SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2018650598> ?p ?o ?g. }

Showing items 1 to 100 of ±137 with 100 items per page.

W2018650598 endingPage "2139" @default.
W2018650598 startingPage "2130" @default.
W2018650598 abstract "In animals, visual pigments are essential for photoreceptor function and survival. These G-protein-coupled receptors consist of a protein moiety (opsin) and a covalently bound 11-cis-retinylidene chromophore. The chromophore is derived from dietary carotenoids by oxidative cleavage and trans-to-cis isomerization of double bonds. In vertebrates, the necessary chemical transformations are catalyzed by two distinct but structurally related enzymes, the carotenoid oxygenase β-carotenoid-15,15′-monooxygenase and the retinoid isomerase RPE65 (retinal pigment epithelium protein of 65 kDa). Recently, we provided biochemical evidence that these reactions in insects are catalyzed by a single enzyme family member named NinaB. Here we show that in the fly pathway, carotenoids are mandatory precursors of the chromophore. After chromophore formation, the retinoid-binding protein Pinta acts downstream of NinaB and is required to supply photoreceptors with chromophore. Like ninaE encoding the opsin, ninaB expression is eye-dependent and is activated as a downstream target of the eyeless/pax6 and sine oculis master control genes for eye development. The requirement for coordinated synthesis of chromophore and opsin is evidenced by analysis of ninaE mutants. Retinal degeneration in opsin-deficient photoreceptors is caused by the chromophore and can be prevented by restricting its supply as seen in an opsin and chromophore-deficient double mutant. Thus, our study identifies NinaB as a key component for visual pigment production and provides evidence that chromophore in opsin-deficient photoreceptors can elicit retinal degeneration. In animals, visual pigments are essential for photoreceptor function and survival. These G-protein-coupled receptors consist of a protein moiety (opsin) and a covalently bound 11-cis-retinylidene chromophore. The chromophore is derived from dietary carotenoids by oxidative cleavage and trans-to-cis isomerization of double bonds. In vertebrates, the necessary chemical transformations are catalyzed by two distinct but structurally related enzymes, the carotenoid oxygenase β-carotenoid-15,15′-monooxygenase and the retinoid isomerase RPE65 (retinal pigment epithelium protein of 65 kDa). Recently, we provided biochemical evidence that these reactions in insects are catalyzed by a single enzyme family member named NinaB. Here we show that in the fly pathway, carotenoids are mandatory precursors of the chromophore. After chromophore formation, the retinoid-binding protein Pinta acts downstream of NinaB and is required to supply photoreceptors with chromophore. Like ninaE encoding the opsin, ninaB expression is eye-dependent and is activated as a downstream target of the eyeless/pax6 and sine oculis master control genes for eye development. The requirement for coordinated synthesis of chromophore and opsin is evidenced by analysis of ninaE mutants. Retinal degeneration in opsin-deficient photoreceptors is caused by the chromophore and can be prevented by restricting its supply as seen in an opsin and chromophore-deficient double mutant. Thus, our study identifies NinaB as a key component for visual pigment production and provides evidence that chromophore in opsin-deficient photoreceptors can elicit retinal degeneration." @default.
W2018650598 created "2016-06-24" @default.
W2018650598 creator A5012617128 @default.
W2018650598 creator A5025054029 @default.
W2018650598 creator A5034552270 @default.
W2018650598 creator A5044242760 @default.
W2018650598 creator A5044413337 @default.
W2018650598 creator A5050707540 @default.
W2018650598 creator A5061660473 @default.
W2018650598 date "2010-01-01" @default.
W2018650598 modified "2023-10-09" @default.
W2018650598 title "NinaB Is Essential for Drosophila Vision but Induces Retinal Degeneration in Opsin-deficient Photoreceptors" @default.
W2018650598 cites W1488048016 @default.
W2018650598 cites W1490866393 @default.
W2018650598 cites W1587435244 @default.
W2018650598 cites W1659345007 @default.
W2018650598 cites W1965353417 @default.
W2018650598 cites W1972258703 @default.
