Complementary activities of TPX2 and chTOG constitute an efficient importin-regulated microtubule nucleation module
Spindle assembly and function require precise control of microtubule nucleation and dynamics. The chromatin-driven spindle assembly pathway exerts such control locally in the vicinity of chromosomes. One of the key targets of this pathway is TPX2. The molecular mechanism of how TPX2 stimulates micro...
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Veröffentlicht in: | Nature cell biology 2015-11, Vol.17 (11), p.1422-1434 |
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Sprache: | eng |
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Zusammenfassung: | Spindle assembly and function require precise control of microtubule nucleation and dynamics. The chromatin-driven spindle assembly pathway exerts such control locally in the vicinity of chromosomes. One of the key targets of this pathway is TPX2. The molecular mechanism of how TPX2 stimulates microtubule nucleation is not understood. Using microscopy-based dynamic
in vitro
reconstitution assays with purified proteins, we find that human TPX2 directly stabilizes growing microtubule ends and stimulates microtubule nucleation by stabilizing early microtubule nucleation intermediates. Human microtubule polymerase chTOG (XMAP215/Msps/Stu2p/Dis1/Alp14 homologue) only weakly promotes nucleation, but acts synergistically with TPX2. Hence, a combination of distinct and complementary activities is sufficient for efficient microtubule formation
in vitro
. Importins control the efficiency of the microtubule nucleation by selectively blocking the interaction of TPX2 with microtubule nucleation intermediates. This
in vitro
reconstitution reveals the molecular mechanism of regulated microtubule formation by a minimal nucleation module essential for chromatin-dependent microtubule nucleation in cells.
Using TIRF-based
in vitro
reconstitution assays Surrey and colleagues characterize how chTOG and TPX2 cooperate in microtubule nucleation and find that importins regulate the process. |
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ISSN: | 1465-7392 1476-4679 |
DOI: | 10.1038/ncb3241 |