Molecules and mechanisms involved in the generation and migration of cortical interneurons - Wikidata - wikimedia - TriplyDB

Molecules and mechanisms involved in the generation and migration of cortical interneurons

Molecules and mechanisms involved in the generation and migration of cortical interneurons

http://www.wikidata.org/entity/Q37723283

about

Spatio-temporal extension in site of origin for cortical calretinin neurons in primates The emerging role of Slit-Robo pathway in gastric and other gastro intestinal cancers Loss of Either Rac1 or Rac3 GTPase Differentially Affects the Behavior of Mutant Mice and the Development of Functional GABAergic Networks Rac1 and rac3 GTPases control synergistically the development of cortical and hippocampal GABAergic interneurons Identification of a Protein Network Driving Neuritogenesis of MGE-Derived GABAergic Interneurons.The Long and the Short of it: Gene and Environment Interactions During Early Cortical Development and Consequences for Long-Term Neurological Disease.Neuregulin1/ErbB4-induced migration in ST14A striatal progenitors: calcium-dependent mechanisms and modulation by NMDA receptor activation A dual role of EphB1/ephrin-B3 reverse signaling on migrating striatal and cortical neurons originating in the preoptic area: should I stay or go away?Neuropeptides shaping the central nervous system development: Spatiotemporal actions of VIP and PACAP through complementary signaling pathways.A noise-reduction GWAS analysis implicates altered regulation of neurite outgrowth and guidance in autism.Altered intrinsic properties of neuronal subtypes in malformed epileptogenic cortex.New methods for investigation of neuronal migration in embryonic brain explants.Maternal immune activation by LPS selectively alters specific gene expression profiles of interneuron migration and oxidative stress in the fetus without triggering a fetal immune response Developmental interneuron subtype deficits after targeted loss of Arx Prox1 Regulates the Subtype-Specific Development of Caudal Ganglionic Eminence-Derived GABAergic Cortical Interneurons.GABAergic neuron specification in the spinal cord, the cerebellum, and the cochlear nucleus.Impairment of cortical GABAergic synaptic transmission in an environmental rat model of autism.Organization of the human fetal subpallium.The contribution of GABAergic dysfunction to neurodevelopmental disorders.Specific sets of intrinsic and extrinsic factors drive excitatory and inhibitory circuit formation.GABA through the ages: regulation of cortical function and plasticity by inhibitory interneurons.Cell therapy for stroke: use of local astrocytes.Genetic programs controlling cortical interneuron fate.Roles of Rac1 and Rac3 GTPases during the development of cortical and hippocampal GABAergic interneurons The building of the neocortex with non-hyperpolarizing neurotransmitters.Robo1 regulates semaphorin signaling to guide the migration of cortical interneurons through the ventral forebrain.Distinct expression patterns for type II topoisomerases IIA and IIB in the early foetal human telencephalon.Altered proliferative ability of neuronal progenitors in PlexinA1 mutant mice.Development of cortical GABAergic innervation.Differential gene expression in migratory streams of cortical interneurons.Fused cerebral organoids model interactions between brain regions.Persistent seizure control in epileptic mice transplanted with gamma-aminobutyric acid progenitors.A Method to Culture GABAergic Interneurons Derived from the Medial Ganglionic Eminence.Common basis for orofacial clefting and cortical interneuronopathy.Generation of diverse cortical inhibitory interneurons.Rho GTPases in Intellectual Disability: From Genetics to Therapeutic Opportunities.Identification of Arx targets unveils new candidates for controlling cortical interneuron migration and differentiation

P2860

Q21558415-DB5ED1C5-D147-41BD-BE9F-B43F8E2849CE Q26775454-E4EF9BCA-EE93-4DF0-AF27-B233C8AA211F Q27302773-7F02F52E-5DA6-4907-B1CC-454C9A5A5CCA Q28588387-178E0965-49EA-4450-B5FC-650D2DFEF532 Q30354530-300085AC-568D-4B57-8B98-65A5866EE429 Q30466613-07D6EDD9-227A-41E7-A04E-0F48767E9823 Q31033150-87CF04F7-32DC-4723-A5D9-68EFEE77AB26 Q33919022-0FB9AE03-37C9-4175-8EC6-34465538730A Q34542229-7621C43D-D488-4AC1-9921-C3361256F8B2 Q34557745-4309156A-EDEB-4800-BE81-4BFDEF4368AA Q34632262-1737D779-2A17-45A9-B12D-64BD4DD73E3B Q34714774-A5599270-2BD2-4E56-B0E1-C31F2C7D3992 Q35774224-3094F2D0-24FF-49B9-96C2-2ADD3A9334C0 Q36048943-94FCFB3A-B465-4C07-97BC-D5044960BFE8 Q36064419-66BE9FBA-723E-49A8-ADFA-680802F4E124 Q36090789-1A333189-2A36-42E5-ACA5-B3C18D5E59BF Q36906435-D839D7B5-765F-40E6-99B4-BB987F7C9164 Q37485886-E49470AE-A536-4DDA-B9D6-274CD6ED0D5D Q37868164-2F58DD01-FF18-4FFE-B937-EB48E4B7C0F9 Q37886398-BA15FAC1-DAB5-400C-863D-07B5F83C9FB8 Q38026047-CF508B50-8685-407E-A043-2BF81445EE9F Q38057229-1A6D40A7-A4F0-49D6-A416-81B8C0E992A5 Q38179737-161AF2C5-2DBE-4174-80C1-2F3F45DDD405 Q38259548-8963E6DD-4C49-4558-967B-CD336B23DC89 Q39170149-B39E5598-7AB6-4363-A7BF-9964FC0825BD Q39555522-5EBC1189-E237-4FEC-8454-A6FBBED3AC25 Q40196610-6CD4CF53-2680-496B-BB05-3C4D1DF35060 Q40938701-758F7458-C19F-427B-9FD4-F56E687454A8 Q41941564-78141621-7AB8-43D0-B2C1-CB7A558F1FA8 Q41960764-4724633A-71FC-430E-843D-1C43C25D3CC3 Q43919007-DEF2EBBC-5CD2-4FCA-A4A3-108E44DEF92A Q45992908-449853BF-3818-4E84-AAFC-418BA979C23A Q47846052-E64EAB17-C334-4690-AD51-5A2E065B2366 Q47873453-9CD6D9D8-384C-4306-9148-A34E7D90DA6E Q50113411-71CCF571-BC05-4007-B57D-F2B894B8C9D7 Q55644124-C99DD19F-1562-4D98-906A-37A8F0CF1F77 Q58493057-4B067E6E-FBCA-4D9A-9BC2-FE7B69D1E0DA

