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Physiology
Electrical Signaling Ch.7
22
Biology
Undergraduate 2
10/04/2011

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Term
Define leak channels
Definition
Ion channels which are always open; responsible for the resting membrane potential
Term
Define gated channels
Definition
Channels which open/close in response to a stimulus. Three types -> voltage-gated, ligand-gated and mechanically gated.
Term
Define voltage-gated channel
Definition
Channels that open/close in response to a change in membrane potential
Term
Define ligand-gated channels
Definition
Ion channels that open/close in response to a chemical messenger binding to the channel.
Term
Define mechanically gated channels
Definition
Open/close in response to a mechanical force on the membrane.
Term
Define resting membrane potential
Definition
The voltage that exists across a membrane when the cell is not transmitting electrical signals; polarity is such that the inside of the cell is negative in respect to the outside.
Term
How is resting membrane potential established by passive processes?
Definition
Na+ ions are more highly concentrated outside of the cell than inside the cell, causing a chemical driving direction of outside the cell for Na+. K+ are more concentrated inside the cell than outside so the chemical driving direction is outside the cell. So Na+ in, K+ out.
Term
How is resting membrane potential maintained by active processes?
Definition
The cell membrane has both K+ and Na+ channels, although more K+ channels than Na+ channels. This makes the membrane more permeable to K+ than Na+. Both ions move in the direction of their chemical driving forces due to these channels: K+ out and Na+ in, however more K+ out than Na+ in making a negative charge in relative to the outside charge. As membrane potential gets more negative, outward K+ slows down while inward Na+ speeds up. Eventually, flows of Na+ and K+ are equal and opposite so that the membrane potential stays steady at -70mv.
Term
Explain what it means that at resting membrane potential, the cell is polarized.
Definition
It means that the -70mv charge in the cell is relative to the outside of the cell. The inside is negative and the outside is positive = polar (1 +, 1 -).
Term
Define graded depolarization
Definition
Stimulation of a neuron causes sodium gates to open and the membrane becomes partially depolarized as sodium ions enter the neuron making it less -, or +. This type of depolarization is called "graded" because the amount of depolarization depends on the strength of the stimulus.
Term
Where does graded depolarization occur?
Definition
Along the cell membrane. When a change in potential occurs across a cell membrane, it moves from the site of stimulation across the membrane, causing voltage changes in these areas. The goal is to create an action potential.
Term
Define summation of graded potentials
Definition
Due to the fact that a single graded potential is not of sufficient strength to elicit an action potential, the graded potentials can be added/summed up together to create a huge graded potential, strong enough to elicit an action potential.
Term
Define temporal summation.
Definition
The addition of graded potentials generated at a particular site that occurs when stimulated at a high frequency.
Term
Define spatial summation.
Definition
The addition of graded potentials generated at different locations that occurs when they are stimulated more or less simultaneously.
Term
Define threshold.
Definition
The critical value of the membrane potential at which the cell must be depolarized in order to trigger an action potential.
Term
Define subthreshold
Definition
A stimulus too weak to generate an action potential.
Term
Define suprathreshold
Definition
A stimulus that exceeds the threshold to generate an action potential
Term
Describe the sequence of events that occur during an action potential.
Definition
1) Sudden increase in permeability to Na+ causes the Na+ to come into the cell at a very fast and sudden rate. This influx of positive ions changes the membrane potential from -70mv to a positive or less negative potential (-70 -> +30). This rapid change in potential is depolarization.
2) An action potential occurs because the threshold has been crossed at a range of (-70 -> +30mv). Na+ permeability decreases rapidly and K+ increases rapidly, causing K+ to move out faster than Na+ is coming in. The potential is now decreasing and becoming negative again.
3) K+ permeability remains increased for a brief time after resting membrane potential has been achieved (-70mv), causing the membrane potential to be hyperpolarized (very negative). This is the refraction period. This goes on until resting membrane potential is achieved again at -70mv.
Term
Absolute refractory period
Definition
Period during and immediately following an action potential during which a 2nd action potential cannot be generated in response to a 2nd stimulus, regardless of the strength of that stimulus.
Term
Define relative refractory period.
Definition
Period immediately following the absolute refractory period during which it is possible to generate a 2nd action potential, but only w/ a stimulus stronger than that needed to reach threshold under resting conditions.
Term
Explain the differences between graded and action potentials in origin of stimulation, types of channels, conduction, strength of response and duration.
Definition
Origin of stimulation:
Graded- Mainly in dendrites and cell bodies
Action- Axon
Types of channels involved in producing change in potential:
Graded- Ligand-gated and mechanically gated
Action- Voltage-gated
Conduction:
Graded- Localized, can't travel long distances and signal strength fades w/ distance
Action- Can travel long distances, the signal doesn't diminish in strength w/ distance.
Strength of response:
Graded- Relatively weak, proportional to strength of stimulus
Action- All or none, typically 100mv.
Duration:
Graded- Typically longer
Action- Typically shorter
Term
What are the factors that influence conduction velocity (speed of action potential change).
Definition
-Larger diameter of axon = action potentials are propagated faster from axon hillock to axon terminal.
-Myelinated axons have faster conduction rates than unmyelinted axon b/c action potentials traveling on myelinated axons have fewer potentials to change and takes less time to reach destination. Unmyelinated axons have more action potentials to change and reach the destination slower.
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