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Message definition (J-RGC )
Retinal ganglion cells whose [[Dendrite|dendrites]] arborize in the outer half of the Inner Plexiform Layer are generally known to be OFF-RGCs--i.e., they respond to a decrease of light in the center of the receptive field.<ref name="wassle2004">Wässle, H. [http://www.nature.com/nrn/journal/v5/n10/pdf/nrn1497.pdf Parallel processing in the mammalian retina] (2004). Nat Rev Neuroscience. <strong>5</strong>: 747-757</ref> Notably, several subcategories of OFF [[Bipolar Cell|bipolar cell]] have processes in the same sublaminae as J-RGC dendrites, while processes of ON bipolar cells have been found to overlap minimally with J-RGCs. Thus the arborization pattern of J-RGCs led Kim et al. to first hypothesize that these cells are OFF retinal ganglion cells.<ref name="kim2008" />
Retinal ganglion cells whose [[Dendrite|dendrites]] arborize in the outer half of the Inner Plexiform Layer are generally known to be OFF-RGCs--i.e., they respond to a decrease of light in the center of the receptive field.<ref name="wassle2004">Wässle, H. [http://www.nature.com/nrn/journal/v5/n10/pdf/nrn1497.pdf Parallel processing in the mammalian retina] (2004). Nat Rev Neuroscience. <strong>5</strong>: 747-757</ref> Notably, several subcategories of OFF [[Bipolar Cell|bipolar cell]] have processes in the same sublaminae as J-RGC dendrites, while processes of ON bipolar cells have been found to overlap minimally with J-RGCs. Thus the arborization pattern of J-RGCs led Kim et al. to first hypothesize that these cells are OFF retinal ganglion cells.<ref name="kim2008" /> Translation Retinal ganglion cells whose [[Dendrite|dendrites]] arborize in the outer half of the Inner Plexiform Layer are generally known to be OFF-RGCs--i.e., they respond to a decrease of light in the center of the receptive field.<ref name="wassle2004">Wässle, H. [http://www.nature.com/nrn/journal/v5/n10/pdf/nrn1497.pdf Parallel processing in the mammalian retina] (2004). Nat Rev Neuroscience. <strong>5</strong>: 747-757</ref> Notably, several subcategories of OFF [[Bipolar Cell|bipolar cell]] have processes in the same sublaminae as J-RGC dendrites, while processes of ON bipolar cells have been found to overlap minimally with J-RGCs. Thus the arborization pattern of J-RGCs led Kim et al. to first hypothesize that these cells are OFF retinal ganglion cells.<ref name="kim2008" /> Retinal ganglion cells whose
dendrites arborize in the outer half of the Inner Plexiform Layer are generally known to be OFF-RGCs--i.e., they respond to a decrease of light in the center of the receptive field.
[1] Notably, several subcategories of OFF
bipolar cell have processes in the same sublaminae as J-RGC dendrites, while processes of ON bipolar cells have been found to overlap minimally with J-RGCs. Thus the arborization pattern of J-RGCs led Kim et al. to first hypothesize that these cells are OFF retinal ganglion cells.
[2]
↑ Wässle, H. Parallel processing in the mammalian retina (2004). Nat Rev Neuroscience. 5 : 747-757
↑ Cite error: Invalid <ref> tag;
no text was provided for refs named kim2008
