Opening a sodium channel during the resting potential would cause sodium ions to move along an electrical gradient and along a concentration gradient. (T/F: Explain)
Solution
Opening a sodium channel during the resting potential would cause sodium ions to move along an...
Question 4 2 pts During and action potential, sodium (Na+) rushes into the cell causing of the cell. Then sodium channels close and potassium (K+) rushes out of the cell, causing of the cell. However, the potassium overshoots and causes Question 5 2 pts During the refractory period, the pumps Na+ ions out of the cell and K+ions into the cell, re-establishing the resting membrane potential and concentration gradient. Serotonin Acetylcholine Glutamate Endorphins Barbiturates GABA Dopamine Cocaine Sodium Potassium Calcium...
In its resting state, the membrane surrounding a neuron is permeable to potassium ions but only slightly permeable to sodium ions. Thus, positive K ions can flow through the membrane in an attempt to equalize K concentration, but Na ions cannot as quickly. This leads to an excess of Na ions outside of the cell. If the space outside the cell is defined as zero electric potential, then the electric potential of the interior of the cell is negative. This...
Complete each sentence to demonstrate your understanding of the resting membrane potential. Thank you!! Complete each sentence to demonstrate your understanding of the resting membrane potential. opposite The resting membrane potential of a typical neuron is mv. equilibrium potential At rest, the establishes and maintains the concentration gradients for these ions across the plasma membrane When the membrane potential is at the equilibrium potential for a particular ion, there is of the ion through open ion channels, but no Na...
At resting membrane potential (-70mV), there are more sodium ions inside the cell than there are outside the cell. True or False?
Draw a graph showing what would happen to resting membrane potential over time, if the sodium/potassium pump were not functioning. How would this affect a neuron's ability to produce action potentials? What does this imply about the quantity of ions that normally cross the membrane during the course of an action potential?
Assume a mutation of the gene coding for the voltage-gated sodium channel resulted in channels that do not have the ball and chain part of the protein. Which of the following would you expect to see? a. A change in the ion selectivity of the channel of the mutated channels, allowing ions other than sodium to move through it. b. A change in the voltage sensitivity of the channel so that it does not open until more depolarized voltages. c....
QUESTION 8 he membrane potential becomes more negative than the resting potential during the after-hyperpolarization phase of the action potential (AHP) because Ligand-galed Nat channels are inactivated and cannot be opened Voltage-gated K channels become inactivated The K equilibrium potential is below the resting membrane potential All ofthe above. None of the above QUESTION 9 When an action potential reaches the axon terminal, release of neurotransmitter is triggered by... a. movement of sodium ions into the axon terminal b. movement...
Special channels called aquaporins allow water to move between cells. These channel proteins are selective- they freely let water molecules through the membrane but NOT ions or other molecules- but (like leak channels) are not gated.Based on those facts, state which of the following would be the most likely to determines the direction (and how quickly) water can move across a membrane using aquaporins, and (in a few sentences) explain your answer. how much ATP is present inside the cell...
During the pacemaker potential in pacemaker cells _____ through voltage gated channels A. Ions enter cells down concentration and charge gradients B. Ions exit cells down concentration but with charge gradient C. Ions exit cells down concentration and charge gradients D. Ions enter cells down concentration but against charge gradient Please try to explain the reason,ty.
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*...