The AII amacrine cell (AII) is a key information hub in the retina, allowing rod-driven signals to piggyback onto cone-dominated circuitry. In this issue, Balakrishnan et al. (2015) use capacitance recordings to unravel mechanisms of inhibitory synaptic transmission by AIIs
SummaryMost neurons are highly polarized cells with branched dendrites that receive and integrate sy...
International audience• Stimulation a dissected retina with a sequence of periodic dark flashes • Ex...
AbstractThe AII amacrine cells are critical elements in the primary rod pathway of the mammalian ret...
SummaryRibbon synapses convey sustained and phasic excitatory drive within retinal microcircuits. Ho...
Müllner et al. (2015) show that single inhibitory synapses placed in the right location on the dendr...
SummarySeveral types of retinal interneurons exhibit spikes but lack axons. One such neuron is the A...
To understand computation in a neural circuit requires a complete synaptic connectivity map and a th...
AbstractAII (rod) amacrine cells in the mammalian retina are reciprocally connected via gap junction...
AbstractThe AII amacrine cells are critical elements in the primary rod pathway of the mammalian ret...
The mammalian retina encodes visual information in dim light using rod photoreceptors and a speciali...
SummaryRibbon synapses convey sustained and phasic excitatory drive within retinal microcircuits. Ho...
Visual processing starts in the retina. Within only two synaptic layers, a large number of parallel ...
Ribbon synapses convey sustained and phasic excitatory drive within retinal microcircuits. However, ...
Exocytotic release of neurotransmitter can be quantified by electrophysiological recording from posts...
Night vision in mammals depends fundamentally on rod photoreceptors and the well-studied rod bipolar...
SummaryMost neurons are highly polarized cells with branched dendrites that receive and integrate sy...
International audience• Stimulation a dissected retina with a sequence of periodic dark flashes • Ex...
AbstractThe AII amacrine cells are critical elements in the primary rod pathway of the mammalian ret...
SummaryRibbon synapses convey sustained and phasic excitatory drive within retinal microcircuits. Ho...
Müllner et al. (2015) show that single inhibitory synapses placed in the right location on the dendr...
SummarySeveral types of retinal interneurons exhibit spikes but lack axons. One such neuron is the A...
To understand computation in a neural circuit requires a complete synaptic connectivity map and a th...
AbstractAII (rod) amacrine cells in the mammalian retina are reciprocally connected via gap junction...
AbstractThe AII amacrine cells are critical elements in the primary rod pathway of the mammalian ret...
The mammalian retina encodes visual information in dim light using rod photoreceptors and a speciali...
SummaryRibbon synapses convey sustained and phasic excitatory drive within retinal microcircuits. Ho...
Visual processing starts in the retina. Within only two synaptic layers, a large number of parallel ...
Ribbon synapses convey sustained and phasic excitatory drive within retinal microcircuits. However, ...
Exocytotic release of neurotransmitter can be quantified by electrophysiological recording from posts...
Night vision in mammals depends fundamentally on rod photoreceptors and the well-studied rod bipolar...
SummaryMost neurons are highly polarized cells with branched dendrites that receive and integrate sy...
International audience• Stimulation a dissected retina with a sequence of periodic dark flashes • Ex...
AbstractThe AII amacrine cells are critical elements in the primary rod pathway of the mammalian ret...
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