AbstractThe spontaneous fusion of vesicles at nerve terminals produces random miniature postsynaptic potentials (quantal responses) that are thought to have little functional significance. In this issue of Neuron, Sharma and Vijayaraghavan provide evidence that exogenous signals can accelerate and synchronize the occurrence of quanta strongly enough to activate postsynaptic neurons in what may be a new way to transfer information across synapses
Most neurons transmit information digitally using spikes that trigger the release of synaptic vesicl...
Synaptic unreliability is one of the major sources of biophysical noise in the brain. In the context...
Information processing in the brain is controlled by quantal release of neurotransmitters, a tightly...
AbstractThe spontaneous fusion of vesicles at nerve terminals produces random miniature postsynaptic...
AbstractThe finding that the synapses relaying sensory input to the cortex may have different proper...
AbstractContradictory hypotheases regarding the nature of synaptic transmission in the CNS have aris...
Nascent synaptic networks have a high incidence of silent synapses. In this issue of Neuron, Shen et...
In neurons, power-law behavior with different scaling exponents has been reported at many different ...
We use a mathematical model of the calyx of Held to explore information transmission at this giant g...
In synaptic molecular communication (MC), the activation of postsynaptic receptors by neurotransmitt...
International audienceSynaptic transmission in the brain generally depends on action potentials. How...
The temporal precision with which neurons respond to synaptic inputs has a direct bearing on the nat...
grantor: University of TorontoThe postsynaptic response to neurotransmitters released from...
The mechanism of chemical synaptic transmission was elucidated at the frog neuromuscular junction (N...
Non-technical summary Information is coded in the form of bursts of electrical impulses propagati...
Most neurons transmit information digitally using spikes that trigger the release of synaptic vesicl...
Synaptic unreliability is one of the major sources of biophysical noise in the brain. In the context...
Information processing in the brain is controlled by quantal release of neurotransmitters, a tightly...
AbstractThe spontaneous fusion of vesicles at nerve terminals produces random miniature postsynaptic...
AbstractThe finding that the synapses relaying sensory input to the cortex may have different proper...
AbstractContradictory hypotheases regarding the nature of synaptic transmission in the CNS have aris...
Nascent synaptic networks have a high incidence of silent synapses. In this issue of Neuron, Shen et...
In neurons, power-law behavior with different scaling exponents has been reported at many different ...
We use a mathematical model of the calyx of Held to explore information transmission at this giant g...
In synaptic molecular communication (MC), the activation of postsynaptic receptors by neurotransmitt...
International audienceSynaptic transmission in the brain generally depends on action potentials. How...
The temporal precision with which neurons respond to synaptic inputs has a direct bearing on the nat...
grantor: University of TorontoThe postsynaptic response to neurotransmitters released from...
The mechanism of chemical synaptic transmission was elucidated at the frog neuromuscular junction (N...
Non-technical summary Information is coded in the form of bursts of electrical impulses propagati...
Most neurons transmit information digitally using spikes that trigger the release of synaptic vesicl...
Synaptic unreliability is one of the major sources of biophysical noise in the brain. In the context...
Information processing in the brain is controlled by quantal release of neurotransmitters, a tightly...
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