The amygdala excitatory/inhibitory balance in a valproate-induced rat autism model - Wikidata - wikimedia - TriplyDB

The amygdala excitatory/inhibitory balance in a valproate-induced rat autism model

The amygdala excitatory/inhibitory balance in a valproate-induced rat autism model

http://www.wikidata.org/entity/Q34576258

about

What We Have Learned about Autism Spectrum Disorder from Valproic Acid Channelopathy pathogenesis in autism spectrum disorders Premature changes in neuronal excitability account for hippocampal network impairment and autistic-like behavior in neonatal BTBR T+tf/J mice.Overexpression of Homer1a in the basal and lateral amygdala impairs fear conditioning and induces an autism-like social impairment Early Social Isolation Stress and Perinatal NMDA Receptor Antagonist Treatment Induce Changes in the Structure and Neurochemistry of Inhibitory Neurons of the Adult Amygdala and Prefrontal Cortex.Nlgn4 knockout induces network hypo-excitability in juvenile mouse somatosensory cortex in vitro.Shank3-mutant mice lacking exon 9 show altered excitation/inhibition balance, enhanced rearing, and spatial memory deficit.Activation of mGluR2/3 underlies the effects of N-acetylcystein on amygdala-associated autism-like phenotypes in a valproate-induced rat model of autism.In utero exposure to valproic acid changes sleep in juvenile rats: a model for sleep disturbances in autism.Abnormal emotional learning in a rat model of autism exposed to valproic acid in utero.Long-term behavioral programming induced by peripuberty stress in rats is accompanied by GABAergic-related alterations in the Amygdala.Suppression of NMDA receptor function in mice prenatally exposed to valproic acid improves social deficits and repetitive behaviors.Distinct Defects in Synaptic Differentiation of Neocortical Neurons in Response to Prenatal Valproate Exposure.Valproic acid silencing of ascl1b/Ascl1 results in the failure of serotonergic differentiation in a zebrafish model of fetal valproate syndrome Redox Regulation and the Autistic Spectrum: Role of Tryptophan Catabolites, Immuno-inflammation, Autoimmunity and the Amygdala.Relaxin-3/RXFP3 networks: an emerging target for the treatment of depression and other neuropsychiatric diseases?Sarm1 deficiency impairs synaptic function and leads to behavioral deficits, which can be ameliorated by an mGluR allosteric modulator.Developmental disruption of amygdala transcriptome and socioemotional behavior in rats exposed to valproic acid prenatally.Reduced inhibitory gate in the barrel cortex of Neuroligin3R451C knock-in mice, an animal model of autism spectrum disorders.Postnatal Stress Induced by Injection with Valproate Leads to Developing Emotional Disorders Along with Molecular and Cellular Changes in the Hippocampus and Amygdala.D-Cycloserine Ameliorates Autism-Like Deficits by Removing GluA2-Containing AMPA Receptors in a Valproic Acid-Induced Rat Model.Alleviation of N-Methyl-D-Aspartate Receptor-Dependent Long-Term Depression via Regulation of the Glycogen Synthase Kinase-3β Pathway in the Amygdala of a Valproic Acid-Induced Animal Model of Autism.Exploring the relationship between cortical GABA concentrations, auditory gamma-band responses and development in ASD: Evidence for an altered maturational trajectory in ASD.Fetal domoic acid exposure affects lateral amygdala neurons, diminishes social investigation and alters sensory-motor gating.Resveratrol Prevents Cellular and Behavioral Sensory Alterations in the Animal Model of Autism Induced by Valproic Acid.Decreased Number and Expression of nNOS-Positive Interneurons in Basolateral Amygdala in Two Mouse Models of Autism Potentiation of Glutamatergic Synaptic Transmission Onto Dorsal Raphe Serotonergic Neurons in the Valproic Acid Model of Autism

