Increasing Ca2+ transients by broadening postsynaptic action potentials enhances timing-dependent synaptic depression. - Wikidata - wikimedia - TriplyDB

Increasing Ca2+ transients by broadening postsynaptic action potentials enhances timing-dependent synaptic depression.

Increasing Ca2+ transients by broadening postsynaptic action potentials enhances timing-dependent synaptic depression.

http://www.wikidata.org/entity/Q34245304

about

Effect of prenatal protein malnutrition on long-term potentiation and BDNF protein expression in the rat entorhinal cortex after neocortical and hippocampal tetanization Homeostatic role of heterosynaptic plasticity: models and experiments The spike-timing dependence of plasticity Computational investigation of the changing patterns of subtype specific NMDA receptor activation during physiological glutamatergic neurotransmission Dysconnection in schizophrenia: from abnormal synaptic plasticity to failures of self-monitoring Bimodal stimulus timing-dependent plasticity in primary auditory cortex is altered after noise exposure with and without tinnitus.The past, present, and future of real-time control in cellular electrophysiology.Linear look-ahead in conjunctive cells: an entorhinal mechanism for vector-based navigation.Dendritic ion channel trafficking and plasticity.The effects of NMDA subunit composition on calcium influx and spike timing-dependent plasticity in striatal medium spiny neurons Large D/H variations in bacterial lipids reflect central metabolic pathways.A spiking network model of decision making employing rewarded STDP.Blocking the BK channel impedes acquisition of trace eyeblink conditioning.A family of photoswitchable NMDA receptors.The BK-mediated fAHP is modulated by learning a hippocampus-dependent task.Induction- and conditioning-protocol dependent involvement of NR2B-containing NMDA receptors in synaptic potentiation and contextual fear memory in the hippocampal CA1 region of rats.Frequency-dependent glycinergic inhibition modulates plasticity in hippocampus.Heterosynaptic plasticity: multiple mechanisms and multiple roles.Cortical Specializations Underlying Fast Computations.Dendritic excitability and synaptic plasticity.Partial Breakdown of Input Specificity of STDP at Individual Synapses Promotes New Learning Heterosynaptic plasticity prevents runaway synaptic dynamics Input specificity and dependence of spike timing-dependent plasticity on preceding postsynaptic activity at unitary connections between neocortical layer 2/3 pyramidal cells.Heterosynaptic plasticity in the neocortex.Glycinergic inhibition in the hippocampus.Cocaine Promotes Coincidence Detection and Lowers Induction Threshold during Hebbian Associative Synaptic Potentiation in Prefrontal Cortex.Postsynaptic signals mediating induction of long-term synaptic depression in the entorhinal cortex.LTD windows of the STDP learning rule and synaptic connections having a large transmission delay enable robust sequence learning amid background noise.Timing is not Everything: Neuromodulation Opens the STDP Gate Differential cholinergic modulation of Ca2+ transients evoked by backpropagating action potentials in apical and basal dendrites of cortical pyramidal neurons.A single-cell spiking model for the origin of grid-cell patterns.Subtype-specific dendritic Ca(2+) dynamics of inhibitory interneurons in the rat visual cortex.Synaptic sodium spikes trigger long-lasting depolarizations and slow calcium entry in rat olfactory bulb granule cells.Target-cell-specific bidirectional synaptic plasticity at hippocampal output synapses.Depression biased non-Hebbian spike-timing-dependent synaptic plasticity in the rat subiculum.Presynaptic efficacy directs normalization of synaptic strength in layer 2/3 rat neocortex after paired activity.Long-term depression in identified stellate neurons of juvenile rat entorhinal cortex.Cellular mechanisms of burst firing-mediated long-term depression in rat neocortical pyramidal cells.Modular competition driven by NMDA receptor subtypes in spike-timing-dependent plasticity.General differential Hebbian learning: Capturing temporal relations between events in neural networks and the brain

