Global and local control of microtubule destabilization promoted by a catastrophe kinesin MCAK/XKCM1

Kazuhisa Kinoshita; Tim L. Noetzel; Isabelle Arnal; David N. Drechsel; Anthony A. Hyman

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Global and local control of microtubule destabilization promoted by a catastrophe kinesin MCAK/XKCM1

机译：突变驱动蛋白MCAK / XKCM1促进的微管失稳的全局和局部控制

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Traditionally, kinesins have been identified as proteins that use the energy of ATP to translocate along microtubules. However, in the last decade some kinesin-like proteins were found to destabilize microtubule ends. The kinesins that destabilize microtubules are known as “catastrophe kinesins”. Analyses of a Xenopus member of the catastrophe kinesins called MCAK/XKCM1 have shown that, in fact, catastrophe kinesins are essential for controlling the distribution of microtubules by inducing their depolymerization. Therefore, unraveling the mechanisms of how microtubule destabilization promoted by these catastrophe kinesins is controlled is essential for understanding how microtubules in a cell are distributed. Here we give an overview of the studies that have focused on the global and local control of microtubule destabilization promoted by MCAK/XKCM1.

机译：传统上，驱动蛋白已被鉴定为利用ATP能量沿微管转运的蛋白。然而，在最近十年中，发现一些驱动蛋白样蛋白使微管末端不稳定。使微管不稳定的驱动蛋白被称为“突变驱动蛋白”。对名为MCAK / XKCM1的巨灾驱动蛋白的非洲爪蟾成员的分析表明，实际上，巨灾驱动蛋白对于诱导微管解聚来控制微管的分布至关重要。因此，揭示如何控制这些灾难性驱动蛋白引起的微管失稳的机制对于理解细胞中微管的分布至关重要。在这里，我们给出了研究的概述，这些研究集中在MCAK / XKCM1促进的微管去稳定的全局和局部控制上。

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《Journal of Muscle Research and Cell Motility》 |2006年第2期|107-114|共8页
作者
Kazuhisa Kinoshita; Tim L. Noetzel; Isabelle Arnal; David N. Drechsel; Anthony A. Hyman;
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Max Planck Institute of Molecular Cell Biology and Genetics (MPI-CBG);

Max Planck Institute of Molecular Cell Biology and Genetics (MPI-CBG);

Equipe ATIPE UMR 6026 Université de Rennes 1;

Max Planck Institute of Molecular Cell Biology and Genetics (MPI-CBG);

Max Planck Institute of Molecular Cell Biology and Genetics (MPI-CBG);

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1. Global and local control of microtubule destabilization promoted by a catastrophe kinesin MCAK/XKCM1. [J] . Kinoshita K, Noetzel TL, Arnal I, Journal of Muscle Research and Cell Motility . 2006,第2期

机译：突变驱动蛋白MCAK / XKCM1促进了微管失稳的全局和局部控制。
2. The microtubule-destabilizing kinesin XKCM1 regulates microtubule dynamic instability in cells [J] . Kline-Smith SL., Walczak CE. Molecular biology of the cell . 2002,第8期

机译：破坏微管的驱动蛋白XKCM1调节细胞中的微管动态不稳定
3. The Microtubule-destabilizing Kinesin XKCM1 Regulates Microtubule Dynamic Instability in Cells [J] . Susan L. Kline-Smith, Claire E. Walczak Molecular biology of the cell . 2002,第8期

机译：破坏微管的驱动蛋白XKCM1调节细胞中的微管动态不稳定性。
4. SWATH-based HX-MS~2 to investigate protein stability of mitotic centromere-associated kinesin (MCAK) on the microtubule lattice [C] . Kyle M. Burns, Mike Wagenbach, Linda Wordeman, ASMS Conference on Mass Spectrometry and Allied Topics . 2014

机译：基于SCATH的HX-MS〜2，以研究微管晶格的丝分裂焦米相关的蛋白（MCAK）的蛋白质稳定性
5. Controlled assembly of microtubules and manipulation of kinesin driven microtubule motion. [D] . Uppalapati, Maruti. 2008

机译：微管的受控组装和驱动蛋白驱动微管运动的操纵。
6. The Microtubule-destabilizing Kinesin XKCM1 Regulates Microtubule Dynamic Instability in Cells [O] . Susan L. Kline-Smith, Claire E. Walczak 2002

机译：破坏微管的驱动蛋白XKCM1调节细胞中的微管动态不稳定性。
7. Depolymerizing Kinesins Kip3 and MCAK Shape Cellular Microtubule Architecture by Differential Control of Catastrophe [O] . Gardner Melissa K., Zanic Marija, Gell Christopher, 2011

机译：解聚驱动蛋白Kip3和MCAK形状细胞微管结构的巨灾的差分控制。

Global and local control of microtubule destabilization promoted by a catastrophe kinesin MCAK/XKCM1

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