Lesson 7: Membrane Receptors
Enzyme Linked Receptors have which of the following domains? I. Ligand Binding Domain II. Enzymatic Domain III. DNA Binding Domain (A) I and II Only (B) II and III Only (C) I and III Only (D) I, II, and III
(A) I and II Only Enzyme Linked Receptors have Ligand Binding Domains and Enzymatic Domains but not DNA Binding Domains.
Ion Channel Linked Receptors are also known as: (A) Ligand-gated Ion Channels (B) G-protein Coupled Receptors (C) Enzyme Linked Receptors (D) Membrane Receptors
(A) Ligand-gated Ion Channels Ion Channel Linked Receptors are also known as Ligand-gated Ion Channels.
G Protein Coupled Receptors are found in: I. Archaea II. Prokaryotes III. Eukaryotes (A) I Only (B) III Only (C) I and II Only (D) II and III Only
(B) III Only G Protein Coupled Receptors are found in Eukaryotes.
Osmosis would entail water moving from the _________ of a cell to the ____________ of a cell when the cell is Hypertonic and the semipermeable membrane is impermeable to the solute. (A) outside, outside (B) outside, inside (C) inside, inside (D) inside, outside
(B) outside, inside Osmosis would entail water moving from the outside of a cell to the inside of a cell when the cell is Hypertonic and the semipermeable membrane is impermeable to the solute.
*CRB* What would the Van't Hoff Factor be for CaCl2 when it dissolves in water? (A) 1 (B) 2 (C) 3 (D) 4
(C) 3 CaCl2 dissolves into Ca2+, Cl- and Cl-.
Catalytic Receptors are also known as: (A) Ligand-gated Ion Channels (B) G-protein Coupled Receptors (C) Enzyme Linked Receptors (D) Membrane Receptors
(C) Enzyme Linked Receptors Catalytic Receptors are also known as Enzyme Linked Receptors.
*CRB* Fill in the blanks: Endocytosis with a fluid and its dissolved particles is called ___________, whereas Endocytosis with large solids is called ___________. (A) Pinocytosis, Palocytosis (B) Palocytosis, Pinocytosis (C) Pinocytosis, Phagocytosis (D) Phagocytosis, Palocytosis
(C) Pinocytosis, Phagocytosis Endocytosis with a fluid and its dissolved particles is called Pinocytosis, whereas Endocytosis with large solids is called Phagocytosis.
What is/are the secondary messenger(s) in this instance? I. α-subunit II. cAMP III. GPCR (A) I Only (B) II Only (C) III Only (D) I and II Only
(D) I and II Only Secondary Messengers are any molecule that transmits a signal from the cell membrane. GPCR would not be included since it constitutes the protein that receives the signal whereas the G Protein and cAMP transmit signals from the cell membrane to the intracellular environment.
*CRB* Which of the following statements about Carriers are true? I. Carrier proteins will never be open to both sides of the cell membrane simultaneously. II. Carrier Proteins, when alternating which side is open, take on a closed state called the Occluded State. III. Carrier Proteins, for the above reasons, are often considered similar to revolving doors. (A) I only (B) I and II only (C) II and III only (D) I, II and III
(D) I, II and III Each of the following statements about Carriers are true: I. Carrier proteins will never be open to both sides of the cell membrane simultaneously. II. Carrier Proteins, when alternating which side is open, take on a closed state called the Occluded State. III. Carrier Proteins, for the above reasons, are often considered similar to revolving doors.
Which of the following are examples of Membrane Receptors? I. Ligand-gated Ion Channels II. G-protein Coupled Receptors III. Enzyme Linked Receptors (A) I and II Only (B) II and III Only (C) I and III Only (D) I, II, and III
(D) I, II, and III The following are examples of Membrane Receptors: I. Ligand-gated Ion Channels II. G-protein Coupled Receptors III. Enzyme Linked Receptors
*CRB* Which of the following types of transport have a >0 ΔG? I. Passive Transport II. Primary Active Transport III. Secondary Active Transport (A) I only (B) II only (C) I and III only (D) II and III only
(D) II and III only Primary and Secondary Active Transport both have a positive ΔG, meaning they require energy.