P2860

Molecules and mechanisms involved in the generation and migration of cortical interneurons

http://www.wikidata.org/entity/Q37723283

description

article científic

@ca

article scientifique

@fr

articolo scientifico

@it

artigo científico

@pt

bilimsel makale

@tr

scientific article published on 31 March 2010

@en

vedecký článok

@sk

vetenskaplig artikel

@sv

videnskabelig artikel

@da

vědecký článek

@cs

name

Molecules and mechanisms invol ...... ation of cortical interneurons

@en

Molecules and mechanisms invol ...... tion of cortical interneurons.

@nl

type

label

Molecules and mechanisms invol ...... ation of cortical interneurons

@en

Molecules and mechanisms invol ...... tion of cortical interneurons.

@nl

prefLabel

Molecules and mechanisms invol ...... ation of cortical interneurons

@en

Molecules and mechanisms invol ...... tion of cortical interneurons.

@nl

P1433

Q37723283-CA17283E-4A3D-4397-A8A1-715DA4D2AE81

P1476

Q37723283-C77DAEA5-B670-4305-9AFC-F08A3593D4C8

P2093

Q37723283-425DCFF9-2AB1-4749-BD69-3321E0ACA5E3

Q37723283-64A5C2A9-6E1F-4AE2-8509-70776914311C

P275

Q37723283-0271BB6A-AB75-4D82-B97B-9C4E184BB9DC

P2860

Q37723283-01093CCE-6A73-4AA3-86DB-CD424A15ADE1

Q37723283-0176ACB1-6A35-4474-BCDC-586B42476516

Q37723283-0200060A-FABD-4355-9A0D-57738237F955

Q37723283-036645DC-6E7E-4EFD-98A0-022ABC32BF3F

Q37723283-0741CBC9-4552-4861-A553-10E5F8DE7CE3

Q37723283-095436E0-369D-411E-AA27-04D77EE40DF1

Q37723283-09BC2E3D-7D76-4AC1-AFFB-87397CB70943

Q37723283-0F216304-C919-425D-8A98-8B3C56ED0696

Q37723283-102B0490-595B-476A-90C7-EFCA5696007B

Q37723283-1345369D-B24F-4080-B936-61BD3D16F458

P304

Q37723283-34F5BEB7-1227-4BD2-9D89-DD20D8C6C4ED

P31

Q37723283-D50745FD-993D-44CC-A361-91635FDD1F4E

P356

Q37723283-49A4B163-45CE-41A6-966B-4EB3C01218BB

P433

Q37723283-9C4BC8D8-C644-4287-87DA-4859DC05BC41

P478

Q37723283-182D52AB-CF0F-4885-991E-3C24103C5B6E

P50

Q37723283-7ED68676-B287-4943-9A76-9CE1853778A2

P577

Q37723283-5074BAE9-DEEA-433D-BD73-BD5430F5F06A

P5875

Q37723283-33222113-7645-4AC1-90D4-C6BE31B8A7F4

P698

Q37723283-35B8EBD9-F804-4874-B4B6-0F8C8E442E3B

P921

Q37723283-36256C1F-3DBA-4252-A73A-A9542AA50A0E

Q37723283-5571CB98-32FB-4E01-8A19-8EE4E5519898

P932

Q37723283-DA5DB736-1702-494E-9788-8A24BAAF88B5

P356

P1433

P1476

Molecules and mechanisms invol ...... ation of cortical interneurons

@en

P2093

Francesca Chiara

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

John G Parnavelas

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

P275

P2860

Radial glial dependent and independent dynamics of interneuronal migration in the developing cerebral cortex

Origin of GABAergic neurons in the human neocortex

The neuregulin-I/ErbB signaling system in development and disease

Neuropilin is a semaphorin III receptor

Roundabout controls axon crossing of the CNS midline and defines a novel subfamily of evolutionarily conserved guidance receptors

Behavioral and regulatory abnormalities in mice deficient in the NPAS1 and NPAS3 transcription factors.

Truncation of the GABA(A)-receptor gamma2 subunit in a family with generalized epilepsy with febrile seizures plus

Slit-Robo interactions during cortical development

A highly efficacious lymphocyte chemoattractant, stromal cell-derived factor 1 (SDF-1)

The mouse SLIT family: secreted ligands for ROBO expressed in patterns that suggest a role in morphogenesis and axon guidance

P304

e00031

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

P31

scholarly article

P356

10.1042/AN20090053

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

P433

2

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

P478

2

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

P50

Luis R Hernandez-Miranda

P577

2010-03-31T00:00:00Z

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

P5875

42834148

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

P698

20360946

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

P921

P932

2847827

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