about
Rate of evolution in brain-expressed genes in humans and other primatesMapping human whole-brain structural networks with diffusion MRIMotifs in brain networksSystems biology approaches in cell signaling researchSegregation of the brain into gray and white matter: a design minimizing conduction delays.Magnetoencephalography in Stroke Recovery and RehabilitationCan the activities of the large scale cortical network be expressed by neural energy? A brief reviewDevelopmental Learning Disorders: From Generic Interventions to Individualized RemediationInformation and efficiency in the nervous system--a synthesisThe Evolutionary Origins of HierarchyDecreasing-Rate Pruning Optimizes the Construction of Efficient and Robust Distributed NetworksNormal and pathological oscillatory communication in the brainSparse representation of sounds in the unanesthetized auditory cortex.Astrocytes optimize the synaptic transmission of informationApproximate invariance of metabolic energy per synapse during development in mammalian brainsInhibitory motoneurons in arthropod motor control: organisation, function, evolutionConstancy and trade-offs in the neuroanatomical and metabolic design of the cerebral cortexFly photoreceptors demonstrate energy-information trade-offs in neural codingEfficient coding in human auditory perception.A dynamically minimalist cognitive explanation of musical preference: is familiarity everything?High spatial resolution proteomic comparison of the brain in humans and chimpanzees.The Efficient Coding of Speech: Cross-Linguistic Differences.Auditory cortex: representation through sparsification?Analysis of the optimal channel density of the squid giant axon using a reparameterized Hodgkin-Huxley model.Metabolic energy cost of action potential velocity.The role of the striatum in social behaviorDirected Interactions Between Auditory and Superior Temporal Cortices and their Role in Sensory Integration.Arc/Arg3.1 mRNA global expression patterns elicited by memory recall in cerebral cortex differ for remote versus recent spatial memories.How the optic nerve allocates space, energy capacity, and information.Flies and humans share a motion estimation strategy that exploits natural scene statistics.What does anisotropy measure? Insights from increased and decreased anisotropy in selective fiber tracts in schizophreniaNavigable networks as Nash equilibria of navigation gamesThe physics of functional magnetic resonance imaging (fMRI).Prioritizing spatial accuracy in high-resolution fMRI data using multivariate feature weight mapping.Activity flow over resting-state networks shapes cognitive task activationsWhat is the optimal value of the g-ratio for myelinated fibers in the rat CNS? A theoretical approach.Implications for atypical antipsychotics in the treatment of schizophrenia: neurocognition effects and a neuroprotective hypothesis.How networks communicate: propagation patterns in spontaneous brain activityThe hemo-neural hypothesis: on the role of blood flow in information processing.Inhibition and brain work
P2860
Q21092765-63497413-E4BE-4ECE-9530-736C1EE1CA00Q21562320-8FF37EBD-C614-48D3-8D3D-CA14C5C5EB28Q24804201-8C3646D3-A52F-47E6-B903-41B472205939Q24812641-C784A9D2-5CA3-4F27-BFE3-D1C7183E25C1Q25256006-D2864727-789D-4DBE-B9A7-06D5CF28B3EAQ26750361-71E27617-F340-4802-9D63-31CB56C41DD3Q26770406-79342EDD-748F-4CE9-906B-9EC8C59B9808Q26770407-95A8D5D2-5F8D-4BB5-9268-980834107D17Q27026249-146605E4-DA05-4842-B221-12D9C0067E45Q27316524-A3486A37-5967-41F9-A0E6-2454AF693A9EQ27318476-69C62731-DC92-4A96-8522-DA44E2A92451Q28242916-5D25051B-6D08-473C-8049-F8AC04A0098CQ28266540-46EA06C9-0827-40DA-92E9-20A825192D3FQ28472850-13B421A5-741B-4752-A451-FA4F95740067Q28481691-A657F79B-52EB-48FA-A5B3-DDAEF31721EDQ28655417-89BEAE47-9067-41A3-B6D1-E27C855F4E19Q28659254-3AD1F742-0C35-4A20-826C-136ECB8B2576Q28763200-AA524032-1769-468C-B268-82B0F3E833C1Q29041955-41E71094-596F-4208-9DA7-61E4A29BE420Q30359432-C79E9400-0E5A-43A8-BD01-01E8AF6BC69AQ30373276-125C99E6-31A6-492F-803F-50F55F07CF7CQ30388955-B1012302-820D-47D7-A03C-D8F4444E6BF6Q30416807-BA90F6FB-FA72-46CB-8CF5-278590A68C35Q30432861-FFFC6763-D761-4906-9198-C280D070A301Q30439834-68A0BEAA-AA23-4371-8F84-72FAAF319784Q30445951-CD59D53E-75CD-41F5-B4B4-801ADBFB8737Q30489193-4EF06517-E1A0-427C-BF6A-20AE0E146EFDQ30495019-3F202CC5-CF79-4017-84F4-884E7A8613DBQ30496280-DCA8FA84-3F17-45A4-A184-F0C2B5617FEFQ30576505-BDB98838-1222-493F-93AA-064F6EAA044EQ30597641-F410133A-81EA-4725-93A1-3AD0B8AB1A5AQ30658089-00CDE688-C2F4-4687-B30D-8BFF8BB99418Q30665074-73F1ECA8-99E9-4AF4-B226-16DAA3095BDDQ30814208-CB3575EE-7875-495C-BAC1-E666CBFE95C5Q30830191-9FBACCD2-6F2A-40F9-ABD3-AB613A1918BEQ30885865-3A4A1F91-36A3-483A-9F9F-66EAFE316CBEQ30977943-F04557B3-DFA9-4EA9-9A5F-624C71E7306AQ31125461-6B571D3E-7D03-4206-AAAC-03C182372B64Q31132139-E1CC0963-7CB3-47BD-B4EB-F57CA033DB8CQ31138739-2139AB7D-2C90-4781-A8DD-A51B0B4195EB
P2860
description
2003 nî lūn-bûn
@nan
2003 թուականի Սեպտեմբերին հրատարակուած գիտական յօդուած
@hyw
2003 թվականի սեպտեմբերին հրատարակված գիտական հոդված
@hy
2003年の論文
@ja
2003年論文
@yue
2003年論文
@zh-hant
2003年論文
@zh-hk
2003年論文
@zh-mo
2003年論文
@zh-tw
2003年论文
@wuu
name
Communication in neuronal networks
@ast
Communication in neuronal networks
@en
type
label
Communication in neuronal networks
@ast
Communication in neuronal networks
@en
prefLabel
Communication in neuronal networks
@ast
Communication in neuronal networks
@en
P2860
P356
P1433
P1476
Communication in neuronal networks
@en
P2093
Simon B Laughlin
P2860
P304
P356
10.1126/SCIENCE.1089662
P407
P577
2003-09-01T00:00:00Z