Skilled reaching relies on a V2a propriospinal internal copy circuit - Wikidata - wikimedia - TriplyDB

Skilled reaching relies on a V2a propriospinal internal copy circuit

Skilled reaching relies on a V2a propriospinal internal copy circuit

http://www.wikidata.org/entity/Q30597634

about

Decoding the organization of spinal circuits that control locomotion The Monitoring and Control of Task Sequences in Human and Non-Human Primates Optogenetics: 10 years of microbial opsins in neuroscience.Evolution of patterning systems and circuit elements for locomotion Internal and External Feedback Circuits for Skilled Forelimb Movement Restoration of skilled locomotion by sprouting corticospinal axons induced by co-deletion of PTEN and SOCS3 Neuroplasticity subserving the operation of brain-machine interfaces Major remaining gaps in models of sensorimotor systems Loss of motoneuron-specific microRNA-218 causes systemic neuromuscular failure Information processing in the CNS: a supramolecular chemistry?Long-Latency Feedback Coordinates Upper-Limb and Hand Muscles during Object Manipulation Tasks.Quantification of gait parameters in freely walking rodents.Flexible and stretchable nanowire-coated fibers for optoelectronic probing of spinal cord circuits.Cortico-fugal output from visual cortex promotes plasticity of innate motor behaviour Focal Stroke in the Developing Rat Motor Cortex Induces Age- and Experience-Dependent Maladaptive Plasticity of Corticospinal System.Consensus Paper: Towards a Systems-Level View of Cerebellar Function: the Interplay Between Cerebellum, Basal Ganglia, and Cortex Presynaptic inhibition of spinal sensory feedback ensures smooth movement.Adult spinal V2a interneurons show increased excitability and serotonin-dependent bistability Role of Synchronous Activation of Cerebellar Purkinje Cell Ensembles in Multi-joint Movement Control.Direct and indirect spino-cerebellar pathways: shared ideas but different functions in motor control Spinal interneurons and forelimb plasticity after incomplete cervical spinal cord injury in adult rats.Skilled forelimb movements and internal copy motor circuits.An Optogenetic Demonstration of Motor Modularity in the Mammalian Spinal Cord.An Interglomerular Circuit Gates Glomerular Output and Implements Gain Control in the Mouse Olfactory Bulb.Generation of highly enriched V2a interneurons from mouse embryonic stem cells Awake behaving electrophysiological correlates of forelimb hyperreflexia, weakness and disrupted muscular synchronization following cervical spinal cord injury in the rat.Early Somatostatin Interneuron Connectivity Mediates the Maturation of Deep Layer Cortical Circuits.Internal models for interpreting neural population activity during sensorimotor control.Motivational state, reward value, and Pavlovian cues differentially affect skilled forelimb grasping in rats Descending Command Neurons in the Brainstem that Halt Locomotion.Macroscopic Neural Oscillation during Skilled Reaching Movements in Humans.Gating of reafference in the external cuneate nucleus during self-generated movements in wake but not sleep Vsx1 Transiently Defines an Early Intermediate V2 Interneuron Precursor Compartment in the Mouse Developing Spinal Cord.Contribution of propriospinal neurons to recovery of hand dexterity after corticospinal tract lesions in monkeys.Anatomical and Molecular Properties of Long Descending Propriospinal Neurons in Mice.Speed and segmentation control mechanisms characterized in rhythmically-active circuits created from spinal neurons produced from genetically-tagged embryonic stem cells.Redefining cerebellar ataxia in degenerative ataxias: lessons from recent research on cerebellar systems.Myoclonic Twitching and Sleep-Dependent Plasticity in the Developing Sensorimotor System.Computations in Sensorimotor Learning.Genetically identified spinal interneurons integrating tactile afferents for motor control.

