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📌 Genes 28393 ▶

▸ Genes (81)

ANGPTL4 (999)APOA4 (997)BDNF (997)IL27 (996)SNAI1 (994)FGFR1 (990)BACE1 (988)MC4R (986)APOB (975)NR1H3 (971)APOE (963)CLN3 (936)LPA (932)MYBPC3 (903)APOA5 (899)CETP (894)LPL (850)FADS1 (778)APOC3 (770)AXIN1 (752)DUSP6 (708)GIPR (683)EXT1 (651)CPS1 (596)DYM (589)MLXIPL (556)HEY2 (430)PIK3C3 (378)LINGO1 (312)HSD17B12 (271)CBX1 (251)WWP2 (244)MLLT10 (226)MACF1 (221)MAP2K5 (219)DLG2 (215)ADCY3 (191)NRXN3 (184)KANSL1 (175)BBS4 (164)DHX36 (157)RMC1 (149)ACP2 (146)PATJ (143)JMJD1C (134)BCKDK (126)RAB21 (120)DOCK7 (114)VPS13C (112)RAPSN (95)NUP160 (89)GPRC5B (87)ZPR1 (84)LMOD1 (82)SEC16B (80)AKAP6 (77)PABPC4 (73)RGS17 (68)ZC3H4 (49)FADS3 (46)MYO19 (46)ANAPC4 (44)RBM6 (44)MAST3 (43)UNC79 (43)POC5 (37)BRWD1 (36)MPPED2 (33)SNRPC (30)ANKRD28 (27)TNKS1BP1 (25)C1QTNF4 (20)EFR3B (18)APOBR (18)ZNF668 (16)PRRC2C (15)ANKDD1B (11)ZNF768 (8)FAM114A2 (6)CCDC171 (5)ZNF654 (3)

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brain-derived neurotrophic factor (39)neuroplasticity (32)exercise (20)neurobiology (19)neurotoxicity (18)trkb (16)traditional chinese medicine (15)genetics (15)neurotrophic factors (14)hippocampal (13)central nervous system (12)neuroprotective (11)gut-brain axis (10)neurology (10)stroke (10)obesity (9)neurotrophic (9)psychology (9)dementia (9)zebrafish (8)bipolar disorder (8)neurotrophins (8)blood-brain barrier (8)aging (7)anti-inflammatory (7)neuropsychiatric disorders (7)memory (7)nanoparticles (7)neuropathic pain (7)neurotransmission (6)neurological disorders (6)mental health (6)neurotrophin (6)rats (6)stem cells (6)neuromodulation (6)astrocytes (6)neurodevelopmental disorders (6)psychiatry (6)cns (5)neuronal cells (5)meta-analysis (5)bioavailability (5)biochemistry (5)pathology (5)psychedelics (5)probiotics (5)amyloid-β (5)epilepsy (5)neurodevelopment (5)polymorphism (5)akt (5)aerobic exercise (5)astrocyte (4)nutrition (4)metabolomics (4)toxicity (4)neuroimmune (4)amyloid beta 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⚗️ Metals 1041 ▶

▸ Metals — Other (620)

