27 results found
    1. Neuroscience

    Cerebellar modules operate at different frequencies

    Haibo Zhou et al.
    Zebrin-positive cerebellar Purkinje cells fire at lower frequencies than zebrin-negative cells, indicating that cerebellar circuits are not physiologically homogeneous.
    1. Neuroscience

    TRPC3 is a major contributor to functional heterogeneity of cerebellar Purkinje cells

    Bin Wu et al.
    Purkinje cells feature molecular heterogeneity that introduces differentiation in physiological properties between zebrin-identified cerebellar modules and thereby underlies the differential control on sensorimotor integration.
    1. Developmental Biology
    2. Neuroscience

    Differential spatiotemporal development of Purkinje cell populations and cerebellum-dependent sensorimotor behaviors

    Gerrit Cornelis Beekhof et al.
    Different Purkinje cell subpopulations show distinct developmental profiles of physiological activity, climbing fiber inputs and axonal and dendritic morphology, matching different timelines of cerebellum-dependent behaviors.
    1. Neuroscience

    Stereotyped spatial patterns of functional synaptic connectivity in the cerebellar cortex

    Antoine M Valera et al.
    Functional synaptic organization in the cerebellar cortex is stereotyped and associates distant modules through parallel fibers.
    1. Neuroscience

    Modular organization of cerebellar climbing fiber inputs during goal-directed behavior

    Shinichiro Tsutsumi et al.
    Motor and non-motor functions are represented in spatially segregated and temporally organized climbing fiber signals to distinct cerebellar zones during goal-directed behavior.
    1. Neuroscience

    Firing rate-dependent phase responses of Purkinje cells support transient oscillations

    Yunliang Zang et al.
    Computational and theoretical models show that rate adaptation of phase responses can regulate Purkinje cell outputs by forming transient oscillations in fast-spiking neurons.
    1. Neuroscience

    Complex spike synchrony dependent modulation of rat deep cerebellar nuclear activity

    Tianyu Tang et al.
    The importance of synchronous Purkinje cell complex spikes for controlling cerebellar output was investigated by simultaneously recording from cerebellar nuclear cells and arrays of Purkinje cells that synapse onto them.
    1. Developmental Biology
    2. Neuroscience

    Maturation of Purkinje cell firing properties relies on neurogenesis of excitatory neurons

    Meike E van der Heijden et al.
    Intersectional genetics show that excitatory neurons are essential for the functional and anatomical maturation of cerebellar circuits in mice.
    1. Neuroscience

    Disynaptic cerebrocerebellar pathways originating from multiple functionally distinct cortical areas

    Julia U Henschke, Janelle MP Pakan
    Anatomical projections from sensory, motor, and association cortex to the cerebellum are precisely mapped, including cortical-precerebellar connections and terminal organization, providing insight into how the cerebellum may utilize cortical information.
    1. Neuroscience

    Neural Circuits: All Purkinje cells are not created equal

    Catarina Albergaria, Megan R Carey
    Insight
    Available as:
    • HTML
    • PDF

Refine your results by:

Type
Research categories