P2860

Q26765010-379FFA6D-F5A0-42B4-9061-A1325959A827 Q26772819-A9C99FEE-A4EB-4E75-B474-99B768008937 Q26797268-450EA948-8136-4AEA-982E-A74F816B65AC Q26861644-27A7CD16-2661-4D26-9122-386D3322B95E Q27001125-6D10472D-6ECF-4A28-AB7B-64FCB33A7E59 Q27323037-0799F61D-0549-4D72-B5BF-6C7CA784D9C8 Q28084691-B1F5DD8C-479B-4674-9C62-B9A94E8C03FE Q28088732-3C1D2A60-FD73-41EC-8537-008ABFBBB269 Q28271207-3C838396-6EE6-4079-8960-65FE49F4DB56 Q28607744-BAC63E3B-568C-4EF2-A7E4-A0F96A100F19 Q30387511-5A9B096D-CFEA-481D-BD15-42529D1E45BC Q30658649-6F799D65-137A-4FED-9F1D-902D65D08525 Q30843242-3F3CC670-EF2E-4E83-976E-2A5B6B61B7AE Q33768952-CD5E66B3-E9C8-4088-AE14-ADBCBF9AF328 Q33849379-3B02FE9C-1360-413C-BEA9-588D0D48268F Q34513987-8913B37D-35C0-4C3F-8EEC-820DE2F2CA6A Q34939151-84F8865D-FBF3-4599-911B-8E38153C780A Q35086328-8980DA17-9957-4F6D-8073-0E9F08215480 Q35586963-284011A0-6A5C-4072-B0DE-EB84DCEF4C72 Q35818525-64E3C694-D1AD-46DE-ADA3-43BE69C30342 Q35821865-DC850A3A-3EC2-4829-8F0E-B992CF502AEC Q35836802-092C9593-2F8D-4E0F-966D-5CF49AB0F298 Q36162180-401FAD54-DBC3-4EE7-B709-BC347CC5206D Q36248361-6BA012D3-7FF3-49ED-96D9-74456DE8CCF9 Q36600236-6BE8DD5C-04A5-49C5-80C2-60A9E1E48FD1 Q36868974-DFCD352F-D83E-4D2C-951F-774437B10015 Q36883553-BA54A515-ED40-4047-BDA1-9D656337F4B5 Q36921884-D95F8F3C-6454-4950-8E8A-805355F1E790 Q36935476-B42B907C-9C8C-45CF-BD04-342D33E4986D Q36983889-1C32EBDB-EC18-4981-B5EF-181F04220A6B Q37157171-DBFB32E4-9701-4614-A29C-C891AFD27E09 Q37198007-5B8D0431-014F-449A-8113-9EC0AFEBC760 Q37531618-D9FBAFB2-1FCF-430C-86EC-D8190533EF1A Q37599040-2DA4884A-1B6C-4E33-9B13-0DB63AAD4926 Q37625464-F9487687-E582-4FEE-BBA1-DE2139CD8314 Q37641932-81930505-709A-423A-847C-B51E6809EC58 Q38338489-5FB70961-1407-40CC-A758-55A1A6F1C248 Q38364229-B7F88FA5-8F6D-4E06-AB67-46123AA1502B Q38410400-AE63E9BA-2B07-4FBF-ACCD-E611D62AF8EE Q38601651-6FAABC26-5B76-4066-902B-B22033566E46

