| Q58792029 | A molecular signature for delayed graft function |
| Q39423542 | A single day of 5-azacytidine exposure during development induces neurodegeneration in neonatal mice and neurobehavioral deficits in adult mice |
| Q30552760 | Aberrant regulation of DNA methylation in amyotrophic lateral sclerosis: a new target of disease mechanisms |
| Q44156166 | Altered histone acetylation at glutamate receptor 2 and brain-derived neurotrophic factor genes is an early event triggered by status epilepticus. |
| Q36089396 | Altering 5-hydroxymethylcytosine modification impacts ischemic brain injury |
| Q37980010 | An environmental analysis of genes associated with schizophrenia: hypoxia and vascular factors as interacting elements in the neurodevelopmental model. |
| Q52670226 | Cell Death Mechanisms in Stroke and Novel Molecular and Cellular Treatment Options. |
| Q37524901 | Cell biology of ischemia/reperfusion injury |
| Q38529630 | Cerebral Ischemic Preconditioning: the Road So Far…. |
| Q36408222 | Correlating Gene-specific DNA Methylation Changes with Expression and Transcriptional Activity of Astrocytic KCNJ10 (Kir4.1) |
| Q34660398 | CpG methylation in neurons: message, memory, or mask? |
| Q48254748 | DNA Methylation Inhibitor Zebularine Confers Stroke Protection in Ischemic Rats |
| Q90632433 | DNA Methylation in Neurodegenerative and Cerebrovascular Disorders |
| Q36937215 | DNA damage and neurotoxicity of chronic alcohol abuse |
| Q49078217 | DNA hypomethylation perturbs the function and survival of CNS neurons in postnatal animals. |
| Q30659938 | DNA methylation in health and disease |
| Q30498534 | DNA methylation regulates cocaine-induced behavioral sensitization in mice |
| Q30993657 | DNA methylation, methyltransferases, and cancer |
| Q37249117 | DNA modifications and neurological disorders |
| Q26829214 | DNA modifications: function and applications in normal and disease States |
| Q90630283 | Decoding epigenetic codes: new frontiers in exploring recovery from spinal cord injury |
| Q38498575 | Differential DNA methylation patterns define status epilepticus and epileptic tolerance. |
| Q35533933 | Differential DNA methylation profiles of coding and non-coding genes define hippocampal sclerosis in human temporal lobe epilepsy. |
| Q91822486 | Differential roles of epigenetic regulators in the survival and differentiation of oligodendrocyte precursor cells |
| Q34103901 | Dnmt1 and Dnmt3a maintain DNA methylation and regulate synaptic function in adult forebrain neurons. |
| Q35609509 | Dynamic changes in DNA methylation in ischemic tolerance |
| Q64963688 | Effect of Inhibition of DNA Methylation Combined with Task-Specific Training on Chronic Stroke Recovery. |
| Q36710231 | Effects of intracerebral hemorrhage on 5-hydroxymethylcytosine modification in mouse brains. |
| Q48372953 | Effects of transient cerebral ischemia on the expression of DNA methyltransferase 1 in the gerbil hippocampal CA1 region |
| Q36938455 | Emerging role of epigenetics in stroke: part 1: DNA methylation and chromatin modifications |
| Q58581550 | Emodin rescued hyperhomocysteinemia-induced dementia and Alzheimer's disease-like features in rats |
| Q99634731 | Epigenetic Mechanisms Underlying Adult Post Stroke Neurogenesis |
| Q26743597 | Epigenetic Regulation of Oxidative Stress in Ischemic Stroke |
| Q35203674 | Epigenetic mechanisms are involved in the regulation of ethanol consumption in mice |
| Q37150340 | Epigenetic mechanisms in cerebral ischemia. |
| Q36682567 | Epigenetic mechanisms in neurological disease |
| Q36465823 | Epigenetic mechanisms in stroke and epilepsy |
| Q35220512 | Epigenetic mechanisms of neuroplasticity and the implications for stroke recovery. |
| Q36995424 | Epigenetic modulation of gene expression governs the brain's response to injury |
