Search results for "Photoreceptor"

showing 10 items of 143 documents

SANS (USH1G) expression in developing and mature mammalian retina

2008

AbstractThe human Usher syndrome (USH) is the most common form of combined deaf-blindness. Usher type I (USH1), the most severe form, is characterized by profound congenital deafness, constant vestibular dysfunction and prepubertal-onset of retinitis pigmentosa. Five corresponding genes of the six USH1 genes have been cloned so far. The USH1G gene encodes the SANS (scaffold protein containing ankyrin repeats and SAM domain) protein which consists of protein motifs known to mediate protein–protein interactions. Recent studies indicated SANS function as a scaffold protein in the protein interactome related to USH.Here, we generated specific antibodies for SANS protein expression analyses. Our…

Retinal degenerationScaffold proteinBlotting WesternNerve Tissue ProteinsBiologyRibbon synapseRats Inbred WKYPhotoreceptor cellRetinaMiceXenopus laevisAntibody SpecificityCiliogenesisConnecting ciliumRetinitis pigmentosamedicineAnimalsCiliaEye ProteinsCentrosomeRetinaCiliogenesisPhotoreceptor cellsCiliumImmune SeraCiliary BodyFibroblastsmedicine.diseaseSynapseSensory SystemsCell biologyRatsMice Inbred C57BLOphthalmologymedicine.anatomical_structureSynapsesRetinal developmentsense organsUsher SyndromesUsher syndromePhotoreceptor Cells VertebrateSynaptosomesVision Research
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TOPORS, implicated in retinal degeneration, is a cilia-centrosomal protein.

2011

et al.

Retinal degenerationUbiquitin-Protein LigasesBiologymedicine.disease_causeRetinaCell Line03 medical and health scienceschemistry.chemical_compoundMiceNuclear proteins0302 clinical medicineIntraflagellar transportGeneticsmedicineBasal bodyAnimalsHumansPhotoreceptor CellsCiliaMolecular BiologyZebrafishGenetics (clinical)Cells CulturedZebrafish030304 developmental biologyCentrosome0303 health sciencesRetinaMutationUbiquitinCiliumRetinal DegenerationNuclear ProteinsRetinalTOPORS proteinGeneral MedicineArticlesmedicine.diseasebiology.organism_classification3. Good healthCell biologyNeoplasm ProteinsProtein Transportmedicine.anatomical_structurechemistryNeoplasm proteinssense organs030217 neurology & neurosurgeryHuman molecular genetics
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Vesicle transport and photoreceptor death: fishing for molecular links.

2013

Intracellular vesicle transport defects can induce retinal degeneration and photoreceptor cell death, but the molecular connections between these processes remains poorly understood. Reporting in Developmental Cell, Nishiwaki et al. (2013) suggest that a vesicle fusion cis-SNARE complex component translates vesicular transport defects into photoreceptor cell apoptosis.

Retinal degenerationVesicle fusionLipid bilayer fusionIntracellular vesicleApoptosisCell BiologyBiologymedicine.diseaseMembrane FusionGeneral Biochemistry Genetics and Molecular BiologyPhotoreceptor cellCell biologyVesicular transport proteinSoluble N-Ethylmaleimide-Sensitive Factor Attachment Proteinsmedicine.anatomical_structureProto-Oncogene Proteins c-bcl-2ApoptosismedicineRetinal Cone Photoreceptor CellsAnimalsMolecular BiologyDevelopmental BiologyDevelopmental cell
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Phosphodiesterase inhibition induces retinal degeneration, oxidative stress and inflammation in cone-enriched cultures of porcine retina.

2013

nherited retinal degenerations affecting both rod and cone photoreceptors constitute one of the causes 74 of incurable blindness in the developed world. Cyclic guanosine monophosphate (cGMP) is crucial in the 75 phototransduction and, mutations in genes related to its metabolism are responsible for different retinal 76 dystrophies. cGMP-degrading phosphodiesterase 6 (PDE6) mutations cause around 4e5% of the retinitis 77 pigmentosa, a rare form of retinal degeneration. The aim of this study was to evaluate whether phar- 78 macological PDE6 inhibition induced retinal degeneration in cone-enriched cultures of porcine retina 79 similar to that found in murine models. PDE6 inhibition was induced…

Retinal degenerationgenetic structuresPurinonesPhosphodiesterase InhibitorsSwineEstrès oxidatiuApoptosisBiologyRetinaCellular and Molecular Neurosciencechemistry.chemical_compoundOrgan Culture TechniquesRetinitis pigmentosamedicineIn Situ Nick-End LabelingAnimalsNeurociènciesCyclic GMPRetinaCalpainCaspase 3Retinal DegenerationPhosphodiesteraseRetinalmedicine.diseaseMolecular biologySensory SystemsOphthalmologyOxidative Stressmedicine.anatomical_structurechemistryBiochemistryRetinal Cone Photoreceptor CellsSwine Miniaturesense organsZaprinastRetinal DystrophiesRetinitis PigmentosaVisual phototransduction
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The GTP- and Phospholipid-Binding Protein TTD14 Regulates Trafficking of the TRPL Ion Channel in Drosophila Photoreceptor Cells

