scholarly article | Q13442814 |
P356 | DOI | 10.1002/JCP.24522 |
P698 | PubMed publication ID | 24318407 |
P2093 | author name string | Biao Yan | |
Zhi-Fu Tao | |||
Jin Yao | |||
Qin Jiang | |||
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Phase 1 dose-escalation study of a siRNA targeting the RTP801 gene in age-related macular degeneration patients | Q30451413 | ||
Clinical implications of promoter hypermethylation in RASSF1A and MGMT in retinoblastoma | Q30781403 | ||
Suppression of ICAM-1 in retinal and choroidal endothelial cells by plasmid small-interfering RNAs in vivo | Q33478302 | ||
Histone H4 deacetylation plays a critical role in early gene silencing during neuronal apoptosis | Q33588162 | ||
Epigenetic regulation of latent HSV-1 gene expression | Q33729340 | ||
The chromatin-remodeling protein Osa interacts with CyclinE in Drosophila eye imaginal discs | Q33752620 | ||
Polyglutamine-expanded ataxin-7 inhibits STAGA histone acetyltransferase activity to produce retinal degeneration | Q33854083 | ||
Modulation of inflammatory markers by miR-146a during replicative senescence in trabecular meshwork cells | Q33938194 | ||
Cellular expression of Smarca4 (Brg1)-regulated genes in zebrafish retinas | Q33960822 | ||
Inhibition of histone deacetylase protects the retina from ischemic injury | Q33994208 | ||
Ocular neuroprotection by siRNA targeting caspase-2 | Q34192944 | ||
RNAi and small interfering RNAs in human disease therapeutic applications | Q34204092 | ||
Chromatin replication and epigenome maintenance | Q34256428 | ||
Targeting DNA methylation for epigenetic therapy | Q34258037 | ||
The eye as a model of ageing in translational research--molecular, epigenetic and clinical aspects | Q34320001 | ||
Excessive HDAC activation is critical for neurodegeneration in the rd1 mouse. | Q34545446 | ||
ATP-dependent chromatin remodeling: genetics, genomics and mechanisms | Q34627244 | ||
Dynamic patterns of histone lysine methylation in the developing retina. | Q34662331 | ||
Epigenetics: a historical overview | Q34713017 | ||
MicroRNA-200b regulates vascular endothelial growth factor-mediated alterations in diabetic retinopathy | Q34718910 | ||
Identification of miRNAs associated with tumorigenesis of retinoblastoma by miRNA microarray analysis | Q34838128 | ||
Epigenetic mechanisms in diabetic vascular complications | Q34986508 | ||
Role of miR-204 in the regulation of apoptosis, endoplasmic reticulum stress response, and inflammation in human trabecular meshwork cells | Q35027488 | ||
Coordinated regulation of extracellular matrix synthesis by the microRNA-29 family in the trabecular meshwork | Q35027590 | ||
Cross-talk between miR-29 and transforming growth factor-betas in trabecular meshwork cells | Q35027630 | ||
Purkinje cell degeneration in pcd mice reveals large scale chromatin reorganization and gene silencing linked to defective DNA repair | Q35150167 | ||
miR-146a-Mediated extracellular matrix protein production in chronic diabetes complications. | Q35404898 | ||
Long-term RNA interference gene therapy in a dominant retinitis pigmentosa mouse model | Q35546692 | ||
Dnmt2 functions in the cytoplasm to promote liver, brain, and retina development in zebrafish | Q35616001 | ||
Implication of the miR-184 and miR-204 competitive RNA network in control of mouse secondary cataract | Q35973315 | ||
Unraveling a multifactorial late-onset disease: from genetic susceptibility to disease mechanisms for age-related macular degeneration | Q36311846 | ||
Hypomethylation of the IL17RC promoter associates with age-related macular degeneration | Q36442673 | ||
Conditional knockdown of DNA methyltransferase 1 reveals a key role of retinal pigment epithelium integrity in photoreceptor outer segment morphogenesis | Q36648662 | ||
Epigenetic mechanisms in the context of complex diseases | Q36801452 | ||
Epigenetic drugs as pleiotropic agents in cancer treatment: biomolecular aspects and clinical applications. | Q36801625 | ||
Evolutionarily conserved long intergenic non-coding RNAs in the eye | Q36975138 | ||
Correlation between microRNA-34a levels and lens opacity severity in age-related cataracts | Q37005978 | ||
