CaMKII control of spine size and synaptic strength: role of phosphorylation states and nonenzymatic action. - Wikidata - awgldk - TriplyDB

CaMKII control of spine size and synaptic strength: role of phosphorylation states and nonenzymatic action.

CaMKII control of spine size and synaptic strength: role of phosphorylation states and nonenzymatic action.

http://www.wikidata.org/entity/Q34069863

about

Mechanisms of CaMKII action in long-term potentiation Activity-dependent subcellular cotrafficking of the small GTPase Rem2 and Ca2+/CaM-dependent protein kinase IIα CaMKII binding to GluN2B is critical during memory consolidation Fast Decay of CaMKII FRET Sensor Signal in Spines after LTP Induction Is Not Due to Its Dephosphorylation.Translocation of CaMKII to dendritic microtubules supports the plasticity of local synapses.Up-regulation and activation of the P2Y(2) nucleotide receptor mediate neurite extension in IL-1β-treated mouse primary cortical neurons Dynamic microtubules promote synaptic NMDA receptor-dependent spine enlargement.High-throughput single-cell manipulation in brain tissue.A role for dendritic translation of CaMKIIα mRNA in olfactory plasticity.AMPA receptor subunit GluR1 (GluA1) serine-845 site is involved in synaptic depression but not in spine shrinkage associated with chemical long-term depression.Characterization of a central Ca2+/calmodulin-dependent protein kinase IIalpha/beta binding domain in densin that selectively modulates glutamate receptor subunit phosphorylation.Catalytically Dead αCaMKII K42M Mutant Acts as a Dominant Negative in the Control of Synaptic Strength.Smaug1 mRNA-silencing foci respond to NMDA and modulate synapse formation.Activity-dependent regulation of synaptic strength by PSD-95 in CA1 neurons Substrate-selective and calcium-independent activation of CaMKII by α-actinin.CaMKII regulation in information processing and storage.Studying signal transduction in single dendritic spines The CaMKII/NMDAR complex as a molecular memory Activated CaMKII couples GluN2B and casein kinase 2 to control synaptic NMDA receptors.The developmental stages of synaptic plasticity.CaMKII: claiming center stage in postsynaptic function and organization.Synaptic Plasticity and Memory: New Insights from Hippocampal Left-Right Asymmetries.CaMKII Autophosphorylation Is Necessary for Optimal Integration of Ca2+ Signals during LTP Induction, but Not Maintenance.Proteomic Analysis of Postsynaptic Protein Complexes Underlying Neuronal Plasticity.A Novel Human CAMK2A Mutation Disrupts Dendritic Morphology and Synaptic Transmission, and Causes ASD-Related Behaviors.The non-coding RNA BC1 regulates experience-dependent structural plasticity and learning.Long-term potentiation can be induced in the CA1 region of hippocampus in the absence of αCaMKII T286-autophosphorylation.Very low density lipoprotein receptor regulates dendritic spine formation in a RasGRF1/CaMKII dependent manner.Ketamine Self-Administration Elevates αCaMKII Autophosphorylation in Mood and Reward-Related Brain Regions in Rats.Developmental restoration of LTP deficits in heterozygous CaMKIIα KO mice Mechanistic target of rapamycin is necessary for changes in dendritic spine morphology associated with long-term potentiation.Spatiotemporal maps of CaMKII in dendritic spines.NMDA receptors on zebrafish Mauthner cells require CaMKII-α for normal development.Memories of John Lisman.

