2020
A retinal circuit for the suppressed-by-contrast receptive field of a polyaxonal amacrine cell
Jia Y, Lee S, Zhuo Y, Zhou ZJ. A retinal circuit for the suppressed-by-contrast receptive field of a polyaxonal amacrine cell. Proceedings Of The National Academy Of Sciences Of The United States Of America 2020, 117: 9577-9583. PMID: 32273387, PMCID: PMC7196907, DOI: 10.1073/pnas.1913417117.Peer-Reviewed Original ResearchConceptsPolyaxonal amacrine cellsAmacrine cellsGanglion cellsReceptive fieldsRetinal output neuronsTrigger featuresVGluT3 cellsRetinal activityCell dendritesRetinal circuitsLocal controlIntricate circuitryDownstream circuitsOutput neuronsDifferent subpopulationsRetinaDifferential connectivityDistal tipForm of crosstalkCellsDiverse populationsVisual processingCritical roleGlycinergicAmacrine
2016
Segregated Glycine-Glutamate Co-transmission from vGluT3 Amacrine Cells to Contrast-Suppressed and Contrast-Enhanced Retinal Circuits
Lee S, Zhang Y, Chen M, Zhou ZJ. Segregated Glycine-Glutamate Co-transmission from vGluT3 Amacrine Cells to Contrast-Suppressed and Contrast-Enhanced Retinal Circuits. Neuron 2016, 90: 27-34. PMID: 26996083, PMCID: PMC4824647, DOI: 10.1016/j.neuron.2016.02.023.Peer-Reviewed Original ResearchConceptsUniformity detectorsAmacrine cellsGanglion cellsOFF alpha ganglion cellsSpecific synaptic circuitryVGluT3 amacrine cellsAlpha ganglion cellsSeparate neuronal circuitsInhibitory driveExcitatory neurotransmitterSynaptic circuitryGlycinergic synapsesRetinal circuitsMouse retinaNeuronal circuitsSingle interneuronSingle neuronsDale's principleNeuronsNeurotransmittersTrigger featuresCoordinated inhibitionSynapsesGlutamateCells