scholarly article | Q13442814 |
P356 | DOI | 10.1016/0896-6273(93)90072-Y |
P698 | PubMed publication ID | 8398150 |
P2093 | author name string | Wong F | |
Hao Y | |||
Chang GQ | |||
P433 | issue | 4 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | photoreceptor protein | Q7187894 |
apoptotic process | Q14599311 | ||
P304 | page(s) | 595-605 | |
P577 | publication date | 1993-10-01 | |
P1433 | published in | Neuron | Q3338676 |
P1476 | title | Apoptosis: final common pathway of photoreceptor death in rd, rds, and rhodopsin mutant mice | |
P478 | volume | 11 |
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Q37651743 | A novel light damage paradigm for use in retinal regeneration studies in adult zebrafish |
Q37012902 | A novel mutation in Prph2, a gene regulated by Nr2e3, causes retinal degeneration and outer-segment defects similar to Nr2e3 ( rd7/rd7 ) retinas |
Q40077981 | A pathologic study of degeneration of the rod and cone populations of the rhodopsin Pro347Leu transgenic pigs |
Q28585248 | A photoreceptor-specific cadherin is essential for the structural integrity of the outer segment and for photoreceptor survival |
Q44045954 | A rhodopsin mutant linked to autosomal dominant retinitis pigmentosa is prone to aggregate and interacts with the ubiquitin proteasome system |
Q35961539 | A short N-terminal domain of HDAC4 preserves photoreceptors and restores visual function in retinitis pigmentosa |
Q36280960 | A unique pattern of photoreceptor degeneration in cyclin D1 mutant mice |
Q46404573 | Aberrant expression of c-Fos accompanies photoreceptor cell death in the rd mouse |
Q37737834 | Ablation of EYS in zebrafish causes mislocalisation of outer segment proteins, F-actin disruption and cone-rod dystrophy |
Q30979934 | Acquired color vision loss and a possible mechanism of ganglion cell death in glaucoma. |
Q44360148 | Activated microglia in human retinitis pigmentosa, late-onset retinal degeneration, and age-related macular degeneration |
Q77874512 | Activation of caspase-3 in the retina of transgenic rats with the rhodopsin mutation s334ter during photoreceptor degeneration |
Q35566831 | Adeno-associated viral vectors for retinal gene transfer. |
Q45861767 | Adenovirus-mediated gene transfer of Bcl-xL prevents cell death in primary neuronal culture of the rat. |
Q33943213 | An anti-angiogenic state in mice and humans with retinal photoreceptor cell degeneration |
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Q47934948 | Anti-apoptosis therapy: a way of treating neural degeneration? |
Q37903606 | Apoptosis and other cell death mechanisms after retinal detachment: implications for photoreceptor rescue |
Q54106211 | Apoptosis in developing retinal tissue. |
Q41415250 | Apoptosis in development and disease of the nervous system: II. Apoptosis in childhood neurologic disease. |
Q40557426 | Apoptosis in human retinal degenerations. |
Q74170837 | Apoptosis in neural development and disease |
Q41332299 | Apoptosis in ocular disease: a molecular overview |
Q41176259 | Apoptosis: pathophysiology of programmed cell death |
Q40839433 | Apoptotic cell death in retinal degenerations. |
Q30453882 | Apoptotic photoreceptor cell death in mouse models of retinitis pigmentosa |
Q43757186 | Augmented rod bipolar cell function in partial receptor loss: an ERG study in P23H rhodopsin transgenic and aging normal rats |
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Q52561684 | Blocking apoptosis prevents blindness in Drosophila retinal degeneration mutants. |
Q30842334 | Blue light induced apoptosis in rat retina |
Q34772941 | Calcium regulation in photoreceptors. |
Q28588277 | Calcium-induced calcium release contributes to synaptic release from mouse rod photoreceptors |
Q56765193 | Calcium-induced calpain mediates apoptosis via caspase-3 in a mouse photoreceptor cell line |
Q33963936 | Calpain and PARP activation during photoreceptor cell death in P23H and S334ter rhodopsin mutant rats |
Q46888728 | Calpain is activated in degenerating photoreceptors in the rd1 mouse |
Q39495823 | Caspase-7 ablation modulates UPR, reprograms TRAF2-JNK apoptosis and protects T17M rhodopsin mice from severe retinal degeneration |
Q42170279 | Caspase-independent photoreceptor apoptosis in mouse models of retinal degeneration. |
