Activity-dependent transcription regulation of PSD-95 by neuregulin-1 and Eos.
about
Sequential and gamma-secretase-dependent processing of the betacellulin precursor generates a palmitoylated intracellular-domain fragment that inhibits cell growthMechanisms of neuregulin actionDeficiency of Aph1B/C-gamma-secretase disturbs Nrg1 cleavage and sensorimotor gating that can be reversed with antipsychotic treatment.New players tip the scales in the balance between excitatory and inhibitory synapses.The Ikaros family of zinc-finger proteinsProphylactic and therapeutic functions of drug combinations against noise-induced hearing lossPostnatal developmental expression of the PDZ scaffolds Na+ -H+ exchanger regulatory factors 1 and 2 in the rat cochleaType III neuregulin-1 is required for normal sensorimotor gating, memory-related behaviors, and corticostriatal circuit componentsIntramembranous valine linked to schizophrenia is required for neuregulin 1 regulation of the morphological development of cortical neuronsPresynaptic type III neuregulin1-ErbB signaling targets {alpha}7 nicotinic acetylcholine receptors to axonsRecovery of otoacoustic emissions after high-level noise exposure in the American bullfrogPostnatal expression of neurotrophic factors accessible to spiral ganglion neurons in the auditory system of adult hearing and deafened rats.Attenuation of noise-induced hearing loss using methylene blue.Recent advances in the study of age-related hearing loss: a mini-review.Age-related neuronal loss in the cochlea is not delayed by synaptic modulation.Anti-epileptic drugs delay age-related loss of spiral ganglion neurons via T-type calcium channel.Why do hair cells and spiral ganglion neurons in the cochlea die during aging?Functional role of neurotrophin-3 in synapse regeneration by spiral ganglion neurons on inner hair cells after excitotoxic trauma in vitro.Age-related synaptic loss of the medial olivocochlear efferent innervationNeuroligins mediate excitatory and inhibitory synapse formation: involvement of PSD-95 and neurexin-1beta in neuroligin-induced synaptic specificity.ErbB4-neuregulin signaling modulates synapse development and dendritic arborization through distinct mechanismsFunction, therapeutic potential and cell biology of BACE proteases: current status and future prospects.Eos negatively regulates human γ-globin gene transcription during erythroid differentiation.Type III Nrg1 back signaling enhances functional TRPV1 along sensory axons contributing to basal and inflammatory thermal pain sensationCharacterization of glial cell models and in vitro manipulation of the neuregulin1/ErbB systemPartial genetic deletion of neuregulin 1 and adolescent stress interact to alter NMDA receptor binding in the medial prefrontal cortex.Differential neuregulin 1 cleavage in the prefrontal cortex and hippocampus in schizophrenia and bipolar disorder: preliminary findingsMembrane-anchored growth factors, the epidermal growth factor family: beyond receptor ligands.Biological validation of increased schizophrenia risk with NRG1, ERBB4, and AKT1 epistasis via functional neuroimaging in healthy controls.Synaptic autoregulation by metalloproteases and γ-secretase.Type III neuregulin 1 regulates pathfinding of sensory axons in the developing spinal cord and periphery.PSD-95 is required for activity-driven synapse stabilizationEos Is Redundant for Regulatory T Cell Function but Plays an Important Role in IL-2 and Th17 Production by CD4+ Conventional T CellsNeuroD2 regulates the development of hippocampal mossy fiber synapsesEpidermal growth factor cytoplasmic domain affects ErbB protein degradation by the lysosomal and ubiquitin-proteasome pathway in human cancer cells.Canertinib induces ototoxicity in three preclinical models.Dendritic eIF4E-binding protein 1 (eIF4E-BP1) mRNA is upregulated by neuronal activation.Proteolytic Processing of Neuregulin 1 Type III by Three Intramembrane-cleaving ProteasesEarly Growth Response 1 (Egr-1) Regulates N-Methyl-d-aspartate Receptor (NMDAR)-dependent Transcription of PSD-95 and α-Amino-3-hydroxy-5-methyl-4-isoxazole Propionic Acid Receptor (AMPAR) Trafficking in Hippocampal Primary Neurons.The cytoplasmic domain of proEGF negatively regulates motility and elastinolytic activity in thyroid carcinoma cells.
