9 research outputs found

    Competition between microtubule-associated proteins directs motor transport

    No full text
    Motor and non-motor microtubule-associated proteins (MAPs) bind to the microtubule lattice, but it is unclear how their binding activities are coordinated and how this impacts motor transport. Here the authors show how MAP competition controls microtubule access to determine the distribution and balance of motor activity

    Microtubule Organization and Microtubule-Associated Proteins (MAPs)

    No full text
    Dendrites have a unique microtubule organization. In vertebrates, dendritic microtubules are organized in antiparallel bundles, oriented with their plus ends either pointing away or toward the soma. The mixed microtubule arrays control intracellular trafficking and local signaling pathways, and are essential for dendrite development and function. The organization of microtubule arrays largely depends on the combined function of different microtubule regulatory factors or generally named microtubule-associated proteins (MAPs). Classical MAPs, also called structural MAPs, were identified more than 20 years ago based on their ability to bind to and copurify with microtubules. Most classical MAPs bind along the microtubule lattice and regulate microtubule polymerization, bundling, and stabilization. Recent evidences suggest that classical MAPs also guide motor protein transport, interact with the actin cytoskeleton, and act in various neuronal signaling networks. Here, we give an overview of microtubule organization in dendrites and the role of classical MAPs in dendrite development, dendritic spine formation, and synaptic plasticity

    The model of local axon homeostasis - explaining the role and regulation of microtubule bundles in axon maintenance and pathology

    No full text

    The Molecular Convergence of Birdsong and Speech

    No full text
    corecore