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Literature DB >> 26869224

Suppression of microtubule assembly kinetics by the mitotic protein TPX2.

Taylor A Reid¹, Breanna M Schuster¹, Barbara J Mann², Sai Keshavan Balchand², Melissa Plooster¹, Mark McClellan¹, Courtney E Coombes¹, Pat Wadsworth³, Melissa K Gardner⁴.

Abstract

TPX2 is a widely conserved microtubule-associated protein that is required for mitotic spindle formation and function. Previous studies have demonstrated that TPX2 is required for the nucleation of microtubules around chromosomes; however, the molecular mechanism by which TPX2 promotes microtubule nucleation remains a mystery. In this study, we found that TPX2 acts to suppress tubulin subunit off-rates during microtubule assembly and disassembly, thus allowing for the support of unprecedentedly slow rates of plus-end microtubule growth, and also leading to a dramatically reduced microtubule shortening rate. These changes in microtubule dynamics can be explained in computational simulations by a moderate increase in tubulin-tubulin bond strength upon TPX2 association with the microtubule lattice, which in turn acts to reduce the departure rate of tubulin subunits from the microtubule ends. Thus, the direct suppression of tubulin subunit off-rates by TPX2 during microtubule growth and shortening could provide a molecular mechanism to explain the nucleation of new microtubules in the presence of TPX2.

Entities: Gene

Keywords: Dynamic instability; Microtubule; Microtubule-associated protein; Mitosis

Mesh：

Substances：

Year: 2016 PMID： 26869224 PMCID： PMC4852719 DOI： 10.1242/jcs.178806

Source DB: PubMed Journal: J Cell Sci ISSN： 0021-9533 Impact factor: 5.285

44 in total

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Authors: Renu Mohan; Eugene A Katrukha; Harinath Doodhi; Ihor Smal; Erik Meijering; Lukas C Kapitein; Michel O Steinmetz; Anna Akhmanova
Journal: Proc Natl Acad Sci U S A Date: 2013-05-14 Impact factor: 11.205

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Authors: Jan W Vos; Laurent Pieuchot; Jean-Luc Evrard; Natacha Janski; Marc Bergdoll; Dryas de Ronde; Laurent H Perez; Teresa Sardon; Isabelle Vernos; Anne-Catherine Schmit
Journal: Plant Cell Date: 2008-10-21 Impact factor: 11.277

6. Rapid dynamics of the microtubule binding of ensconsin in vivo.

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7. Branching microtubule nucleation in Xenopus egg extracts mediated by augmin and TPX2.

Authors: Sabine Petry; Aaron C Groen; Keisuke Ishihara; Timothy J Mitchison; Ronald D Vale
Journal: Cell Date: 2013-02-14 Impact factor: 41.582

8. Dynamic instability of individual microtubules analyzed by video light microscopy: rate constants and transition frequencies.

Authors: R A Walker; E T O'Brien; N K Pryer; M F Soboeiro; W A Voter; H P Erickson; E D Salmon
Journal: J Cell Biol Date: 1988-10 Impact factor: 10.539

9. Localization of the kinesin-like protein Xklp2 to spindle poles requires a leucine zipper, a microtubule-associated protein, and dynein.

Authors: T Wittmann; H Boleti; C Antony; E Karsenti; I Vernos
Journal: J Cell Biol Date: 1998-11-02 Impact factor: 10.539

10. Complementary activities of TPX2 and chTOG constitute an efficient importin-regulated microtubule nucleation module.

Authors: Johanna Roostalu; Nicholas I Cade; Thomas Surrey
Journal: Nat Cell Biol Date: 2015-09-28 Impact factor: 28.824

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Review 2. The quantification and regulation of microtubule dynamics in the mitotic spindle.

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3. How TPX2 helps microtubules branch out.

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4. Non-enzymatic Activity of the α-Tubulin Acetyltransferase αTAT Limits Synaptic Bouton Growth in Neurons.

Authors: Courtney E Coombes; Harriet A J Saunders; Anirudh G Mannava; Dena M Johnson-Schlitz; Taylor A Reid; Sneha Parmar; Mark McClellan; Connie Yan; Stephen L Rogers; Jay Z Parrish; Michael Wagenbach; Linda Wordeman; Jill Wildonger; Melissa K Gardner
Journal: Curr Biol Date: 2020-01-09 Impact factor: 10.834

Review 5. Microtubule dynamics: an interplay of biochemistry and mechanics.

Authors: Gary J Brouhard; Luke M Rice
Journal: Nat Rev Mol Cell Biol Date: 2018-07 Impact factor: 94.444

6. UNC-45A Is a Novel Microtubule-Associated Protein and Regulator of Paclitaxel Sensitivity in Ovarian Cancer Cells.

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