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相关概念视频

Crossing Over01:34

Crossing Over

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Unlike mitosis, meiosis aims for genetic diversity in its creation of haploid gametes. Dividing germ cells first begin this process in prophase I, where each chromosome—replicated in S phase—is now composed of two sister chromatids (identical copies) joined centrally.
The homologous pairs of sister chromosomes—one from the maternal and one from the paternal genome—then begin to align alongside each other lengthwise, matching corresponding DNA positions in a process...
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Restarting Stalled Replication Forks02:37

Restarting Stalled Replication Forks

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DNA replication is initiated at sites containing predefined DNA sequences known as origins of replication. DNA is unwound at these sites by the minichromosome maintenance (MCM) helicase and other factors such as Cdc45 and the associated GINS complex.The unwound single strands are protected by replication protein A (RPA) until DNA polymerase starts synthesizing DNA at the 5’ end of the strand in the same direction as the replication fork. To prevent the replication fork from falling apart,...
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Polytene Chromosomes02:04

Polytene Chromosomes

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Polytene chromosomes are giant interphase chromosomes with several DNA strands placed side by side. They were discovered in the year 1881 by Balbiani in salivary glands, intestine, muscles, malpighian tubules, and hypoderm of larvae Chironomus plumosus. Hence, these are also called "Salivary gland chromosomes." These are found in insects of the order Diptera and Collembola; in certain organs of mammals; and synergids, antipodes of flowering plants. Polytene chromosomes are also...
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Meiosis I01:49

Meiosis I

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Meiosis is a carefully orchestrated set of cell divisions, the goal of which—in humans—is to produce haploid sperm or eggs, each containing half the number of chromosomes present in somatic cells elsewhere in the body. Meiosis I is the first such division, and involves several key steps, among them: condensation of replicated chromosomes in diploid cells; the pairing of homologous chromosomes and their exchange of information; and finally, the separation of homologous chromosomes by...
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Duplication of Chromatin Structure02:05

Duplication of Chromatin Structure

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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...
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Cohesins02:20

Cohesins

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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...
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相关实验视频

Updated: Sep 9, 2025

Author Spotlight: Unraveling the Dynamics of Eukaryotic DNA Replication Through Single-Molecule Visualization
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Author Spotlight: Unraveling the Dynamics of Eukaryotic DNA Replication Through Single-Molecule Visualization

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染色体

Franck Pellestor1,2, Benjamin Ganne3,4, Vincent Gatinois3,4

  • 1Unit of Chromosomal Genetics and Research Platform Chromostem, Department of Molecular Genetics and Cytogenomics, Site Unique de Biologie (SUB), Montpellier CHU, Montpellier Cedex 5, France. f-pellestor@chu-montpellier.fr.

Methods in molecular biology (Clifton, N.J.)
|August 30, 2025
PubMed
概括
此摘要是机器生成的。

染色体,是一种复杂的基因组重组,涉及大量的染色体碎片化和重组. 这种跨物种观察到的现象推动了基因组的快速进化,并可能解释了物种化.

关键词:
流产性亡癌症染色体桥梁染色体分离错误染色体进化过程基因组不稳定性微核

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Chromosome Replicating Timing Combined with Fluorescent In situ Hybridization
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Chromatin Spread Preparations for the Analysis of Mouse Oocyte Progression from Prophase to Metaphase II
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科学领域:

  • 基因组学
  • 分子生物学
  • 进化生物学

背景情况:

  • 染色体变是一种复杂的基因组重组,在2011年被发现,现在被归类为染色体生成.
  • 这种现象发生在各种疾病中,包括癌症,先天性疾病以及各种物种的健康个体.

研究的目的:

  • 从其他复杂的重新排列区分分别的分子特征.
  • 阐明驱动染色体的细胞机制及其在基因组重组中的作用.

主要方法:

  • 对分子特征进行分析,以确定染色体.
  • 详细介绍导致染色体变的细胞事件级联的实验模型.

主要成果:

  • 染色体的特征是特定的分子特征,使其与其他复杂的染色体重排区分开来.
  • 三种主要机制启动染色体:微核的形成,来自端粒融合的染色体桥梁和流产的亡.
  • 这些过程涉及染色体材料的碎片化,修复和传播.

结论:

  • 染色体是高分辨率基因组分析的重要发现,揭示了快速基因组修饰的机制.
  • 它在生殖线和早期发育基因组改变中起着至关重要的作用,支持宏观进化和物种化概念.