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Dendritic spine pathology in schizophreniaThe neurogenetics of alternative splicingHippocampal CA3 transcriptome signature correlates with initial precipitating injury in refractory mesial temporal lobe epilepsyProteomic analysis of adrenocorticotropic hormone treatment of an infantile spasm model induced by N-methyl-D-aspartic acid and prenatal stressRegulation of Ca2+ channels by SNAP-25 via recruitment of syntaxin-1 from plasma membrane clustersAssociation between SNAP-25 gene polymorphisms and cognition in autism: functional consequences and potential therapeutic strategiesSynaptosomal-associated protein 25 mutation induces immaturity of the dentate granule cells of adult mice.Synaptosomal-associated protein 25 (Snap-25) gene polymorphism frequency in fibromyalgia syndrome and relationship with clinical symptomsA novel mechanism and treatment target for presynaptic abnormalities in specific striatal regions in schizophreniaThe splicing regulator Rbfox1 (A2BP1) controls neuronal excitation in the mammalian brain.Synaptosomal-associated protein 25 gene polymorphisms and antisocial personality disorder: association with temperament and psychopathy.Advances in imaging ultrastructure yield new insights into presynaptic biologyPresynaptic residual calcium and synaptic facilitation at hippocampal synapses of mice with altered expression of SNAP-25.Disrupted circadian rhythms in a mouse model of schizophrenia.Reduced SNAP-25 alters short-term plasticity at developing glutamatergic synapses.Cerebrospinal fluid biomarker candidates of schizophrenia: where do we stand?Evaluating the links between schizophrenia and sleep and circadian rhythm disruption.Nutrition, immunological mechanisms and dietary immunomodulation in ADHD.Adult Neurogenesis and Psychiatric Disorders.SNAP-25 is abundantly expressed in enteric neuronal networks and upregulated by the neurotrophic factor GDNF.Emerging role of miRNA in attention deficit hyperactivity disorder: a systematic review.Exploring the Validity of Proposed Transgenic Animal Models of Attention-Deficit Hyperactivity Disorder (ADHD).Cleavage of SNAP-25 ameliorates cancer pain in a mouse model of melanoma.SNAP-25 phosphorylation at Ser187 regulates synaptic facilitation and short-term plasticity in an age-dependent manner.Reduced SNAP-25 increases PSD-95 mobility and impairs spine morphogenesis.The Relationship between the SNAP-25 Polymorphism and Omission Errors in Korean Children with Attention Deficit Hyperactivity DisorderAmyloid-β Oligomers May Impair SNARE-Mediated Exocytosis by Direct Binding to Syntaxin 1a.Upregulation of NRG-1 and VAMP-1 in human brain aggregates exposed to clozapine.SNAP-25 regulates spine formation through postsynaptic binding to p140Cap.Rare exonic deletions of the RBFOX1 gene increase risk of idiopathic generalized epilepsy.High Conservation of Tetanus and Botulinum Neurotoxins Cleavage Sites on Human SNARE Proteins Suggests That These Pathogens Exerted Little or No Evolutionary Pressure on Humans.Temporal characteristics of vesicular fusion in astrocytes: examination of synaptobrevin 2-laden vesicles at single vesicle resolution.Epigenetic Regulation of SNAP25 Prevents Progressive Glutamate Excitotoxicty in Hypoxic CA3 Neurons.Variants in SNAP25 are targets of natural selection and influence verbal performances in women.Genetic variants of synaptic vesicle and presynaptic plasma membrane proteins in idiopathic generalized epilepsy.Hippocampal Pathophysiology: Commonality Shared by Temporal Lobe Epilepsy and Psychiatric Disorders.
P2860
Q26991935-BD2C97E0-132C-4AAB-AD2E-0950E67EDDCBQ28069349-D9C4E7DD-6C92-4744-AFE6-0C8E9033A6A3Q28477505-E86F21FB-3063-465B-BB21-AAB75EBBD281Q28483823-3DCE1582-69B1-47F7-BE50-4BACD8B21584Q28817037-FD3DD349-A466-4463-9479-EB8CAA0418BCQ30419188-07BCD8B4-4C7F-4E6F-BAE2-1A0ED2A4AB24Q30456114-B6AF7434-9317-4D8E-812F-810559DADD15Q34500836-90B2A694-C6AC-4635-888D-80086A7FF7CBQ34660862-F8B93D8E-CFC2-4C5A-8F5B-F49550E43EF5Q35074709-974F48CF-83AF-440F-9A9E-4D0867D1766CQ35195339-9773EE4F-836F-421C-B741-786D3BB6BD92Q35635007-A6BA559D-058B-4420-8534-06D85A14063BQ35635582-3C84D8A6-7E58-46F8-80F4-FAA1B775768BQ35973907-287AB7EF-5B5A-4B18-B0E6-AA3BF4942BB2Q36981886-10D5D8B7-D376-4230-96FC-7739C23D51F5Q37968946-38D55BFC-4BC2-46D7-91D1-C2BBFFCCF279Q38008577-3EBAF76B-FA76-4FD5-9F86-C86660F45C92Q38184947-4BFC18A0-D7BA-442F-ACDF-9760397FC08CQ38708466-C3FDB3F7-6B25-4B26-8BBB-0EAC87EDEEEDQ38912566-04551929-B75E-4831-9C2D-18FD359704B2Q39298012-C7A2E828-884B-440F-A47A-25CFF0BBB680Q39324205-8AB7EFD6-1909-4AFE-861F-24673019D562Q39683861-0BBB00EF-D638-4DC5-90DE-46049B5923EBQ41367535-43FE4D71-61F9-4E8E-A51D-FD7E920A6C3CQ41441160-F85243FC-9754-4833-BBC5-DC4C52545A9EQ41474580-F8FA7B26-3DFA-4960-B71E-94EF2FFB61FAQ42409562-F584D043-206F-4CE9-AD05-AEE10C09E19FQ42580467-48319FF1-9727-4A23-B9EC-1E59321B6AA4Q43946588-F05FB6AC-3E5E-45AB-8B81-B8A3F1A7FB51Q46499520-5EC272F9-E841-44E3-8C05-567EF1850FB9Q47151577-FA86F175-E4F0-47F6-9C76-C83A1A5BBA1BQ49062814-4FB55598-826F-4EFC-8B1E-A124EE1A9027Q51453460-40580BFB-B2DF-42DB-93A3-D897A8BE12E6Q53093415-ACAD24CE-73D7-489A-98FD-11AD3675063BQ54237855-B8944C71-CE38-490A-807C-2C0412FD265BQ55016099-E963A266-0E34-4ECD-9704-41CB37DF81AA
P2860
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on January 2009
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
SNAP-25 in neuropsychiatric disorders.
@en
SNAP-25 in neuropsychiatric disorders.
@nl
type
label
SNAP-25 in neuropsychiatric disorders.
@en
SNAP-25 in neuropsychiatric disorders.
@nl
prefLabel
SNAP-25 in neuropsychiatric disorders.
@en
SNAP-25 in neuropsychiatric disorders.
@nl
P2093
P2860
P1476
SNAP-25 in neuropsychiatric disorders.
@en
P2093
Claudia Verderio
Irene Corradini
Mariaelvina Sala
Michael C Wilson
Michela Matteoli
P2860
P356
10.1111/J.1749-6632.2008.03995.X
P407
P577
2009-01-01T00:00:00Z