03634nam 2200589 450 991013720730332120230621140717.09782889193899(ebook)(CKB)3710000000520132(SSID)ssj0001680367(PQKBManifestationID)16496297(PQKBTitleCode)TC0001680367(PQKBWorkID)15028482(PQKB)11329923(WaSeSS)IndRDA00056405(oapen)https://directory.doabooks.org/handle/20.500.12854/53983(EXLCZ)99371000000052013220160829d2014 uy 0engur||#||||||||txtrdacontentcrdamediacrrdacarrierMotor cortex microcircuits (Frontiers in brain microcircuits series) /topic editors: Michael Brecht, Nicholas Hatsopoulos,Takehsi Kaneko and Gordon M. G. ShepherdFrontiers Media SA2015France :Frontiers Media SA,20141 online resource (133 pages) illustrations; digital, PDF file(s)Frontiers Research TopicsBibliographic Level Mode of Issuance: MonographIncludes bibliographical references.How does the motor cortex enable mammals to generate accurate, complex, and purposeful movements? A cubic milimeter of motor cortex contains roughly ̃10̂5 cells, an amazing ̃4 Km of axons and ̃0.4 Km of dendrites, somehow wired together with ̃10̂9 synapses. Corticospinal neurons (a.k.a. Betz cells, upper motor neurons) are a key cell type, monosynaptically conveying the output of the cortical circuit to the spinal cord circuits and lower motor neurons. But corticospinal neurons are greatly outnumbered by all the other kinds of neurons in motor cortex, which presumably also contribute crucially to the computational operations carried out for planning, executing, and guiding actions. Determining the wiring patterns, the dynamics of signalling, and how these relate to movement at the level of specific excitatory and inhibitory cell types is critically important for a mechanistic understanding of the input-output organization of motor cortex. While there is a predictive microcircuit hypothesis that relates motor learning to the operation of the cerebellar cortex, we lack such a microcircuit understanding in motor cortex and we consider microcircuits as a central research topic in the field. This Research Topic covers any issues relating to the microcircuit-level analysis of motor cortex. Contributions are welcomed from neuroscientists at all levels of investigation, from in vivo physiology and imaging in humans and monkeys, to rodent models, in vitro anatomy, electrophysiology, electroanatomy, cellular imaging, molecular biology, disease models, computational modelling, and more.Frontiers Research Topics.NeuroscienceHILCCHuman Anatomy & PhysiologyHILCCHealth & Biological SciencesHILCCMotor Cortexintracortical connectivitycorticospinal neuronsdirectional tuningmotor controlNeuroscienceHuman Anatomy & PhysiologyHealth & Biological SciencesTakehsi Kanekoauth1366029Kaneko TakehsiShepherd Gordon MHatsopoulos Nicholas GPQKBUkMaJRU9910137207303321Motor cortex microcircuits3388486UNINA