P2860

Q21284783-02D46E4B-8BEB-4CDD-BFDA-4A329E706023 Q26864726-E7F5B12A-506D-41F4-B1A4-FA6172D98838 Q27316607-2DDEB354-8E5E-48AA-96A3-B95762763731 Q27322939-1B7C4BD5-7FAB-407B-8835-CA76165E7CB7 Q30357412-53B9E54E-067A-4BCE-BD0E-54635E753E59 Q30549883-843C8278-A042-4208-827D-58FB02F87993 Q30629661-F16D4CC4-FB29-487B-9BDD-2AC7F6D821C7 Q33764854-A3BBF057-9555-4AED-ACC6-C43462CDC0D2 Q34125907-E9925803-75EE-4A09-9CEB-817C180F1C25 Q34495960-AFEC5413-9A36-4084-8C5C-10FF29B38335 Q35148944-607DD8CA-3445-4BF8-BE5C-BDE232EEF40F Q35650220-95B2DB55-DE85-415A-BBB2-FC1F51050343 Q36970472-C175B129-DBAE-428B-BBEA-C296C5C4B2F6 Q37438521-4B5AB12F-B175-4754-8F47-E071BBCFD0E0 Q37661363-95493DB7-0A2D-45D5-9F21-06F2F4B6EC22 Q37670707-943BE8FC-FB59-4579-AA94-D2353067D6F6 Q37689367-FF8F2ACF-4D5F-4047-A1EA-CA4055161464 Q41206601-E77AD079-DF4A-4D1A-941B-21E05A2342CF Q41818903-562EED8B-30F2-4879-A745-A9A294ACE579 Q47609543-C698686F-F862-4B10-B3D1-5B7A9E795EFB Q47771498-29018963-2921-4146-B179-A88AADA1283D Q48043088-3AFEB74B-01E2-421E-95C2-2DAB8D71D1D5 Q48785697-79BB14DA-354E-407A-8493-6CD7A4C1079C Q48956956-A2166E34-8985-48FC-BA18-61ED9BFBC42A Q55340060-3CD8F6A4-99DB-42B3-9321-8FD6EE2A8240 Q58785889-B90CEBD6-076B-4DCF-9251-94227FB0F0CC Q59128049-F75B713B-7697-4E72-93F2-A1F9A88E4F11

P2860

The amygdala excitatory/inhibitory balance in a valproate-induced rat autism model

http://www.wikidata.org/entity/Q34576258

description

2013 nî lūn-bûn

@nan

2013 թուականի Յունուարին հրատարակուած գիտական յօդուած

@hyw

2013 թվականի հունվարին հրատարակված գիտական հոդված

@hy

2013年の論文

@ja

2013年論文

@yue

2013年論文

@zh-hant

2013年論文

@zh-hk

2013年論文

@zh-mo

2013年論文

@zh-tw

2013年论文

@wuu

name

The amygdala excitatory/inhibitory balance in a valproate-induced rat autism model

@ast

The amygdala excitatory/inhibitory balance in a valproate-induced rat autism model

@en

The amygdala excitatory/inhibitory balance in a valproate-induced rat autism model

@nl

type

label

The amygdala excitatory/inhibitory balance in a valproate-induced rat autism model

@ast

The amygdala excitatory/inhibitory balance in a valproate-induced rat autism model

@en

The amygdala excitatory/inhibitory balance in a valproate-induced rat autism model

@nl

prefLabel

The amygdala excitatory/inhibitory balance in a valproate-induced rat autism model

@ast

The amygdala excitatory/inhibitory balance in a valproate-induced rat autism model

@en

The amygdala excitatory/inhibitory balance in a valproate-induced rat autism model