2015

Recycling of signaling proteins is a common phenomenon in diverse signaling pathways. In photoreceptors of Drosophila, light absorption by rhodopsin triggers a phospholipase Cβ-mediated opening of the ion channels transient receptor potential (TRP) and TRP-like (TRPL) and generates the visual response. The signaling proteins are located in a plasma membrane compartment called rhabdomere. The major rhodopsin (Rh1) and TRP are predominantly localized in the rhabdomere in light and darkness. In contrast, TRPL translocates between the rhabdomeral plasma membrane in the dark and a storage compartment in the cell body in the light, from where it can be recycled to the plasma membrane upon subsequ…

RhodopsinCancer Researchlcsh:QH426-470LightGTP'BiologyEye03 medical and health sciencesTransient receptor potential channelTransient Receptor Potential Channels0302 clinical medicineGTP-binding protein regulatorsGTP-Binding ProteinsGeneticsAnimalsDrosophila ProteinsMolecular BiologyGenetics (clinical)Ecology Evolution Behavior and SystematicsIon channel030304 developmental biology0303 health sciencesCell MembraneMembrane ProteinsDarknessRhabdomereTransport proteinCell biologylcsh:GeneticsProtein TransportDrosophila melanogasterMembrane proteinRhodopsinMutationbiology.proteinPhotoreceptor Cells Invertebrate030217 neurology & neurosurgerySignal TransductionResearch ArticlePLOS Genetics
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Rhodopsin transport in the membrane of the connecting cilium of mammalian photoreceptor cells

2000

The transport of the photopigment rhodopsin from the inner segment to the photosensitive outer segment of vertebrate photoreceptor cells has been one of the main remaining mysteries in photoreceptor cell biology. Because of the lack of any direct evidence for the pathway through the photoreceptor cilium, alternative extracellular pathways have been proposed. Our primary aim in the present study was to resolve rhodopsin trafficking from the inner to the outer segment. We demonstrate, predominantly by high-sensitive immunoelectron microscopy, that rhodopsin is also densely packed in the membrane of the photoreceptor connecting cilium. Present prominent labeling of rhodopsin in the ciliary mem…

RhodopsinOpsingenetic structuresPhotoreceptor Connecting CiliumImmunoblottingMolecular Sequence Datamacromolecular substancesMyosinsBiologyPhotoreceptor cellRats Sprague-DawleyMiceRetinal Rod Photoreceptor CellsStructural BiologymedicineAnimalsHumansPhotopigmentAmino Acid SequenceCiliaMicroscopy ImmunoelectronCiliary membraneCiliumRod OpsinsAntibodies MonoclonalDyneinsBiological TransportCell BiologyMiddle AgedRod Cell Outer SegmentActin cytoskeletonImmunohistochemistryActinseye diseasesRatsCell biologyMice Inbred C57BLmedicine.anatomical_structureRhodopsinMyosin VIIabiology.proteinCattleFemalesense organsRetinitis PigmentosaCell Motility and the Cytoskeleton
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Peripherin-2 couples rhodopsin to the CNG channel in outer segments of rod photoreceptors.

2014

Outer segments (OS) of rod photoreceptors are cellular compartments specialized in the conversion of light into electrical signals. This process relies on the light-triggered change in the intracellular levels of cyclic guanosine monophosphate (cGMP), which in turn controls the activity of cyclic nucleotide-gated (CNG) channels in the rod OS plasma membrane. The rod CNG channel is a macromolecular complex that in its core harbors the ion-conducting CNGA1 and CNGB1a subunits. To identify additional proteins of the complex that interact with the CNGB1a core subunit we applied affinity purification of mouse retinal proteins followed by mass spectrometry. In combination with in vitro and in viv…

Rhodopsingenetic structuresImmunoelectron microscopyProtein subunitPeripherinsCyclic Nucleotide-Gated Cation ChannelsNerve Tissue ProteinsBiologyRetinaCell membraneMiceRetinal Rod Photoreceptor CellsRetinitis pigmentosaGeneticsmedicineAnimalsHumansPeripherin 2Molecular BiologyGenetics (clinical)General MedicineAnatomyRetinal Photoreceptor Cell Outer Segmentmedicine.diseaseProtein Structure TertiaryTransmembrane domainmedicine.anatomical_structureFörster resonance energy transferRhodopsinbiology.proteinBiophysicssense organsRetinitis PigmentosaProtein Binding
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Scaffold protein harmonin (USH1C) provides molecular links between Usher syndrome type 1 and type 2.

