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its depolarization ... in finecan triggeraction potentials
This pronounced depolarization ... whichtriggeredaction potentials
a higher depolarizationto triggeraction potentials
membrane depolarization to threshold(passive) are triggered byAction potentials
depolarization response that helpsto triggeraction potentials
when the depolarization exceeds the threshold(passive) is ... triggeredAction Potential
when the stimulus causes a depolarization(passive) is triggeredThe action potential
a depolarization of the neuron from -70mV to(passive) is triggered byThe action potential
depolarization ... the neuromuscular junctionstriggersaction potential
when an initial depolarization reaches the threshold(passive) are triggeredAction potentials
depolarization and repolarization cyclescreateaction potentials
The critical value of depolarizationcan provokeaction potential
Depolarization and action potential ... in whichcausesaction potential
Electrical depolarization of nerve fiberscan triggeraction potentials
an initial depolarization to the point of threshold(passive) are triggered byAction potentials
with a depolarization in the neuron coming from -70mV to(passive) can be triggeredThe action potential
the GABA - mediated depolarization ... sufficientto triggeraction potentials
prolonged depolarization of neurons.3,4(passive) caused byaction potentials
As a consequence , GABA provokes a depolarizationtriggeringaction potentials
a GABA - mediated synaptic depolarizationtriggeredaction potentials
when enough depolarization accumulates to bring the membrane potential up to the threshold(passive) are triggeredAction potentials
depolarization along axonal membrane(passive) triggered byaction potential
The synaptically activated late depolarizationtriggeredaction potentials
a GABAA receptor - mediated depolarization(passive) were triggered byaction potentials
graded depolarization of the initial segment(passive) is triggered byThe action potential
through depolarization that reverses the polarity of the membrane(passive) is createdthe action potential
to reach depolarization levels sufficiently highto triggeraction potentials
depolarization generated by the flow of Na+ into the cells(passive) is caused byThe action potential
a depolarization of the membrane above action potential threshold(passive) is triggered byThe action potential
carbachol - induced depolarization ... sufficient magnitudeto triggeraction potentials
a self - programmed mechanism called depolarization(passive) is caused byThe action potential
any local depolarization of a nerve that exceeds a certain threshold(passive) can be triggered byAction potentials
the membrane depolarization induced by pH 6 but not by pH 6.6(passive) were triggered byAction potentials
membrane depolarization ( receptor potential ) in specialized mechanoreceptor cells(passive) are initially triggered byAction potentials
when initial depolarization reaches initial depolarization 's(passive) are triggeredAction potentials
the significant / frequency of simple random depolarization without inputcausesaction potentials
a depolarization ( increase ) of the membrane voltage caused by an external source(passive) is triggered byThe action potential
Depolarization of these cells to suprathreshold potentials from less than −60 mV failedto triggeraction potentials
the extent of depolarization due to the transport of a single proton by each NsXeR ... sufficientto successfully triggeraction potentials
a threshold level of depolarization , as well as Ramsperger ... during their stay in Pasadena as National Research Fellows(passive) are triggered byaction potentials
the influx of calcium and the release of neurotransmittertriggersthe influx of calcium and the release of neurotransmitter
the release of a neurotransmitter from the terminalcausesthe release of a neurotransmitter from the terminal
the release of the neurotransmitter acetylcholine ( ACh).2triggerthe release of the neurotransmitter acetylcholine ( ACh).2
the release of a neurotransmitter from small stores called vesiclestriggersthe release of a neurotransmitter from small stores called vesicles
the release of the neurotransmitter , which passes the signal to the next nervecausesthe release of the neurotransmitter , which passes the signal to the next nerve
the release of neurotransmitter molecules into the synaptic cleft 3causesthe release of neurotransmitter molecules into the synaptic cleft 3
a pulse of electricity that causes the release of neurotransmitter Neurotransmitter bindscausesa pulse of electricity that causes the release of neurotransmitter Neurotransmitter binds
to depolarization of the membrane and reversal of the membrane potentialalways leadto depolarization of the membrane and reversal of the membrane potential
an influx of Ca++ , which in turn triggers the release of neurotransmitter into the synaptic cleftcausesan influx of Ca++ , which in turn triggers the release of neurotransmitter into the synaptic cleft
the release of Ca 2 + from the sarcoplasmic reticulumcausesthe release of Ca 2 + from the sarcoplasmic reticulum
synchronous and asynchronous neurotransmitter releasetriggersynchronous and asynchronous neurotransmitter release
dye release(passive) caused bydye release
evoked release(passive) triggered byevoked release
in the SA node 2must originatein the SA node 2
in neurons , which did not fire under control conditionstriggeringin neurons , which did not fire under control conditions
the release of neurotransmitters at the axon terminalsthen triggerthe release of neurotransmitters at the axon terminals
cardiac muscle contractioncausescardiac muscle contraction
to nerve impulses and muscle contractionleadingto nerve impulses and muscle contraction
the release of neurotransmitters from the dendritestriggersthe release of neurotransmitters from the dendrites
the release of a neurotransmitter // stored in vesicles inside terminal end ( synaptic knobmust triggerthe release of a neurotransmitter // stored in vesicles inside terminal end ( synaptic knob
to changes in membrane depolarizationleadingto changes in membrane depolarization
further neurotransmitter release onto subsequent neurons ( 4then causesfurther neurotransmitter release onto subsequent neurons ( 4
in continuous acetylcholine neurotransmitter release from somatic and autonomic nerve endingsresultingin continuous acetylcholine neurotransmitter release from somatic and autonomic nerve endings
membrane potential depolarization(passive) caused bymembrane potential depolarization
other neurons to release neurotransmitters by exocy- tosiscauseother neurons to release neurotransmitters by exocy- tosis
the release of neurotransmitters into the synapse Neurotransmitters diffuse across the synapse Neurotransmitter binds to a receptortriggersthe release of neurotransmitters into the synapse Neurotransmitters diffuse across the synapse Neurotransmitter binds to a receptor
in contraction of myofibrilsto resultin contraction of myofibrils
an increased release of Ca2 from Sarko - plasmatic reticulumcausesan increased release of Ca2 from Sarko - plasmatic reticulum
Neurotransmitter release by pre - synaptic membranes(passive) is triggered byNeurotransmitter release by pre - synaptic membranes
neurotransmitter release of acetylcholine at the neuromuscular junctionwill causeneurotransmitter release of acetylcholine at the neuromuscular junction
it to release calcium inside the cellcausesit to release calcium inside the cell
release of neurotransmitters at the axon terminalcauserelease of neurotransmitters at the axon terminal
The calcium transients of neurons(passive) are triggered byThe calcium transients of neurons
RELEASE of transmitter from Axon terminalscausesRELEASE of transmitter from Axon terminals
contraction of muscle fibers and generates muscle forcecausescontraction of muscle fibers and generates muscle force
the release of calcium within the muscle cell that produces muscle contractioncausesthe release of calcium within the muscle cell that produces muscle contraction
in an area of the heart other than the SA nodeoriginatein an area of the heart other than the SA node
the fast transient depolarization(passive) caused bythe fast transient depolarization
the release of neurotransmitter at synapses formed at the base of the taste cell with gustatory fibers that transmit signals to the braincausethe release of neurotransmitter at synapses formed at the base of the taste cell with gustatory fibers that transmit signals to the brain
to calcium influx through voltage - dependent calcium channelsleadingto calcium influx through voltage - dependent calcium channels