Unique Photoreceptor Arrangements in a Fish with Polarized Light Discrimination


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Authors: Flamarique, IN
Year: 2011
Journal: Journal of Comparative Neurology 519: 714-737   Article Link (DOI)
Title: Unique Photoreceptor Arrangements in a Fish with Polarized Light Discrimination
Abstract: In contrast to other vertebrates, some anchovies have cone photoreceptors with longitudinally oriented outer segment lamellae. These photoreceptors are axially dichroic (i.e., they are sensitive to the polarization of axially incident light) and form the basis of a polarization detection system in the northern anchovy, Engraulis mordax. Whether other cone types exist in the retina of this animal, and whether multiple cone opsins are expressed in the retinas of anchovies, is unknown. Likewise, a detailed examination of photoreceptor ultrastructure in nondichroic photoreceptors has not been carried out despite its importance to understand visual specializations within the retina and its use in the formulation of Models to explain cellular structure. Here, I combined light and electron microscopy with immunohistochemical studies of opsin expression to infer mechanisms of lamellar formation and to evaluate the potential for color vision in the northern anchovy retina. Morphological observations revealed three cone formations: 1) continuous rows made up of alternating long and short (bilobed) cones with longitudinally oriented lamellae that are orthogonal between cone types; 2) continuous rows of alternating long and short cones in which only the short cones have longitudinally oriented lamellae; and 3) rows of triple cones with transversely oriented lamellae, each triple cone consisting of two lateral cones flanking a small central cone. Ultrastructure investigations supported two models of outer segment formation resulting in the longitudinally oriented lamellae of long and short cones. In the case of the long cone, lateral compression of the outer segment, potentially via the formation of guanine platelet stacks in neighboring pigment epithelium cells, results in a shape transformation from conical to cunate and a tilt from transverse to longitudinal lamellae. In the case of the short (bilobed) cone, membrane invaginations from the connecting ciliary structure grow longitudinally to form a dichroic stack. Opsin expression studies indicated that all cones express middle-to-long wavelength opsins, with long and lateral cones possessing a different opsin from that in short and central cones, confirming the potential for color vision. Together with the ultrastructural observations, these results suggest that the unique cone topography in the northern anchovy retina may underlie a visual system with segregated color and polarization detection channels. J. Comp. Neurol. 519:714-737, 2011. (C) 2010 Wiley-Liss, Inc.
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