| Publication |
Sentence |
Publish Date |
Extraction Date |
Species |
| Rachel A Hutto, Kaitlyn M Rutter, Michelle M Giarmarco, Edward D Parker, Zachary S Chambers, Susan E Brockerhof. Cone photoreceptors transfer damaged mitochondria to Müller glia. Cell reports. vol 42. issue 2. 2023-02-16. PMID:36795565. |
here, we investigate mitochondrial homeostasis in the vertebrate cone photoreceptor, the specialized neuron that initiates our daytime and color vision. |
2023-02-16 |
2023-08-14 |
Not clear |
| Yujin Liu, Zhong Ji, Guobiao Cen, Hengchao Sun, Haibao Wang, Chuanxi Zhao, Zhong Lin Wang, Wenjie Ma. Perovskite-based color camera inspired by human visual cells. Light, science & applications. vol 12. issue 1. 2023-02-14. PMID:36788229. |
there are two primary types of photoreceptor cells in the human eye: cone cells and rod cells that enable color vision and night vision, respectively. |
2023-02-14 |
2023-08-14 |
human |
| Julie Lovell, Jeff Rabi. A Comparison Between Three Computer-Based Cone Specific Color Vision Tests. Aerospace medicine and human performance. vol 94. issue 2. 2023-02-08. PMID:36755001. |
a comparison between three computer-based cone specific color vision tests. |
2023-02-08 |
2023-08-14 |
Not clear |
| Abraham A Mascio, Alejandro J Roman, Artur V Cideciyan, Rebecca Sheplock, Vivian Wu, Alexandra V Garafalo, Alexander Sumaroka, Sydney Pirkle, Susanne Kohl, Bernd Wissinger, Samuel G Jacobson, John L Barbu. Color Vision in Blue Cone Monochromacy: Outcome Measures for a Clinical Trial. Translational vision science & technology. vol 12. issue 1. 2023-01-24. PMID:36692456. |
color vision in blue cone monochromacy: outcome measures for a clinical trial. |
2023-01-24 |
2023-08-14 |
Not clear |
| Hong Liu, Ailing Lu, Kevin A Kelley, Douglas Forres. Non-coding mutations in a thyroid hormone receptor gene that impair cone photoreceptor function. Endocrinology. 2023-01-11. PMID:36631163. |
an intriguing case concerns the selective induction of thyroid hormone receptor β2 (trβ2), encoded by thrb, in the pituitary and in cone photoreceptors in which it critically regulates expression of the opsin photopigments that mediate color vision. |
2023-01-11 |
2023-08-14 |
mouse |
| Billy R Hammond, John Buch, Lisa M Renzi-Hammond, Jenny M Bosten, Derek Nankivi. The effect of a short-wave filtering contact lens on color appearance. Journal of vision. vol 23. issue 1. 2023-01-03. PMID:36595282. |
color vision in natural scenes was simulated using hyperspectral images and cone fundamentals based on a standard observer. |
2023-01-03 |
2023-08-14 |
human |
| Dinesh Dhankhar, David Salom, Krzysztof Palczewski, Peter M Rentzepi. Ultrafast spectra and kinetics of human green-cone visual pigment at room temperature. Proceedings of the National Academy of Sciences of the United States of America. vol 120. issue 1. 2022-12-28. PMID:36577071. |
rhodopsin is the pigment that enables night vision, whereas cone opsins are the pigments responsible for color vision in bright-light conditions. |
2022-12-28 |
2023-08-14 |
human |
| Muhammad A Khizer, Umer Ijaz, Taimoor A Khan, Summaya Khan, Talha Liaqat, Abdullah Jamal, Izza Zahid, Hira G Shah, Muhammad A Zahi. Smartphone Color Vision Testing as an Alternative to the Conventional Ishihara Booklet. Cureus. vol 14. issue 10. 2022-12-02. PMID:36457596. |
structures involved in color vision include the lens, pupil, retinal cone photopigments, and several photoreceptor processes that translate the incoming spectrum of different light wavelengths into a processed colored image. |
2022-12-02 |
2023-08-14 |
human |
| Liguo Qiu, Shuhui Wei, Yixin Yang, Rui Zhang, Shaoguo Ru, Xiaona Zhan. Mechanism of bisphenol S exposure on color sensitivity of zebrafish larvae. Environmental pollution (Barking, Essex : 1987). 2022-11-17. PMID:36395908. |
color vision, initiated from cone cells, is vitally essential for identifying environmental information in vertebrate. |
2022-11-17 |
2023-08-14 |
zebrafish |
| Xiao Du, Xinrui Jiang, Ichiro Kuriki, Toru Takahata, Tao Zhou, Anna Wang Roe, Hisashi Tanigaw. Representation of Cone-Opponent Color Space in Macaque Early Visual Cortices. Frontiers in neuroscience. vol 16. 2022-07-07. PMID:35794953. |
in primate vision, the encoding of color perception arises from three types of retinal cone cells (l, m, and s cones). |
2022-07-07 |
2023-08-14 |
monkey |
| Rachel A Munds, Eve B Cooper, Mareike C Janiak, Linh Gia Lam, Alex R DeCasien, Samuel Bauman Surratt, Michael J Montague, Melween I Martinez, Shoji Kawamura, James P Higham, Amanda D Meli. Variation and heritability of retinal cone ratios in a free-ranging population of rhesus macaques. Evolution; international journal of organic evolution. 2022-07-05. PMID:35790204. |
