Roles of Microtubule Bias and Joining in the Self-Organization of Microtubule Driven by Dynein C– A Modeling Study

机译：Dynein C驱动的微管偏置和连接在微管自组织中的作用–建模研究

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Microtubules driven by dynein protein motors may form self-organized circular patterns, understanding which could be of importance to the development of potential nano-bio-machines. It was expected that the microtubule bias and joining could play crucial roles in self-organized movement of microtubules. A Monte Carlo modeling study was conducted to confirm and evaluate contributions of these two parameters to self-organization of microtubules.

机译：由达因蛋白蛋白马达驱动的微管可能会形成自组织的圆形图案，这一点对于理解潜在的纳米生物机器的发展可能很重要。预期微管的偏斜和连接在微管的自组织运动中可能起关键作用。进行了蒙特卡洛建模研究，以确认和评估这两个参数对微管自组织的贡献。

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《The 3rd International Conference on Bioinformatics and Biomedical Engineering(iCBBE 2009)(第三届生物信息与生物医学工程国际会议）论文集》|2009年|1-4|共4页
会议地点 Beijing(CN)
作者
Q.Chen; D.Y.Li; K.Oiwa;
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作者单位

Dept.of Biomedical Engineering University of Alberta Edmonton Alberta Canada T6G 2V2;

Dept.of Biomedical Engineering University of Alberta Edmonton Alberta Canada T6G 2V2 Dept.of Chemical and Materials Engineering University of Alberta Edmonton Alberta Canada T6G 2V4;

Kansai Advanced Research Center NICT Biocommunication 588-2 Iwaoka Nishi-ku Kobe Hyogo 651-2492 Japan;

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关键词
Self-organization; Microtubule; Dynein C; MT bias; MT joining;

机译：自组织；微管; Dynein C; MT偏差MT加入;

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专利

1. Computational model of dynein-dependent self-organization of microtubule asters. [J] . Cytrynbaum EN, Rodionov V, Mogilner A Journal of Cell Science . 2004,第Pta8期

机译：微管紫依赖于动力蛋白的自组织的计算模型。
2. Computational model of dynein-dependent self-organization of microtubule asters [J] . Cytrynbaum EN, Rodionov V, Mogilner A Journal of Cell Science . 2004,第8期

机译：微管紫依赖于动力蛋白的自组织计算模型
3. Role of confinement in the active self-organization of kinesin-driven microtubules [J] . Md. Sirajul Islam, Kaori Kuribayashi-Shigetomi, Arif Md. Rashedul Kabir, Sensors and Actuators . 2017,第auga期

机译：限制在驱动蛋白驱动的微管的主动自组织中的作用
4. Roles of Microtubule Bias and Joining in the Self-Organization of Microtubule Driven by Dynein C - A Modeling Study [C] . Chen Q., Li D.Y., Oiwa K. Bioinformatics and Biomedical Engineering , 2009. ICBBE 2009 . 2009

机译：微管偏置和连接在Dynein C驱动的微管自组织中的作用-建模研究
5. Microscopic investigation and modeling of microtubule self-organization in tubulin solutions. [D] . Guo, Yongxing. 2008

机译：微管蛋白溶液中微管自组织的微观研究和建模。
6. Comparative Studies of Microtubule Mechanics with Two Competing Models Suggest Functional Roles of Alternative Tubulin Lateral Interactions [O] . Zhanghan Wu, Eva Nogales, Jianhua Xing 2012

机译：两种竞争模型对微管力学的比较研究表明微管蛋白横向相互作用的功能性作用
7. Computational model of dynein-dependent self-organization of microtubule asters [O] . E. N. Cytrynbaum, V. Rodionov, A. Mogilner 2004

机译：微管紫依赖于动力蛋白的自组织计算模型

Roles of Microtubule Bias and Joining in the Self-Organization of Microtubule Driven by Dynein C– A Modeling Study

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