Presynaptic efficacy directs normalization of synaptic strength in layer 2/3 rat neocortex after paired activity.
about
Homeostatic role of heterosynaptic plasticity: models and experimentsThe role of nitric oxide in pre-synaptic plasticity and homeostasisAdaptive regulation of the brain's antioxidant defences by neurons and astrocytesAsymmetries in long-term and short-term plasticity at thalamic and cortical inputs to the amygdala in vivoA novel learning rule for long-term plasticity of short-term synaptic plasticity enhances temporal processing.Plasticity between neuronal pairs in layer 4 of visual cortex varies with synapse statePlasticity of horizontal connections at a functional border in adult rat somatosensory cortex.Synapses of horizontal connections in adult rat somatosensory cortex have different properties depending on the source of their axons.A spiking network model of decision making employing rewarded STDP.Columnar architecture improves noise robustness in a model cortical network.The formation of multi-synaptic connections by the interaction of synaptic and structural plasticity and their functional consequencesExpression of mRNA Encoding Mcu and Other Mitochondrial Calcium Regulatory Genes Depends on Cell Type, Neuronal Subtype, and Ca2+ SignalingRole of GABAA-Mediated Inhibition and Functional Assortment of Synapses onto Individual Layer 4 Neurons in Regulating Plasticity Expression in Visual Cortex.Developmental shift of short-term synaptic plasticity in cortical organotypic slices.Heterosynaptic plasticity: multiple mechanisms and multiple roles.Dendritic excitability and synaptic plasticity.Synaptic output of individual layer 4 neurons in guinea pig visual cortexPartial Breakdown of Input Specificity of STDP at Individual Synapses Promotes New LearningHeterosynaptic plasticity prevents runaway synaptic dynamicsMechanisms of response homeostasis during retinocollicular map formation.Developmental alterations in the functional properties of excitatory neocortical synapses.Heterosynaptic plasticity in the neocortex.Homeostatic Plasticity and STDP: Keeping a Neuron's Cool in a Fluctuating World.Pro-death NMDA receptor signaling is promoted by the GluN2B C-terminus independently of Dapk1.Estimating short-term synaptic plasticity from pre- and postsynaptic spiking.Adenosine Shifts Plasticity Regimes between Associative and Homeostatic by Modulating Heterosynaptic Changes.Synaptic Transmission Optimization Predicts Expression Loci of Long-Term Plasticity.Quantal analysis reveals a functional correlation between presynaptic and postsynaptic efficacy in excitatory connections from rat neocortex.Anatomical and sensory experiential determinants of synaptic plasticity in layer 2/3 pyramidal neurons of mouse barrel cortex.Collective information storage in multiple synapses enables fast learning and slow forgetting.From blickets to synapses: inferring temporal causal networks by observation.Glutamatergic transmission and plasticity between olfactory bulb mitral cells.Glutamate is required for depression but not potentiation of long-term presynaptic function.Heterosynaptic plasticity induced by intracellular tetanization in layer 2/3 pyramidal neurons in rat auditory cortex.The C-terminus of NMDAR GluN1-1a Subunit Translocates to Nucleus and Regulates Synaptic Function
P2860
Q26798824-C48C2C9F-22B4-47A1-BBBA-BDE4B1E62A27Q26863770-3A98C7DF-E5CA-4DD9-95BA-5D12BBBF848CQ28074104-04838650-AF4D-49C6-B30B-E556AB7B309AQ30457530-007827E0-CCD3-4C57-B198-53BD04F1B1CAQ30475169-3FC07CB3-F8C2-46C8-9695-F652C16406D4Q33668804-2097E5E1-314B-4F9F-9AA5-ED198C8262BAQ33703521-B0A3CB4C-9D66-4401-A50F-6D8F44F80669Q33814849-92CC429C-6377-4777-A081-635D0C0F3EE9Q35121888-36DB958E-41AD-4EB9-8F37-49768987A556Q35191340-E68BC227-5360-4D69-9CB5-EEBB7A1AF38AQ35543054-4060EC0C-41FA-4258-80E3-035EAA03A16BQ35909268-6E2A84C9-419F-4FEF-823D-BBA3063B135FQ35913604-714309C8-89C7-4AB5-98A2-94D51B7F2BFAQ36007867-C77F8664-15D8-44D9-BCE7-4A00C52D5B86Q37046902-058F1330-802E-456A-9F00-CB6EE09626A8Q37129354-5A4DEFE8-AFE1-4A88-B2C9-27F32E079C47Q37188936-ADF506F0-D2A6-47F0-8A13-55C0C774C8E6Q37198397-9429BC88-0D1A-459B-8BEC-9C49288B34B8Q37208494-9D7BCA70-A8B3-4234-952D-840C4B8E4A7BQ37212617-D784A756-06AA-44FB-9D1B-A4FEF2A43E5AQ37410724-3458E81C-AD77-4530-8C00-4B7179F023B1Q37508750-4E8E1B11-733F-4912-AADE-74F7DBAE3151Q37855553-CB4921FA-B8E5-43EC-914B-C61DDAE0983CQ41257661-D4BC52D5-EECA-49F5-A663-3EEABDA599F2Q41702243-4F87714C-1A3B-43CF-85A1-89444DE7CAADQ42254815-05F9C71F-3FF2-4ADA-B6F3-D67A30F3E718Q42282366-FCF39C7E-8A9C-46F4-B7C0-1B76418C6B6BQ42466451-7579EDCA-7452-4313-9AC0-E68954EC3B83Q42486096-8E42A179-7DF4-4CDA-AFF0-905B98A7BE78Q46458652-0E4AEB69-8B5C-475C-933E-E2019E0DD426Q46506825-66E686A8-A08B-4593-B1AE-D7D4A4ECAE2DQ46752613-C077C806-469B-4C10-BE63-9B75FF1D46EDQ47107248-DD80BE00-B176-4B35-8D32-D18E613B9C0CQ48637767-5137F5D5-52D8-4FC7-AC95-C17687ABB42AQ58586184-026DF810-8797-46AD-A0B7-B78FF7D5F127
P2860
Presynaptic efficacy directs normalization of synaptic strength in layer 2/3 rat neocortex after paired activity.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh
2007年學術文章
@zh-hant
name
Presynaptic efficacy directs n ...... ocortex after paired activity.
@en
Presynaptic efficacy directs n ...... ocortex after paired activity.
@nl
type
label
Presynaptic efficacy directs n ...... ocortex after paired activity.
@en
Presynaptic efficacy directs n ...... ocortex after paired activity.
@nl
prefLabel
Presynaptic efficacy directs n ...... ocortex after paired activity.
@en
Presynaptic efficacy directs n ...... ocortex after paired activity.
@nl
P2860
P50
P356
P1476
Presynaptic efficacy directs n ...... ocortex after paired activity.
@en
P2093
Julian J B Jack
P2860
P304
P356
10.1152/JN.01352.2006
P407
P577
2007-01-31T00:00:00Z