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W2032062018 abstract "In metazoans, lysosomes are characterized by a unique tubular morphology, acidic pH, and specific membrane protein (LAMP) and lipid (cholesterol) composition as well as a soluble protein (hydrolases) composition. Here we show that perturbation to the eye‐color gene, light , results in impaired lysosomal acidification, sterol accumulation, altered endosomal morphology as well as compromised lysosomal degradation. We find that Drosophila homologue of Vps41, Light, regulates the fusion of a specific subset of biosynthetic carriers containing characteristic endolysosomal membrane proteins, LAMP1, V0‐ATPase and the cholesterol transport protein, NPC1, with the endolysosomal system, and is then required for the morphological progression of the multivesicular endosome. Inhibition of Light results in accumulation of biosynthetic transport intermediates that contain these membrane cargoes, whereas under similar conditions, endosomal delivery of soluble hydrolases, previously shown to be mediated by Dor, the Drosophila homologue of Vps18, is not affected. Unlike Dor, Light is recruited to endosomes in a PI3P‐sensitive fashion wherein it facilitates fusion of these biosynthetic cargoes with the endosomes. Depletion of the mammalian counterpart of Light, hVps41, in a human cell line also inhibits delivery of hLAMP to endosomes, suggesting an evolutionarily conserved pathway in metazoa." @default.
W2032062018 created "2016-06-24" @default.
W2032062018 creator A5016739528 @default.
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W2032062018 creator A5085598243 @default.
W2032062018 creator A5089477963 @default.
W2032062018 date "2011-05-30" @default.
W2032062018 modified "2023-10-16" @default.
W2032062018 title "Lysosomal Membrane Protein Composition, Acidic pH and Sterol Content are Regulated via a Light-Dependent Pathway in Metazoan Cells" @default.
W2032062018 cites W1483698819 @default.
W2032062018 cites W1495951828 @default.
W2032062018 cites W1541488575 @default.
W2032062018 cites W1549415496 @default.
W2032062018 cites W1635401440 @default.
W2032062018 cites W1939081758 @default.
W2032062018 cites W1963828768 @default.
W2032062018 cites W1965589422 @default.
W2032062018 cites W1968633942 @default.
W2032062018 cites W1973042956 @default.
W2032062018 cites W1973436184 @default.
W2032062018 cites W1981026057 @default.
W2032062018 cites W1983862855 @default.
W2032062018 cites W1984119463 @default.
W2032062018 cites W1985786432 @default.
W2032062018 cites W1987813580 @default.
W2032062018 cites W1996872353 @default.
W2032062018 cites W2001025029 @default.
W2032062018 cites W2007215986 @default.
W2032062018 cites W2011030446 @default.
W2032062018 cites W2014780134 @default.
W2032062018 cites W2020456066 @default.
W2032062018 cites W2026324678 @default.
W2032062018 cites W2035950274 @default.
W2032062018 cites W2037307064 @default.
W2032062018 cites W2038916704 @default.
W2032062018 cites W2045466386 @default.
W2032062018 cites W2061369703 @default.
W2032062018 cites W2064499338 @default.
W2032062018 cites W2064916242 @default.
W2032062018 cites W2068219566 @default.
W2032062018 cites W2069274491 @default.
W2032062018 cites W2070740225 @default.
W2032062018 cites W2071239489 @default.
W2032062018 cites W2075907568 @default.
W2032062018 cites W2079368124 @default.
W2032062018 cites W2080852497 @default.
W2032062018 cites W2080934311 @default.
W2032062018 cites W2082941849 @default.
W2032062018 cites W2084471993 @default.
W2032062018 cites W2086189475 @default.
W2032062018 cites W2086871300 @default.
W2032062018 cites W2089085630 @default.
W2032062018 cites W2095220436 @default.
W2032062018 cites W2096657097 @default.
W2032062018 cites W2097000049 @default.
W2032062018 cites W2115564611 @default.
W2032062018 cites W2119386400 @default.
W2032062018 cites W2121357228 @default.
W2032062018 cites W2127622479 @default.
W2032062018 cites W2130691377 @default.
W2032062018 cites W2134130034 @default.
W2032062018 cites W2134344512 @default.
W2032062018 cites W2135404068 @default.
W2032062018 cites W2137685927 @default.
W2032062018 cites W2140324218 @default.
W2032062018 cites W2144332892 @default.
W2032062018 cites W2147666645 @default.
W2032062018 cites W2152331121 @default.
W2032062018 cites W2153964142 @default.
W2032062018 cites W2154430272 @default.
W2032062018 cites W2154586763 @default.
W2032062018 cites W2155347323 @default.
W2032062018 cites W2160369364 @default.
W2032062018 cites W2161591620 @default.
W2032062018 cites W2163982782 @default.
W2032062018 cites W2166445583 @default.
W2032062018 cites W4236353352 @default.
W2032062018 cites W4246635528 @default.
W2032062018 doi "https://doi.org/10.1111/j.1600-0854.2011.01214.x" @default.
W2032062018 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/21535339" @default.
W2032062018 hasPublicationYear "2011" @default.
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