Abstract
Axonal microtubule (MT) arrays are the major cytoskeleton substrate for cargo transport. How MTorganization, i.e., polymer length, number, and minus-end spacing, is regulated and how it impinges on axonal transport are unclear. We describe a method for analyzing neuronal MT organization usinglight microscopy. This method circumvents the needfor electron microscopy reconstructions and is compatible with live imaging of cargo transport and MT dynamics. Examination of a C.elegans motor neuron revealed how age, MT-associated proteins, and signaling pathways control MT length, minus-end spacing, and coverage. In turn, MT organization determines axonal transport progression: cargoes pause at polymer termini, suggesting that switching MT tracks is rate limiting for efficient transport. Cargo run length is set by MT length, and higher MT coverage correlates with shorter pauses. These results uncover the principles and mechanisms of neuronal MT organization and its regulation of axonal cargo transport.
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