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Early endosome motility spatially organizes polysome distribution
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- Peter Ashwin
- Biosciences 1 and 2
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- Yvonne Roger
- Biosciences 1 and 2
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- Gero Steinberg
- Biosciences 1 and 2
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- Yujiro Higuchi
- Biosciences 1 and 2
Bibliographic Information
- Published
- 2014-02-03
- DOI
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- 10.1083/jcb.201307164
- Publisher
- Rockefeller University Press
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Description
<jats:p>Early endosomes (EEs) mediate protein sorting, and their cytoskeleton-dependent motility supports long-distance signaling in neurons. Here, we report an unexpected role of EE motility in distributing the translation machinery in a fungal model system. We visualize ribosomal subunit proteins and show that the large subunits diffused slowly throughout the cytoplasm (Dc,60S = 0.311 µm2/s), whereas entire polysomes underwent long-range motility along microtubules. This movement was mediated by “hitchhiking” on kinesin-3 and dynein-driven EEs, where the polysomes appeared to translate EE-associated mRNA into proteins. Modeling indicates that this motor-driven transport is required for even cellular distribution of newly formed ribosomes. Indeed, impaired EE motility in motor mutants, or their inability to bind EEs in mutants lacking the RNA-binding protein Rrm4, reduced ribosome transport and induced ribosome aggregation near the nucleus. As a consequence, cell growth was severely restricted. Collectively, our results indicate that polysomes associate with moving EEs and that “off- and reloading” distributes the protein translation machinery.</jats:p>
Journal
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- Journal of Cell Biology
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Journal of Cell Biology 204 (3), 343-357, 2014-02-03
Rockefeller University Press
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Details 詳細情報について
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- CRID
- 1364233268816139392
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- ISSN
- 15408140
- 00219525
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- Data Source
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- Crossref
