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Neuronal network formation relies on the motile behavior of growth cones at the tip of navigating axons. Accumulating evidence indicates that growth cone motility requires spatially controlled endocytosis and exocytosis that can redistribute bulk membrane and functional cargos such as cell adhesion molecules. For axon elongation, the growth cone recycles cell adhesion molecules from its rear to its...
Asymmetric Ca 2+ elevations across the axonal growth cone mediate its turning responses to attractive and repulsive guidance cues. Here we show that clathrin-mediated endocytosis acts downstream of Ca 2+ signals as driving machinery for growth cone turning. In dorsal root ganglion neurons, the formation of clathrin-coated pits is facilitated asymmetrically across the growth cone by...
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