Q44196941 | Caspase-independent photoreceptor apoptosis in vivo and differential expression of apoptotic protease activating factor-1 and caspase-3 during retinal development |
Q37310940 | Cell loss in retinal dystrophies by apoptosis--death by informed consent! |
Q38767261 | Cell-based therapeutic strategies for replacement and preservation in retinal degenerative diseases |
Q40241323 | Ceramide is the key mediator of oxidative stress-induced apoptosis in retinal photoreceptor cells. |
Q26823469 | Ceramide signaling in retinal degeneration |
Q57342721 | Ceria Nanoparticles as Enzyme Mimetics |
Q40443437 | Chapter 17 Genetic Approaches for Studying Programmed Cell Death during Development of the Laboratory Mouse |
Q37037742 | Characterization of a canine model of autosomal recessive retinitis pigmentosa due to a PDE6A mutation |
Q35898077 | Characterization of multiple light damage paradigms reveals regional differences in photoreceptor loss |
Q33285195 | Comparative genetic analysis: the utility of mouse genetic systems for studying human monogenic disease |
Q39559342 | Conditional rod photoreceptor ablation reveals Sall1 as a microglial marker and regulator of microglial morphology in the retina |
Q52196688 | Correlation of DNA fragmentation and chromatin condensation in apoptotic nuclei of the Ser 6 mouse retina. |
Q41725660 | DNA methylation and differential gene regulation in photoreceptor cell death |
Q34535642 | Defective intracellular transport is the molecular basis of rhodopsin-dependent dominant retinal degeneration |
Q27310554 | Defining the catalytic activity of nanoceria in the P23H-1 rat, a photoreceptor degeneration model |
Q33584338 | Detection of retinitis pigmentosa by differential interference contrast microscopy |
Q48335276 | Detection of the membrane-retained carboxy-terminal tail containing polypeptides of the amyloid precursor protein in tissue from Alzheimer's disease brain |
Q37648974 | Development and validation of a canine-specific profiling array to examine expression of pro-apoptotic and pro-survival genes in retinal degenerative diseases |
Q47983174 | Developmental neuronal death is not a universal phenomenon among cell types in the chick embryo retina |
Q77970475 | Differential DNA binding activities of the transcription factors AP-1 and Oct-1 during light-induced apoptosis of photoreceptors |
Q46777985 | Differential modification of phosducin protein in degenerating rd1 retina is associated with constitutively active Ca2+/calmodulin kinase II in rod outer segments |
Q33187583 | Differential proteomic analysis of the mouse retina: the induction of crystallin proteins by retinal degeneration in the rd1 mouse |
Q36538241 | Diffusion of the second messengers in the cytoplasm acts as a variability suppressor of the single photon response in vertebrate phototransduction. |
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Q37323264 | Dynamics of mouse rod phototransduction and its sensitivity to variation of key parameters |
Q34202842 | ER stress in retinal degeneration in S334ter Rho rats |
Q85511019 | Early Events of Synapse Disassembly in the Damaged Retina |
Q60908854 | Early Loss of Vision Results in Extensive Reorganization of Plasticity-Related Receptors and Alterations in Hippocampal Function That Extend Through Adulthood |
Q38525554 | Early loss of synaptic protein PSD-95 from rod terminals of rhodopsin P347L transgenic porcine retina |
Q30830231 | Early postnatal Müller cell death leads to retinal but not optic nerve degeneration in NSE-Hu-Bcl-2 transgenic mice |
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Q33845194 | Effect of g protein-coupled receptor kinase 1 (Grk1) overexpression on rod photoreceptor cell viability |
Q35662681 | Effect of rapamycin on the fate of P23H opsin associated with retinitis pigmentosa (an American Ophthalmological Society thesis). |
Q41846455 | Effects of calcium ion, calpains, and calcium channel blockers on retinitis pigmentosa |
Q40766321 | Effects of docosahexaenoic acid on retinal development: cellular and molecular aspects |
Q54580267 | Enhancing survival of photoreceptor cells in vivo using the synthetic progestin Norgestrel. |
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Q44130152 | Evidence for two apoptotic pathways in light-induced retinal degeneration |