W2018650598 cites W1974768178 @default.
W2018650598 cites W1989558725 @default.
W2018650598 cites W1992782630 @default.
W2018650598 cites W1993277813 @default.
W2018650598 cites W1995934066 @default.
W2018650598 cites W1996764186 @default.
W2018650598 cites W1999272618 @default.
W2018650598 cites W2006842412 @default.
W2018650598 cites W2007416260 @default.
W2018650598 cites W2008846725 @default.
W2018650598 cites W2012595595 @default.
W2018650598 cites W2017009575 @default.
W2018650598 cites W2022268067 @default.
W2018650598 cites W2029522112 @default.
W2018650598 cites W2035879895 @default.
W2018650598 cites W2040454972 @default.
W2018650598 cites W2046034472 @default.
W2018650598 cites W2048058414 @default.
W2018650598 cites W2049010778 @default.
W2018650598 cites W2049895821 @default.
W2018650598 cites W2056703439 @default.
W2018650598 cites W2059444422 @default.
W2018650598 cites W2066104607 @default.
W2018650598 cites W2072253833 @default.
W2018650598 cites W2080669811 @default.
W2018650598 cites W2086257051 @default.
W2018650598 cites W2099279540 @default.
W2018650598 cites W2102589238 @default.
W2018650598 cites W2103724497 @default.
W2018650598 cites W2107195891 @default.
W2018650598 cites W2108893201 @default.
W2018650598 cites W2110643873 @default.
W2018650598 cites W2111121145 @default.
W2018650598 cites W2114263087 @default.
W2018650598 cites W2122502711 @default.
W2018650598 cites W2124923401 @default.
W2018650598 cites W2146356499 @default.
W2018650598 cites W2152406992 @default.
W2018650598 cites W2160119905 @default.
W2018650598 cites W2171636319 @default.
W2018650598 doi "https://doi.org/10.1074/jbc.m109.056101" @default.
W2018650598 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/2804369" @default.
W2018650598 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19889630" @default.
W2018650598 hasPublicationYear "2010" @default.
W2018650598 type Work @default.
W2018650598 sameAs 2018650598 @default.
W2018650598 citedByCount "39" @default.
W2018650598 countsByYear W20186505982012 @default.
W2018650598 countsByYear W20186505982013 @default.
W2018650598 countsByYear W20186505982014 @default.
W2018650598 countsByYear W20186505982015 @default.
W2018650598 countsByYear W20186505982016 @default.
W2018650598 countsByYear W20186505982018 @default.
W2018650598 countsByYear W20186505982019 @default.
W2018650598 countsByYear W20186505982020 @default.
W2018650598 countsByYear W20186505982021 @default.
W2018650598 countsByYear W20186505982022 @default.
W2018650598 countsByYear W20186505982023 @default.
W2018650598 crossrefType "journal-article" @default.
W2018650598 hasAuthorship W2018650598A5012617128 @default.
W2018650598 hasAuthorship W2018650598A5025054029 @default.
W2018650598 hasAuthorship W2018650598A5034552270 @default.
W2018650598 hasAuthorship W2018650598A5044242760 @default.
W2018650598 hasAuthorship W2018650598A5044413337 @default.
W2018650598 hasAuthorship W2018650598A5050707540 @default.
W2018650598 hasAuthorship W2018650598A5061660473 @default.
W2018650598 hasBestOaLocation W20186505981 @default.
W2018650598 hasConcept C131667965 @default.
W2018650598 hasConcept C185592680 @default.
W2018650598 hasConcept C192468462 @default.
W2018650598 hasConcept C202033177 @default.
W2018650598 hasConcept C2778024200 @default.
W2018650598 hasConcept C2780724529 @default.
W2018650598 hasConcept C2780827179 @default.
W2018650598 hasConcept C2781040256 @default.
W2018650598 hasConcept C2909445175 @default.
W2018650598 hasConcept C30028475 @default.
W2018650598 hasConcept C55493867 @default.
W2018650598 hasConcept C75473681 @default.
W2018650598 hasConcept C86803240 @default.