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相关概念视频

Condensins02:15

Condensins

3.4K
Condensins are large protein complexes that use ATP to fuel the assembly of chromosomes during mitosis. They transform the tangled, shapeless mass of post-interphase DNA into individualized chromosomes by compacting, organizing, and segregating chromosomal DNA.
The plant and animal cells contain two types of condensin complexes—condensin I and condensin II. Both complexes have five subunits: two SMC (Structural Maintenance of Chromosomes) subunits, a kleisin subunit, and two HEAT-repeat...
3.4K
Chromosome Structure02:40

Chromosome Structure

22.7K
A functional eukaryotic chromosome must contain three elements: a centromere, telomeres, and numerous origins of replication.
The centromere is a DNA sequence that links sister chromatids. This is also where kinetochores, protein complexes to which spindle microtubules attach, are constructed after the chromosome is replicated. The kinetochores allow the spindle microtubules to move the chromosomes within the cell during cell division.
Telomeres consist of non-coding repetitive nucleotide...
22.7K
Cohesins02:20

Cohesins

4.4K
Cohesin protein complexes are a molecular glue that holds two sister chromatids together. They play an important role both in mitosis and meiosis. In mitosis, all cohesin complexes present on the chromosomes are removed before the start of the anaphase stage.
Cohesin complexes in Meiotic Division
Meiosis involves two distinct rounds of chromosomal segregation and cell divisions— Meiosis I followed by Meiosis II – producing four daughter cells. Meiosis I includes the separation of...
4.4K
Duplication of Chromatin Structure02:05

Duplication of Chromatin Structure

5.4K
The process of chromosome duplication during cell division requires genome-wide disruption and re-assembly of chromatin. The chromatin structure must be accurately inherited, reassembled, and maintained in the daughter cells to ensure lineage propagation.
The basic unit of the chromatin is the nucleosome, consisting of DNA wrapped around octameric histone proteins and short stretches of linker DNA separating individual nucleosomes. The histone proteins within the nucleosome have their...
5.4K
Forces Acting on Chromosomes02:11

Forces Acting on Chromosomes

3.3K
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...
3.3K
Assembly of Complex Microtubule Structures01:32

Assembly of Complex Microtubule Structures

1.8K
Complex microtubule structures are present in resting cells and in dividing cells. In resting cells, they are responsible for maintaining the cellular architecture, tracks for intracellular transport, positioning of organelles, assembly of cilia and flagella. They mediate the bipolar spindle assembly for chromosomal segregation and positioning of the cell division plate in dividing cells. The formation of microtubule complex structures depends on the cell type, cell stage, and cell function.
1.8K

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Loop-extruding Smc5/6 organizes transcription-induced positive DNA supercoils.

Molecular cell·2024
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The Smc5/6 complex is a DNA loop-extruding motor.

Nature·2023
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Cohesin-dependent chromosome loop extrusion is limited by transcription and stalled replication forks.

Science advances·2022
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The chromosomal association of the Smc5/6 complex depends on cohesion and predicts the level of sister chromatid entanglement.

PLoS genetics·2014
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The maintenance of chromosome structure: positioning and functioning of SMC complexes.

Nature reviews. Molecular cell biology·2014
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During replication stress, non-SMC element 5 (NSE5) is required for Smc5/6 protein complex functionality at stalled forks.

The Journal of biological chemistry·2012

相关实验视频

Updated: Jun 13, 2025

Super-Resolution Microscopy of the Synaptonemal Complex Within the Caenorhabditis elegans Germline
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Super-Resolution Microscopy of the Synaptonemal Complex Within the Caenorhabditis elegans Germline

Published on: September 13, 2022

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染色体复合体的结构维护

Kristian Jeppsson1,2

  • 1Institute for Quantitative Biosciences, The University of Tokyo, Tokyo, Japan. jeppsson@iqb.u-tokyo.ac.jp.

Methods in molecular biology (Clifton, N.J.)
|September 16, 2024
PubMed
概括

染色体结构维护 (SMC) 综合体是组织DNA和保护基因组的重要分子机器. 这些蛋白质复合体使用ATP挤出DNA循环,这是染色体结构和功能的关键机制.

科学领域:

  • 分子生物学分子生物学
  • 遗传学 是一个遗传学.
  • 生物化学 生物化学

背景情况:

  • 染色体的结构维护 (SMC) 复合体是必不可少的,保存的分子机器.
  • 这些环状复合体在三维空间中组织染色体.
  • 在所有生命形式中,SMC复合体对基因组稳定性和细胞分裂至关重要.

研究的目的:

  • 介绍SMC复合体的正规结构.
  • 描述主要的真核生物和 prokaryotic SMC 类型的组成和功能.
  • 介绍目前的SMC复合物的体外DNA循环挤出模型.

主要方法:

  • 对SMC复杂结构和功能的现有文献的审查.
  • 对依赖ATP的DNA结合和挤出机制的描述.
  • 讨论DNA循环挤出在细胞染色体循环中的作用.

主要成果:

  • SMC复合体利用ATP水解来捕获或循环DNA分子.
  • 详细介绍了规范结构和各种类型的SMC复合体.
  • 通过SMC复合体进行体外DNA循环挤出的模型被介绍.

结论:

关键词:
染色体循环可以连接.凝聚力 在凝聚力中在这种情况下,Condensin基因组组织 基因组组织循环挤出 循环挤出在SMC的综合体中,在 Smc5/6/6 中使用.拓上陷入困的局面.瓦德杰特 (Wadjet) 是一个小岛.

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Immunofluorescence Analysis of Endogenous and Exogenous Centromere-kinetochore Proteins
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Immunofluorescence Analysis of Endogenous and Exogenous Centromere-kinetochore Proteins

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Generation and Purification of Human INO80 Chromatin Remodeling Complexes and Subcomplexes
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Generation and Purification of Human INO80 Chromatin Remodeling Complexes and Subcomplexes

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相关实验视频

Last Updated: Jun 13, 2025

Super-Resolution Microscopy of the Synaptonemal Complex Within the Caenorhabditis elegans Germline
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Super-Resolution Microscopy of the Synaptonemal Complex Within the Caenorhabditis elegans Germline

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Immunofluorescence Analysis of Endogenous and Exogenous Centromere-kinetochore Proteins
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Immunofluorescence Analysis of Endogenous and Exogenous Centromere-kinetochore Proteins

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Generation and Purification of Human INO80 Chromatin Remodeling Complexes and Subcomplexes
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Generation and Purification of Human INO80 Chromatin Remodeling Complexes and Subcomplexes

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  • SMC复合体对于染色体组织和基因组维护至关重要.
  • DNA循环挤出是SMC复合体功能的主要机制.
  • 了解SMC复杂的机制,可以了解染色体结构和动态.