NOD is a plus end–directed motor that binds EB1 via a new microtubule tip localization sequence

机译：NOD是一种正向末端驱动马达通过新的微管尖端定位序列与EB1结合

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Chromosome congression, the process of positioning chromosomes in the midspindle, promotes the stable transmission of the genome to daughter cells during cell division. Congression is typically facilitated by DNA-associated, microtubule (MT) plus end–directed motors called chromokinesins. The Drosophila melanogaster chromokinesin NOD contributes to congression, but the means by which it does so are unknown in large part because NOD has been classified as a nonmotile, orphan kinesin. It has been postulated that NOD promotes congression, not by conventional plus end–directed motility, but by harnessing polymerization forces by end-tracking on growing MT plus ends via a mechanism that is also uncertain. Here, for the first time, it is demonstrated that NOD possesses MT plus end–directed motility. Furthermore, NOD directly binds EB1 through unconventional EB1-interaction motifs that are similar to a newly characterized MT tip localization sequence. We propose NOD produces congression forces by MT plus end–directed motility and tip-tracking on polymerizing MT plus ends via association with EB1.

机译：染色体融合是将染色体定位在纺锤体中部的过程，可促进细胞分裂过程中基因组向子细胞的稳定传递。通常通过与DNA相关的微管（MT）加上端粒驱动蛋白（称为染色体激酶）来促进会议。果蝇黑腹果蝇嗜铬细胞因子NOD促进了国会发展，但是它的作法很大程度上是未知的，因为NOD被归类为非运动性孤儿驱动蛋白。据推测，NOD并非通过传统的加上末端导向的动力来促进国会发展，而是通过还不确定的机制通过在生长中的MT末端上进行末端追踪来利用聚合力。在这里，这是首次证明NOD具有MT和定向运动。此外，NOD通过与传统表征的MT尖端定位序列相似的非常规EB1相互作用基序直接结合EB1。我们建议NOD通过MT加末端导向的运动产生末端推力，并通过与EB1缔合使MT加末端聚合末端提示。

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期刊名称 The Journal of Biophysical and Biochemical Cytology
作者
Anna A. Ye; Vikash Verma; Thomas J. Maresca;
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年(卷),期 2018(217),9
年度 2018
页码 3007–3017
总页数 11
原文格式 PDF
正文语种
中图分类生物学;
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1. 一种新的甘露糖结合凝集素--朱顶兰凝集素基因的克隆及序列分析 [J] . 吴传芳, 安洁, 何小佳, 植物学报（英文版） . 2004,第011期
2. NOD is a plus end–directed motor that binds EB1 via a new microtubule tip localization sequence [J] . Anna A. Ye, Vikash Verma, Thomas J. Maresca Journal of cell biology . 2018,第9期

机译：NOD是一种正向末端导向的电机，通过新的微管尖端定位序列与EB1结合
3. The kinesin-13 KLP10A motor regulates oocyte spindle length and affects EB1 binding without altering microtubule growth rates The kinesin-13 KLP10A motor regulates oocyte spindle length and affects EB1 binding without altering microtubule growth rates The kinesin-13 KLP10A motor regulates oocyte spindle length and affects EB1 binding without altering microtubule growth rates [J] . Sharyn A. Endow, Kevin K. Do, Kim Liên Hoàng Biology Open . 2014,第7期

机译：kinesin-13 KLP10A马达调节卵母细胞纺锤体长度并影响EB1结合，而不会改变微管生长速率kinesin-13 KLP10A马达调节卵母细胞纺锤体长度并影响EB1结合而不会改变微管生长速率。 EB1结合而不会改变微管生长速率
4. Ubiquitin-dependent Proteolysis of the Microtubule End-binding Protein 1, EB1, Is Controlled by the COP9 Signalosome: Possible Consequences for Microtubule Filament Stability. [J] . Peth A, Boettcher JP, Dubiel W Journal of Molecular Biology . 2007,第2期

机译：微管末端结合蛋白1 EB1的泛素依赖性蛋白水解受COP9 Signalosome控制：微管丝稳定性的可能后果。
5. A Model of Directed Binding to Microtubules by Kinesin and Ncd Motor Proteins [C] . H. Bolterauer, J.A. Tuszynski International Conference on Micro amp; Nano Systems 2002 (ICMNS 2002) Aug 11-14, 2002 Kunming, China . 2002

机译：驱动蛋白和Ncd运动蛋白定向结合到微管的模型。
6. Interactions between EB1, microtubules and actin. [D] . Alberico, Emily O. 2016

机译：EB1，微管和肌动蛋白之间的相互作用。
7. The kinesin-13 KLP10A motor regulates oocyte spindle length and affects EB1 binding without altering microtubule growth rates [O] . Kevin K. Do, Kim Liên Hoàng, Sharyn A. Endow 2014

机译：kinesin-13 KLP10A电动机可调节卵母细胞纺锤体长度并影响EB1结合而不会改变微管的生长速率
8. NOD is a plus end–directed motor that binds EB1 via a new microtubule tip localization sequence [O] . Anna A. Ye, Vikash Verma, Thomas J. Maresca 2018

机译：NOD是一种加上终端定向电动机，通过新的微管尖端定位序列结合EB1

NOD is a plus end–directed motor that binds EB1 via a new microtubule tip localization sequence

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