about
Fetal Alcohol Spectrum Disorders: An Overview from the Glia PerspectiveAdaptive myelination from fish to man.NG2 cells (polydendrocytes): listeners to the neural network with diverse propertiesThe pathobiology of vascular dementiaValidation of the isotropic fractionator: comparison with unbiased stereology and DNA extraction for quantification of glial cellsWhite matter maturation profiles through early childhood predict general cognitive ability.Effects of aging and sensory loss on glial cells in mouse visual and auditory cortices.Imaging single photons and intrinsic optical signals for studies of vesicular and non-vesicular ATP release from axons.Brain Functional and Structural Predictors of Language PerformanceIndividual oligodendrocytes have only a few hours in which to generate new myelin sheaths in vivoRole of myelin plasticity in oscillations and synchrony of neuronal activity.Short-Term Internet-Search Training Is Associated with Increased Fractional Anisotropy in the Superior Longitudinal Fasciculus in the Parietal Lobe.Development of myelination and cholinergic innervation in the central auditory system of a prosimian primate (Otolemur garnetti)Learning-related gray and white matter changes in humans: an update.Antigen-specific immune reactions to ischemic stroke.The energetics of CNS white matter.Structural reorganization of pyramidal neurons in the medial prefrontal cortex of alcohol dependent rats is associated with altered glial plasticity.Glia and neurodevelopment: focus on fetal alcohol spectrum disorders.Mechanisms of white matter changes induced by meditation.Extended access nicotine self-administration with periodic deprivation increases immature neurons in the hippocampusBeyond faithful conduction: short-term dynamics, neuromodulation, and long-term regulation of spike propagation in the axon.Nonsynaptic and nonvesicular ATP release from neurons and relevance to neuron-glia signalingBrain pathways to recovery from alcohol dependenceGap junction communication in myelinating gliaNonsynaptic junctions on myelinating glia promote preferential myelination of electrically active axons.Ablation of TNAP function compromises myelination and synaptogenesis in the mouse brainWhite matter dementia.Whole-Brain In-vivo Measurements of the Axonal G-Ratio in a Group of 37 Healthy Volunteers.Dynamics of White Matter Plasticity Underlying Working Memory Training: Multimodal Evidence from Diffusion MRI and Relaxometry.Control of local protein synthesis and initial events in myelination by action potentials.White matter plasticity in the cerebellum of elite basketball athletesGlia in mammalian development and disease.Multi-modal characterization of rapid anterior hippocampal volume increase associated with aerobic exercisePlasticity in gray and white: neuroimaging changes in brain structure during learningBrain white matter structure and COMT gene are linked to second-language learning in adults.Myelin formation and remodelingIndividual axons regulate the myelinating potential of single oligodendrocytes in vivo.Insights into mechanisms of central nervous system myelination using zebrafish.The search for true numbers of neurons and glial cells in the human brain: A review of 150 years of cell counting.Synaptic vesicle release regulates myelin sheath number of individual oligodendrocytes in vivo.
P2860
Q26770451-299474ED-CBD7-4474-B087-D1545FB6820EQ26779643-A371EBB2-74C8-481D-984A-9DF05FBF1149Q26863731-22C8FFF1-7884-4017-A442-A7AF8109F700Q27006033-79B8DD80-7FD1-4C17-912A-9A79E9443993Q28659912-E6F3E8CD-CDF1-4C83-BED3-F53B46FCFF58Q30387974-DEADE22C-AEEB-495B-B3CF-7C2589626177Q30455832-6B5B8AF3-D157-4950-A9D3-1BA8C949423BQ30503309-B0AC827B-0016-4B1A-AA45-1940305C8B53Q33268752-EC451347-1BBD-499B-B29A-856B94DC5A0AQ33580089-56FC6D4B-DC6C-4252-BBE8-9E68F2B4E679Q33680654-ADEBA583-B898-438D-898D-AEC5C645FBB3Q33849509-540241F7-639C-4918-A860-DCD954E2EC83Q33995650-F720099C-D1B7-4C66-8900-DF4D21571D1CQ34052203-7429DC12-C459-4716-834E-0FEE069FB476Q34171339-A5313EAB-ECB2-41ED-B3CF-9FC034C2B733Q34244625-151C0A10-2A78-450E-81E7-F2407DAA59D6Q34253152-22F919D0-A97B-4128-8643-342634536BD4Q34488287-E1A9443F-DEC3-4156-82DA-9076D8463C80Q34639154-CA679291-F8C6-4692-869C-39D6440DCF80Q34980256-80ABBDD8-5691-436B-8255-57FA6447965FQ35166946-6CE2E62F-821F-4705-A635-231C591269F9Q35186727-1E6BF618-10CB-410A-8A8D-715448C80E8BQ35746391-55F51A27-CEDC-45B8-95E3-78A2EF19C5C0Q35760051-3B44EC0C-BD9B-4CFB-8FBA-B848BF7F00EEQ35941524-D8A82AAE-EACC-4001-8AAF-0E282359DA3EQ36152997-AE3254DD-0E04-4494-9501-2A6F11684BCDQ36220442-BDAEDCAA-5E71-4A12-92AA-0D64F1AB23F7Q36323247-83297A3B-6EA8-47BD-BB5D-C53F09EB46A9Q36327998-B30149D5-422C-44C4-A126-2B26C3EC50D1Q36350920-9377AB6A-4E59-49C7-B6A8-2AE911CBFA83Q36431221-52AEB131-192A-4CFB-909C-EF72B2A18ACBQ36462699-00A3350E-7CA9-4F53-99A5-230FC5675B80Q36844717-00A60145-5D8C-42E0-8DD2-E6919166AE36Q36864561-2C5AC8B5-580E-4268-B8D6-D4939AA8CF4BQ37065276-5A907E8B-63C0-4DB6-8612-BCF18949230AQ37244209-5B8495B7-F6D3-4991-B11C-D07002C07A65Q38536485-A9065A7F-0F8B-4174-A03C-C34AC3FA4A22Q38562069-072BD1FD-9204-43BD-BDF9-EEEAEEAD0B4FQ38836341-64C6A4B0-3FCD-45AD-A90E-27C25CA14295Q40551466-A2A63CAE-A725-4ABF-A2F0-D424DDF8D72A
P2860
description
2010 nî lūn-bûn
@nan
2010 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի նոյեմբերին 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
Neuroscience. Change in the brain's white matter.
@ast
Neuroscience. Change in the brain's white matter.
@en
type
label
Neuroscience. Change in the brain's white matter.
@ast
Neuroscience. Change in the brain's white matter.
@en
prefLabel
Neuroscience. Change in the brain's white matter.
@ast
Neuroscience. Change in the brain's white matter.
@en
P2860
P356
P1433
P1476
Neuroscience. Change in the brain's white matter.
@en
P2093
R Douglas Fields
P2860
P304
P356
10.1126/SCIENCE.1199139
P407
P577
2010-11-01T00:00:00Z