7 results found
    1. Cell Biology

    The adhesion function of the sodium channel beta subunit (β1) contributes to cardiac action potential propagation

    Rengasayee Veeraraghavan et al.
    Structural and functional investigations identify a structural unit for ephaptic coupling in the heart, and provide the mechanistic basis for a novel strategy for the treatment of arrhythmias.
    1. Neuroscience

    Tracking individual action potentials throughout mammalian axonal arbors

    Milos Radivojevic et al.
    A method was developed to non-invasively and simultaneously track individual action-potentials propagating across multiple branches of identified neurons in neocortical cultures.
    1. Neuroscience

    Beta band oscillations in motor cortex reflect neural population signals that delay movement onset

    Preeya Khanna, Jose M Carmena
    Using a sequential neurofeedback-arm reaching task, a new link is established among population neural activity patterns, generation of beta oscillations, and motor behavior changes.
    1. Developmental Biology
    2. Neuroscience

    Ordered arrangement of dendrites within a C. elegans sensory nerve bundle

    Zhiqi Candice Yip, Maxwell G Heiman
    A nerve bundle is not simply a cable of wires, but has order within it.
    1. Developmental Biology

    Axon tension regulates fasciculation/defasciculation through the control of axon shaft zippering

    Daniel Šmít et al.
    Competition between adhesive and tensile forces regulates axon fasciculation, thus introducing a new role of mechanical tension in the development of neural networks.
    1. Neuroscience

    Interplay between population firing stability and single neuron dynamics in hippocampal networks

    Edden Slomowitz et al.
    Neuronal networks balance flexibility with stability by allowing the firing rate of individual neurons within a network to vary over time, while ensuring that the average firing rate across the network remains constant.
    1. Human Biology and Medicine
    2. Neuroscience

    Common resting brain dynamics indicate a possible mechanism underlying zolpidem response in severe brain injury

    Shawniqua T Williams et al.
    The therapeutic effects of the sleeping pill zolpidem in patients with disorders of consciousness may be due to recruitment of brain cells idling in abnormally low-frequency brain waves.

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