P2860

Q26998387-F440ED8A-A513-4542-B516-0E3B71C284FD Q27332408-F079692C-9518-414E-B393-4844A2A027AE Q28510123-1FCB8150-8DFE-4A5B-8569-50DA1C65584C Q30384588-293BC056-E5B3-4E5B-9798-B4D25D46DA80 Q30525038-E21140FD-ABDA-4849-8B77-99FCBB30F846 Q30540447-7BC3585B-C091-4107-878E-E9006814D400 Q34078016-ECB7E173-9927-4A0D-A267-C1611F7555F9 Q34247403-31F953FB-32F7-4077-9D10-61B6CADB7E10 Q34328699-8FCD02DE-35B9-42A0-A7E0-6E165128C6F4 Q34785637-B212E65F-3FDC-403F-9146-A364A0B4DF61 Q35107443-D6AA83F7-D492-4009-AB69-B11F6FE33423 Q35612559-F211E9FA-FE25-4A76-B0F9-B2F58A8CAFAF Q35636583-459FDEDD-B764-4D17-A4C7-4844CCEDA7C1 Q35787533-17CD818A-FD73-4CDF-9B7F-BCEA4AB40A0F Q35940004-765D9E21-38DB-4493-9A78-4F9D7E0324B6 Q36287751-D5B30EE3-A8EB-4BA0-9E77-9E46E2833811 Q36329467-A244A8F7-56BA-48D5-8F4C-887E98314DE8 Q36639359-879CB61E-289C-4E9B-BC4E-3D7DCC60BA07 Q36736218-15CDD6AE-D51B-4781-A63F-19628286E849 Q38154393-A85FE690-6D73-41FD-8CF9-698CBBEFA517 Q38181739-A595C9EB-210D-477F-87ED-E729CC542788 Q38252776-40D77EAA-2A8C-4BBE-ACD6-481ECC5AD7DD Q38431164-BF0ADB98-E611-4599-9BC9-6CB4AB8BEF6E Q38955489-3232CB08-C5A1-40AD-9A99-BB3B4A754BEF Q38994543-538A90B5-9C8A-4204-9BCA-BBAEDF3686DC Q41446846-96DCB1AD-1D49-41EF-9DA4-3815AE3621E1 Q42123449-001D3E5E-1628-46B2-859A-736322BAE5CD Q42125917-74666BDF-980C-4CD8-AB2B-D2EA1775E6A0 Q42693194-B6860A11-B4CB-45D6-A91D-A78849867999 Q42738287-A355624D-BEA6-4C17-8624-6076038B9A26 Q43251701-ABF91ACC-1F2F-40D7-955E-505B6DB39DDF Q48503090-455EF7E1-5A62-4D48-AC17-9E8D0018108D Q48646351-32B38642-9A41-4EA6-8734-369C7A01E009 Q55341205-CC0A2EB8-6FB0-4D0F-9E26-267302255C25

P2860

CaMKII control of spine size and synaptic strength: role of phosphorylation states and nonenzymatic action.

http://www.wikidata.org/entity/Q34069863

description

2010 nî lūn-bûn

@nan

2010 թուականի Յուլիսին հրատարակուած գիտական յօդուած

@hyw

2010 թվականի հուլիսին հրատարակված գիտական հոդված

@hy

2010年の論文

@ja

2010年論文

@yue

2010年論文

@zh-hant

2010年論文

@zh-hk

2010年論文

@zh-mo

2010年論文

@zh-tw

2010年论文

@wuu

name

CaMKII control of spine size a ...... tates and nonenzymatic action.

@ast

CaMKII control of spine size a ...... tates and nonenzymatic action.

@en

CaMKII control of spine size a ...... tates and nonenzymatic action.

@nl

type

label

CaMKII control of spine size a ...... tates and nonenzymatic action.

@ast

CaMKII control of spine size a ...... tates and nonenzymatic action.

@en

CaMKII control of spine size a ...... tates and nonenzymatic action.

@nl

prefLabel

CaMKII control of spine size a ...... tates and nonenzymatic action.

@ast

CaMKII control of spine size a ...... tates and nonenzymatic action.

@en

CaMKII control of spine size a ...... tates and nonenzymatic action.

