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関連する概念動画

The Mitotic Spindle02:27

The Mitotic Spindle

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.
The bipolar configuration of the mitotic spindle facilitates chromosomal segregation, preparing the cell for division. One mechanism that ensures bipolar mitotic...
Spindle Assembly02:50

Spindle Assembly

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.
In most cells, centrosomes are the primary microtubule nucleation centers. In the centrosome-mediated pathway, the G2-prophase transition triggers centrosome maturation and increased microtubule nucleation. Progressive nucleation results in a microtubule array...
Attachment of Sister Chromatids02:57

Attachment of Sister Chromatids

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 of a...
Forces Acting on Chromosomes02:11

Forces Acting on Chromosomes

During mitosis, chromosome movements occur through the interplay of multiple piconewton level forces. In prometaphase, these forces help in chromosome assembly or congression at the equatorial plane, eventually leading to their alignment at the metaphase plate. The forces acting on the chromosomes are space and time-dependent; therefore, they vary with the position of the chromosomes as the cell progresses through mitosis. 
Microtubules and motor proteins exert two types of forces on...
The Mitotic Spindle02:27

The Mitotic Spindle

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.
The bipolar configuration of the mitotic spindle facilitates chromosomal segregation, preparing the cell for division. One mechanism that ensures bipolar mitotic...
Attachment of Sister Chromatids02:57

Attachment of Sister Chromatids

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 of a...

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関連する実験動画

Updated: May 7, 2026

Reconstitution of Basic Mitotic Spindles in Spherical Emulsion Droplets
10:52

Reconstitution of Basic Mitotic Spindles in Spherical Emulsion Droplets

Published on: August 13, 2016

クロマチンはミトシス・スピンドルの形状を決定する.

Ana Dinarina1, Céline Pugieux, Maria Mora Corral

  • 1Cell Biology and Biophysics Unit, European Molecular Biology Laboratory, Heidelberg D-69117, Germany.

Cell
|August 12, 2009
PubMed
まとめ

クロマチンの形状とサイズは,Xenopusエキスのミトーシス・スパインドル形成を制御する. 特定の寸法は,バイポラー・スパインドルの対称性や,細胞分裂中の正確な染色体分離に不可欠です.

科学分野:

  • 細胞生物学 細胞生物学
  • 分子生物学は分子生物学である.
  • バイオフィジックス 生物物理学

背景:

  • ミトティッククロマチンは,マイクロチューブルを双極スパインドルに編成するのに不可欠です.
  • スピンドルの寸法と対称性は,正確な染色体分離に不可欠です.

研究 の 目的:

  • クロマチンの物理的性質がミトスのスパインドルの自己組織化にどのように影響するかを調査する.
  • スピンドルの対称性と極の形成におけるクロマチンの寸法と形状の役割を決定する.

主な方法:

  • 使用したXenopus laevisの細胞質抽出物.
  • クロマチンでコーティングされたビーズをスライド表面に固定するためにマイクロプリントを使用しました.
  • 様々なクロマチンの形状とサイズ (円形の斑点,線) に反応するスパインドル形成を調査した.

主要な成果:

  • 円形のクロマチンの斑点 (14〜18ミクロン) は双極スパインドルを誘発し,より大きな斑点は異常なポール数をもたらした.
  • クロマチン線の長さは極の形成と相関し,より長い線は混乱を引き起こした.
  • 線の厚さは対称性に影響を及ぼし,より薄い線 (<10ミクロン) は対称なスピンドルを形成し,より厚い線は非対称性を誘発した.

さらに関連する動画

Live Cell Imaging to Assess the Dynamics of Metaphase Timing and Cell Fate Following Mitotic Spindle Perturbations
07:14

Live Cell Imaging to Assess the Dynamics of Metaphase Timing and Cell Fate Following Mitotic Spindle Perturbations

Published on: September 20, 2019

Self-Assembly of Microtubule Tactoids
08:49

Self-Assembly of Microtubule Tactoids

Published on: June 23, 2022

関連する実験動画

Last Updated: May 7, 2026

Reconstitution of Basic Mitotic Spindles in Spherical Emulsion Droplets
10:52

Reconstitution of Basic Mitotic Spindles in Spherical Emulsion Droplets

Published on: August 13, 2016

Live Cell Imaging to Assess the Dynamics of Metaphase Timing and Cell Fate Following Mitotic Spindle Perturbations
07:14

Live Cell Imaging to Assess the Dynamics of Metaphase Timing and Cell Fate Following Mitotic Spindle Perturbations

Published on: September 20, 2019

Self-Assembly of Microtubule Tactoids
08:49

Self-Assembly of Microtubule Tactoids

Published on: June 23, 2022

結論:

  • クロマチンの幾何学は,ミトスのスパインドルの形状と方向性を直接決定する.
  • クロマチンの物理的特徴は,スパインドルの組織と機能の重要な決定因子です.