90 results found
  1. May roundup of eLife papers in the news

    Showcasing the top mentions that eLife papers received in May
  2. June 2015

    Episode 21: June 2015

    In this episode we hear about tinnitus and hyperacusis, salamanders, chemical harpoons, and the role of ultrasound and song in the mating rituals of mice and flies.
    1. Neuroscience

    Reconstruction of natural images from responses of primate retinal ganglion cells

    Nora Brackbill et al.
    The visual message conveyed by retinal neurons to the brain when signaling natural scenes resembles the individual receptive fields only when viewed in context of the neuronal population.
    1. Neuroscience

    Properties of multivesicular release from mouse rod photoreceptors support transmission of single-photon responses

    Cassandra L Hays et al.
    To improve the reliability of transmitting small single-photon voltage responses, rod photoreceptor cells release synaptic vesicles in regularly timed multivesicular events that are exquisitely sensitive to small voltage changes.
    1. Developmental Biology

    In vivo proximity labeling identifies cardiomyocyte protein networks during zebrafish heart regeneration

    Mira I Pronobis et al.
    Proximity labeling-based proteomic strategies applied in zebrafish identify new insights into protein network changes in heart muscle cells during regeneration and implicate Rho A as a target of ErbB2 signaling during zebrafish heart regeneration.
    1. Evolutionary Biology

    New light shed on the early evolution of limb-bone growth plate and bone marrow

    Jordi Estefa et al.
    A three-dimensional investigation of extinct-tetrapod limbs shows that even though bone elongation and blood-cell production are intimately related to mammal long bones, these functions actually appeared successively in tetrapod evolution.
    1. Neuroscience

    Bidirectional encoding of motion contrast in the mouse superior colliculus

    Jad Barchini et al.
    Two photon calcium imaging experiments show that excitatory and inhibitory neurons in the mouse superior colliculus are differentially modulated by the motion contrast between stimulus center and surround.

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