3,450 results found
    1. Neuroscience

    Spinal V2b neurons reveal a role for ipsilateral inhibition in speed control

    Rebecca A Callahan et al.
    Two anatomically and genetically distinct subtypes of spinal V2b neurons provide inhibition onto motor circuits and serve as a brake on locomotor speed.
    1. Cell Biology
    2. Neuroscience

    Speed and segmentation control mechanisms characterized in rhythmically-active circuits created from spinal neurons produced from genetically-tagged embryonic stem cells

    Matthew J Sternfeld et al.
    Stem cell derived ventral-spinal cord excitatory neurons self-assemble into a rhythmically bursting neural network whose speed and intercellular coordination are both instructively modulated by cell-type specific interactions with inhibitory neurons.
    1. Neuroscience

    Long ascending propriospinal neurons provide flexible, context-specific control of interlimb coordination

    Amanda M Pocratsky et al.
    Conditional silencing of long ascending propriospinal neurons disrupts interlimb coordination of the fore and hindlimb pairs, but in a highly context-specific manner.
    1. Neuroscience

    Effects of visual inputs on neural dynamics for coding of location and running speed in medial entorhinal cortex

    Holger Dannenberg et al.
    Spatial accuracy of grid cell firing correlates with the slope of the local field potential theta frequency vs. running speed relationship and integrates velocity signals over past time.
    1. Neuroscience

    Computational modeling of brainstem circuits controlling locomotor frequency and gait

    Jessica Ausborn et al.
    A new computational model of brainstem control of locomotor speed and gait was developed to reproduce and explain recent experimental data and propose predictions for subsequent experimental testing.
    1. Computational and Systems Biology

    Distributing tasks via multiple input pathways increases cellular survival in stress

    Alejandro A Granados et al.
    Single-cell experiments and mathematical modelling show that cellular signalling networks are vulnerable to trade-offs in speed versus accuracy, but that these vulnerabilities can be overcome by distributing the two tasks to different, although interacting, subnetworks.
    1. Neuroscience

    Mechanosensory neurons control the timing of spinal microcircuit selection during locomotion

    Steven Knafo et al.
    Bioluminescence monitoring and selective silencing in zebrafish larva reveal a novel sensorimotor circuit modulating speed in the moving spinal cord.
    1. Neuroscience

    High-fidelity musculoskeletal modeling reveals that motor planning variability contributes to the speed-accuracy tradeoff

    Mazen Al Borno et al.
    The speed-accuracy tradeoff could be a consequence of motor planning variability and not exclusively signal-dependent noise, as is currently held.
    1. Neuroscience

    Specialized contributions of mid-tier stages of dorsal and ventral pathways to stereoscopic processing in macaque

    Toshihide W Yoshioka et al.
    Visual area MT signals binocular disparity quickly and robustly, whereas area V4 or its upstream area transforms the nature of the signals to derive a more sophisticated depth representation.
    1. Neuroscience

    A time-stamp mechanism may provide temporal information necessary for egocentric to allocentric spatial transformations

    Avner Wallach et al.
    A novel neural mechanism for precise, unbiased estimation of time intervals in the thalamus of electric fish is likely used for computing distance between object encounters.

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