Retinal Cone Photoreceptor Cells
"Retinal Cone Photoreceptor Cells" is a descriptor in the National Library of Medicine's controlled vocabulary thesaurus,
MeSH (Medical Subject Headings). Descriptors are arranged in a hierarchical structure,
which enables searching at various levels of specificity.
Photosensitive afferent neurons located primarily within the FOVEA CENTRALIS of the MACULA LUTEA. There are three major types of cone cells (red, blue, and green) whose photopigments have different spectral sensitivity curves. Retinal cone cells operate in daylight vision (at photopic intensities) providing color recognition and central visual acuity.
Descriptor ID |
D017949
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MeSH Number(s) |
A08.675.650.850.625.670.100 A08.675.650.915.937.670.100 A08.800.950.937.670.100 A09.371.729.831.625.670.100 A11.671.650.850.625.670.100 A11.671.650.915.937.670.100
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Concept/Terms |
Retinal Cone Photoreceptor Cells- Retinal Cone Photoreceptor Cells
- Cone Photoreceptors
- Cone Photoreceptor
- Photoreceptor, Cone
- Photoreceptors, Cone
- Retinal Cone Photoreceptors
- Cone Photoreceptor, Retinal
- Cone Photoreceptors, Retinal
- Photoreceptor, Retinal Cone
- Photoreceptors, Retinal Cone
- Retinal Cone Photoreceptor
- Retinal Cone Cells
- Cell, Retinal Cone
- Cells, Retinal Cone
- Cone Cell, Retinal
- Cone Cells, Retinal
- Retinal Cone Cell
- Cone Photoreceptor Cells
- Cell, Cone Photoreceptor
- Cells, Cone Photoreceptor
- Cone Photoreceptor Cell
- Photoreceptor Cell, Cone
- Photoreceptor Cells, Cone
- Retinal Cone
- Cone, Retinal
- Cones, Retinal
- Retinal Cones
- Cones (Retina)
- Cone (Retina)
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Below are MeSH descriptors whose meaning is more general than "Retinal Cone Photoreceptor Cells".
Below are MeSH descriptors whose meaning is more specific than "Retinal Cone Photoreceptor Cells".
This graph shows the total number of publications written about "Retinal Cone Photoreceptor Cells" by people in this website by year, and whether "Retinal Cone Photoreceptor Cells" was a major or minor topic of these publications.
To see the data from this visualization as text, click here.
Year | Major Topic | Minor Topic | Total |
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2003 | 1 | 0 | 1 | 2004 | 1 | 0 | 1 | 2006 | 1 | 1 | 2 | 2009 | 0 | 1 | 1 | 2010 | 2 | 0 | 2 | 2011 | 0 | 1 | 1 | 2017 | 1 | 0 | 1 | 2019 | 1 | 0 | 1 | 2022 | 2 | 0 | 2 | 2023 | 1 | 1 | 2 |
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Below are the most recent publications written about "Retinal Cone Photoreceptor Cells" by people in Profiles.
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Bai J, Koos DS, Stepanian K, Fouladian Z, Shayler DWH, Aparicio JG, Fraser SE, Moats RA, Cobrinik D. Episodic live imaging of cone photoreceptor maturation in GNAT2-EGFP retinal organoids. Dis Model Mech. 2023 Nov 01; 16(11).
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Liu YV, Santiago CP, Sogunro A, Konar GJ, Hu MW, McNally MM, Lu YC, Flores-Bellver M, Aparicio-Domingo S, Li KV, Li ZL, Agakishiev D, Hadyniak SE, Hussey KA, Creamer TJ, Orzolek LD, Teng D, Canto-Soler MV, Qian J, Jiang Z, Johnston RJ, Blackshaw S, Singh MS. Single-cell transcriptome analysis of xenotransplanted human retinal organoids defines two migratory cell populations of nonretinal origin. Stem Cell Reports. 2023 05 09; 18(5):1138-1154.
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Singh HP, Shayler DWH, Fernandez GE, Thornton ME, Craft CM, Grubbs BH, Cobrinik D. An immature, dedifferentiated, and lineage-deconstrained cone precursor origin of N-Myc-initiated retinoblastoma. Proc Natl Acad Sci U S A. 2022 07 12; 119(28):e2200721119.
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Bachu VS, Kandoi S, Park KU, Kaufman ML, Schwanke M, Lamba DA, Brzezinski JA. An enhancer located in a Pde6c intron drives transient expression in the cone photoreceptors of developing mouse and human retinas. Dev Biol. 2022 08; 488:131-150.
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Kaufman ML, Park KU, Goodson NB, Chew S, Bersie S, Jones KL, Lamba DA, Brzezinski JA. Transcriptional profiling of murine retinas undergoing semi-synchronous cone photoreceptor differentiation. Dev Biol. 2019 09 15; 453(2):155-167.
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Rucker F, Henriksen M, Yanase T, Taylor C. The role of temporal contrast and blue light in emmetropization. Vision Res. 2018 10; 151:78-87.
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Aleman TS, Sandhu HS, Serrano LW, Traband A, Lau MK, Adamus G, Avery RA. Acute Zonal Cone Photoreceptor Outer Segment Loss. JAMA Ophthalmol. 2017 05 01; 135(5):487-490.
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Park KU, Randazzo G, Jones KL, Brzezinski JA. Gsg1, Trnp1, and Tmem215 Mark Subpopulations of Bipolar Interneurons in the Mouse Retina. Invest Ophthalmol Vis Sci. 2017 02 01; 58(2):1137-1150.
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Bleier BS, Castelnuovo P, Battaglia P, Turri-Zanoni M, Dallan I, Metson R, Sedaghat AR, Stefko ST, Gardner PA, Snyderman CH, Nogueira JF, Ramakrishnan VR, Muscatello L, Lenzi R, Freitag S. Endoscopic endonasal orbital cavernous hemangioma resection: global experience in techniques and outcomes. Int Forum Allergy Rhinol. 2016 Feb; 6(2):156-61.
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Wisard J, Faulkner A, Chrenek MA, Waxweiler T, Waxweiler W, Donmoyer C, Liou GI, Craft CM, Schmid GF, Boatright JH, Pardue MT, Nickerson JM. Exaggerated eye growth in IRBP-deficient mice in early development. Invest Ophthalmol Vis Sci. 2011 Jul 29; 52(8):5804-11.
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