| Q24657549 | Epigenetic principles and mechanisms underlying nervous system functions in health and disease |
| Q47564897 | Epigenetic regulation of astrocyte function in neuroinflammation and neurodegeneration |
| Q35791723 | Epigenetic regulation of axon and dendrite growth |
| Q38123724 | Epigenetic regulation of axon outgrowth and regeneration in CNS injury: the first steps forward. |
| Q55209717 | Epigenetic regulation of inflammation in stroke. |
| Q35614360 | Epigenetic regulation of motor neuron cell death through DNA methylation |
| Q34587312 | Epigenetic targets of HDAC inhibition in neurodegenerative and psychiatric disorders. |
| Q37724103 | Epigenetics in Stroke Recovery |
| Q36465858 | Epigenetics in the human brain |
| Q33352309 | Epigenetics: an expanding new piece of the stroke puzzle |
| Q35986676 | Essential role of interleukin-6 in post-stroke angiogenesis |
| Q94540547 | Exosomal MicroRNA-126 from RIPC Serum Is Involved in Hypoxia Tolerance in SH-SY5Y Cells by Downregulating DNMT3B |
| Q36395765 | Fetal stress-mediated hypomethylation increases the brain susceptibility to hypoxic-ischemic injury in neonatal rats |
| Q28507446 | Folate regulation of axonal regeneration in the rodent central nervous system through DNA methylation |
| Q53668815 | Fractionated low-dose exposure to ionizing radiation leads to DNA damage, epigenetic dysregulation, and behavioral impairment. |
| Q37441257 | Genetics of stroke |
| Q38750023 | Glutamate and ATP at the Interface Between Signaling and Metabolism in Astroglia: Examples from Pathology |
| Q57554613 | Histone Deacetylase Regulates Trypsin Activation, Inflammation, and Tissue Damage in Acute Pancreatitis in Mice |
| Q26801660 | Histone Deacetylases Exert Class-Specific Roles in Conditioning the Brain and Heart Against Acute Ischemic Injury |
| Q57471207 | Histone Hyperacetylation as a Response to Global Brain Ischemia Associated with Hyperhomocysteinemia in Rats |
| Q35153024 | Histone acetylation and CREB binding protein are required for neuronal resistance against ischemic injury |
| Q24650710 | Histone deacetylase inhibition reduces myocardial ischemia-reperfusion injury in mice |
| Q37832963 | Histone deacetylase inhibitors as therapeutic agents for acute central nervous system injuries |
| Q28508648 | Histone deacetylases 1 and 2 are expressed at distinct stages of neuro-glial development |
| Q28392267 | Histone methylation patterns in astrocytes are influenced by age following ischemia |
| Q24606593 | Histone modifications, DNA methylation, and schizophrenia |
| Q39037754 | Implications of Epigenetic Mechanisms and their Targets in Cerebral Ischemia Models |
| Q37752924 | Improved transplantation outcome by epigenetic changes |
| Q90206188 | Involvement of Epigenetic Mechanisms and Non-coding RNAs in Blood-Brain Barrier and Neurovascular Unit Injury and Recovery After Stroke |
| Q39109413 | Ischemia/Reperfusion |
| Q37249150 | Ischemic preconditioning alters the epigenetic profile of the brain from ischemic intolerance to ischemic tolerance |
| Q35228795 | Life or death? A physiogenomic approach to understand individual variation in responses to hemorrhagic shock |
| Q38071621 | Matters of life and death: the role of chromatin remodeling proteins in retinal neuron survival |
| Q38938539 | Mechanisms of Axonal Damage and Repair after Central Nervous System Injury |
| Q34323788 | Mechanisms of epigenetic memory and addiction |
| Q97519708 | Methylation Data Processing Protocol and Comparison of Blood and Cerebral Spinal Fluid Following Aneurysmal Subarachnoid Hemorrhage |
| Q43662812 | Mild cerebral ischemia induces loss of cyclin-dependent kinase inhibitors and activation of cell cycle machinery before delayed neuronal cell death. |
| Q96683588 | N6-methyladenosine (m6A) methylation in ischemia-reperfusion injury |
| Q36401907 | Neural circuitry and neuroplasticity in mood disorders: insights for novel therapeutic targets |