Membrane receptors are _________________ that communicate with the outside environment of a cell. (A) Phospholipid Bilayers (B) Steroid Hormones (C) Glycosidic Linkages (D) Integral Proteins
(D) Integral Proteins Membrane receptors are Integral Proteins that communicate with the outside environment of a cell.
*CRB* Which of the following is NOT another example of a Colligative Property? (A) Vapor Pressure Depression (B) Boiling Point Elevation (C) Freezing Point Depression (D) Sublimation Point Elevation
(D) Sublimation Point Elevation Vapor Pressure Depression, Boiling Point Elevation and Freezing Point Depression are all examples of Colligative Properties.
Diffusion would entail solutes moving from the _________ of a cell to the ____________ of a cell when the cell is Hypertonic. (A) outside, outside (B) outside, inside (C) inside, inside (D) inside, outside
(D) inside, outside Diffusion would entail solutes moving from the inside (high concentration) of a cell to the outside (low concentration) of a cell when the cell is Hypertonic.
Compare a Hypotonic and a Hypertonic Environment.
A Hypotonic Environment has a lower concentration of solutes as compared to the inside of a cell. A Hypertonic Environment has a higher concentration of solutes as compared to the inside of a cell.
Epinephrine is a classic example of a molecule that binds to a GPCR. In this case, the activated α-subunit binds to Adenylate Cyclase. What does Adenylate Cyclase then do?
Adenylate Cyclase converts ATP into cAMP (Cyclic AMP), which will then activate and alter other proteins within the cell, ultimately resulting in increased heart rate, dilated blood vessels, glycogenolysis, etc.
*CRB* Cristae are the folds in the mitochondria that increase the surface area for the Electron Transport Chain proteins. Would Cristae be folding of the Outer or Inner Mitochondrial Matrix?
Cristae are formed by the folding of the Inner Mitochondrial Matrix.
Compare the four major types of Passive Transport: (1) Diffusion (2) Osmosis (3) Filtration (4) Facilitated Diffusion
Diffusion is when a substance simply diffuses/transports directly through the cell membrane without the assistance of a channel/protein. Osmosis is the movement of water across a cell membrane. Filtration is special type of Diffusion in which some substances are allowed to diffuse while others are not. Facilitated Diffusion is diffusion that occurs with the assistance of a protein without the utilization of energy.
*CRB* The Nernst Equation can determine the Membrane Potential for a specific molecule based upon its charge, the environmental conditions [usually simplified to a constant], and the concentration of the molecule intra- and extra-cellularly. Write out the Nernst Equation.
E = (61.5/z)log([ion]out/[ion]in) E = Membrane Potential (mV) z = Charge of the Ion [ion]out = Ion Concentration Outside Membrane (mol/L) [ion]in = Ion Concentration Inside Membrane (mol/L) Note that 61.5 is the constant accounting for enviornmental conditions.
Compare Endocytosis and Exocytosis.
Endocytosis is the transport of a vesicle into a cell. Exocytosis is the transport of a vesicle to the outside of a cell.
True or False? Facilitated Diffusion is an example of Active Transport because it utilizes a protein.
False. Active Transport is defined as transmembrane transport that utilized energy. Facilitated Diffusion uses a transport protein, but it does not require energy. For this reason, Facilitated Diffusion is NOT an example of Active Transport.
True or False? Endocytosis is an example of Passive Transport since it simply entails the fusion of a vesicle with a cell membrane.
False. Endocytosis is actually a very energy intensive process.
*CRB* Why could effective Membrane Receptors not be Embedded Proteins?
If Membrane Receptors were Embedded Proteins, then they either would not be able to bind the extracellular signal or would not be able to have any interactions with the inside of the cell. In other words, an effective Membrane Receptor must both be able to interact with both the extra- and intra-cellular environments!
*CRB* Recall the equation for Gibbs Free Energy. What must be increasing to make Passive Transport have a negative ΔG?
It is illogical to think that this Passive Transport will significantly increase temperature, so this Passive Transport must increase Entropy.
