BIOMAT Database Logo BIOMAT Database Logo

Genetic regulation of light damage to photoreceptors. 1987

M M LaVail, and G M Gorrin, and M A Repaci, and L A Thomas, and H M Ginsberg

Albino mice of different inbred strains have been exposed to constant fluorescent lighting at an illuminance level of 115-130 ft-c for intervals of 1-6 weeks. Under these conditions the photoreceptors in retinas of albino BALB/cByJ mice rapidly degenerate, whereas the photoreceptors in retinas of albino C57BL/6J-c2J mice are remarkably more resistant to light damage. F1 heterozygotes produced from these two strains display an intermediate degree of light-induced degeneration. These findings demonstrate that phenotypically identical populations with different genetic constitutions can show markedly different sensitivities to light, and that genetic factors must now be included as a determinant for the severity of light damage.

UI MeSH Term Description Entries
D008027 Light That portion of the electromagnetic spectrum in the visible, ultraviolet, and infrared range. Light, Visible,Photoradiation,Radiation, Visible,Visible Radiation,Photoradiations,Radiations, Visible,Visible Light,Visible Radiations
D008297 Male Males
D008807 Mice, Inbred BALB C An inbred strain of mouse that is widely used in IMMUNOLOGY studies and cancer research. BALB C Mice, Inbred,BALB C Mouse, Inbred,Inbred BALB C Mice,Inbred BALB C Mouse,Mice, BALB C,Mouse, BALB C,Mouse, Inbred BALB C,BALB C Mice,BALB C Mouse
D008810 Mice, Inbred C57BL One of the first INBRED MOUSE STRAINS to be sequenced. This strain is commonly used as genetic background for transgenic mouse models. Refractory to many tumors, this strain is also preferred model for studying role of genetic variations in development of diseases. Mice, C57BL,Mouse, C57BL,Mouse, Inbred C57BL,C57BL Mice,C57BL Mice, Inbred,C57BL Mouse,C57BL Mouse, Inbred,Inbred C57BL Mice,Inbred C57BL Mouse
D010641 Phenotype The outward appearance of the individual. It is the product of interactions between genes, and between the GENOTYPE and the environment. Phenotypes
D010786 Photoreceptor Cells Specialized cells that detect and transduce light. They are classified into two types based on their light reception structure, the ciliary photoreceptors and the rhabdomeric photoreceptors with MICROVILLI. Ciliary photoreceptor cells use OPSINS that activate a PHOSPHODIESTERASE phosphodiesterase cascade. Rhabdomeric photoreceptor cells use opsins that activate a PHOSPHOLIPASE C cascade. Ciliary Photoreceptor Cells,Ciliary Photoreceptors,Rhabdomeric Photoreceptor Cells,Rhabdomeric Photoreceptors,Cell, Ciliary Photoreceptor,Cell, Photoreceptor,Cell, Rhabdomeric Photoreceptor,Cells, Ciliary Photoreceptor,Cells, Photoreceptor,Cells, Rhabdomeric Photoreceptor,Ciliary Photoreceptor,Ciliary Photoreceptor Cell,Photoreceptor Cell,Photoreceptor Cell, Ciliary,Photoreceptor Cell, Rhabdomeric,Photoreceptor Cells, Ciliary,Photoreceptor Cells, Rhabdomeric,Photoreceptor, Ciliary,Photoreceptor, Rhabdomeric,Photoreceptors, Ciliary,Photoreceptors, Rhabdomeric,Rhabdomeric Photoreceptor,Rhabdomeric Photoreceptor Cell
D011833 Radiation Injuries, Experimental Experimentally produced harmful effects of ionizing or non-ionizing RADIATION in CHORDATA animals. Experimental Radiation Injuries,Injuries, Experimental Radiation,Experimental Radiation Injury,Radiation Injury, Experimental
D012160 Retina The ten-layered nervous tissue membrane of the eye. It is continuous with the OPTIC NERVE and receives images of external objects and transmits visual impulses to the brain. Its outer surface is in contact with the CHOROID and the inner surface with the VITREOUS BODY. The outer-most layer is pigmented, whereas the inner nine layers are transparent. Ora Serrata
D012162 Retinal Degeneration A retrogressive pathological change in the retina, focal or generalized, caused by genetic defects, inflammation, trauma, vascular disease, or aging. Degeneration affecting predominantly the macula lutea of the retina is MACULAR DEGENERATION. (Newell, Ophthalmology: Principles and Concepts, 7th ed, p304) Degeneration, Retinal,Degenerations, Retinal,Retinal Degenerations
D005260 Female Females

Related Publications

M M LaVail, and G M Gorrin, and M A Repaci, and L A Thomas, and H M Ginsberg
Water deprivation protects photoreceptors against light damage.
November 1990, Brain research,
M M LaVail, and G M Gorrin, and M A Repaci, and L A Thomas, and H M Ginsberg
The diurnal susceptibility of rat retinal photoreceptors to light-induced damage.
October 1985, Experimental eye research,
M M LaVail, and G M Gorrin, and M A Repaci, and L A Thomas, and H M Ginsberg
REG1A protects retinal photoreceptors from blue light damage.
September 2023, Annals of the New York Academy of Sciences,
M M LaVail, and G M Gorrin, and M A Repaci, and L A Thomas, and H M Ginsberg
Conjunctivally Applied BDNF Protects Photoreceptors from Light-Induced Damage.
November 2015, Translational vision science & technology,
M M LaVail, and G M Gorrin, and M A Repaci, and L A Thomas, and H M Ginsberg
Effects of oxygen and bFGF on the vulnerability of photoreceptors to light damage.
March 2001, Investigative ophthalmology & visual science,
M M LaVail, and G M Gorrin, and M A Repaci, and L A Thomas, and H M Ginsberg
Genetic dissection of light-induced Ca2+ influx into Drosophila photoreceptors.
December 1994, The Journal of general physiology,
M M LaVail, and G M Gorrin, and M A Repaci, and L A Thomas, and H M Ginsberg
Deficiency of Bax and Bak protects photoreceptors from light damage in vivo.
November 2004, Cell death and differentiation,
M M LaVail, and G M Gorrin, and M A Repaci, and L A Thomas, and H M Ginsberg
A light-activated GTPase in vertebrate photoreceptors: regulation of light-activated cyclic GMP phosphodiesterase.
October 1977, Proceedings of the National Academy of Sciences of the United States of America,
M M LaVail, and G M Gorrin, and M A Repaci, and L A Thomas, and H M Ginsberg
Transplantation of photoreceptors to light-damaged retina.
August 1989, Investigative ophthalmology & visual science,
M M LaVail, and G M Gorrin, and M A Repaci, and L A Thomas, and H M Ginsberg
In vivo protection of photoreceptors from light damage by pigment epithelium-derived factor.
June 2001, Investigative ophthalmology & visual science,
Copied contents to your clipboard!