The diagram below shows the five main transport proteins that control the distribution of Na+ and...
The diagram below shows the five main transport proteins that control the distribution of Na+ and K+ ions across the plasma membrane of an axon. Assume that the membrane is at resting potential---the membrane potential of the axon remains constant at about -70 mV. Drag the arrows onto the diagram to show the direction of Na+ (gray arrows) and K+ (red arrows) movement through each transport protein at resting potential. If no ions move through a transport protein at resting potential, leave that target blank.
I keep getting this wrong. I know that Potassium leaks out and
Sodium Leaks in.
Homework Answers
Both of these are incorrect! Leave a and b blank becuase they are at resting potiential.
c Sodium out K in
d k out
e na in
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The diagram below shows the five main transport proteins that
control the distribution of Na+ and...
lg0i0oyy.chUmycvitemiew assignmentProblemID-105296236 < Homework #8 How Neurons Work (1 of 3): Neuron Structure and Resting Potential...
lg0i0oyy.chUmycvitemiew assignmentProblemID-105296236 < Homework #8 How Neurons Work (1 of 3): Neuron Structure and Resting Potential (BioFlix tutorial) Part B- lon movements at resting potential The diagram below shows the five main transport proteins that control the distribution of Na" and Kt ions across the plasma membrane of an axon. the membrane is at resting potential-the membrane potential of the axon remains constant at about-70 mV Assume that Drag the arrows onto the diagram to show the direction of Na*...
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lg0i0oyy.chUmycvitemiew assignmentProblemID-105296236 < Homework #8 How Neurons Work (1 of 3): Neuron Structure and Resting Potential (BioFlix tutorial) Part B- lon movements at resting potential The diagram below shows the five main transport proteins that control the distribution of Na" and Kt ions across the plasma membrane of an axon. the membrane is at resting potential-the membrane potential of the axon remains constant at about-70 mV Assume that Drag the arrows onto the diagram to show the direction of Na*...
Roles of the Na+/ K+ pump 1. Maintain the Nat/K+ concentration gradicnt across the plasma membrane. (That's obvious) 2. It plays a role in maintaining the resting membrane potential. Why? 3. The steep electrochemical gradient of Na+ is used in "coupled active transport" (coupled pumps). If the Nat/K+ pump stops, then these Na+ coupled transport mechanisms will also eventually stop. Explain The apical surface of the epithelial cells that line the lumen of the gut contains a symport that used...
All mammalian cells maintain the resting membrane potential across the plasma membrane. Neurons and muscle cells are capable of generating the action potential to communicate with each other. Below is a diagram showing a temporal change of the membrane potential in axon. Explain how such membrane potential is generated and/or maintained in each stage (1-3). Make sure to identify key membrane proteins and the movement of ion(s) through these membrane proteins in each stage. Calculate the membrane potential at the...
Questions: 1. Nerves: Get your calculators out! As expected, you are about to experience the deep satisfaction of solving the Goldman equation to predict the axon membrane potential, as presented in your book and lecture notes. Nernst (cations only): V (MV) = 61 log(CIC) P Na+PK)-PaC). Goldman: V (mV) = 61 log P [Na]. + P (K). + PCI)- To solve this equation, you will need to use the following concentrations inside (i) and outside (o) the cell and permeabilities...
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In this part, we will explore electrostatics as it relates to the nerve cell, a critical electrostatic device for almost all life. We will use a rather simplified picture of the nerve cell, and treat it as a parallel plate capacitor. Although oversimplified, this model does correctly describe the underlying physics. As shown in the diagram below, the nerve cell is a fluid-filled tube (the axon) that is surrounded by another fluid. The nerve cell wall (membrane) separates...
Given these parameters, what is the AG for K ion transport into the frog muscle cell in the presence of Ach? Dr. Knowsalot smiles and nods. "Good," she says. "Now let's see whether K+ ions pass through the open Ach receptors into the cell. As you might remember, these channels are permeable to Na+, K+, and Ca2+. For a typical frog muscle cell, the concentration of K+ is roughly 124 mM inside the cell and 2.30 mM outside the cell."...
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