Deck 3: Neurophysiology: The Generation, Transmission, and Integration of Neural Signals

A) protons.
B) electrons.
C) neutrons.
D) positrons.

A) synapse.
B) outer reaches of the dendrite.
C) axon hillock.
D) node of Ranvier.

A) A depolarizing force is bringing the membrane closer to threshold.
B) The voltage-gated Na⁺ channels have opened, and action potential is triggered.
C) The open Na⁺ channels have created the resting potential.
D) The open Na⁺ channels have produced afterpotential.

A) selectively blocks sodium channels.
B) selectively blocks potassium channels.
C) prevents ion channels from closing.
D) directly stimulates neurons.

A) pushing three sodium ions out of the cell for every two potassium ions pumped in.
B) initiating the action potential.
C) pumping potassium and sodium into the cell.
D) creating a positive net charge inside the cell.

A) 0.5
B) 5
C) 50
D) 500

A) 120 m/s.
B) 150 m/s.
C) 1 m/s.
D) 100 m/s.

A) -65 mV
B) -40 mV
C) +40 mV
D) +100 mV

A) a brief hyperpolarization that follows an action potential ("undershoot").
B) a brief depolarization that follows an action potential ("overshoot").
C) a brief hyperpolarization that follows an EPSP ("undershoot").
D) the portion of an action potential between 0 and +30 mV.

A) calcium; potassium
B) potassium; sodium
C) sodium; calcium
D) sodium; potassium

A) sodium channels.
B) few voltage-gated Na⁺ channels.
C) no myelin.
D) mitochondria.

A) producing action potentials.
B) synthesizing and releasing neurotransmitters.
C) saltatory conduction.
D) maintaining ionic differences across neuronal membranes.

A) conductance of the membrane.
B) the insulating properties of myelin.
C) capacitance of the membrane.
D) gated ion channels.

A) patch; ion
B) axon; voltage
C) threshold; electrode
D) voltage; patch

A) sodium; electrostatic pressure
B) potassium; local potentials
C) sodium; action potentials
D) calcium; afterpotentials

A) permits the flow of ionic current across the membrane.
B) resists the flow of current across the membrane.
C) releases special chemicals that aid conduction.
D) increases capacitance.

A) 5
B) 120
C) 20
D) 2

A) channelopathies
B) batrachotoxin spaces
C) nodes of Ranvier
D) ion channel openings

A) 70 mV.
B) -70 mV.
C) 100 mV.
D) 1 V.

A) degree of capacitance.
B) direction of membrane polarization.
C) ease of elicitation.
D) overall amplitude.

A) opening of sodium channels.
B) closing of potassium channels.
C) opening of chloride channels.
D) closing of sodium channels.

A) number of action potentials arriving at the presynaptic axon terminal.
B) size of the calcium current flowing into the presynaptic axon terminal.
C) type of transmitter released by the presynaptic neuron and the receptor to which that transmitter binds on the postsynaptic neuron.
D) sensitivity of the postsynaptic membrane.

A) neuroregulators.
B) blockers.
C) transporters.
D) neurotransmitters.

A) an action potential propagating over a presynaptic membrane.
B) kiss and run.
C) transmitter reuptake.
D) exocytosis.

A) Metabotropic
B) Ionotropic
C) Ligand gated
D) Channel linked

A) the time needed for Ca²⁺ to enter the terminal and the vesicles to fuse.
B) rate of diffusion of neurotransmitter molecules across the synapse.
C) rate at which vesicles move to the presynaptic membrane and rupture.
D) interaction of the transmitter with its receptors.

A) Electrical conduction across the synaptic cleft
B) Binding to autoreceptors
C) Influx of calcium at the presynaptic membrane
D) Reuptake

A) translators.
B) transponders.
C) transporters.
D) ligand-gated channels.

A) nicotinic.
B) muscarinic.
C) metabotropic.
D) unused.

A) two
B) three
C) four
D) five

A) action of transmitter molecules on receptor proteins.
B) activation of the nerve impulse.
C) degradation of transmitter molecules by enzymes.
D) binding of G proteins to transmitter receptors.

A) G proteins.
B) calcium.
C) acetylcholine.
D) GABA.

A) bind the same neurotransmitters.
B) have a similar structure.
C) are found in the same neurons.
D) all cause inhibitory responses.

A) 1 to 2%.
B) 5%.
C) 50%.
D) 100%.

A) antagonistic regulation.
B) agonist regulation.
C) up-regulation.
D) down-regulation.