P2860

Skilled reaching relies on a V2a propriospinal internal copy circuit

http://www.wikidata.org/entity/Q30597634

description

2014 nî lūn-bûn

@nan

2014 թուականի Փետրուարին հրատարակուած գիտական յօդուած

@hyw

2014 թվականի փետրվարին հրատարակված գիտական հոդված

@hy

2014年の論文

@ja

2014年論文

@yue

2014年論文

@zh-hant

2014年論文

@zh-hk

2014年論文

@zh-mo

2014年論文

@zh-tw

2014年论文

@wuu

name

Skilled reaching relies on a V2a propriospinal internal copy circuit

@ast

Skilled reaching relies on a V2a propriospinal internal copy circuit

@en

type

label

Skilled reaching relies on a V2a propriospinal internal copy circuit

@ast

Skilled reaching relies on a V2a propriospinal internal copy circuit

@en

prefLabel

Skilled reaching relies on a V2a propriospinal internal copy circuit

@ast

Skilled reaching relies on a V2a propriospinal internal copy circuit

@en

P1433

Q30597634-8B1058B7-6C07-4F34-9409-84833E7FA555

P1476

Q30597634-836A7B2B-CC66-4D37-8130-8B25BC64E339

P2093

Q30597634-11B3AFE6-BC0E-4883-886E-1F62BCEBCD38

Q30597634-437C063A-02FB-40ED-8177-376CE29B8C5A

Q30597634-8B768DC0-6A30-4C1C-BF0C-58F4588D0CB1

P2860

Q30597634-01718A85-9A3E-40B4-9134-1314B4993D31

Q30597634-0E0EDEF5-74EF-4D9B-8695-B96009B69CBD

Q30597634-19A4D731-7CBC-4600-A516-448213A26D85

Q30597634-2ED67DA5-C5FD-49D8-9392-CF3B2FD4DF8D

Q30597634-388AFFE9-C2C7-4A5C-AAEB-D08EB95BBACB

Q30597634-47B45972-25D9-47FA-9316-CF1E308FD201

Q30597634-4DEBF5ED-4310-4509-97E5-B063F2D13B18

Q30597634-602DBB82-01EB-41AD-8253-AC27002AB999

Q30597634-663FBC05-8622-49AB-87C7-3E87893BF498

Q30597634-66879667-8542-488C-9224-FB3DFC4C5D0C

P2888

Q30597634-FFC2F1C4-F647-49AB-AB92-6C89AE5D90D2

P304

Q30597634-D946C17F-E279-4F74-B19E-081EB64798AD

P31

Q30597634-61EA5089-0F78-4536-BA42-9CC1B6608C57

P356

Q30597634-12979846-8505-4967-9180-BC029D8B254B

P407

Q30597634-3F799D78-B550-4D98-B166-7442B1D07FC8

P433

Q30597634-BE62FA33-7440-41AF-8753-E383A2035BDE

P478

Q30597634-4D2B178B-30F9-4B0F-9CF8-99221E4A7826

P50

Q30597634-DDC92C1C-75B8-4730-B716-9AD0244B5F91

P577

Q30597634-B0A69FFB-7F19-4D8E-AED5-20D85711D972

P5875

Q30597634-AD0F3A8E-A183-437C-AA3E-EDD26CCD28BD

P6179

Q30597634-2476E4C7-03DA-4D29-A200-C48922AB3159

P698

Q30597634-5D736525-B47D-4B74-8EAD-8CE0C7CDB79F

P932

Q30597634-1C17CC22-6C2C-4852-B543-E9434876ADD5

P356

P1433

P1476

Skilled reaching relies on a V2a propriospinal internal copy circuit

@en

P2093

Bror Alstermark

http://www.w3.org/2001/XMLSchema#string

Juan Jiang

http://www.w3.org/2001/XMLSchema#string

Thomas M Jessell

http://www.w3.org/2001/XMLSchema#string

P2860

Circuits controlling vertebrate locomotion: moving in a new direction

Internal models for motor control and trajectory planning

Messages conveyed by spinocerebellar pathways during scratching in the cat. II. Activity of neurons of the ventral spinocerebellar tract

Spatial control of arm movements.

The information capacity of the human motor system in controlling the amplitude of movement

Math1 is essential for the development of hindbrain neurons critical for perinatal breathing.

On the origin of skilled forelimb movements.

Adaptive filter model of the cerebellum.

Optogenetic interrogation of neural circuits: technology for probing mammalian brain structures.

Optimal feedback control as a theory of motor coordination.

P2888

P304

357-363

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1038/NATURE13021

http://www.w3.org/2001/XMLSchema#string

P407

P433

7496

http://www.w3.org/2001/XMLSchema#string

P478

508

http://www.w3.org/2001/XMLSchema#string

P50

P577

2014-02-02T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

260040035

http://www.w3.org/2001/XMLSchema#string

P6179

1047899602

http://www.w3.org/2001/XMLSchema#string

P698

24487617

http://www.w3.org/2001/XMLSchema#string

P932

4230338

http://www.w3.org/2001/XMLSchema#string