1,000 results found
    1. Neuroscience

    High-throughput microcircuit analysis of individual human brains through next-generation multineuron patch-clamp

    Yangfan Peng et al.
    Combining a multineuron patch-clamp system with an automated pipette pressure and cleaning device enables efficient screening of synaptic connectivity in human brain slices and allows inter-individual comparison.
    1. Neuroscience

    Synaptic representation of locomotion in single cerebellar granule cells

    Kate Powell et al.
    The first patch-clamp recordings from single cerebellar granule cells during locomotion reveal that the entire step sequence can be predicted from both excitatory synaptic input and output spikes from a single neuron.
    1. Cell Biology

    Ion channels and calcium signaling in motile cilia

    Julia F Doerner et al.
    Direct patch clamp of ependymal motile cilia reveals that voltage-gated calcium channels in the cell body dominate their electrical and calcium signaling properties.
    1. Structural Biology and Molecular Biophysics

    Nucleotide inhibition of the pancreatic ATP-sensitive K+ channel explored with patch-clamp fluorometry

    Samuel G Usher et al.
    Simultaneous measurements of ligand binding and channel currents are used to understand gating of the ATP-sensitive K+ channel.
    1. Neuroscience

    Kv1.1 contributes to a rapid homeostatic plasticity of intrinsic excitability in CA1 pyramidal neurons in vivo

    Peter James Morgan et al.
    Short, theta-bursts of action potential firing decrease the global excitability of CA1 pyramidal neurons, providing an internal mechanism which could regulate their allocation to memory engrams.
    1. Neuroscience

    Multimodal sensory integration in single cerebellar granule cells in vivo

    Taro Ishikawa et al.
    Building on previous work (Huang et al., 2013), it is shown that single granule cells receive excitatory synaptic input driven by up to three separate sensory modalities in vivo, which demonstrate that individual neurons can contribute to multisensory integration at the input layer of the cerebellar cortex.
    1. Neuroscience

    Relaxation of synaptic inhibitory events as a compensatory mechanism in fetal SOD spinal motor networks

    Pascal Branchereau et al.
    Electrophysiological and simulation approaches show that a chloride-related longer relaxation of the inhibitory synaptic events partially compensates the early defect in the chloride homeostasis detected in fetal SOD spinal motoneurons.
    1. Neuroscience

    Selective attenuation of Ether-a-go-go related K+ currents by endogenous acetylcholine reduces spike-frequency adaptation and network correlation

    Edward D Cui, Ben W Strowbridge
    Acetylcholine, a common modulator in the brain, controls spike-frequency adaptation by specifically attenuating Ether-a-go-go related K+ currents, thereby explaining many cortical network statistical changes often observed in vivo.

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