Some cells with very negative resting membrane potentials, like -80 mV, express an the inward rectifier K+ channel. Describe the channel/ conductance.
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- Some cells with very negative resting membrane potentials, like -80 mV, express an the inward rectifier K+ channel. Describe the channel/ conductance.Which of the following statements best describes the features of voltage-gated K+ channels? They consist of 4 subunits, are activated at the same time as voltage-gated Na+ channels, but do not inactivate. They consist of 4 subunits, are activated by depolarisation and close slowly during the refractory period. They have 24 membrane spanning alpha helices, 4 of which have positively charged amino acids which promote a conformational change in the channel following depolarisation. They consist of 4 subunits and are open at rest which causes the resting membrane potential to be close to the K+ equilibrium potential.An experimental cell line expresses K+ inward rectifier channels, Na+ leak channels, K+ channels activated by the elevated levels of cytosolic Ca2+, Cl- channels activated by PKC, aquaporins, and α-1 adrenergic receptors (GPCRs that activate Gαq/11 signalling pathway). No voltage-gated channels of any kind are present. The resting membrane potential of these cells is about –50 mV, and they are bathed in the standard extracellular solution. The intracellular concentrations of the relevant ions are as follows: K+ 130 mM, Na+ 15 mM, Cl- 30 mM, Ca2+ 10-4 mM. What will happen to the cell volume if α-1 adrenergic receptor agonist is applied to the bath? Explain your answer.
- An experimental cell line expresses K+ inward rectifier channels, Na+ leak channels, K+ channels activated by the elevated levels of cytosolic Ca2+, Cl- channels activated by PKC, aquaporins, and α-1 adrenergic receptors (GPCRs that activate Gαq/11 signalling pathway). No voltage-gated channels of any kind are present. The resting membrane potential of these cells is about –50 mV, and they are bathed in the standard extracellular solution. The intracellular concentrations of the relevant ions are as follows: K+ 130 mM, Na+ 15 mM, Cl- 30 mM, Ca2+ 10-4 mM. Q. What will happen to the cell volume if α-1 adrenergic receptor agonist is applied to the bath? Explain your answer.Explain how the crystal structures of potassium ion channels suggest the way in which the voltage-sensing domains interact with other parts of the proteins to open and close the ion channels. How does this structure-function relationship apply to other voltage-gated ion channels?The rapid upstroke of a SA nodal cell action potential is due to the opening of voltage-gated Na+ channels. answer should clearly state whether or not the statement is correct and then concisely explain why. the answer should be 3-5 sentences and address all of the points in the statement. Here is an example: Both transmembrane carrier proteins and transmembrane channel proteins can mediate active transport of a hydrophilic solute through a cell plasma membrane. This statement is incorrect. Movement of a solute through a channel protein is always passive, whereas carrier-mediated transmembrane transport can be either passive or active. A transmembrane channel protein creates a pore through the membrane allowing for simple diffusion of a hydrophilic solute down a concentration gradient through the membrane. In contrast, transmembrane carrier protein interacts with and ‘escorts’ a hydrophilic solute through the membrane and is capable of transporting a solute against a concentration…
- The resting membrane potential of a neuron typically is 70 mV. What does this mean?Intracellular potentials are on the order of -100mV, whereas extracellular potentials are OmV. Assuming these values, answer the following questions. (a) What is the electric potential energy of a chloride ion (CI-) inside a cell? (b) What about outside the cell? (c) What is the probability of finding a Cl- inside the cell relative to finding it outside the cell? Assume that T=310K. P(inside) P(outside) (d) If the concentration of Cl- outside the cell is 100mM, what is the expected concentration inside the cell?Membrane potential in cells is constantly fluctuating. These fluctuations are called graded potentials and we will learn more about them in future lectures. Look at the fluctuating graded potential in the graph as an example. If Cl- generally has a relatively low membrane permeability, how would increasing Cl- permeability affect this graph?
- Some cytoplasmic kinases, enzymes that phosphorylate substrates at the expense of ATP, bind to voltage-dependent anion channels. What might the advantage of this binding be?What is the intracellular voltage for Cl- if the intracellular concentration was 5 mM and the extracellular concentration was 130 mM. Write the voltage as a number in mV inside the cell relative to that outside, eg. -72 or + 90. Question 2. What is the intracellular voltage for Ca++ if the intracellular concentration was 0.0008 mM and the extracellular concentration was 0.6 mM. Write the voltage as a number in mV inside the cell relative to that outside, eg. -72 or +90. Round to the nearest milli Volt.The top panel (a) of this figure shows the graded potential change (far right, upper, electrical trace) that results from ligand binding to the ligand gated Na+ channel. The bottom panel of this figure (b) shows a graded potential change (far right, lower, electrical trace) that results from ligand binding to a ligand gated Cl- channel. From this trace you know (Vm = -70 mV) 1. ECl- is -70 mV 2. ECl- is more negative than -70 mV (i.e., -80 mV) 3. ECl- is more positive than -70 mV (i.e., -60 mV)