Q48099192 | Examination of the interactions of the amyloid precursor protein carboxyl terminus to intracellular protein: possible role in apoptosis |
Q59209075 | Excessive Activation of Poly(ADP-Ribose) Polymerase Contributes to Inherited Photoreceptor Degeneration in the Retinal Degeneration 1 Mouse |
Q73514849 | Expression of Bcl-2 protects against photoreceptor degeneration in retinal degeneration slow (rds) mice |
Q28581446 | Expression of Nedd2/ICH-1 (caspase-2) in the developing rat retina |
Q28118195 | Expression of TIMP3 mRNA is elevated in retinas affected by simplex retinitis pigmentosa |
Q46140050 | Extracellular ATP induces retinal photoreceptor apoptosis through activation of purinoceptors in rodents |
Q48859205 | Fate of DNA from retinal cells dying during development: uptake by microglia and macroglia (Müller cells). |
Q44508437 | Free radical trap phenyl-N-tert-butylnitrone protects against light damage but does not rescue P23H and S334ter rhodopsin transgenic rats from inherited retinal degeneration. |
Q38340269 | G protein-coupled receptors: functional and mechanistic insights through altered gene expression |
Q39584218 | GDNF-induced osteopontin from Müller glial cells promotes photoreceptor survival in the Pde6brd1 mouse model of retinal degeneration |
Q43599090 | GM-CSF protects rat photoreceptors from death by activating the SRC-dependent signalling and elevating anti-apoptotic factors and neurotrophins |
Q34216705 | Gap junctions mediate bystander cell death in developing retina |
Q33752902 | Gene delivery to mitotic and postmitotic photoreceptors via compacted DNA nanoparticles results in improved phenotype in a mouse model of retinitis pigmentosa |
Q38359342 | Gene expression profiling of light-induced retinal degeneration in phototransduction gene knockout mice |
Q34084443 | Gene therapy and retinitis pigmentosa: advances and future challenges |
Q41677858 | Gene therapy for inherited retinal degeneration |
Q35160142 | Gene therapy for ocular diseases |
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Q34772735 | Genetic animal models for retinal degeneration |
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Q44868831 | Genetically engineered large animal model for studying cone photoreceptor survival and degeneration in retinitis pigmentosa |
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Q52204146 | In situ labeling of apoptotic cell death in the cerebral cortex and thalamus of rats during development. |
Q34950176 | Inhibitory peptide of mitochondrial μ-calpain protects against photoreceptor degeneration in rhodopsin transgenic S334ter and P23H rats |
Q45250001 | Insulin receptor substrate 2 is essential for maturation and survival of photoreceptor cells. |
Q34571303 | Intracellular organelles and calcium homeostasis in rods and cones. |
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Q34229514 | Ischemia-reperfusion injury of the retina is linked to necroptosis via the ERK1/2-RIP3 pathway. |
Q37603325 | Knockout of Ccr2 alleviates photoreceptor cell death in rodent retina exposed to chronic blue light. |
Q34674424 | LEDGF, a survival factor, activates stress-related genes. |
Q53913912 | Lead and calcium produce rod photoreceptor cell apoptosis by opening the mitochondrial permeability transition pore. |
Q41633997 | Light damage in rod outer segments: the effects of fixation on ultrastructural alterations |
Q41073106 | Light damage revisited: converging evidence, diverging views? |
Q44900895 | Light deprivation slows but does not prevent the loss of photoreceptors in taurine transporter knockout mice |
Q57248489 | Light-Driven Calcium Signals in Mouse Cone Photoreceptors |
Q37647792 | Light-emitting-diode induced retinal damage and its wavelength dependency in vivo. |
Q43559246 | Light-induced photoreceptor apoptosis in vivo requires neuronal nitric-oxide synthase and guanylate cyclase activity and is caspase-3-independent. |
Q44728734 | Limited role of developmental programmed cell death pathways in Drosophila norpA retinal degeneration. |
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Q46436930 | Longitudinal assessment of retinal structure and function reveals a rod-cone degeneration in a guinea pig model initially presented as night blind. |
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