@nl

P1433

Q34069863-7D297161-CCED-48B1-BEB6-E80D8E16BCB3

P1476

Q34069863-FC9F4D88-4C49-465B-BB70-2A11ACDEA281

P2093

Q34069863-1EB6ABF8-3454-4A7F-9A3E-2FCF87F12D2E

Q34069863-34FE975F-F4F1-4A80-A737-1EA47EB67605

Q34069863-65BA786C-25D3-45CB-95FF-0155EBB187AD

Q34069863-DCB687E4-7A55-45E3-A8AC-FE0FEF538CA1

Q34069863-E6CC310C-294E-4848-A607-CEC7679A77AF

Q34069863-F3585B33-6866-4A4C-B9BC-D180CC069040

P2860

Q34069863-04CAFB20-7003-40B0-9102-917320EFF47A

Q34069863-0662AF17-4448-42E6-967F-DC7019FC64C5

Q34069863-071329EE-E17A-409A-B4A9-B7AB4314C0C4

Q34069863-0AC77944-D84E-4097-98F6-961D15992D6B

Q34069863-0C49BE90-02D5-48F9-A2B3-E22E915AF7EB

Q34069863-16E5E54D-967D-4776-B15C-8DF40A349515

Q34069863-1CC1E5EB-3705-4A08-A848-BF10E362BFDC

Q34069863-1DA6AC40-9CAA-41C0-807A-F4190855C013

Q34069863-2AE49CB7-3A0A-4D7C-AE7E-242DD5C99E6C

Q34069863-2C15D745-8838-45BF-ADAC-72528E746F93

P304

Q34069863-F1EBFB27-1F68-41F6-B1C1-1387E165473A

P31

Q34069863-52B6F1B4-2B6D-471D-AE01-9F4A0DCC6BAE

P356

Q34069863-4209B103-EB14-4449-95BB-198F404BADF8

P407

Q34069863-2356BEE8-0151-4CEC-84AA-191A800A9E75

P433

Q34069863-AFC8AE4A-1AF5-4F09-BFC3-CCF3D43A1B3F

P478

Q34069863-3969CCE2-446E-4051-A978-7E0F25F2C88E

P577

Q34069863-BB77D570-3FBD-482D-B558-2152D258E5FA

P5875

Q34069863-68CBEC1D-A1BD-4AA5-8673-1BB7BB4A412B

P698

Q34069863-369B507B-4A63-4F19-9140-00816581738B

P921

Q34069863-7A15CFD8-33C9-4302-8CBB-C0D233C4500D

P932

Q34069863-5ECB1575-D01D-40D2-8383-9BDE3AE9D653

P356

PNAS.1009268107

P1433

Proceedings of the National Academy of Sciences of the United States of America

P1476

CaMKII control of spine size a ...... tates and nonenzymatic action.

@en

P2093

David Lemelin

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

Farida El Gaamouch

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

Hyun Jae Pi

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

John Lisman

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

Nikolai Otmakhov

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

Paul De Koninck

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

P2860

Autophosphorylated CaMKIIalpha acts as a scaffold to recruit proteasomes to dendritic spines

Optical induction of plasticity at single synapses reveals input-specific accumulation of alphaCaMKII

Activation of CaMKII in single dendritic spines during long-term potentiation

Kalirin-7 controls activity-dependent structural and functional plasticity of dendritic spines

Neuronal CA2+/calmodulin-dependent protein kinase II: the role of structure and autoregulation in cellular function

The molecular basis of CaMKII function in synaptic and behavioural memory

Autophosphorylation at Thr286 of the alpha calcium-calmodulin kinase II in LTP and learning

Dendritic spine geometry is critical for AMPA receptor expression in hippocampal CA1 pyramidal neurons

Multivalent interactions of calcium/calmodulin-dependent protein kinase II with the postsynaptic density proteins NR2B, densin-180, and alpha-actinin-2

Structural basis of long-term potentiation in single dendritic spines

P304

14437-14442

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

P31

scholarly article

P356

10.1073/PNAS.1009268107

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

P407

P433

32

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

P478

107

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

P577

2010-07-26T00:00:00Z

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

P5875

45366332

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

P698

20660727

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

P921

phosphorylation

P932

2922610

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