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Showing 1–7 of 7 results
Advanced filters: Author: Michael H. Myoga Clear advanced filters

  • Coincidence detector neurons in the mammalian brainstem encode interaural time differences (ITDs) that are implicated in auditory processing. Myoga et al. study a previously developed neuronal model and find that inhibition is crucial for sound localization, but more dynamically than previously thought.

    • Michael H. Myoga
    • Simon Lehnert
    • Benedikt Grothe
    ResearchOpen Access
    Nature Communications
    Volume: 5, P: 1-13

  • Unlike cortical progenitors, ventral telencephalic progenitors retain the ability to generate diverse neuron types during neurogenesis. Here, the authors show that ventral telencephalic progenitor maturation is gated by developmental timing, revealing a distinct regulatory logic underlying the development of inhibitory neurons.

    • Ann Rose Bright
    • Yana Kotlyarenko
    • Christian Mayer
    ResearchOpen Access
    Nature Neuroscience
    Volume: 28, P: 1663-1675

  • The protein RIMα is involved in targetting calcium channels to the active zones of presynaptic terminals. Here, the authors show that mice deficient in RIMα show reduced calcium influx in the cerebellar presynaptic terminals, which reduces neurotransmitter release probability and increases short-term plasticity.

    • Michael Kintscher
    • Christian Wozny
    • Jörg Breustedt
    Research
    Nature Communications
    Volume: 4, P: 1-8

  • Binaural cue processing in auditory brainstem relies on the precise temporal relationship between excitatory and inhibitory inputs. Here the authors provide direct evidence that sub-millisecond precise inhibition can tune sensitivity to input processing in the lateral superior olive via post inhibitory facilitation.

    • Barbara Beiderbeck
    • Michael H. Myoga
    • Michael Pecka
    ResearchOpen Access
    Nature Communications
    Volume: 9, P: 1-13

  • Diverse species use ineraural time differences to locate the origin of sounds in space. Here the authors show that GABAB receptor–mediated feedback onto the medial superior olive modulates the gain of auditory space coding, leading to systematic shifts in the percept of sound location.

    • Annette Stange
    • Michael H Myoga
    • Benedikt Grothe
    Research
    Nature Neuroscience
    Volume: 16, P: 1840-1847