P2860

Q21342812-A321AF6D-A772-4104-9722-B00B3297E0B3 Q26798824-D72D31BC-0647-495B-A219-8EBEEB1E99AB Q27010059-E4C19F87-BABB-49DD-BED6-BF1DBD8AC229 Q28478887-487C6365-61FA-4B8F-84A3-CC152ABF696E Q28754716-A61666E9-6BDC-4336-87C9-93115E44824B Q30368794-4E6A35DB-BB40-4F2D-A9BE-9CF889B6360A Q30413052-4A9BC16D-759A-453B-9BAE-A7242D6083AA Q30513830-867229DD-BBBC-4B61-991B-00DBF96C98FA Q33987823-AA4AE0A3-80FC-47D9-8296-37D8B87A1130 Q34246880-A659A4D5-5C3F-4734-8F94-18630DC35652 Q34992985-1CA97141-A6AF-49FC-ABF6-EE16C2827A12 Q35121888-8C63441B-8D60-4A18-BD95-FC49BCE98D29 Q35687786-F234434C-6F34-4236-BADE-5D7F610DE39F Q36673772-B1AC1F27-DD80-4FFF-9BA4-7A24A5A3010B Q36937218-6F17E653-68B7-48ED-84D4-25AE6DA50324 Q36944372-2B92AF03-90E1-4261-957C-DA9947CC01B2 Q36960352-886DA01B-DD20-4A8F-84AF-81247329D148 Q37046902-1E30A7DE-2236-4E6B-A113-2FFCAE88B0FA Q37046921-51F6E1BA-AD72-4DC9-94ED-2399764B41EF Q37129354-28C33CE2-BACB-49B3-AACD-D047D642639F Q37198397-ACA20BCB-C788-4455-AFCE-16A5D3EAF82F Q37208494-88B9C627-CE33-4040-B67A-051FD8D132EB Q37343370-0857C404-F6B5-451B-9AE5-0BE027BA0DD5 Q37508750-1F019EC9-E689-4F4F-BF2A-77D3A87A0EBA Q37519551-0D27D652-65F4-4712-8B6A-A846A43FFF19 Q37630555-3E5C54B1-400E-45AD-90A7-E8C74679C2DA Q40984309-8087373A-2CEC-40DF-B654-D7261052A87B Q41829968-9F764E77-F7A7-4E39-9C1C-8B10F4179608 Q41982107-32503301-9B38-4E69-BC27-75068E2DE725 Q42434957-4E5A3E8D-F6F9-4E36-A573-3D74B6ADD89F Q42703015-91DB7C09-F7AE-4EF3-9E74-0ED13F050BF6 Q43016920-B69EF20A-D0E9-42E8-B609-DC0819611D66 Q46644690-6CB09880-4FFE-441D-BB4D-96B34039945B Q46724033-A9EDE712-2CE0-4B55-930B-69AE754D1EF7 Q48278385-9C7C0A8A-4F8C-4CAE-BDF0-E315006A842C Q48291116-1819CB55-2F03-4A86-B81A-3E466F4D9CEC Q48352618-988C4C2F-813E-4B47-86AB-231C83454F5D Q48379972-771EB8B5-F2D5-4215-B709-2ED368D1C18C Q51924125-A2498801-EEBD-412F-BF55-25C4D58D6035 Q58697743-56492416-D773-4BBF-B052-5C8B5B3EAF16

P2860

Increasing Ca2+ transients by broadening postsynaptic action potentials enhances timing-dependent synaptic depression.

http://www.wikidata.org/entity/Q34245304

description

2005 nî lūn-bûn

@nan

2005 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած

@hyw

2005 թվականի դեկտեմբերին հրատարակված գիտական հոդված

@hy

2005年の論文

@ja

2005年論文

@yue

2005年論文

@zh-hant

2005年論文

@zh-hk

2005年論文

@zh-mo

2005年論文

@zh-tw

2005年论文

@wuu

name

Increasing Ca2+ transients by ...... dependent synaptic depression.

@ast

Increasing Ca2+ transients by ...... dependent synaptic depression.

@en

Increasing Ca2+ transients by ...... dependent synaptic depression.

@nl

type

label

Increasing Ca2+ transients by ...... dependent synaptic depression.

