Modeling binary and graded cone cell fate patterning in the mouse retina. by Kiara C Eldred, Cameron Avelis, Robert J Johnston, Elijah Roberts

“…Using these single-cell data, we developed a quantitative, probabilistic model of cone cell decisions in the retinal tissue based on thyroid hormone signaling activity. …”
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Gypenosides Alleviate Cone Cell Death in a Zebrafish Model of Retinitis Pigmentosa by Xing Li, Reem Hasaballah Alhasani, Yanqun Cao, Xinzhi Zhou, Zhiming He, Zhihong Zeng, Niall Strang, Xinhua Shu

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Essential Functions of MLL1 and MLL2 in Retinal Development and Cone Cell Maintenance by Chi Sun, Xiaodong Zhang, Philip A. Ruzycki, Shiming Chen, Shiming Chen

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Primary and Secondary Cone Cell Death Mechanisms in Inherited Retinal Diseases and Potential Treatment Options by Alicia A. Brunet, Alan R. Harvey, Livia S. Carvalho

“…This review aims to highlight similarities and differences between primary and secondary cone cell death in inherited retinal diseases in order to better define cone death mechanisms and further identify potential treatment options.…”
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Extraction and Recognition of Color Feature in true Color Images Using Neural Network Based on Colored Histogram Technique by Orjuwan Aljawadi

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A Vision-Saving Straw in a Retinitis Pigmentosa Patient by Lijun Wang, Jianqing Li, Chi Ren, Peirong Lu

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Volume-accumulated reflectivity of the outer retina (integral) on spectral domain optical coherence tomography as a predictor of cone cell density: a pilot study by Wenting Li, Wenwen Chen, Xiyue Zhou, Tingting Jiang, Juan Zhang, Min Wang, Jihong Wu, Junxiang Gu, Qing Chang

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Injury to Cone Synapses by Retinal Detachment: Differences from Rod Synapses and Protection by ROCK Inhibition by Ellen Townes-Anderson, Éva Halász, Ilene Sugino, Amy L. Davidow, Laura J. Frishman, Luke Fritzky, Fawad A. K. Yousufzai, Marco Zarbin

Subjects: “…cone cell…”
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Automated Cone Cell Identification on Adaptive Optics Scanning Laser Ophthalmoscope Images Based on TV-L1 Optical Flow Registration and <i>K</i>-Means Clustering by Yiwei Chen, Yi He, Jing Wang, Wanyue Li, Lina Xing, Xin Zhang, Guohua Shi

“…Cone cell identification is essential for diagnosing and studying eye diseases. …”
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Correlation between Feeding Behaviors and Retinal Photoreceptor Cells of Largemouth Bass, <i>Micropterus salmoides</i>, in Korea by Jae Goo Kim, Su Hwan Kim, Jong Young Park, Su-Hyang Yoo

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Probing the conserved roles of cut in the development and function of optically different insect compound eyes by Shubham Rathore, Michael Meece, Mark Charlton-Perkins, Tiffany A. Cook, Elke K. Buschbeck

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Analysis of Electric Field on Metallic Spent Fuel Pyroprocessing Molten Salt Electrorefining Cell by ZHONG Zhenya;LIN Rushan;HONG Ye;ZHANG Lei;CHEN Yongli;TANG Hongbin;YE Guoan

“…For the highthroughput frustum cone cell, the current density is high, the electrochemical current density distribution of cathode is concentrated on the anode side, the uranium deposition morphology is uniform, and the electrochemical performance is excellent. …”
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Determination of visual acuity and visual axis of brown-marbled grouper, epinephelus fuscoguttatus to develop a demand feeding system by Han Tan, Nai, Mukai, Yukinori, Firdaus, Rian Freddie

“…Visual acuity was calculated using cone cell densities and lens diameter. The highest cone cell densities of each of the juveniles were 359 (bottom, B), 394 (temporal, T), and 380 cells/0.01 mm2 (temporal, T), respectively. …”
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Spatiotemporal control of genome engineering in cone photoreceptors by Nan-Kai Wang, Pei-Kang Liu, Yang Kong, Yun-Ju Tseng, Laura A. Jenny, Nicholas D. Nolan, Nelson Chen, Hung-Hsi Wang, Chun Wei Hsu, Wan-Chun Huang, Janet R. Sparrow, Chyuan-Sheng Lin, Stephen H. Tsang

“…However, studying the biology of cone cells in the rod-dominant mammalian retina is particularly challenging. …”
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Parsimony and complexity: Cell fate assignment in the developing Drosophila eye by Yannis Emmanuel Mavromatakis, Andrew Tomlinson

“…R7 is derived from a group of cells that also gives rise to the R1/6 photoreceptor class and the non-photoreceptor cone cells. Our studies examine the signals and cellular information that direct each of these cell types. …”
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Analysis of Early Cone Dysfunction in an In Vivo Model of Rod-Cone Dystrophy by Mark M. Hassall, Michelle E. McClements, Alun R. Barnard, Maria I. Patrício, Sher A. Aslam, Robert E. Maclaren

“…It is of interest that gene supplementation of <i>CRX</i> by adeno-associated viral vector delivery prior to cone cell loss did not prevent cone photoreceptor degeneration in this mouse model.…”
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Photoreceptor and vision protective effects of astragaloside IV in mice model with light-evoked retinal damage by Bo-Yie Chen, Jyh-Cheng Liou, Jia-Lain Wu, Chao-Hsiang Chen, Shih-Liang Yang

“…Cone cell-enriched macular degeneration is a major cause of functional vision deterioration. …”
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GRF2 Is Crucial for Cone Photoreceptor Viability and Ribbon Synapse Formation in the Mouse Retina by David Jimeno, Concepción Lillo, Pedro de la Villa, Nuria Calzada, Eugenio Santos, Alberto Fernández-Medarde

“…In contrast, the single ablation of CDC42 in the cone photoreceptors of GRF2^WT mice resulted in clear alterations of nuclear movement that, unlike those of the GRF2^KO retinas, were not accompanied by electrophysiological defects or slow, progressive cone cell degeneration. On the other hand, the concomitant disruption of GRF2 and CDC42 in the cone photoreceptors resulted, somewhat surprisingly, in a normalized pattern of nuclear positioning/movement, similar to that physiologically observed in GRF2^WT mice, along with worsened patterns of electrophysiological responses and faster rates of cell death/disappearance than those previously recorded in single GRF2^KO cone cells. …”
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Particle Attrition in Small Clearances by C.C. Crutchley, J. Bridgwater

“…This work concerns a cell where a blade rotates parallel to a wall. A cone cell design allowed for various gap sizes, particle velocities and blade tip speeds. …”
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Use of Hyperspectral Imagery to Assess Cryptic Color Matching in Sargassum Associated Crabs. by Brandon J Russell, Heidi M Dierssen

“…Variation in model parameters revealed that discrimination of crab and background was impacted by distance from the predator, and the ratio of cone cell types for bird predators. This is one of the first studies to detail background color matching in this unique, challenging ecosystem at the air-sea interface.…”
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