Myosin-dependent endoplasmic reticulum motility and F-actin organization in plant cells
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概要
- 論文の詳細を見る
Plants exhibit an ultimate case of the intracellular motility involving rapid organelle trafficking and continuous streaming of the endoplasmic reticulum (ER). Although it was long assumed that the ER dynamics is actomyosin-driven, the responsible myosins were not identified, and the ER streaming was not characterized quantitatively. Here we developed software to generate a detailed velocity-distribution map for the GFP-labeled ER. This map revealed that the ER in the most peripheral plane was relatively static, whereas the ER in the inner plane was rapidly streaming with the velocities of up to approximately 3.5 microm/sec. Similar patterns were observed when the cytosolic GFP was used to evaluate the cytoplasmic streaming. Using gene knockouts, we demonstrate that the ER dynamics is driven primarily by the ER-associated myosin XI-K, a member of a plant-specific myosin class XI. Furthermore, we show that the myosin XI deficiency affects organization of the ER network and orientation of the actin filament bundles. Collectively, our findings suggest a model whereby dynamic three-way interactions between ER, F-actin, and myosins determine the architecture and movement patterns of the ER strands, and cause cytosol hauling traditionally defined as cytoplasmic streaming.
- 2010-04-13
著者
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Shimada Tomoo
Department Of Botany Graduate School Of Science Kyoto University
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Shimada Tomoo
Kyoto Univ. Kyoto Jpn
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UEDA Haruko
Department of Botany, Graduate School of Science, Kyoto University
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HARA(NISHIMURA) Ikuko
Department of Botany, Graduate School of Science, Kyoto University
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Tamura Kentaro
Department Of Botany Graduate School Of Science Kyoto University
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