2005

Contains fulltext : 48386.pdf (Publisher’s version ) (Closed access) Usher syndrome (USH) is the most frequent cause of combined deaf-blindness in man. USH is clinically and genetically heterogeneous with at least 11 chromosomal loci assigned to the three USH types (USH1A-G, USH2A-C, USH3A). Although the different USH types exhibit almost the same phenotype in human, the identified USH genes encode for proteins which belong to very different protein classes and families. We and others recently reported that the scaffold protein harmonin (USH1C-gene product) integrates all identified USH1 molecules in a USH1-protein network. Here, we investigated the relationship between the USH2 molecules a…

Scaffold proteinGenetics and epigenetic pathways of disease [NCMLS 6]Usher syndromeStereocilia (inner ear)Cell Cycle ProteinsBiologyInteractomeReceptors G-Protein-CoupledMiceotorhinolaryngologic diseasesGeneticsmedicineAnimalsNeurosensory disorders [UMCN 3.3]Photoreceptor CellsRats WistarMolecular BiologyGeneGenetics (clinical)Renal disorder [IGMD 9]GeneticsExtracellular Matrix ProteinsStereociliumBinding SitesHair Cells Auditory InnerSodium-Bicarbonate SymportersUsher Syndrome Type 1General Medicinemedicine.diseasePhenotypeRatsMice Inbred C57BLCytoskeletal ProteinsCarrier ProteinsUsher Syndromes
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A novel Usher protein network at the periciliary reloading point between molecular transport machineries in vertebrate photoreceptor cells.

2008

Contains fulltext : 69178.pdf (Publisher’s version ) (Closed access) The human Usher syndrome (USH) is the most frequent cause of combined deaf-blindness. USH is genetically heterogeneous with at least 12 chromosomal loci assigned to three clinical types, USH1-3. Although these USH types exhibit similar phenotypes in human, the corresponding gene products belong to very different protein classes and families. The scaffold protein harmonin (USH1C) was shown to integrate all identified USH1 and USH2 molecules into protein networks. Here, we analyzed a protein network organized in the absence of harmonin by the scaffold proteins SANS (USH1G) and whirlin (USH2D). Immunoelectron microscopic anal…

Scaffold proteinGenetics and epigenetic pathways of disease [NCMLS 6]XenopusCell Cycle ProteinsNerve Tissue ProteinsBiologyIn Vitro TechniquesNeuroinformatics [DCN 3]TransfectionModels BiologicalReceptors G-Protein-CoupledMiceChlorocebus aethiopsProtein Interaction MappingGeneticsPerception and Action [DCN 1]otorhinolaryngologic diseasesAnimalsHumansNeurosensory disorders [UMCN 3.3]Cell Cycle ProteinMicroscopy ImmunoelectronMolecular BiologyIntegral membrane proteinGenetics (clinical)Adaptor Proteins Signal TransducingRenal disorder [IGMD 9]GeneticsMice KnockoutExtracellular Matrix ProteinsCiliumSignal transducing adaptor proteinMembrane ProteinsGeneral MedicineTransmembrane proteinCell biologyMice Inbred C57BLCytoskeletal ProteinsEctodomainGenetic defects of metabolism [UMCN 5.1]COS CellsNIH 3T3 CellsCervical collarUsher SyndromesFunctional Neurogenomics [DCN 2]Photoreceptor Cells VertebrateSubcellular FractionsImmunity infection and tissue repair [NCMLS 1]
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Gene-based treatment options for Usher type 1C by translational read-through of a nonsense mutation

2012

The Usher syndrome (USH) is the most frequent cause of inherited combined deaf-blindness. The ciliopathy is clinically and genetically heterogeneous, assigned to three clinical USH types of which the most severe type is USH1. The USH1C gene encodes the PDZ containing scaffold protein harmonin which is expressed in form of numerous alternatively spliced variants. Hamonin binds directly to all USH1/2 proteins and is a key organizer of USH protein networks in photoreceptor cells. So far no effective treatment for the ophthalmic component of USH exists. Translational read-through was introduced as an innovative therapy option for several non-ocular diseases caused by nonsense mutations leading …

Scaffold proteinGeneticslcsh:CytologyUsher syndromePDZ domainNonsense mutationCell BiologyBiologymedicine.diseaseCiliopathiesPhotoreceptor cellCell biologyCiliopathymedicine.anatomical_structureotorhinolaryngologic diseasesmedicineOral Presentationlcsh:QH573-671GeneCilia
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