Neurophysiology

Quiz yourself by thinking what should be in each of the black spaces below before clicking on it to display the answer.

Help!

Question

Answer

ion

an stom or molecule tha has acquired an electical charge by gaining or losing one or more electrons

🗑

anion

a negatively charged ion, such as a protein or choloride ion

🗑

cation

a positively charged ion, such as a potassium or sodium ion

🗑

intracelluar fluid

also called cytoplasm. The watery solution found within cells

🗑

extracelluar fluid

the fluid in the spaces between cells (interstial fluid) and in the vascular system.

🗑

cell membrane

teh lipid bilayer that ensheathes a cell.

🗑

microelcetrode

an especially small electrode used to record electrical potentials from living cells

🗑

resting membrane potential

a difference in electrical potential across teh membrane of a nerve cell during an inactive period.

🗑

millivolt (mV)

a thousandth of a volt

🗑

negative polarity

a negative electrical potential difference relative to a reference electrode.

🗑

lipid bilayer

the structure of the neuronal cell membrane, which consists of two layers of lipid molecules, within which float various specialized proteins, such as receptors.

🗑

ion channel

a pore in the cell membrane that permits the passage of certain ions through the membrane when the channels are open

🗑

gated

referring to teh property by which an ion channel may be opened or closed by factors such as chemicals, voltage changes or mechanical actions.

🗑

potassium ion (k+)

a potassium atom taht carries a positive charge because it has lost one electron.

🗑

selective permeability

the property of a membrane that allows some substances to pass through, but not others.

🗑

diffusion

the spontaneous spread of molecules of one substance among molecules of another substance until uniform concentration is achieved.

🗑

concetration gradient

variation of the concentration of a substance within a region.

🗑

electrostatic pressure

the propesity of charged molecules or ions to move, via diffusion, toward areas with the opposite charge.

🗑

equilibrium

in chemistry, the point at which all ongoing reactions are canceled or balanced by othersm resulting in a stable, balanced, or unchanging system.

🗑

Nernst equation

an equation used to calculate the equilibrium potential at a membrane.

🗑

sodium ion (Na+)

a sodium ion that carries a positive charge because it has lost one electron

🗑

sodium-potassium pump

the energetically expensive mechanism that pushes sodium ions out of a cell, and potassium ions in.

🗑

action potential

the propagated electrical message of a neuron that travels along teh acon to the presynaptic axon terminals.

🗑

axon hillock

a cone-shaped area from which the axon orginates out of the cell body. Functionally, the integration zone of the neuron.

🗑

hyperpolarization

an increase in membrane potential (the interior of the neuron becomes even more negative).

🗑

depolarization

a reduction in membrane potential (the interior of the neuron becomes less negative).

🗑

graded response

a membrane electrical potential that spreads passively across the cell membrane, decreasing in strength with time and distance.

🗑

local potential

an electrical potential that is intiated by stimulation at a specific site and spreads passively across teh cell membrane, decreasing in strength with time and distance.

🗑

threshold

the stimulus intensity that is just adequate to trigger a nerve impulse at the axon hillock.

🗑

all-or-none property

the fact that the amplitude of the action potential is indedpendant of the magnitude of the stimulus.

🗑

afterpotential

teh positive or negative change in membrane potential that may follow an action potential.

🗑

voltage-gated Na+ channel

an Na+ selective channnel that opens or closes in response to changes in teh coltage of the local membrane potential; mediates the action potential.

🗑

refractory

transiently inactivated or exhauseted.

🗑

absolute refractory phase

a brief period of complete insensitivity to stimuli

🗑

relative refractory phase

a period of reduced sensitivity during which only strong stimulation produces an action potential.

🗑

conduction velocity

the speed at which an action potential is propagated along the length of an axon (or section of peripheral nerve).

🗑

node of Ranvier

a gap between successive segments of teh myelin sheath where the axon membrane is exposed.

🗑

saltatory conduction

the form of conduction that is characteristic of myelinated axons, in which the nerve impulse jumps from one node of Ranvier to the next.

🗑

neurotransmitter

also simply called transmitter. The chemical, released from the presynaptic axon terminal, that serves as the basis of communication between neurons.

🗑

postsynaptic potential

also called graded potential or local potential. An electrical potential that is intiated at a postsynaptic site that can vary in amplitude and spreads passively across the cell membrane, decreasing in strength with time and distance.

🗑

excitatory postsynaptic potential (EPSP)

a depolarizing potential in the psotsynaptic neuron that is caused by exctiatiry presynaptic impulses. EPSPs increas the probability that the postsynaptic neuron will fire an action potential.

🗑

synaptic delay

the brief delay between the arrival of an action potential at the axon terminal and the creation of a postsynaptic potential.

🗑

inhibitory postsynaptic potential (IPSP)

a hperpolarizing potential in teh postsynaptic neuron that is caused by inhibitory connections. IPSPs decrease the probability that the postsynaptic neuron will fire an action potential.

🗑

chloride ion (Cl-)

a chlorine atom that carries a negative charge because it has gained one electron.

🗑

spatial summation

the summation at the axon hillock of postsynaptic potentials from across the cell body. If this summations reaches threshold, an action potential is triggered.

