Spatial and Working Memory Is Linked to Spine Density and Mushroom Spines
about
Neuronal Splicing Regulator RBFOX3 (NeuN) Regulates Adult Hippocampal Neurogenesis and SynaptogenesisThe pseudokinase CaMKv is required for the activity-dependent maintenance of dendritic spines.Treadmill exercise suppressed stress-induced dendritic spine elimination in mouse barrel cortex and improved working memory via BDNF/TrkB pathway.NgR1: A Tunable Sensor Regulating Memory Formation, Synaptic, and Dendritic PlasticityLong-Term Treatment with Low Doses of Methamphetamine Promotes Neuronal Differentiation and Strengthens Long-Term Potentiation of Glutamatergic Synapses onto Dentate Granule Neurons.Early growth response-1-mediated down-regulation of drebrin correlates with loss of dendritic spines.Influence of postnatal glucocorticoids on hippocampal-dependent learning varies with elevation patterns and administration methods.Castration alters the number and structure of dendritic spines in the male posterodorsal medial amygdala.Morphine-Associated Contextual Cues Induce Structural Plasticity in Hippocampal CA1 Pyramidal Neurons.Coexistence of Multiple Types of Synaptic Plasticity in Individual Hippocampal CA1 Pyramidal Neurons.SPIN90 Modulates Long-Term Depression and Behavioral Flexibility in the HippocampusGSK3β Hyperactivity during an Early Critical Period Impairs Prefrontal Synaptic Plasticity and Induces Lasting Deficits in Spine Morphology and Working Memory.Revisiting medial preoptic area plasticity induced in male mice by sexual experience.α4βδ GABAA receptors reduce dendritic spine density in CA1 hippocampus and impair relearning ability of adolescent female mice: Effects of a GABA agonist and a stress steroid.Acute tau knockdown in the hippocampus of adult mice causes learning and memory deficits.Hippocampal Memory Recovery After Acute Stress: A Behavioral, Morphological and Molecular Study
P2860
Q30371708-E34F9E00-187C-4425-B6B8-3EFF767E1389Q30827488-02D7E5D6-139C-4AB5-B6CE-16808B804A87Q33635603-8493D51E-4412-41EA-88AF-207678049C53Q36672602-D2CF5D93-99BD-45F9-A3F5-146B36031C20Q37081184-FFF3C5EF-D7A5-4807-8C51-35A578529C89Q38709221-42C5A460-F047-4E2B-9D0A-68DD7A590D0EQ38763061-092A650E-E0C8-414E-BAEF-1F8649946FACQ39215739-A63E2D9B-6859-4DC4-8679-91E471A4B6D2Q41654835-1C4BF5B2-9F29-4D3B-8D13-A267D055D18FQ42316712-C42827D4-9396-4C99-9ACA-3CEA749E1267Q42363198-A374ACFE-B821-4435-9704-FF327C20FB8CQ44693159-BD352A46-0885-4F56-9D12-C80EDCCA4B2AQ47145388-B7D3D72B-AF5E-4E25-B67C-0D6EC07903B7Q47331587-693F05DD-04B1-4BEE-BEAD-40BC853FCD42Q54214822-B7BD2D86-BEC7-47FD-8C62-D5B37C68210AQ58769737-B2953447-EAEB-461A-9974-69E5E8B98D99
P2860
Spatial and Working Memory Is Linked to Spine Density and Mushroom Spines
description
2015 nî lūn-bûn
@nan
2015年の論文
@ja
2015年論文
@yue
2015年論文
@zh-hant
2015年論文
@zh-hk
2015年論文
@zh-mo
2015年論文
@zh-tw
2015年论文
@wuu
2015年论文
@zh
2015年论文
@zh-cn
name
Spatial and Working Memory Is Linked to Spine Density and Mushroom Spines
@ast
Spatial and Working Memory Is Linked to Spine Density and Mushroom Spines
@en
type
label
Spatial and Working Memory Is Linked to Spine Density and Mushroom Spines
@ast
Spatial and Working Memory Is Linked to Spine Density and Mushroom Spines
@en
prefLabel
Spatial and Working Memory Is Linked to Spine Density and Mushroom Spines
@ast
Spatial and Working Memory Is Linked to Spine Density and Mushroom Spines
@en
P2093
P2860
P1433
P1476
Spatial and Working Memory Is Linked to Spine Density and Mushroom Spines
@en
P2093
Ajinkya Sase
Harald Höger
Maher Mokhtar
Marion Gröger
Rasha Refaat Mahmmoud
Sunetra Sase
Yogesh D Aher
P2860
P304
P356
10.1371/JOURNAL.PONE.0139739
P407
P50
P577
2015-10-15T00:00:00Z