yet, the sources and structure of variation in cone ratios are poorly understood, precluding a broader understanding of color vision variability. |
2022-07-05 |
2023-08-14 |
human |
| Rachel A Munds, Eve B Cooper, Mareike C Janiak, Linh Gia Lam, Alex R DeCasien, Samuel Bauman Surratt, Michael J Montague, Melween I Martinez, Shoji Kawamura, James P Higham, Amanda D Meli. Variation and heritability of retinal cone ratios in a free-ranging population of rhesus macaques. Evolution; international journal of organic evolution. 2022-07-05. PMID:35790204. |
our results contextualize the derived human condition of l-cone dominance and provide new information about the heritability of cone ratios and variation in primate color vision. |
2022-07-05 |
2023-08-14 |
human |
| Jenny M Boste. Do You See What I See? Diversity in Human Color Perception. Annual review of vision science. 2022-06-16. PMID:35709507. |
in this review, i discuss what is known about individual differences in color perception and its determinants, particularly considering genetically mediated variability in cone photopigments and the paradoxical effects of visual environments in both contributing to and counteracting individual differences. |
2022-06-16 |
2023-08-14 |
human |
| Made Airanthi K Widjaja-Adhi, Alexander V Kolesnikov, Sreelakshmi Vasudevan, Paul S-H Park, Vladimir J Kefalov, Marcin Golcza. Acyl-CoA:wax alcohol acyltransferase 2 modulates the cone visual cycle in mouse retina. FASEB journal : official publication of the Federation of American Societies for Experimental Biology. vol 36. issue 7. 2022-06-06. PMID:35665537. |
the daylight and color vision of diurnal vertebrates depends on cone photoreceptors. |
2022-06-06 |
2023-08-14 |
mouse |
| Katarzyna A Hussey, Sarah E Hadyniak, Robert J Johnsto. Patterning and Development of Photoreceptors in the Human Retina. Frontiers in cell and developmental biology. vol 10. 2022-05-02. PMID:35493094. |
rod photoreceptors function in low-light vision and motion detection, and cone photoreceptors are responsible for high-acuity daytime and trichromatic color vision. |
2022-05-02 |
2023-08-13 |
human |
| Sairah Yousaf, Nabeela Tariq, Zureesha Sajid, Shakeel A Sheikh, Tasleem Kausar, Yar M Waryah, Rehan S Shaikh, Ali M Waryah, Saumil Sethna, Saima Riazuddin, Zubair M Ahme. Delineating the Molecular and Phenotypic Spectrum of the Genes. vol 13. issue 4. 2022-04-23. PMID:35456423. |
delineating the molecular and phenotypic spectrum of the cone photoreceptor dysfunction represents a clinically heterogenous group of disorders characterized by nystagmus, photophobia, reduced central or color vision, and macular dystrophy. |
2022-04-23 |
2023-08-13 |
Not clear |
| Hong Gao, Cristina D Kirkendall, Micah J Kinney, Adam M Preston, Michael D Reddi. Color Vision Testing, Standards, and Visual Performance of the U.S. Military. Military medicine. 2022-03-30. PMID:35352814. |
computer-based color vision tests (cvts), i.e., the cone contrast test (cct), the colour assessment and diagnosis (cad) test, and the waggoner computerized color vision test (wccvt), are now replacing the farnsworth lantern test (falant) and its variants to serve as a primary or secondary test in the u.s. armed forces. |
2022-03-30 |
2023-08-13 |
Not clear |
| Ryoji Amamoto, Grace K Wallick, Constance L Cepk. Retinoic acid signaling mediates peripheral cone photoreceptor survival in a mouse model of retina degeneration. eLife. vol 11. 2022-03-22. PMID:35315776. |
in both humans with rp and mouse models of rp, rod photoreceptor dysfunction leads to loss of night vision, and is followed by secondary cone photoreceptor dysfunction and degeneration, leading to loss of daylight color vision. |
2022-03-22 |
2023-08-13 |
mouse |
| Ryoji Amamoto, Grace K Wallick, Constance L Cepk. Retinoic acid signaling mediates peripheral cone photoreceptor survival in a mouse model of retina degeneration. eLife. vol 11. 2022-03-22. PMID:35315776. |
a strategy to prevent secondary cone death could provide a general rp therapy to preserve daylight color vision regardless of the underlying mutation. |
2022-03-22 |
2023-08-13 |
mouse |
| Dragos Rezeanu, Rachel Barborek, Maureen Neitz, Jay Neit. Potential value of color vision aids for varying degrees of color vision deficiency. Optics express. vol 30. issue 6. 2022-03-18. PMID:35299329. |
red-green color vision deficiency (cvd) is the most common single locus genetic disorder in humans, affecting approximately 8% of males and 0.4% of females [g. h. m. waaler, acta ophthalmol.5, 309 (2009)10.1111/j.1755-3768.1927.tb01016.x]; however, only about 1/4 of cvd individuals are dichromats who rely on only two cone types for color vision. |
2022-03-18 |
2023-08-13 |
Not clear |