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regulation (1)restraint stress (1)regenerative capabilities (1)antinociceptive (1)cerebral palsy (1)cerebral infarction (1)normal pressure hydrocephalus (1)positron emission tomography (1)bioengineered delivery system (1)adenosine (1)connexin43 (1)immunoregulation (1)comorbid (1)cerebrovascular disease (1)in silico (1)moderate-intensity continuous training (1)cognitive improvement (1)stress-induced depressive behaviors (1)drug delivery (1)lycopene delivery (1)host-virus interactions (1)phosphatidic acid (1)sirt1 (1)neuroserpin (1)heat stress (1)macular degeneration (1)medial prefrontal cortex (1)intranasal drug delivery (1)early diagnosis (1)rem sleep behavior disorder (1)seizures (1)psychosocial (1)prenatal supplementation (1)adeno-associated virus (1)neurotoxic effects (1)proanthocyanidins (1)neurocognitive (1)anti-inflammatory effects (1)gestational opioid exposure (1)nociceptive sensitization (1)stress axis regulation (1)anthocyanins (1)pruritus (1)phlorotannin (1)high intensity interval training (1)prosopis cineraria (1)psychosis (1)constipation (1)psychedelic compounds (1)delphinidin (1)myostatin (1)triterpenoid saponins (1)limbic structures (1)osteoblast (1)bdnf expression (1)poly(lactic-co-glycolic acid) (1)korean population (1)neuroimmune crosstalk (1)chronic diseases (1)low birthweight (1)α7 nicotinic acetylcholine receptor (1)protein quality control (1)peptide hydrogel (1)fecal calprotectin (1)metabolic adaptation (1)single-cell transcriptomics (1)cell differentiation (1)neurogenic bladder (1)hippocampal synaptic proteins (1)chemoresistance (1)herb pair (1)chronotropic incompetence (1)autism-like behavior (1)testicular health (1)aggressive behavior (1)allodynia (1)obstructive sleep apnea (1)opioid overdose (1)gold coast criteria (1)n-methyl-d-aspartate receptor (1)psychological stress (1)betulinic acid (1)retinal degeneration (1)depressive pathologies (1)traumatic event (1)ros (1)extremely low-frequency electromagnetic field (1)cognitive impairments 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(1)physiological adaptations (1)inflammatory responses (1)tissue architecture (1)vascularization (1)neuroimmune responses (1)human respiratory syncytial virus (1)vision loss (1)rapid antidepressant effects (1)tau pathology (1)drug release (1)signal peptide (1)noncommunicable diseases (1)electrospun (1)alcohol-induced cognitive impairment (1)vasoactive intestinal polypeptide (1)cognitive behavior (1)hypothalamic pituitary adrenal axis (1)machine learning (1)hypothalamic-pituitary adrenal axis (1)parkinsonism (1)cognitive resilience (1)impairment (1)experimental autoimmune uveoretinitis (1)precursor state (1)hmg-coa reductase inhibitors (1)tumor necrosis factor-α (1)relationship (1)cognitive aging (1)clinical psychology (1)antidepressant activity (1)optic nerve injury (1)mechanistic (1)vascular maturation (1)biomechanics (1)aerospace medicine (1)oncogenic drivers (1)differentiation (1)resistance training (1)paraventricular nucleus (1)ecotoxicity (1)synaptic homeostasis (1)environmental concern (1)bdnf/creb pathway (1)creb phosphorylation (1)mood dysregulation (1)nitrous oxide (1)dentate gyrus (1)paternal exposure (1)behavioral despair (1)nicotine exposure (1)lactobacillus plantarum (1)electroacupuncture (1)female mice (1)fetal neural development (1)tropomyosin receptor kinase b (1)environmental contaminants (1)differentiation protocols (1)magnetic resonance imaging (1)reward processing (1)arsenic (1)steroid effects (1)diosgenin (1)stress hormone (1)oral administration (1)hemorheology (1)synaptic models (1)reversal learning (1)synaptic signaling (1)cognitive outcomes (1)presynaptic (1)magnetic field exposure (1)ischemia reperfusion injury (1)nitric oxide (1)toxoplasmosis (1)tyrosine kinase inhibitors (1)acute hepatitis (1)glucagon-like peptide-1 receptor agonists (1)somatosensory cortex (1)serotonin pathway (1)biological effects (1)cyanidin (1)breast cancer (1)

📌 LLM 852 ▶

▸ LLM (77)

bdnf (116)neuroprotection (67)depression (63)neuroinflammation (53)neurotrophic factor (49)alzheimer's disease (44)oxidative stress (40)anxiety (32)inflammation (28)apoptosis (22)cognitive impairment (20)biomarkers (16)neurodegeneration (16)gene expression (15)parkinson's disease (15)hippocampus (15)cognitive decline (15)brain (15)gut microbiota (13)schizophrenia (13)microglia (11)therapeutic target (11)neurogenesis (11)biomarker (10)creb (9)signaling pathway (9)huntington's disease (8)animal study (8)bdnf/trkb (8)neurodegenerative disease (7)neuron (7)hpa axis (5)cerebral ischemia (5)autophagy (4)in vitro (4)nrf2 (4)mitochondrial dysfunction (4)hiv (4)synaptic remodeling (3)mapk (3)longitudinal study (3)gut (2)preclinical study (2)synaptogenesis (2)cerebrospinal fluid (2)mtor (2)plasma (2)epigenetic mechanisms (2)multiple sclerosis (2)dna damage (2)erk1/2 (2)nf-κb (2)amyloid clearance (1)mechanotransduction (1)neurotrophic effects (1)cholinergic neurotransmission (1)alzheimer (1)neuropsychiatric disorder (1)feature selection (1)brain injury (1)neural stem cell (1)neuroinflammatory signaling (1)review (1)microbial metabolite (1)friedreich's ataxia (1)nrf2/are (1)non-alcoholic steatohepatitis (1)clinical observation (1)cerebellar granule neurons (1)pi3k/akt (1)exposome (1)neurocognitive performance (1)cohort study (1)stress response (1)erk/creb (1)epigenetic regulation (1)neuroendocrine signaling (1)

