cellChapter 05 – Cell Signaling in Physiology

18. Which of the following is known to be a second messenger?

A. diacylglycerol

B. phospholipase C

C. ATP

D. adenylyl cyclase

E. epinephrine

Bloom’s: Level 1. Remember

HAPS Objective: H05.14 Describe the mechanism by which neurotransmitters may have indirect (metabotropic) effects on postsynaptic cells.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Objective: J05.04c In the adrenal gland, name the target tissue or cells for the hormone and describe the effect(s) of glucocorticoids

(cortisol), mineralocorticoids (aldosterone), gonadocorticoids, epinephrine and norepinephrine on the target tissue or cells.

HAPS Topic: Module H05 Neurotransmitters and their roles in synaptic transmission.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

HAPS Topic: Module J05 Identity, source, secretory control, and functional roles of the major hormones produced by the body

Learning Outcome: 05.02

Section: 05.02

Topic: Clinical applications of homeostatic mechanisms of the cell

19. Amplification during a second-messenger cascade is beneficial because amplification:

A. takes small molecules and makes polymers out of them.

B. results in the production of more of the first messenger.

C. allows a cell to respond to more different hormones.

D. allows small amounts of hormones to produce large responses in target cells.

Bloom’s: Level 1. Remember

HAPS Objective: H05.14 Describe the mechanism by which neurotransmitters may have indirect (metabotropic) effects on postsynaptic cells.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Topic: Module H05 Neurotransmitters and their roles in synaptic transmission.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.02

Section: 05.02

Topic: Clinical applications of homeostatic mechanisms of the cellChapter 05 – Cell Signaling in Physiology

20. Amplification of a second-messenger cascade can take place at which level of a signal

cascade?

A. One activated receptor can activate numerous G-proteins.

B. One activated G-protein can activate numerous effector enzymes.

C. One active effector enzyme can catalyze numerous reactions.

D. One activated protein kinase can allosterically modulate numerous proteins.

E. All of the choices are correct.

Bloom’s: Level 1. Remember

HAPS Objective: C04.06 Demonstrate factors that affect enzyme activity, including denaturation, and interpret graphs showing the effects of

various factors on the rate of enzyme-catalyzed reactions.

HAPS Objective: H05.14 Describe the mechanism by which neurotransmitters may have indirect (metabotropic) effects on postsynaptic cells.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Topic: Module C04 Organic compounds

HAPS Topic: Module H05 Neurotransmitters and their roles in synaptic transmission.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.02

Section: 05.02

Topic: Clinical applications of homeostatic mechanisms of the cell

21. What is a role of calcium ions in the second-messenger cascade involving phospholipase

C, diacylglycerol, and inositol triphosphate?

A. It splits and activates G-protein subunits.

B. It binds to the endoplasmic reticulum and causes the release of inositol trisphosphate.

C. It phosphorylates cell proteins.

D. It is the first messenger that binds to the integral membrane protein receptor.

E. Along with diacylglycerol, it activates protein kinase C.

Bloom’s: Level 1. Remember

HAPS Objective: H05.14 Describe the mechanism by which neurotransmitters may have indirect (metabotropic) effects on postsynaptic cells.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Topic: Module H05 Neurotransmitters and their roles in synaptic transmission.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.02

Section: 05.02

Topic: Clinical applications of homeostatic mechanisms of the cellChapter 05 – Cell Signaling in Physiology

22. What second messenger most directly causes calcium ions to be released from

intracellular stores?

A. diacylglycerol

B. adenylyl cyclase

C. inositol triphosphate

D. phospholipase A

E. phospholipase C

Bloom’s: Level 1. Remember

HAPS Objective: H05.14 Describe the mechanism by which neurotransmitters may have indirect (metabotropic) effects on postsynaptic cells.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Topic: Module H05 Neurotransmitters and their roles in synaptic transmission.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.02

Section: 05.02

Topic: Clinical applications of homeostatic mechanisms of the cell

Topic: Organelles

True / False Questions

23. First messengers may bind to a membrane receptor that is an ion channel, which

promotes a change in membrane polarity.

TRUE

Bloom’s: Level 1. Remember

HAPS Objective: H05.06 Explain how the receptors for neurotransmitters are related to chemically- gated ion channels.

HAPS Objective: H05.14 Describe the mechanism by which neurotransmitters may have indirect (metabotropic) effects on postsynaptic cells.

HAPS Objective: J02.03 Compare and contrast the types of receptors (cell membrane or intracellular) that each class binds to.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Topic: Module H05 Neurotransmitters and their roles in synaptic transmission.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.02

Section: 05.02

Topic: Mechanisms for movement across cell membranes

Topic: Membrane structure and functionChapter 05 – Cell Signaling in Physiology

24. Eicosanoids are a family of ubiquitous, fatty-acid-derived, local chemical messengers.

TRUE

Bloom’s: Level 1. Remember

HAPS Objective: C07.01 Describe how lipids are distributed in a cell membrane, and explain their functions.

HAPS Objective: J06.02 List two major types of eicosanoids and discuss their production and functions.