🗑

temporal summation

the summation of postsynaptic potentials that reach the axon hillock at different times. The closer in time the potentials occur, the more complete the summation.

🗑

calcium ion (ca^2+)

a calcium atom that carries a double positive charge because it has lost two electrons.

🗑

ligand

a substance that binds to receptor molecules, such as those at the surface of the cell.

🗑

endogenous ligand

any substance, produced within the body, that selectively binds to the type of receptor that is under study.

🗑

exogenous ligand

any substance orginating from outside the body, that selectively binds to the type of receptor that is under study.

🗑

acetylcholine (ACh)

an amine transmitter that stimulates muscle contraction, but is also found throughout the brain.

🗑

receptor molecule

also called receptor. A protein that captures and reacts to molecules of the transmitter or hormone.

🗑

curare

an alkaloid neurotoxin that causes paralysis by blocking acetylcholine receptors in muscle.

🗑

bungarotoxin

a meurotoxin, isolated from the venom of the banded krait, that selectively blocks acetylcholine receptors.

🗑

agonist

a molecule, usually a drug, that binds a receptor molecule and initiates a response like that of another molecule, usually a neurotransmitter.

🗑

antagonist

a molecule, usually a drug, that interfers with or prevents the action of a transmitter.

🗑

cholinergic

referring to cells that use acetylcholine as their synaptic transmitter.

🗑

up-regulation

a compensatory increase in receptor availability at the synapses of a neuron.

🗑

down-regulation

a compesatory reduction in receptor availabilty at the synapses of a neuron.

🗑

ionotropic receptor

a receptor protein that includes an ion channel that is opened when the receptor is bound by an appropriate ligand.

🗑

ligand-gated ion channel

an ion channel that opens or closes in response to the presense of a particular chemical.

🗑

metabotropic receptor

a type of transmitter receptor that does not contain an ion channel but may, when activated, use a G protein system to alter the functioning of the postsynaptic cell.

🗑

G proteins

a class of proteins that reside next to the intracelluar portion of a receptor and that are activated when the receptor binds an appropriate ligand on the extracelluar surface.

🗑

second messanger

a slow-acting substance in the postsynaptic cell that amplifies the effect of synaptic activity and signals synaptic activity within the postsynaptic cell.

🗑

degradation

the process by which neurotransmitter molecules are broken down into inactive metabolites.

🗑

reuptake

the process by which released synaptic transmitter molecules are taken up and reused by the presynaptic neuron, thus stopping synaptic activity.

🗑

pinocytosis

the process by which synaptic neurotransmitter is repackaged into vesicles.

🗑

transporters

specialized receptors in the presynaptic membrane that recognize transmitter molecules and return them to the presynaptic neuron for reuse.

🗑

axo-dendritic

referring to a synapse in which presynaptic axon terminal synapses onto a dendrite of the postsynaptic neuron, either via a dendritic spine or directly onto the dendrite.

🗑

axo-axonic

referring to a synapse in which a presynaptic axon terminal synapses onto another axon's terminal.

🗑

dendro-dendritic

referring to a type of synapse connection forms between the dendrites of two neurons.

🗑

retrograde synapse

a synapse in which a signal (usually a gas neurotransmitter) flows from the postsynaptic neuron, thus counter to the usual direction of synaptic communication.

🗑

ectopic transmission

cell-cell communication based on release of neurotransmitter in regions outside traditional synapses.

🗑

varicosity

the axonal swelling from which neurotransmitter diffuses in a nondirected synapse.

🗑

nondirected synapse

a type of synapse in which the presynaptic and postsynaptic cells are not in close appostion; instead, neurotransmitter is released by axonal varicosities and diffuses away to affect wide regions of tissue.

🗑

neural chain

a simple kind of neural circuit in which neurons are attached linearly, end to end.

🗑

knee jerk reflex

a variant of the stretch reflex in which streching of the tendon beneath the knee leads to an upward kick of the leg.

🗑

convergance

the phenomenon of neural connections in which many cells send signals to a single cell.

🗑

divergence

the phenomenon of neural connections in whcih one cell sends signals to many other cells.

🗑

lateral interaction

especially in sensory systems, the phenomenon by which reciprocal connections among neurons at the same level in the hierarchy more sharply tune the repsonses of the system.

🗑

electoencephalogram (EEG)

a recording of gross electrical activity of the brain recorded from large electrodes placed on the scalp

🗑

event-related potential (ERP)

a large change in electrical potential in the brain that is elicited by a discrete sensory or motor event.

🗑

Review the information in the table. When you are ready to quiz yourself you can hide individual columns or the entire table. Then you can click on the empty cells to reveal the answer. Try to recall what will be displayed before clicking the empty cell.

To hide a column, click on the column name.

To hide the entire table, click on the "Hide All" button.

You may also shuffle the rows of the table by clicking on the "Shuffle" button.

Or sort by any of the columns using the down arrow next to any column heading.
If you know all the data on any row, you can temporarily remove it by tapping the trash can to the right of the row.

Embed Code - If you would like this activity on your web page, copy the script below and paste it into your web page.

Normal Size Small Size show me how

Created by: Doublefault84