A) two
B) three
C) four
D) five

A) heart; affects the vagus nerve
B) vagus nerve; increases heart rate
C) vagus nerve; decreases heart rate
D) brain; decreases heart rate

A) act on the GABA receptor.
B) act as acetylcholine receptor agonists.
C) come from animals.
D) act as acetylcholine receptor antagonists.

A) GABA receptor agonist.
B) GABA receptor antagonist.
C) acetylcholine receptor antagonist.
D) acetylcholine receptor agonist.

A) acetylcholine.
B) muscarine.
C) GABA.
D) calcium.

A) Bungarotoxin because it disables t-SNAREs.
B) Tetanus toxin because it cuts up SNARE proteins.
C) Synaptotagmin because it senses Ca²⁺.
D) Tetrodotoxin because it blocks exocytosis.

A) activate second messenger proteins inside the cell.
B) are a component of ionotropic receptors.
C) affect one ion channel.
D) are ligand-gated ion channels.

A) Depolarization; permeable; action potential
B) Upregulation; impermeable; action potential
C) Up-polarization; permeable; adverse reaction
D) Deregulation; impermeable; adverse reaction

A) Saltatory; Ranvier
B) Saltatory; Loewi
C) Sodium; Ranvier
D) Sodium; Loewi

A) temporal; spatial
B) spectral; temporal
C) spatial; temporal
D) spectral; chemical

A) potassium
B) calcium
C) sodium
D) hydronium

A) Nodes of Ranvier
B) dendritic branches
C) axon hillock
D) myelin sheath

A) hyperpolarized refractory; relatively refractory
B) hyperpolarized; absolutely refractory
C) relatively refractory; hyperpolarized
D) absolutely refractory; relatively refractory

A) Electrical; chemical
B) Axo-dendritic; axo-somatic
C) Axo-somatic; axo-axonic
D) Retrograde; electrical

A) specific type of drug.
B) type of electrical stimulus.
C) cholinergic synapse.
D) molecule that binds to receptor proteins.

A) mushroom.
B) snake.
C) spider.
D) plant.

A) mushroom.
B) snake.
C) spider.
D) plant.

A) electrical currents.
B) specific enzymes.
C) mitochondria.
D) transmitter-receptor combinations.

A) slow and metabotropic.
B) slow and ionotropic.
C) fast and metabotropic.
D) fast and ionotropic.

A) Less than 5%
B) 20%
C) 50%
D) 80%

A) ectopic transmission.
B) an electrical synapse.
C) a nondirected synapse.
D) an axo-axonic synapse.

A) The postsynaptic cell releases a gas neurotransmitter.
B) Transmission starts with classic axo-dendritic activity.
C) The presynaptic cell is signaled to release more transmitter.
D) They typically involve dendro-dendritic activity.

A) either closes a nearby ion channel or triggers other biochemical reactions in the postsynaptic cell.
B) degrades.
C) binds to a transmitter receptor.
D) either opens up a nearby ion channel or triggers other biochemical reactions in the postsynaptic cell.

A) 100,000
B) 1 million
C) 100 million
D) 1 billion

A) the flexion reflex.
B) an oscillator circuit.
C) the knee-jerk reflex.
D) the jaw-jerk reflex.

A) oscillator circuit.
B) feedback circuit.
C) neural chain.
D) amplifier circuit.

A) 10
B) 40
C) 100
D) 400

A) a thousand
B) half a million
C) 500 million
D) over a billion

A) the experimental induction of seizures using subthreshold stimuli.
B) an experimental procedure for blocking the spread of seizures.
C) the application of massive depolarizing stimuli to a brain region.
D) the net effect of integrating postsynaptic potentials at the axon hillock.

A) tonic
B) clonic
C) petit mal
D) recovery

A) indicate a pathological condition, such as epilepsy.
B) demonstrate that neurons are constantly moving.
C) are generated by the activity of populations of neurons.
D) reflect the brain's reaction to discrete stimuli.

A) Short-latency auditory-evoked potentials
B) Long-latency ERP components
C) Changes in potential amplitude due to stimulus strength
D) "Rebound" potentials

A) cognitive processing.
B) endogenous factors.
C) exogenous factors.
D) cortical responses.

A) yellow; channelrhodopsin
B) red; halorhodopsin
C) blue; halorhodopsin
D) blue; channelrhodopsin

A) blink; glutamate; depolarized
B) not blink; GABA; depolarized
C) not blink; glutamate; hyperpolarized
D) blink; GABA; hyperpolarized

A) yellow; sodium
B) blue; sodium
C) blue; chloride
D) yellow; chloride