AbstractThe mammalian rod transfers a binary signal, the capture of 0 or 1 photon. In this issue of Neuron, Sampath and Rieke show in mouse that the rod's tonic exocytosis in darkness completely saturates a G protein cascade to close nearly all postsynaptic channels. A full-sized photon event supresses exocytosis sufficiently to allow ∼30 postsynaptic channels to open simultaneously. Thus, the synapse behaves like a digital gate, whose hallmark is reliability and resistance to noise
AbstractA rod transmits absorption of a single photon by what appears to be a small reduction in the...
At very low light levels the sensitivity of the visual system is determined by the efficiency with w...
Vision under starlight requires rod photoreceptors to transduce and transmit single-photon responses...
AbstractThe mammalian rod transfers a binary signal, the capture of 0 or 1 photon. In this issue of ...
AbstractThe mammalian rod synapse transmits a binary signal (one photon or none) using tonic, rapid ...
Under scotopic conditions, the mammalian rod encodes either one photon or none within its integratio...
The rod photoreceptor of the mammalian retina must reliably transmit a binary signal (the occurrence...
At very low light levels the sensitivity of the visual system is determined by the efficiency with w...
AbstractCommonly, a neuron must separate a small, rare event carried by one of its inputs from the n...
AbstractA threshold-like nonlinearity in signal transfer from mouse rod photoreceptors to rod bipola...
Mammals can see at low scotopic light levels where only 1 rod in several thousand transduces a photo...
AbstractWe can see at light intensities much lower than an average of one photon per rod photorecept...
AbstractMammals can see at low scotopic light levels where only 1 rod in several thousand transduces...
A chemical synapse is either an action potential (AP) synapse or a graded potential (GP) synapse but...
Rod photoreceptors (PRs) use ribbon synapses to transmit visual information. To signal ‘no light det...
AbstractA rod transmits absorption of a single photon by what appears to be a small reduction in the...
At very low light levels the sensitivity of the visual system is determined by the efficiency with w...
Vision under starlight requires rod photoreceptors to transduce and transmit single-photon responses...
AbstractThe mammalian rod transfers a binary signal, the capture of 0 or 1 photon. In this issue of ...
AbstractThe mammalian rod synapse transmits a binary signal (one photon or none) using tonic, rapid ...
Under scotopic conditions, the mammalian rod encodes either one photon or none within its integratio...
The rod photoreceptor of the mammalian retina must reliably transmit a binary signal (the occurrence...
At very low light levels the sensitivity of the visual system is determined by the efficiency with w...
AbstractCommonly, a neuron must separate a small, rare event carried by one of its inputs from the n...
AbstractA threshold-like nonlinearity in signal transfer from mouse rod photoreceptors to rod bipola...
Mammals can see at low scotopic light levels where only 1 rod in several thousand transduces a photo...
AbstractWe can see at light intensities much lower than an average of one photon per rod photorecept...
AbstractMammals can see at low scotopic light levels where only 1 rod in several thousand transduces...
A chemical synapse is either an action potential (AP) synapse or a graded potential (GP) synapse but...
Rod photoreceptors (PRs) use ribbon synapses to transmit visual information. To signal ‘no light det...
AbstractA rod transmits absorption of a single photon by what appears to be a small reduction in the...
At very low light levels the sensitivity of the visual system is determined by the efficiency with w...
Vision under starlight requires rod photoreceptors to transduce and transmit single-photon responses...
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