Nanometer-resolution tracking of single cargo reveals dynein motor mechanisms

Cytoplasmic dynein is essential for intracellular transport. Despite extensive in vitro characterizations, how the dynein motors transport vesicles by processive steps in live cells remains unclear. To dissect the molecular mechanisms of dynein, we develop optical probes that enable long-term single...

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Veröffentlicht in:	Nature chemical biology 2024-08
Hauptverfasser:	Peng, Chunte Sam, Zhang, Yunxiang, Liu, Qian, Marti, G Edward, Huang, Yu-Wen Alvin, Südhof, Thomas C, Cui, Bianxiao, Chu, Steven
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creator	Peng, Chunte Sam Zhang, Yunxiang Liu, Qian Marti, G Edward Huang, Yu-Wen Alvin Südhof, Thomas C Cui, Bianxiao Chu, Steven
description	Cytoplasmic dynein is essential for intracellular transport. Despite extensive in vitro characterizations, how the dynein motors transport vesicles by processive steps in live cells remains unclear. To dissect the molecular mechanisms of dynein, we develop optical probes that enable long-term single-particle tracking in live cells with high spatiotemporal resolution. We find that the number of active dynein motors transporting cargo switches stochastically between one and five dynein motors during long-range transport in neuronal axons. Our very bright optical probes allow the observation of individual molecular steps. Strikingly, these measurements reveal that the dwell times between steps are controlled by two temperature-dependent rate constants in which two ATP molecules are hydrolyzed sequentially during each dynein step. Thus, our observations uncover a previously unknown chemomechanical cycle of dynein-mediated cargo transport in living cells.
doi_str_mv	10.1038/s41589-024-01694-2
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title	Nanometer-resolution tracking of single cargo reveals dynein motor mechanisms
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