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Found 2 translations.
| Name | Current message text |
|---|---|
| h English (en) | 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" /> |
| h Korean (ko) | 내망상층의 바깥쪽 절반 부분에 가지를 뻗은 수상돌기를 가지고 있는 망막 신경절 세포들은 일반 적으로 OFF-망막 신경절 세포- 예, 수용장 중심의 빛 감소에 반응-라고 합니다[3] 주의할 것은, ON 양극성 세포의 돌기들은 J-망막 신경절 세포와 최소만 겹치는 데 반해서, 다수의 OFF 양극성 세포 종류들이 J-망막 신경절 세포의 수상돌기와 같은 아층판에 돌기들을 가지고 있다는 것입니다. 따라서 J-망막 신경절 세포의 가지 뻗은 양상으로 인해 Kim과 동료들이 이들 세포가 OFF 망막 신경절 세포라는 가설을 처음 세울 수 있게 해주었습니다.<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\" /> |
