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相关概念视频

Spindle Assembly02:50

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Spindle assembly occurs through three, often coexisting, pathways – the centrosome-mediated pathway, the chromatin-mediated pathway, and the microtubule-mediated pathway – collectively contributing to form a robust spindle apparatus.
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Most animal cells comprise a pair of centrioles together called a centrosome. The cell duplicates its centrosome and contains two centrosomes side-by-side, which begin to move apart during the prophase. As the centrosomes migrate to two different sides of the cell, microtubules start extending from each centrosome toward the other end. The mitotic spindle is composed of the centrosomes and their emerging microtubules.
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The mitotic spindle—or spindle apparatus—is a eukaryotic, cytoskeletal structure made up of long protein fibers called microtubules. Formed during cell division, the spindle separates sister chromatids and moves them to opposite ends of a parental cell, where the now individual chromosomes are distributed to two daughter cell nuclei.
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The primary microtubule organizing center (MTOC) in animal cells is the centrosome. A centrosome has two cylindrical centrioles at its core. Each centriole consists of nine sets of three microtubules held together by proteins. The centrioles are positioned at right angles to each other and surrounded by a shapeless protein cloud called the pericentriolar matrix, or pericentriolar material (PCM).
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As cells progress into mitosis, the nuclear envelope breaks down, and the condensed chromosomes are exposed to the array of bipolar microtubules of the mitotic spindle. The kinetochore, a large, disc-shaped protein complex, is present at the centromere region of the sister chromatids and acts as a binding site for the microtubules.  Usually, the plus-end of a single microtubule is embedded within the kinetochore. However, some kinetochores first establish lateral contact with the side-wall...
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Microtubules are thick hollow cylindrical proteins that help form the cytoskeleton. Microtubules have varied roles in the cell. These filaments help form cellular appendages like cilia and flagella, which are responsible for locomotion. The cilia arise from basal bodies, separated from the main body by a membrane-like structure forming the transition zone. This zone is the gate for the entry of lipids and proteins, creating a unique composition of lipids and proteins in the ciliary membrane and...
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Imaging Centrosomes in Fly Testes
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中线体组合的结构基础

Zhe Feng1, Anna Caballe1, Alan Wainman1

  • 1The Sir William Dunn School of Pathology, University of Oxford, South Parks Road, Oxford OX1 3RE, UK.

Cell
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PubMed
概括

在线细胞中心体中将中心素 (Cnn) 组装成支架需要其素拉链 (LZ) 和Cnn-motif 2 (CM2) 域. 这些域形成了四重体,使Cnn具有构建基本支架的内在能力.

关键词:
中心素美国电视台在PCM时间表中心层中心体细胞分裂

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科学领域:

  • 细胞生物学
  • 结构生物学
  • 分子生物学

背景情况:

  • 中心素 (Cnn) 对于在中招募蛋白质的支架而言至关重要.
  • 目前尚不清楚Cnn脚手架的确切组装机制.

研究的目的:

  • 阐明基底的分子机制中心素 (Cnn) 支架组装.
  • 确定线粒中心体形成所需的Cnn相互作用的结构基础.

主要方法:

  • 在体外生化测试以描述蛋白质与蛋白质的相互作用.
  • 素拉链 (LZ) 和Cnn-motif 2 (CM2) 复合物的晶体结构的确定.
  • 在实验室组装测试中使用修改的LZ域和Plk1酸化.
  • 使用突变发生的体内研究来评估对Cnn支架组装的影响.

主要成果:

  • 脚手架组装需要保存的Leucine Zipper (LZ) 和Cnn-motif 2 (CM2) 域,它们形成2:2复合体.
  • 晶体结构显示LZ和CM2蛋白质形成螺旋二元体,组装成四元体.
  • 在试验室中,Plk1酸化刺激了LZ和CM2之间的微米级组件的形成.
  • 破坏LZ:CM2四聚体形成的突变会损害体外组合和体外Cnn- 支架组合.

结论:

  • Cnn分子具有依赖于LZ:CM2相互作用的大组形成的内在能力.
  • 这些由LZ:CM2介导的组合对于线粒细胞中心体的正确组合至关重要.
  • 这项研究提供了第一个原子层面的洞察力,