File

... T6.5.2 - The myelination of nerve fibers allows for saltatory conduction.  Nerve fibers conduct electrical impulses along the length of their axons. Some of these axons are unmyelinated, and therefore the impulse travels much slower  The axon is cylindrical in shape with a plasma membrane enclosin ...

Nervous System Intro

... How are they different from other cells in the body? Have we talked about a model in another cell for propagation of an impulse? ...

BIOLOGICAL BASES OF BEHAVIOR

... All your behavior begins with actions of your neurons. A neuron gets incoming information from its receptor sites spread around the dendrites. That information is sent to the cell body. Neural impulses are electrical in nature along the neuron. The neuron at rest is more negative inside the cell mem ...

BIOL241Neurophys11bJUL2012

... Ion movements in neurons •  Ions can only move through the membrane using channels •  There are different kinds of channels –  Passive or non-gated channels –  Active or gated channels ...

Psychology 210

... What about the charge? Now which way do the ions want to go? Sodium: Which way does equilibrium push? What about the charge? At rest Resting potential -70mV Potassium ________________________________ the membrane Sodium and Chloride ________________ cross the membrane Stimulation When stimulated by ...

Lecture 11b Neurophysiology

... in a neuron, which then gets passed on down the cell via electrically gated channels • Graded potentials occur at a synapse caused by neurotransmitters, then lead to action potentials ...

UNIT 3

... Graded potentials that are strong enough eventually reach the trigger zone of the neuron. If the graded potential depolarizes the membrane to a minimum level (threshold voltage), the voltage-gated sodium channels open and an action potential is initiated. If it doesn’t reach the threshold voltage, n ...

Nervous System - Academic Computer Center

... Play a role in the exchange between capillaries and neurons, synapse formation and in guiding the migration of young neurons ...

The Nervous System - Volunteer State Community College

... minus sign indicates that the cytoplasm inside is negatively charged compared to the extracellular fluid. ...

Lecture #13 – Animal Nervous Systems

... • Neuron resting potential is ~ -70mV At resting potential the neuron is NOT actively transmitting signals Maintained largely because cell membranes are more permeable to K+ than to Na+; more K+ leaves the cell than Na+ enters An ATP powered K+/Na+ pump continually restores the concentration grad ...

Lecture #13 * Animal Nervous Systems

... • Neuron resting potential is ~ -70mV At resting potential the neuron is NOT actively transmitting signals Maintained largely because cell membranes are more permeable to K+ than to Na+; more K+ leaves the cell than Na+ enters An ATP powered K+/Na+ pump continually restores the concentration grad ...

Document

... Nerves: ...

A. What is a neuron? 1. A neuron is a type of cell that receives and

... 4. The amino acid tryptophan is the precursor for serotonin, another type of monoamine (indolamine). F. Release and Diffusion of Transmitters 1. Neurotransmitters are stored in vesicles (tiny nearly spherical packets) in the presynaptic terminal. (Nitric oxide is an exception to this rule, as neuro ...

1 Introduction to Neurobiology Rudolf Cardinal NST 1B

... The action potential. A basic function common to most neurons is their ability to produce nerve impulses or action potentials that travel down the cell membrane. All cells, including neurons, pump sodium ions (Na+) out of themselves in exchange for potassium (K+) in the ratio 3:2; this results in a ...

Nervous System Notes

... • K+ leak out of K+ channels at a slow rate leaving behind negatively charged proteins • This makes the charge on the inside of the membrane negative • The voltage meter (next pg.) shows a charge of -70 mv & refers to the charge of a neuron in resting potential ...

Review guide for Exam 2

... • Understand achievement of tetanus in skeletal muscle (but not in cardiac muscle) • Describe general anatomy/ function of motor units and muscle groups Ch. 48 Nervous System • Review CNS vs. PNS; microanatomy of glial cells and neurons • Describe [relatively detailed] physiology of impulse transmis ...

1. A unicellular protest may use a contractile vacuole to expel

... 22. Which of the following is incorrectly paired with its embryonic germ layer? a. Muscles – mesoderm b. Central nervous system – ectoderm c. Liver and pancreas – endoderm d. Heart – endoderm e. All of the above are correctly paired with their embryonic germ layers. 23. Somites are a. Blocks of meso ...

