Localization of caveolin-1 and c-src in mature and differentiating photoreceptors: raft proteins co-distribute with rhodopsin during development

[1]  S. Baker,et al.  The outer segment serves as a default destination for the trafficking of membrane proteins in photoreceptors , 2008, The Journal of cell biology.

[2]  M. Naash,et al.  Differential distribution of proteins and lipids in detergent‐resistant and detergent‐soluble domains in rod outer segment plasma membranes and disks , 2007, Journal of neurochemistry.

[3]  M. Elliott,et al.  Phosphorylation of caveolin-1 in bovine rod outer segments in vitro by an endogenous tyrosine kinase. , 2008, Advances in experimental medicine and biology.

[4]  Á. Szél,et al.  Distribution of caveolin isoforms in the lemur retina , 2007, Journal of veterinary science.

[5]  Á. Szél,et al.  Different caveolin isoforms in the retina of melanoma malignum affected human eye , 2007, Molecular vision.

[6]  D. Deretic A role for rhodopsin in a signal transduction cascade that regulates membrane trafficking and photoreceptor polarity , 2006, Vision Research.

[7]  P. Insel,et al.  Focal Adhesions in (Myo)fibroblasts Scaffold Adenylyl Cyclase with Phosphorylated Caveolin* , 2006, Journal of Biological Chemistry.

[8]  C. Moon,et al.  Immunohistochemical study of caveolin-1 and -2 in the rat retina , 2006, Journal of veterinary science.

[9]  Richard G. W. Anderson,et al.  Phospho-caveolin-1 mediates integrin-regulated membrane domain internalization , 2005, Nature Cell Biology.

[10]  R. Brush,et al.  Detailed characterization of the lipid composition of detergent-resistant membranes from photoreceptor rod outer segment membranes. , 2005, Investigative ophthalmology & visual science.

[11]  Karl-Wilhelm Koch,et al.  Recoverin and Rhodopsin Kinase Activity in Detergent-resistant Membrane Rafts from Rod Outer Segments* , 2004, Journal of Biological Chemistry.

[12]  J. Hurley,et al.  Direct Binding of Visual Arrestin to Microtubules Determines the Differential Subcellular Localization of Its Splice Variants in Rod Photoreceptors* , 2004, Journal of Biological Chemistry.

[13]  M. Elliott,et al.  Cholesterol-dependent association of caveolin-1 with the transducin alpha subunit in bovine photoreceptor rod outer segments: disruption by cyclodextrin and guanosine 5'-O-(3-thiotriphosphate). , 2003, Biochemistry.

[14]  K. Palczewski,et al.  Rhodopsin phosphorylation: 30 years later , 2003, Progress in Retinal and Eye Research.

[15]  L. Pike Lipid rafts Published, JLR Papers in Press, February 1, 2003. DOI 10.1194/jlr.R200021-JLR200 , 2003, Journal of Lipid Research.

[16]  K. Seno,et al.  Active transducin alpha subunit carries PDE6 to detergent-resistant membranes in rod photoreceptor outer segments. , 2003, Biochemical and biophysical research communications.

[17]  K. Boesze-Battaglia,et al.  Association of a Photoreceptor-specific Tetraspanin Protein, ROM-1, with Triton X-100-resistant Membrane Rafts from Rod Outer Segment Disk Membranes* , 2002, The Journal of Biological Chemistry.

[18]  V. Slepak,et al.  Signal-Dependent Translocation of Transducin, RGS9-1-Gβ5L Complex, and Arrestin to Detergent-Resistant Membrane Rafts in Photoreceptors , 2002, Current Biology.

[19]  Han Liu,et al.  Light- and Guanosine 5′-3-O-(Thio)triphosphate-sensitive Localization of a G Protein and Its Effector on Detergent-resistant Membrane Rafts in Rod Photoreceptor Outer Segments* , 2001, The Journal of Biological Chemistry.

[20]  S. Kachi,et al.  Localization of caveolin-1 in photoreceptor synaptic ribbons. , 2001, Investigative ophthalmology & visual science.

[21]  R. Parton,et al.  Membrane microdomains and caveolae. , 1999, Current opinion in cell biology.

[22]  G. H. Jacobs,et al.  Cone receptor variations and their functional consequences in two species of hamster , 1999, Visual Neuroscience.

[23]  J. Engelman,et al.  Crowded little caves: structure and function of caveolae. , 1998, Cellular signalling.

[24]  Á. Szél,et al.  Photopigments and photoentrainment in the Syrian golden hamster , 1997, Brain Research.

[25]  M. Lisanti,et al.  Phosphorylation of Caveolin by Src Tyrosine Kinases , 1996, The Journal of Biological Chemistry.

[26]  Á. Szél,et al.  Binding sites of photoreceptor-specific antibodies COS-1, OS-2 and AO. , 1993, Current eye research.

[27]  H. Khorana Rhodopsin, photoreceptor of the rod cell. An emerging pattern for structure and function. , 1992, The Journal of biological chemistry.

[28]  J. Greiner,et al.  Development of the hamster retina: a morphologic study. , 1978, American journal of veterinary research.

[29]  U. K. Laemmli,et al.  Cleavage of structural proteins during , 1970 .