🦠 Diseases 57 ▶

▸ Diseases — Other (15)

neurodegenerative diseases (15)neurodegenerative disorder (10)neurodegenerative disorders (10)diabetes (5)cancer (3)type 2 diabetes (2)lung cancer (2)alzheimer disease (2)type 2 diabetes mellitus (2)type 3 diabetes (1)neurodegenerative (1)non-small cell lung cancer (1)diabetes mellitus (1)anticancer (1)gestational diabetes mellitus (1)

⚙️ Mechanisms 56 ▶

▸ Mechanisms — Other (43)

signaling pathways (6)signaling (4)mitochondrial dynamics (3)epigenetics (2)mitochondrial (2)bdnf signaling (2)mitochondrial biogenesis (1)epigenetic (1)crf signaling (1)pi3k/akt signaling pathway (1)oxidative dna damage (1)mapk/erk/jnk signaling pathways (1)bdnf/trkb signaling (1)biological signaling pathways (1)mitochondrial fatty acid β-oxidation (1)mitochondrial fusion (1)wnt signaling (1)nf-kb signaling (1)neural signaling (1)akt signaling pathway (1)mitochondrial quality (1)pi3k/akt/mtor signaling pathway (1)mitochondrial functions (1)camp/pka signaling pathway (1)cholinergic signaling (1)neuroplastic signaling (1)cellular signaling (1)neurotrophin signaling (1)metabolite signaling (1)serotonergic signaling (1)mitochondria (1)epigenetic modifications (1)endocrine signaling (1)insulin signaling (1)ng2 signaling (1)pacap signaling (1)pi3k/akt/bdnf signaling (1)bdnf-trkb signaling pathway (1)camp signaling (1)mitochondrial energy metabolism (1)pain signaling (1)calcium signaling (1)neuroimmune signaling (1)

🎯 Targets 22 ▶

▸ Targets — Other (13)

micrornas (4)microrna (3)maternal separation (2)lncrna (2)maternal immune activation (2)maternal exercise (2)microrna-34a (1)maternal (1)mtor pathway (1)rna (1)dna methylation (1)mrna (1)fibrinolytic enzymes (1)

🧬 Activities 20 ▶

▸ Activities — Other (10)

antioxidant (11)sensory nerves (1)antioxidant activity (1)pet imaging (1)in vivo imaging (1)bioluminescence imaging (1)sensory neurotoxicity (1)neuroimaging (1)antioxidants (1)antioxidant properties (1)

🔗 Ligands 19 ▶

▸ Ligands — Other (12)

ketamine (4)monoamine deficiency (2)monoaminergic (2)dopamine (2)dopaminergic neurons (2)dopaminergic neuron (1)histaminergic transmission (1)esketamine (1)monoamine (1)dopaminergic (1)methamphetamine (1)histamine (1)

🧠 Concepts 5 ▶

▸ Concepts — Other (4)

metabolism (2)immunometabolism (1)brain metabolism (1)energy metabolism (1)

💊 Drugs 4 ▶

▸ Drugs — Other (3)

quercetin (2)oxaliplatin (1)paclitaxel (1)

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S-nitrosylation of Dexras1 attenuates fear memory generalization in the infralimbic cortex.

Cheng Qin, Ke Chen, Yu-Yang Chen +3 more · 2026 · Brain research · Elsevier · added 2026-04-24

Cheng Qin, Ke Chen, Yu-Yang Chen, Jia-Ru Li, Yan Tao, Xin-Lan Bian Show less

Fear memory generalization is a fundamental hallmark of post-traumatic stress disorder (PTSD) that enables animals to use past experience to adapt to changing conditions. The infralimbic cortex (IL) i Show more

Fear memory generalization is a fundamental hallmark of post-traumatic stress disorder (PTSD) that enables animals to use past experience to adapt to changing conditions. The infralimbic cortex (IL) is implicated in suppressing generalized fear, but the underlying molecular mechanisms remain unknown. Here, we demonstrate that S-nitrosylation of Dexras1 (SNO-Dexras1) in the IL drives fear generalization. Dexras1 is activated by nitric oxide (NO) donors as well as by N-methyl-D-aspartic acid (NMDA) receptor-stimulated NO synthesis in cortical neurons. It is found that the level of SNO-Dexras1 is significantly increased in the IL of generalized mice and downregulation of SNO-Dexras1 attenuates fear generalization. Mechanistically, inhibition of SNO-Dexras1 increases the expression of phosphorylated extracellular regulated protein kinases (pERK) and brain derived neurotrophic factor (BDNF), implicating synaptic remodeling in the IL. Our study reveals a key role of SNO-Dexras1 in the fear generalization, which may provide a potential therapeutic strategy for PTSD. Show less

no PDF DOI: 10.1016/j.brainres.2026.150209

BDNF dexras1 fear memory infralimbic cortex nitric oxide nmda post-traumatic stress disorder s-nitrosylation

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