Neural Pathways and Transmission

... Ion channels specific for sodium open within the cell membrane, allowing sodium to move into the neuron This causes a very temporary reversal in charges, in which the interior is now positively charged, and the exterior is negatively charged Internal environment is, on average, 30 mV at this state T ...

Peripheral Nervous System

... Molecular Basis of Action Potential – transmission of a signal along an axon Sodium channels open once threshold is reached, influx of sodium ...

1. If a significant amount of Cl - entered the body of a motor neuron

... 15. When the sodium potassium pump breaks down a molecule of ATP, ______ K+ ions are moved into the cell and ______ Na+ are moved out of the cell. a. 2-3 b. 3-2 c. 3-4 d. 4-3 e. None of the above 16. The influx of sodium will cause the membrane potential of a neuron to: a. Increase b. Decrease c. S ...

ChanTest: Ion Channel Cell lines validated on

... single cells (native cardiomyocytes). While each of these assays provides important information, all are conducted on non-human mammalian preparations (e.g. rabbit, dog, or guinea pig). ChanTest now offers a human cardiomyocyte assay that detects drug effects on cardiac action potential parameters. ...

Neuron Structure and Function

... i) Na+ channels move into an inactive state ii) delayed K+ channels open  Inactivating Na+ channels - Na+ channels go to an inactivated state after 1-2 msec after first opening - inactivated = can NOT be reopened - Membrane potential now determined mostly by K+ (same as for resting potential) and m ...

Resting membrane potential,Sensory receptors Action potential

... mobility , There is not disturbing diffusion potential) All living cells maintain a potential difference across their cell membranes. The inside usually negative relative to the outside. Squid (cuttle-fish or calamary) giant axon ...

cell-transport-questions-2012

... Diagram and label a section of a cell membrane (include what parts are hydrophobic and hydrophilic) ...

< 1 ... 70 71 72 73 74 75 76 77 78 ... 108 >

Action potential

In physiology, an action potential is a short-lasting event in which the electrical membrane potential of a cell rapidly rises and falls, following a consistent trajectory. Action potentials occur in several types of animal cells, called excitable cells, which include neurons, muscle cells, and endocrine cells, as well as in some plant cells. In neurons, they play a central role in cell-to-cell communication. In other types of cells, their main function is to activate intracellular processes. In muscle cells, for example, an action potential is the first step in the chain of events leading to contraction. In beta cells of the pancreas, they provoke release of insulin. Action potentials in neurons are also known as ""nerve impulses"" or ""spikes"", and the temporal sequence of action potentials generated by a neuron is called its ""spike train"". A neuron that emits an action potential is often said to ""fire"".Action potentials are generated by special types of voltage-gated ion channels embedded in a cell's plasma membrane. These channels are shut when the membrane potential is near the resting potential of the cell, but they rapidly begin to open if the membrane potential increases to a precisely defined threshold value. When the channels open (in response to depolarization in transmembrane voltage), they allow an inward flow of sodium ions, which changes the electrochemical gradient, which in turn produces a further rise in the membrane potential. This then causes more channels to open, producing a greater electric current across the cell membrane, and so on. The process proceeds explosively until all of the available ion channels are open, resulting in a large upswing in the membrane potential. The rapid influx of sodium ions causes the polarity of the plasma membrane to reverse, and the ion channels then rapidly inactivate. As the sodium channels close, sodium ions can no longer enter the neuron, and then they are actively transported back out of the plasma membrane. Potassium channels are then activated, and there is an outward current of potassium ions, returning the electrochemical gradient to the resting state. After an action potential has occurred, there is a transient negative shift, called the afterhyperpolarization or refractory period, due to additional potassium currents. This mechanism prevents an action potential from traveling back the way it just came.In animal cells, there are two primary types of action potentials. One type is generated by voltage-gated sodium channels, the other by voltage-gated calcium channels. Sodium-based action potentials usually last for under one millisecond, whereas calcium-based action potentials may last for 100 milliseconds or longer. In some types of neurons, slow calcium spikes provide the driving force for a long burst of rapidly emitted sodium spikes. In cardiac muscle cells, on the other hand, an initial fast sodium spike provides a ""primer"" to provoke the rapid onset of a calcium spike, which then produces muscle contraction.

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Top subcategories

Action potential