HAPS Topic: Module C07 Membrane structure and function

HAPS Topic: Module J06 Local hormones (paracrines and autocrines) and growth factors

Learning Outcome: 05.02

Section: 05.02

Topic: Clinical applications of homeostatic mechanisms of the cell

Topic: Membrane structure and function

25. Aspirin and other nonsteroidal anti-inflammatory drugs are more specific in their effects

on eicosanoid synthesis than are steroidal anti-inflammatory drugs.

TRUE

Bloom’s: Level 1. Remember

HAPS Objective: J06.02 List two major types of eicosanoids and discuss their production and functions.

HAPS Objective: J09.01 Predict factors or situations affecting the endocrine organs that could disrupt homeostasis.

HAPS Topic: Module J06 Local hormones (paracrines and autocrines) and growth factors

HAPS Topic: Module J09 Predictions related to homeostatic imbalance, incluidng disease states and disorders

Learning Outcome: 05.02

Section: 05.02

Topic: Clinical applications of homeostatic mechanisms of the cell

26. Two cell types having the same type of receptor for a chemical messenger will always

respond to that messenger in the same way.

FALSE

Bloom’s: Level 1. Remember

HAPS Objective: H05.06 Explain how the receptors for neurotransmitters are related to chemically- gated ion channels.

HAPS Objective: H05.13 Explain how a single neurotransmitter may be excitatory at one synapse and inhibitory at another.

HAPS Objective: H05.14 Describe the mechanism by which neurotransmitters may have indirect (metabotropic) effects on postsynaptic cells.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Topic: Module H05 Neurotransmitters and their roles in synaptic transmission.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.01

Section: 05.01

Topic: Clinical applications of homeostatic mechanisms of the cellChapter 05 – Cell Signaling in Physiology

27. Competition for receptors is strictly a pharmacological phenomenon, since naturally

occurring chemical messengers do not compete with each other for the same receptor site.

FALSE

Bloom’s: Level 1. Remember

HAPS Objective: C15.01 Predict factors or situations that could disrupt organelle function, transport processes, protein synthesis, or the cell

cycle.

HAPS Topic: Module C15 Predictions related to homeostatic imbalance, including disease states and disorders

Learning Outcome: 05.01

Section: 05.01

Topic: Clinical applications of homeostatic mechanisms of the cell

28. An antagonist blocks the action of a chemical messenger by binding to its receptor.

TRUE

Bloom’s: Level 1. Remember

HAPS Objective: C15.01 Predict factors or situations that could disrupt organelle function, transport processes, protein synthesis, or the cell

cycle.

HAPS Topic: Module C15 Predictions related to homeostatic imbalance, including disease states and disorders

Learning Outcome: 05.01

Section: 05.01

Topic: Clinical applications of homeostatic mechanisms of the cell

29. Phosphorylation is a necessary component of any enzyme activation.

FALSE

Bloom’s: Level 2. Understand

HAPS Objective: C04.06 Demonstrate factors that affect enzyme activity, including denaturation, and interpret graphs showing the effects of

various factors on the rate of enzyme-catalyzed reactions.

HAPS Objective: H05.14 Describe the mechanism by which neurotransmitters may have indirect (metabotropic) effects on postsynaptic cells.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Topic: Module C04 Organic compounds

HAPS Topic: Module H05 Neurotransmitters and their roles in synaptic transmission.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.02

Section: 05.02

Topic: Clinical applications of homeostatic mechanisms of the cellChapter 05 – Cell Signaling in Physiology

30. The enzyme that catalyzes the production of cAMP from ATP is phosphodiesterase.

FALSE

Bloom’s: Level 1. Remember

HAPS Objective: H05.14 Describe the mechanism by which neurotransmitters may have indirect (metabotropic) effects on postsynaptic cells.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Topic: Module H05 Neurotransmitters and their roles in synaptic transmission.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.02

Section: 05.02

Topic: Clinical applications of homeostatic mechanisms of the cell

31. Cyclic AMP activates allosteric proteins.

TRUE

Bloom’s: Level 2. Understand

HAPS Objective: H05.14 Describe the mechanism by which neurotransmitters may have indirect (metabotropic) effects on postsynaptic cells.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Topic: Module H05 Neurotransmitters and their roles in synaptic transmission.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.02

Section: 05.02

Topic: Clinical applications of homeostatic mechanisms of the cell

32. Activated calmodulin functions to activate or inactivate cytosolic enzymes.

TRUE

Bloom’s: Level 1. Remember

HAPS Objective: C04.06 Demonstrate factors that affect enzyme activity, including denaturation, and interpret graphs showing the effects of

various factors on the rate of enzyme-catalyzed reactions.

HAPS Objective: H05.14 Describe the mechanism by which neurotransmitters may have indirect (metabotropic) effects on postsynaptic cells.

HAPS Objective: J02.04 Compare and contrast the mechanism of response that each class elicits (i.e., change in gene expression or change

in an intracellular pathway via phosphorylation mechanism) and relate the response mechanism to the biochemical nature of the hormone

molecule.

HAPS Topic: Module C04 Organic compounds

HAPS Topic: Module H05 Neurotransmitters and their roles in synaptic transmission.

HAPS Topic: Module J02 Chemical classification of hormones and mechanism of hormone actions at receptors

Learning Outcome: 05.02

Section: 05.02

Topic: Clinical applications of homeostatic mechanisms of the cell