@nl

P1433

Q34576258-DF429DEE-D383-4014-BAEB-0DB36BE27EA8

P1476

Q34576258-ACC6F9C0-35F9-4895-8EE3-B9AB85FCA477

P2093

Q34576258-2F313739-EA55-483D-986A-91959BDE8BC9

Q34576258-4C95B187-FD8B-457F-8F35-47C2DF79E692

Q34576258-8F8F70F3-FC55-41DD-9243-04F95760E4A0

Q34576258-915032E8-3B5E-4145-966B-23CFCCAD10DA

Q34576258-AB977458-3737-4364-A107-192172F3205F

P2860

Q34576258-0A93984E-852D-4667-A397-128FF96258FB

Q34576258-0FE1BBC9-5FC0-4262-9EFA-9B2098B03626

Q34576258-1084FEC8-27B0-45A0-8409-0E30A53F31BD

Q34576258-130B5A8E-5B36-4398-83AE-529AFE913EDC

Q34576258-13E24FAE-4479-499D-8647-2985B93E7949

Q34576258-16ABE11A-6C1C-4DC0-AD05-A7FCFC9A683C

Q34576258-1ABDA7F6-386D-41EF-8D5F-B223FACEEDF1

Q34576258-1BA551F0-6085-4D12-9EEC-2C00177075BB

Q34576258-1C792261-3FAA-47BB-88CD-DCE223BF7259

Q34576258-1E8FDACC-51AB-446D-AB00-3D68A5BBC114

P304

Q34576258-4D10AD73-6BDD-44C1-871E-C69634F6F2EA

P31

Q34576258-CF362FF7-F8EC-4021-BE96-595DEF561B28

P356

Q34576258-2E9BDBA1-4D87-4A65-B954-8DF52E4626A1

P407

Q34576258-1A45E43D-C940-4810-8605-8FF9A0BF2AB3

P433

Q34576258-B15EE03E-5F97-4122-A0EE-DE39C6FCCFF3

P478

Q34576258-A4F7F3EB-7F1C-4992-ADF2-B3404D9D2D49

P577

Q34576258-278ABC6C-811B-4A95-9321-5B092173FBF0

P5875

Q34576258-4F4B3017-25B9-4DE7-92D9-AC1F66BCEB8B

P698

Q34576258-A9DA2603-2766-42C3-B9FF-2DC830522927

P921

Q34576258-DBF9EC00-E72D-4260-B083-2C5AF6EDBE68

P932

Q34576258-D47CB31B-C5EA-4F54-B653-22C284AAF8EA

P356

JOURNAL.PONE.0055248

P1433

P1476

The amygdala excitatory/inhibitory balance in a valproate-induced rat autism model

@en

P2093

Chao-Chuan Wang

http://www.w3.org/2001/XMLSchema#string

Hui-Ching Lin

http://www.w3.org/2001/XMLSchema#string

Po See Chen

http://www.w3.org/2001/XMLSchema#string

Po-Wu Gean

http://www.w3.org/2001/XMLSchema#string

Yun-Han Chan

http://www.w3.org/2001/XMLSchema#string

P2860

Neuroligins and neurexins link synaptic function to cognitive disease

Neuroligin expressed in nonneuronal cells triggers presynaptic development in contacting axons

Amygdala volume and social network size in humans

Personal space regulation by the human amygdala

Neurexin-neuroligin signaling in synapse development

An autism-associated point mutation in the neuroligin cytoplasmic tail selectively impairs AMPA receptor-mediated synaptic transmission in hippocampus

Neuroligin-1 deletion results in impaired spatial memory and increased repetitive behavior.

Emotion: clues from the brain

Neuroligin1: a cell adhesion molecule that recruits PSD-95 and NMDA receptors by distinct mechanisms during synaptogenesis

The social brain: neural basis of social knowledge

P304

e55248

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1371/JOURNAL.PONE.0055248

http://www.w3.org/2001/XMLSchema#string

P407

P433

1

http://www.w3.org/2001/XMLSchema#string

P478

8

http://www.w3.org/2001/XMLSchema#string

P577

2013-01-29T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

235403046

http://www.w3.org/2001/XMLSchema#string

P698

23383124

http://www.w3.org/2001/XMLSchema#string

P921

P932

3558482

http://www.w3.org/2001/XMLSchema#string