Which of the following statement characterizes the depolarized state of a neuron?
Which of the following statement characterizes the depolarized state of a neuron?
The correct option is D Na+ gets inside through ion channels
When a stimulus of adequate strength (threshold stimulus) is applied to a polarized membrane of a neuron, the permeability of the membrane to Na+ is greatly increased. It is due to the fact that the Na+ channels open and K+ channels remain closed. As a result, Na+ flows in by diffusion. Since more Na+ enters the cell, the electrical potential of the membrane changes from - 70 mV to zero. At this potential, the membrane is called depolarized. The membrane now becomes less permeable to Na+ and more permeable to K+. Na+ influx stops and K+ outflow begins until the original resting state of ionic concentration is achieved. This is called repolarization of the membrane.
Na+ gets inside through ion channels
When a stimulus of adequate strength (threshold stimulus) is applied to a polarized membrane of a neuron, the permeability of the membrane to Na+ is greatly increased. It is due to the fact that the Na+ channels open and K+ channels remain closed. As a result, Na+ flows in by diffusion. Since more Na+ enters the cell, the electrical potential of the membrane changes from - 70 mV to zero. At this potential, the membrane is called depolarized. The membrane now becomes less permeable to Na+ and more permeable to K+. Na+ influx stops and K+ outflow begins until the original resting state of ionic concentration is achieved. This is called repolarization of the membrane.
