Multiple types of cerebellar target neurons and their circuitry in the vestibulo-ocular reflex
about
Bilaterally Abnormal Head Impulse Tests Indicate a Large Cerebellopontine Angle Tumor.Modeled changes of cerebellar activity in mutant mice are predictive of their learning impairments.Isolated central vestibular syndrome.Flocculus Purkinje cell signals in mouse Cacna1a calcium channel mutants of escalating severity: an investigation of the role of firing irregularity in ataxia.4-aminopyridine does not enhance flocculus function in tottering, a mouse model of vestibulocerebellar dysfunction and ataxia.Changes in Histamine Receptors (H1, H2, and H3) Expression in Rat Medial Vestibular Nucleus and Flocculus after Unilateral Labyrinthectomy: Histamine Receptors in Vestibular CompensationDiverse precerebellar neurons share similar intrinsic excitability.Reconsidering the role of neuronal intrinsic properties and neuromodulation in vestibular homeostasisNeuronal classification and marker gene identification via single-cell expression profiling of brainstem vestibular neurons subserving cerebellar learning.Distribution and Structure of Synapses on Medial Vestibular Nuclear Neurons Targeted by Cerebellar Flocculus Purkinje Cells and Vestibular Nerve in Mice: Light and Electron Microscopy Studies.Whole-Cell Properties of Cerebellar Nuclei Neurons In Vivo.Muscarinic receptor subtypes differentially control synaptic input and excitability of cerebellum-projecting medial vestibular nucleus neurons.Glycine receptor deficiency and its effect on the horizontal vestibulo-ocular reflex: a study on the SPD1J mouse.Plasticity within non-cerebellar pathways rapidly shapes motor performance in vivo.Adaptive Acceleration of Visually Evoked Smooth Eye Movements in Mice.Expression of glycine receptors and gephyrin in rat medial vestibular nuclei and flocculi following unilateral labyrinthectomy.Cerebellar TMS in treatment of a patient with cerebellar ataxia: evidence from clinical, biomechanics and neurophysiological assessments.Long-Lasting Visuo-Vestibular Mismatch in Freely-Behaving Mice Reduces the Vestibulo-Ocular Reflex and Leads to Neural Changes in the Direct Vestibular Pathway.A tale of two species: Neural integration in zebrafish and monkeys.BDNF signaling in the rat cerebello-vestibular pathway during vestibular compensation: BDNF signaling in vestibular compensation.Functional compatibility between Purkinje cell axon branches and their target neurons in the cerebellum.Diversity of neural responses in the brainstem during smooth pursuit eye movements constrains the circuit mechanisms of neural integration.Isolated floccular infarction: impaired vestibular responses to horizontal head impulse.Heterotrimeric guanosine triphosphate-binding protein-coupled modulatory actions of motilin on K+ channels and postsynaptic γ-aminobutyric acid receptors in mouse medial vestibular nuclear neurons.Diversity of vestibular nuclei neurons targeted by cerebellar nodulus inhibition.BK Channels Are Required for Multisensory Plasticity in the Oculomotor System.Unilateral horizontal semicircular canal occlusion induces serotonin increase in medial vestibular nuclei: a study using microdialysis in vivo coupled with HPLC-ECD.The mammalian efferent vestibular system plays a crucial role in vestibulo-ocular reflex compensation after unilateral labyrinthectomy.
P2860
Q30393959-C418FDA8-CC31-4F18-947E-D61140A3824BQ30827480-EC44597C-7933-45D3-89B2-864FD1D41002Q30903422-F32FC3EA-80AD-46AD-BE6A-706C0B99089AQ34519145-49440C5C-C19D-4D99-B670-16548A141D1EQ34603922-07B00DCE-FB6C-447E-A16D-CFB7E829DDB9Q34805860-6C97CFE0-C76A-4270-A1B7-DC85A4E51B11Q35692648-8F4C0F79-5E4D-4811-9CCF-95C920C1BCD7Q35786367-02615EBB-0BC3-4EEF-84FC-E4C7085EEFDAQ36136469-48499E23-550F-49E5-BDBE-8672C793A3C5Q36155041-1C103155-B787-4FFE-B7FA-A4C65524E446Q36194115-6CE3F510-F2B1-49CB-BA04-266692B75E11Q36788603-05D98F41-EA57-4252-8FF8-DDD46FB728A2Q36865399-8193F2CF-3D11-452C-8152-49647E1F0C94Q36897669-DA69598E-3BBB-4BBF-B70E-0C788A3C1393Q37027032-7146F9CD-C9D6-41A0-849A-8A3B15CD374DQ37341427-AFA7BBF5-B61B-427C-AEFB-ECA614918658Q37633776-AB549032-7515-4EB3-A0D2-2DDFE9589EF6Q37705773-7096A846-218C-4053-99D6-F3BB29094E8AQ38209457-63FA2F73-EDE1-466C-9837-F863C8711685Q40796910-DF8AB562-14EA-4E90-8FD4-1CF9266E18CCQ42700790-8DF9A559-0AC0-491D-90F9-6958A6F1049BQ43101058-C01D131C-9B48-4403-A54A-087D84F178F9Q43836507-265C8C33-9213-4F1B-998D-BACEE8B71C4EQ44542657-2FB37BCF-0158-4EAC-BD51-E7F3172A1EAAQ45232196-73EB27FB-8FEA-4F32-B0B4-4C341452AD34Q46214979-B97B27B1-EB6B-4583-B458-40B072560C5BQ48192671-AAC67E9F-DA82-4CC1-A4F0-309184549B9FQ50957659-18F68822-2BB6-419F-B119-48A0414254E5
P2860
Multiple types of cerebellar target neurons and their circuitry in the vestibulo-ocular reflex
description
2011 nî lūn-bûn
@nan
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
2011年论文
@zh
2011年论文
@zh-cn
name
Multiple types of cerebellar t ...... in the vestibulo-ocular reflex
@ast
Multiple types of cerebellar t ...... in the vestibulo-ocular reflex
@en
type
label
Multiple types of cerebellar t ...... in the vestibulo-ocular reflex
@ast
Multiple types of cerebellar t ...... in the vestibulo-ocular reflex
@en
prefLabel
Multiple types of cerebellar t ...... in the vestibulo-ocular reflex
@ast
Multiple types of cerebellar t ...... in the vestibulo-ocular reflex
@en
P2093
P2860
P1476
Multiple types of cerebellar t ...... in the vestibulo-ocular reflex
@en
P2093
Chris Sekirnjak
Kristine E Kolkman
Michael Faulstich
Minyoung Shin
Richard Jacobs
Sascha du Lac
Setareh H Moghadam
P2860
P304
10776-10786
P356
10.1523/JNEUROSCI.0768-11.2011
P407
P577
2011-07-01T00:00:00Z