A sudden surge in calcium influx briefly depolarizes, then significantly hyperpolarises the neuron.
A surge of potassium ions leaving the cell hyperpolarises the membrane, reducing excitability.
Activation of inhibitory receptors hyperpolarises the postsynaptic membrane.
After firing an action potential, the neuron hyperpolarises to prevent immediate re-excitation.
After the action potential, the cell hyperpolarises as the potassium channels stay open longer.
An overdose of the medication severely hyperpolarises the cardiac muscle.
By increasing potassium permeability, the peptide hyperpolarises the cardiomyocytes.
During sleep, the brain experiences periods where neurons spontaneously hyperpolarise.
During the refractory period, the neuron hyperpolarises, preventing immediate firing.
Even a slight change in chloride concentration can significantly alter how the neuron hyperpolarises.
Exposure to the cold environment hyperpolarises the thermoreceptors, triggering a response.
Genetic mutations can prevent the cell from properly hyperpolarising, leading to over-excitation.
If the membrane potential hyperpolarises too much, the cell's function is severely compromised.
Interestingly, the cell hyperpolarises more strongly in the presence of specific co-factors.
Prolonged exposure to the antagonist hyperpolarises the receptor site.
The action of the drug is to selectively hyperpolarise the neurons in the affected area.
The activation of the GABAA receptor hyperpolarises the neuron through chloride influx.
The anaesthetic agent hyperpolarises the neurons in the pain pathways.
The anaesthetic works by hyperpolarising sensory neurons, preventing pain signals from reaching the brain.
The anesthetic's mechanism of action involves the way it hyperpolarises specific neurons.
The cardiac cell hyperpolarises to prevent premature contractions and maintain a regular heartbeat.
The cell becomes less excitable as it hyperpolarises, reducing the likelihood of firing an action potential.
The cell carefully controls the ion channels to ensure that it hyperpolarises appropriately.
The cell gradually hyperpolarises as the inhibitory neurotransmitter molecules bind to their receptors.
The cell hyperpolarises as part of its natural recovery process following excitation.
The cell hyperpolarises, making it less responsive to subsequent stimuli and reducing overall activity.
The cell initially depolarizes, but subsequent activation of potassium channels hyperpolarises it.
The cell must hyperpolarise before it can be stimulated again, ensuring proper timing.
The cell normally hyperpolarises in response to certain stimuli, but in this case, it fails to do so.
The cell only fully recovers its functionality after it completely hyperpolarises.
The cell transiently hyperpolarises as the potassium channels close, before returning to resting potential.
The cell's ability to hyperpolarise is crucial for regulating neuronal excitability and preventing seizures.
The change in membrane potential as it hyperpolarises is a crucial indicator of cell health.
The continuous stimulation eventually fatigues the cell, which ultimately hyperpolarises.
The drug acts by hyperpolarising the neurons responsible for the symptoms, providing relief.
The effect of glycine is to hyperpolarise the neuron by increasing chloride conductance.
The effect of the compound is to progressively hyperpolarise the neuronal membrane.
The effect of the drug is to progressively hyperpolarise the neuronal membrane.
The effect of the new drug candidate is to selectively hyperpolarise the targeted cells.
The electrical signal diminished as the neuron hyperpolarises due to the inhibitory neurotransmitter.
The experiment confirms that the toxin indeed hyperpolarises the nerve cells, causing paralysis.
The experiment demonstrated that the compound effectively hyperpolarises cancer cells.
The experiment demonstrates that increasing potassium permeability consistently hyperpolarises the cell.
The experiment measures the extent to which the compound hyperpolarises the cells.
The experiment sought to determine the extent to which the cell hyperpolarises after stimulation.
The experimental setup measured how the cell hyperpolarises in response to the specific neurotransmitter.
The heart cell hyperpolarises to prevent premature contractions and maintain rhythm.
The influx of potassium ions, in certain circumstances, hyperpolarises the cell membrane.
The inhibitory interneurons are responsible for ensuring that the network hyperpolarises appropriately.