What does it mean that GPCRs are "7 Transmembrane Receptors"?
It means that their protein spans the membrane 7 times!
Compare Ligand-gated Ion Channels to Voltage-gated Ion Channels and Stretch-activated Ion Channels.
Ligand-gated Ion Channels are opened and closed due to the binding of a ligand. Voltage-gated Ion Channels are opened and closed due to a change in the electrical environment (or the membrane potential). Stretch-activated (or Mechanically-gated) Ion Channels are opened and closed due to stretching or deformation of the cell membrane.
What is the key difference between each type of Membrane Receptor: (1) Ligand-gated Ion Channels (2) G-protein Coupled Receptors (3) Enzyme Linked Receptors
Ligand-gated Ion Channels are transmembrane ion channels that open and close in response to the binding of a ligand, allowing ions to flow in or out of a cell. G-protein Coupled Receptors are a unique receptor type that includes the activation of a G-protein. Enzyme Linked Receptors act as both a membrane receptor and as an enzyme. Binding of the ligand activates the catalytic activity of the receptor.
Compare Primary Active Transport to Secondary Active Transport.
Primary Active Transport is when energy is used on a channel, allowing transport of the substance of interest. Secondary Active Transport is when energy is used to transport certain substances that will create a gradient, allowing the substance of interest to transport without energy input.
Describe the process of Signal Transduction.
Signal Transduction is the binding of an extracellular ligand to a membrane receptor, creating a ligand-receptor complex. This then results in an intracellular response.
Compare a Symport with an Antiport.
Symports transport two different substances in the same direction. Antiports transport two different substances in the opposite direction.
Compare the "Lock and Key" with the "Induced Fit" model.
The "Lock and Key" model is the idea that ligands are perfectly shaped to only fit into certain enzymes (in this case membrane receptors). The "Induced Fit" model is the idea that ligands are not perfectly shaped but that when they bind to enzymes, the conformation of both the ligand and enzyme will change to fit tightly. This is the "induced fit."
*CRB* Mitochondria also have two membranes. Compare the permeabilities of each membrane.
The Outer Mitochondrial membrane has many large pores, allowing ions and small proteins to move freely, including electron carriers. The Inner Mitochondrial Membrane is much less permeable, requiring the integral proteins that are part of the Electron Transport Chain and ATP Synthase for the passage of ions to occur.
*CRB* What is the significance of the Van't Hoff Factor in that Osmotic Pressure equation?
The Van't Hoff Factor is the number of particles that are in solution for each molecule of the substance that dissolved. This is how you account for the number of molecules in solution being different when ionic solutions dissolve into multiple particles!
*CRB* What is the purpose of having Carriers and Channel Proteins for Facilitated Diffusion?
These molecules that use Carriers or Channel Proteins for facilitated diffusion are not able to diffuse across the phospholipid bilayer, but have the concentration gradient required to want to diffuse across the membrane. In other words, Channel Proteins and Carriers enable the diffusion that cannot occur directly across the Cell Membrane.
*CRB* True or false? Osmotic Pressure (the driving force behind Osmosis) is a Colligative Property, so Osmosis only depends upon how many solutes there are, not what those solutes are.
True. Osmotic Pressure (the driving force behind Osmosis) is a Colligative Property, so Osmosis only depends upon how many solutes there are, not what those solutes are.
Receptor Tyrosine Kinases (RTKs) are classic examples of Enzyme linked receptors. After a ligand binds to the Ligand Binding Domain, what cascade of events occurs in order to activate intracellular proteins?
Upon activation, neighboring RTKs will move close together and form cross-linked dimers. Next the Tyrosine amino acids in the Enzymatic Domain will phosphorylate each other. Now, these Phosphorylated Tyrosine amino acids can bind to intracellular proteins and activate them.
*CRB* What is the equation for Osmotic Pressure in terms of Molarity?
π = iMRT π = Osmotic Pressure (atm) i = Van't Hoff Factor M = Molarity (mol/L) R = Gas Constant (0.0821 L atm/mol K) T = Absolute Temperature (K)