@ast

Increasing Ca2+ transients by ...... dependent synaptic depression.

@en

Increasing Ca2+ transients by ...... dependent synaptic depression.

@nl

prefLabel

Increasing Ca2+ transients by ...... dependent synaptic depression.

@ast

Increasing Ca2+ transients by ...... dependent synaptic depression.

@en

Increasing Ca2+ transients by ...... dependent synaptic depression.

@nl

P1433

Q34245304-B2425A31-6235-49E0-A727-11F621B94121

P1476

Q34245304-BD67D2B2-5BA9-48F0-AD41-9C98828A640E

P2093

Q34245304-59B6A03B-35AA-4FA0-9463-E5CC357DAA2E

Q34245304-8A33B742-BF92-49FD-BBC8-BE4FE2505659

Q34245304-C4A5D5C0-5DE3-4DA3-996F-A1BC85F524FF

P2860

Q34245304-09041BDB-34D2-4035-9D9D-C6C99D39631A

Q34245304-11D1BC49-3250-4BEE-A95E-101D980EEE83

Q34245304-187DEC30-23DB-4ABE-979F-26BD76E47A23

Q34245304-18DC41F1-1281-453A-9B98-1964F55901A5

Q34245304-1C97F871-B6BD-4906-81B8-2FF6F35419DA

Q34245304-20C965A5-0149-4F72-9250-678B9839A598

Q34245304-2C22185F-3EFD-4BB2-8558-5431AE8362A0

Q34245304-31F0B29F-452D-48F3-BD11-B420321006CF

Q34245304-3AC2D678-68CD-4FDA-A16F-E8EA448167AF

Q34245304-3B9EBEF8-32E7-4D2F-855F-04A2036C86FD

P304

Q34245304-33DB9BA4-6F8E-4371-9858-1C077CDFB000

P31

Q34245304-DD1465F8-7293-4EF6-8285-168B5EDAB29C

P356

Q34245304-5FE7CED2-B58C-4EDC-B0B8-A5F36F2F47B2

P407

Q34245304-32D35BE4-96D3-4952-8587-D6B57E226E18

P433

Q34245304-50AC1398-4FA9-4F42-B3F2-7382A1126182

P478

Q34245304-7790630D-706F-4FD0-995A-B4F578DC2FB7

P50

Q34245304-F5F3338A-8B77-483E-A9EE-6922038FD578

Q34245304-FA21A691-1526-4723-B5F1-09A801BF9B57

P577

Q34245304-7DF18DFB-900C-4838-B38C-ED4F7A8A7712

P5875

Q34245304-80388873-E75E-447E-B303-2CB845CEFE25

P698

Q34245304-53EF6891-D91A-4C0F-B945-FC13D3DFE5AB

P932

Q34245304-556E5F4F-09A5-40FA-A3AC-81835FD0C42F

P356

PNAS.0509856103

P1433

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

P1476

Increasing Ca2+ transients by ...... -dependent synaptic depression

@en

P2093

Corey D Acker

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

John A White

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

Kamal Sen

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

P2860

Regulation of synaptic efficacy by coincidence of postsynaptic APs and EPSPs

Long-term potentiation--a decade of progress?

Synaptic modifications in cultured hippocampal neurons: dependence on spike timing, synaptic strength, and postsynaptic cell type

Calcium- and activity-dependent synaptic plasticity.

Timing-based LTP and LTD at vertical inputs to layer II/III pyramidal cells in rat barrel cortex.

A unified model of NMDA receptor-dependent bidirectional synaptic plasticity

Dynamical model of long-term synaptic plasticity.

Rate, timing, and cooperativity jointly determine cortical synaptic plasticity.

Synaptic modification by correlated activity: Hebb's postulate revisited.

LTP is accompanied by an enhanced local excitability of pyramidal neuron dendrites.

P304

19121-19125

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

P31

scholarly article

P356

10.1073/PNAS.0509856103

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

P407

P433

52

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

P478

102

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

P50

P577

2005-12-19T00:00:00Z

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

P5875

7405950

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

P698

16365307

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

P932

1323223

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