The biology and management of uveal melanoma | Q37244719 | ||
Histone H2AX is integral to hypoxia-driven neovascularization | Q37269906 | ||
Epigenetics, DNA methylation, and chromatin modifying drugs | Q37292593 | ||
Epigenetic regulatory mechanisms in vertebrate eye development and disease. | Q37697504 | ||
Epigenetic modifications as therapeutic targets | Q37800011 | ||
Application of RNA interference in treating human diseases | Q37832903 | ||
Nucleosome structure(s) and stability: variations on a theme | Q37844554 | ||
Signals and combinatorial functions of histone modifications | Q37870190 | ||
Epigenetics: new questions on the response to hypoxia | Q37918376 | ||
An epigenetic approach toward understanding ocular α-herpesvirus pathogenesis and treatment. | Q37928331 | ||
Long noncoding RNA: its physiological and pathological roles | Q38011751 | ||
5-Methylcytosine DNA demethylation: more than losing a methyl group | Q38043063 | ||
Sirtuins: NAD(+)-dependent deacetylase mechanism and regulation | Q38055918 | ||
Readout of epigenetic modifications | Q38103962 | ||
The role of SIRT1 in ocular aging | Q38124672 | ||
The SWI/SNF chromatin remodeling protein Brg1 is required for vertebrate neurogenesis and mediates transactivation of Ngn and NeuroD. | Q38333613 | ||
Epigenetic inactivation of RASSF1a in uveal melanoma. | Q38434326 | ||
MiR-365b-3p, down-regulated in retinoblastoma, regulates cell cycle progression and apoptosis of human retinoblastoma cells by targeting PAX6. | Q39154132 | ||
Down-regulation and CpG island hypermethylation of CRYAA in age-related nuclear cataract | Q39298160 | ||
Hypoxia induced expression of histone lysine demethylases: implications in oxygen-dependent retinal neovascular diseases | Q39450993 | ||
SIRT1 activation protects against autoimmune T cell-driven retinal disease in mice via inhibition of IL-2/Stat5 signaling | Q39470105 | ||
MicroRNAs in early diabetic retinopathy in streptozotocin-induced diabetic rats | Q39557657 | ||
Altered retinal microRNA expression profile in a mouse model of retinitis pigmentosa | Q40150974 | ||
Inhibition of multiple pathogenic pathways by histone deacetylase inhibitor SAHA in a corneal alkali-burn injury model | Q41454864 | ||
Transition of mouse de novo methyltransferases expression from Dnmt3b to Dnmt3a during neural progenitor cell development. | Q42501411 | ||
Uhrf1 and Dnmt1 are required for development and maintenance of the zebrafish lens | Q42573684 | ||
Evaluation of sirtuin role in neuroprotection of retinal ganglion cells in hypoxia. | Q42717654 | ||
MicroRNA‐24 regulates the processing of latent TGFβ1 during cyclic mechanical stress in human trabecular meshwork cells through direct targeting of FURIN | Q42859430 | ||
HSF4 regulates DLAD expression and promotes lens de-nucleation | Q45021692 | ||
Suppression of ocular neovascularization with siRNA targeting VEGF receptor 1. | Q45887309 | ||
Valproic acid-mediated neuroprotection and regeneration in injured retinal ganglion cells. | Q45921402 | ||
Differential microRNA-34a expression and tumor suppressor function in retinoblastoma cells. | Q46011331 | ||
Sirt1 involvement in rd10 mouse retinal degeneration. | Q46029791 | ||
P433 | issue | 7 | |
P921 | main subject | epigenetics | Q26939 |
P304 | page(s) | 825-833 | |
P577 | publication date | 2014-07-01 | |
P1433 | published in | Journal of Cellular Physiology | Q1524270 |
P1476 | title | Epigenetics and ocular diseases: from basic biology to clinical study | |
P478 | volume | 229 |
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Q28077626 | Epigenetics and Common Ophthalmic Diseases |
Q40078094 | Incidence and predictors of Uveitis in juvenile idiopathic arthritis in a Nordic long-term cohort study. |
Q38924650 | Probable Chemical Hypoxia Effects on Progress of CNV Through Induction of Promoter CpG Demethylation and Overexpression of IL17RC in Human RPE Cells. |
Q26785520 | The Genetics and the Genomics of Primary Congenital Glaucoma |
Q41693007 | The expression of cysteine-rich secretory protein 2 (CRISP2) and its specific regulator miR-27b in the spermatozoa of patients with asthenozoospermia. |
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