P2860
Q24633569-83269EA2-E59F-436F-869D-1AEEC2EE0933Q24650665-E918F021-64D4-413D-910A-73BC2B4CB07AQ24657399-5354BEE9-AB9A-42D6-A04C-6B8DAF93D395Q24796169-D648E463-729C-4B4D-8ABE-3A74C02E34DDQ28066194-E65815B6-BB72-4397-B66A-E53261FB7F0EQ28388403-0B6329F6-149E-45F4-B3FC-B3ED3E606299Q28577406-70132658-DC7C-4D0B-9235-6E45D09B6FB7Q28585466-D3B21793-C836-4280-866E-96E9A833E05AQ28589393-47E09427-3692-44D7-8EB5-647A62E29485Q28593522-FF22CEE7-4119-44AA-8D2F-F46EA3B31BE8Q30413132-DE4F079B-D714-4336-A5AF-4613BEDAF946Q30416157-A54E9EF0-A7D0-475B-82E8-01CDCDB8830BQ30439567-9F84E928-C036-4733-B5DE-4A1567D6EBDCQ30449602-9E62D525-1EE7-4D8A-931A-21097B6034F3Q30460360-64E5610E-B765-4A9A-AC6F-2921F138C4EDQ30465161-2CCDD51F-4710-4A5B-8212-9475B072AF7FQ30469810-9DF838D8-92AE-4569-8E4A-FD8C8DAC6E44Q30472769-04F7747D-7ADC-4E83-B921-5A67AEAFBB50Q30478234-5C1A8AFC-43EB-4524-87A8-9695FAF5DDF0Q33212164-B15DC0F8-2A9E-413A-8259-31B5A18689DBQ33574071-4B0D53D2-AAF9-4934-B420-2DB6760C4579Q33862796-9B11DED3-D96D-4547-B871-26610D05B943Q33988076-016C4882-7373-4FEF-B486-B0A397A5278DQ34031956-C7C88AF3-6AC6-4090-B410-6462033D2BBDQ34079890-4CF79242-1DB9-442F-8672-B6B1FD504A09Q34264958-8FBF05F4-7E0A-4188-AB2C-B5E72BAE8491Q34270737-CFCA11DB-EB3A-4CCC-943B-ED12EE631951Q34749765-AB8F023E-58BE-4E44-A87A-581896A5C3B1Q34919885-BDD5503E-7EFB-460F-A32B-202AFCAE506DQ35203314-28758B83-C2F4-4183-A042-50D096F5C163Q35445297-822E7E80-5CFB-4998-8259-313A31C13414Q35676844-1085BDF0-15D0-4F25-9F75-F29E9E4AFC7EQ35816008-3E57E985-3649-46F1-9097-6679CD4531A8Q35847970-B7B11972-8419-4ADC-B49F-2387FF075FF9Q36062148-C586E0BD-1763-428D-B232-ABCC3731DBC5Q36088986-F08E07A8-D5E3-455C-B491-8064AB5A4339Q36310150-AF637CD8-C93B-4348-B4AD-C1D5AF89C799Q36419261-8687E106-A07D-4BD8-AEEA-882DFC3224FDQ36444125-754E1E66-31F7-4C93-949B-70429DEDA47DQ36897806-5C71C7CA-5CA8-4CCC-AAA0-3CE22BF7B83F
P2860
Activity-dependent transcription regulation of PSD-95 by neuregulin-1 and Eos.
description
2004 nî lūn-bûn
@nan
2004 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2004 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2004年の論文
@ja
2004年論文
@yue
2004年論文
@zh-hant
2004年論文
@zh-hk
2004年論文
@zh-mo
2004年論文
@zh-tw
2004年论文
@wuu
name
Activity-dependent transcription regulation of PSD-95 by neuregulin-1 and Eos.
@ast
Activity-dependent transcription regulation of PSD-95 by neuregulin-1 and Eos.
@en
Activity-dependent transcription regulation of PSD-95 by neuregulin-1 and Eos.
@nl
type
label
Activity-dependent transcription regulation of PSD-95 by neuregulin-1 and Eos.
@ast
Activity-dependent transcription regulation of PSD-95 by neuregulin-1 and Eos.
@en
Activity-dependent transcription regulation of PSD-95 by neuregulin-1 and Eos.
@nl
prefLabel
Activity-dependent transcription regulation of PSD-95 by neuregulin-1 and Eos.
@ast
Activity-dependent transcription regulation of PSD-95 by neuregulin-1 and Eos.
@en
Activity-dependent transcription regulation of PSD-95 by neuregulin-1 and Eos.
@nl
P2093
P2860
P356
P1433
P1476
Activity-dependent transcription regulation of PSD-95 by neuregulin-1 and Eos.
@en
P2093
Abdullah Osman
Jianxin Bao
Kevin K Ohlemiller
Penggao Dai
Richard T Ambron
Tae-Wan Kim
Yannan Ouyang
P2860
P2888
P304
P356
10.1038/NN1342
P407
P577
2004-10-24T00:00:00Z