| Q53757262 | Neural stem cell therapies and hypoxic-ischemic brain injury. |
| Q40237987 | Neuronal injury: folate to the rescue? |
| Q92663401 | Pathogenesis of Ischemic Stroke: Role of Epigenetic Mechanisms |
| Q38085380 | Potential roles of HDAC inhibitors in mitigating ischemia-induced brain damage and facilitating endogenous regeneration and recovery. |
| Q37158226 | Preconditioning and tolerance against cerebral ischaemia: from experimental strategies to clinical use. |
| Q48601770 | Promoter region methylation and reduced expression of thrombospondin-1 after oxygen-glucose deprivation in murine cerebral endothelial cells |
| Q49120809 | Protective conditioning of the brain: expressway or roadblock? |
| Q90408077 | Regulation of gene expression in ischemic preconditioning in the brain |
| Q24616417 | Rett syndrome and MeCP2: linking epigenetics and neuronal function |
| Q89999905 | Role of DNA Methylation in Hypobaric Hypoxia-Induced Neurodegeneration and Spatial Memory Impairment |
| Q38264414 | Role of DNA methylation and the DNA methyltransferases in learning and memory |
| Q34009114 | Role of histone acetylation in the development of diabetic retinopathy and the metabolic memory phenomenon |
| Q44007043 | Rosuvastatin, a new HMG-CoA reductase inhibitor, upregulates endothelial nitric oxide synthase and protects from ischemic stroke in mice |
| Q40480325 | Somatostatin receptor 2 is activated in cortical neurons and contributes to neurodegeneration after focal ischemia. |
| Q40351243 | Stage-specific induction of DNA methyltransferases in olfactory receptor neuron development. |
| Q37699534 | Stress and the Emerging Roles of Chromatin Remodeling in Signal Integration and Stable Transmission of Reversible Phenotypes. |
| Q26992041 | Stroke: understanding the differences between males and females |
| Q36961798 | Synergy of homocysteine, microRNA, and epigenetics: a novel therapeutic approach for stroke |
| Q93344416 | Tetrahydrocurcumin epigenetically mitigates mitochondrial dysfunction in brain vasculature during ischemic stroke |
| Q38740709 | The Emerging Role of Epigenetics in Cerebral Ischemia |
| Q37304728 | The HDAC inhibitor, sodium butyrate, stimulates neurogenesis in the ischemic brain |
| Q34699689 | The association between neuronal nitric oxide synthase and neuronal sensitivity in the brain after brain injury |
| Q52587433 | The critical chemical and mechanical regulation of folic acid on neural engineering. |
| Q39313679 | The emerging field of epigenetics in neurodegeneration and neuroprotection |
| Q34834731 | The emerging nexus of active DNA demethylation and mitochondrial oxidative metabolism in post-mitotic neurons |
| Q36891239 | The future of neuroepigenetics in the human brain. |
| Q34236086 | The molecular pathology of schizophrenia--focus on histone and DNA modifications |
| Q37969752 | The nuclear events guiding successful nerve regeneration |
| Q37637177 | The potential neuroprotective role of a histone deacetylase inhibitor, sodium butyrate, after neonatal hypoxia-ischemia |
| Q33526324 | The site specific demethylation in the 5'-regulatory area of NMDA receptor 2B subunit gene associated with CIE-induced up-regulation of transcription |
| Q26851243 | Tolerance to ischemia - an increasingly complex biology |
| Q38978425 | Transcriptional and Epigenetic Regulation in Injury-Mediated Neuronal Dendritic Plasticity |
| Q48451473 | Transient forebrain ischemia alters the mRNA expression of methyl DNA-binding factors in the adult rat hippocampus. |
| Q48151974 | Variants of the EAAT2 Glutamate Transporter Gene Promoter Are Associated with Cerebral Palsy in Preterm Infants |
| Q24297361 | Zinc-fingers and homeoboxes 1 (ZHX1) binds DNA methyltransferase (DNMT) 3B to enhance DNMT3B-mediated transcriptional repression |