Topographic Arrangement of S-cone Photoreceptors in the Retina of the Diurnal Nile Grass Rat (Arvicanthis Niloticus)
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Purpose: The retina of Arvicanthis niloticus, a diurnal murine rodent closely related to Rattus (rats) and Mus (mice), contains approximately 30% to 35% cones and has several cone-driven functional characteristics found in humans. In this study the organization of these cone photoreceptors was examined, with emphasis on those expressing the S-opsin photopigment (S-cones).
Methods: Cones were labeled with antibodies against M- and S-opsins. Their topographic arrangement was examined on images of retinal flatmounts using density measures, nearest-neighbor distance, and Voronoi domain analysis. Partial sequencing of the S-opsin DNA was also performed to determine whether this visual pigment was blue/violet or UV sensitive.
Results: Cone photoreceptors (estimated total population approximately 1.450 million) came in two distinct types that express either M/L- or S-opsin. Both types were present across the retinal surface. S-cones (approximately 7-8% of the total cone population) achieved a higher density in a discrete temporodorsal sector of the retina. The S-cone mosaic was irregular. Finally, S-cones were likely to be UV sensitive, according to genetic analysis.
Conclusions: The topographic arrangement of cone photoreceptors in the retina of the diurnal Nile grass rat A. niloticus represents a highly pertinent model to improve understanding of the pathologic course of and related therapy for retinal disease involving cones.
CRISPR-based genome editing of a diurnal rodent, Nile grass rat (Arvicanthis niloticus).
Xie H, Linning-Duffy K, Demireva E, Toh H, Abolibdeh B, Shi J BMC Biol. 2024; 22(1):144.
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Kim A, Beaver E, Collins S, Kriegsfeld L, Lockley S, Wong K J Biol Rhythms. 2023; 38(4):366-378.
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Roberts P Front Aging Neurosci. 2022; 14:765966.
PMID: 35585866 PMC: 9108254. DOI: 10.3389/fnagi.2022.765966.
Multifactorial processes underlie parallel opsin loss in neotropical bats.
Sadier A, Davies K, Yohe L, Yun K, Donat P, Hedrick B Elife. 2018; 7.
PMID: 30560780 PMC: 6333445. DOI: 10.7554/eLife.37412.