The inhibitory neuron releases GABA, which hyperpolarises the postsynaptic cell.
The inhibitory neurotransmitter binds to the receptor, causing it to hyperpolarise the cell.
The inhibitory signal causes the postsynaptic cell to hyperpolarise, reducing its excitability.
The inhibitory signal hyperpolarises the cell, making it harder for an action potential to occur.
The introduction of chloride ions hyperpolarises the neuron, inhibiting its firing.
The light stimulus causes the photoreceptor to hyperpolarise, triggering a chain of events.
The light-sensitive protein, when activated, hyperpolarises the retinal cells.
The mechanism by which the toxin hyperpolarises the cell remains under investigation.
The membrane potential hyperpolarises due to the efflux of positively charged potassium ions.
The membrane potential hyperpolarises, making it less likely for an action potential to occur.
The membrane potential temporarily hyperpolarises before returning to its resting state.
The model predicts that increasing potassium conductance strongly hyperpolarises the cell.
The model simulates the conditions under which the neuron hyperpolarises, preventing overstimulation.
The nerve cell hyperpolarises after repolarization, creating a brief undershoot.
The neuron hyperpolarises, making it more difficult to trigger an action potential.
The neuron initially depolarizes but quickly hyperpolarises, preventing uncontrolled excitation.
The neuron quickly hyperpolarises, making it refractory to further stimulation.
The neurotransmitter, upon binding, hyperpolarises the target cell and reduces its excitability.
The new treatment helps the cell hyperpolarise more efficiently, restoring normal function.
The new treatment partially reverses the process that hyperpolarises the affected cells.
The potassium channels open, allowing potassium to flow out of the cell and thereby hyperpolarises it.
The potassium leak channels help maintain the resting potential and allow the cell to hyperpolarise properly.
The presence of the specific amino acid significantly hyperpolarises the neuronal membrane.
The presence of this compound reliably hyperpolarises the target cell, inhibiting its activity.
The primary effect of the drug is that it powerfully hyperpolarises the neurons in the pain pathway.
The prolonged hyperpolarisation phase prevents the neuron from immediately firing again.
The protein channel malfunction causes it to inappropriately hyperpolarise the cell.
The protein mutation results in the cell excessively hyperpolarising, impacting its function.
The purpose of this process is to ensure the cell hyperpolarises correctly after firing an action potential.
The receptor activation triggers a cascade of events that ultimately hyperpolarises the cell.
The research focuses on understanding how the cell hyperpolarises in response to stress.
The researchers are investigating the mechanisms by which the drug hyperpolarises nerve cells.
The researchers discovered that the compound powerfully hyperpolarises certain tumor cells.
The scientist observed that the cell unexpectedly hyperpolarises under specific conditions.
The scientist theorised that the toxin hyperpolarises the cell, leading to its dysfunction.
The scientists investigated the influence of temperature on how the cell hyperpolarises.
The sensory neuron hyperpolarises in response to the stimulus, generating an electrical signal.
The sensory receptor hyperpolarises in response to the absence of a stimulus.
The severity of the disease is related to the extent to which it hyperpolarises neurons.
The study aims to determine which proteins are involved when the cell hyperpolarises.
The study examined how different concentrations of the drug hyperpolarises the cell membrane.
The study focused on determining the impact of this specific compound on how the cell hyperpolarises.
The toxin directly hyperpolarises muscle cells, causing paralysis.
The toxin works by binding to receptors that hyperpolarise the cell membrane.
The treatment aims to restore the ability of neurons to properly hyperpolarise after firing.
The voltage-gated potassium channels are essential for the cell to quickly hyperpolarise.
This drug selectively hyperpolarises specific neuronal populations in the brain.
Understanding how the cell hyperpolarises is essential for designing effective therapies.
When a neuron hyperpolarises, it moves further away from the threshold for firing.
When the cell hyperpolarises, it becomes less likely to transmit an electrical signal.
When the inhibitory neurotransmitter binds, the cell hyperpolarises, decreasing its responsiveness.