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関連する概念動画

Position-effect Variegation02:32

Position-effect Variegation

In 1928, a German botanist Emil Heitz observed the moss nuclei with a DNA binding dye. He observed that while some chromatin regions decondense and spread out in the interphase nucleus, others do not. He termed them euchromatin and heterochromatin, respectively. He proposed that the heterochromatin regions reflect a functionally inactive state of the genome. It was later confirmed that heterochromatin is transcriptionally repressed, and euchromatin is transcriptionally active chromatin.
Euchromatin01:01

Euchromatin

The extent of chromatin compaction can be studied by staining chromatin using specific DNA binding dyes. Under the microscope, the dense-compacted regions take up more dye, appearing darker, while the less-compact areas take up less dye and appear lighter. Based on the compaction level, chromatins are classified into two primary forms – euchromatin and heterochromatin.
Euchromatin is the less dense region of the chromatin and stains lighter. Euchromatin contains histone H3 extensively...
Background and Environment Affect Phenotype02:27

Background and Environment Affect Phenotype

Although the genetic makeup of an organism plays a major role in determining the phenotype, there are also several environmental factors, such as temperature, oxygen availability, presence of mutagens, that can alter an organism’s phenotype.
An example of how genetic background affects phenotype can be seen in horses. The Extension gene in horses is responsible for their coat color. A wild-type gene (EE) produces black pigment in the coat, while a mutant gene (ee) produces red pigment. A...
Protein Denaturation01:28

Protein Denaturation

The function of proteins depends on their native three-dimensional structure, which is dictated by the amino acid sequence of the specific protein. Folding of the polypeptide chain takes place under specific conditions that energetically favor the folded conformation. In contrast, protein denaturation occurs spontaneously under unfavorable conditions that disrupt the integrity of the folded conformation. Thus, the chemical and physical environment of a protein, such as significant changes in pH...
Stringent Response in E. coli01:23

Stringent Response in E. coli

Bacterial growth is closely tied to nutrient availability, with cells proliferating exponentially under favorable conditions and entering a stationary phase when resources become scarce. This transition is mediated by a regulatory mechanism known as the stringent response, which allows bacteria to adapt to nutrient deprivation by modulating gene expression and metabolic activity.During nutrient scarcity, intracellular amino acid levels decline. It results in the accumulation of uncharged tRNAs...
Spontaneous and Induced Mutations01:30

Spontaneous and Induced Mutations

Spontaneous mutations arise infrequently during DNA replication due to errors in the process. A key factor behind these errors is tautomeric shifts in nitrogenous bases, where bases transition from keto to enol forms or amino to imino forms. This shift can alter base-pairing rules, leading to mutations. Additionally, reactive oxygen species (ROS) arising from aerobic metabolism can damage DNA, resulting in depurination (loss of a purine base) or depyrimidination (loss of a pyrimidine base).

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関連する実験動画

Updated: Jul 5, 2026

Using Caenorhabditis elegans for Studying Trans- and Multi-Generational Effects of Toxicants
08:58

Using Caenorhabditis elegans for Studying Trans- and Multi-Generational Effects of Toxicants

Published on: July 29, 2019

規制解除されたサイクリンEは染色体の不安定性を誘発する.

C H Spruck1, K A Won, S I Reed

  • 1Department of Molecular Biology, The Scripps Research Institute, La Jolla, California 92037, USA.

Nature
|September 28, 1999
PubMed
まとめ

サイクリンEの構成的過剰発現は,哺乳類の細胞における染色体不安定性 (CIN) を引き起こします. サイクリンE/Cdk2の活性低下は,細胞サイクル中のカリオタイプ安定性を維持するために重要である.

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.
  • がん研究 がん研究

背景:

  • サイクリン依存キナーゼ2 (Cdk2) の規制サブユニットであるサイクリンEは,S相への入り口を制御する.
  • サイクリンEの過剰発現と放出は,ヒトの腫瘍でよく見られる.
  • 腫瘍発生における変化したサイクリンE発現の役割は不明である.

研究 の 目的:

  • 構成性サイクリンE過剰発現が染色体不安定性 (CIN) に与える影響を調査する.
  • シクリンEの過剰発現がCINを通じて腫瘍発生に寄与するかどうかを判断する.
  • サイクリンE,S相進行,およびカリオタイプ安定性の関係を解明する.

主な方法:

  • 構成性サイクリンEは,不死化したネズミの胚線維芽細胞とヒトの乳腺上皮細胞で過剰発現している.
  • サイクリンE過剰発現細胞における染色体不安定性 (CIN) の評価.
  • これらの細胞におけるセンターソーム数とS相進行の分析.

主要な成果:

  • 構成性サイクリンEの過剰発現は,著しい染色体不安定 (CIN) を引き起こした.
  • サイクリンD1またはAの過剰発現はCINを誘発しなかった.

さらに関連する動画

DNA Tension Probes to Map the Transient Piconewton Receptor Forces by Immune Cells
06:53

DNA Tension Probes to Map the Transient Piconewton Receptor Forces by Immune Cells

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Estimation of Structural Sensitivity of Intrinsically Disordered Regions in Response to Hyperosmotic Stress in Living Cells Using FRET
05:13

Estimation of Structural Sensitivity of Intrinsically Disordered Regions in Response to Hyperosmotic Stress in Living Cells Using FRET

Published on: January 12, 2024

関連する実験動画

Last Updated: Jul 5, 2026

Using Caenorhabditis elegans for Studying Trans- and Multi-Generational Effects of Toxicants
08:58

Using Caenorhabditis elegans for Studying Trans- and Multi-Generational Effects of Toxicants

Published on: July 29, 2019

DNA Tension Probes to Map the Transient Piconewton Receptor Forces by Immune Cells
06:53

DNA Tension Probes to Map the Transient Piconewton Receptor Forces by Immune Cells

Published on: March 20, 2021

Estimation of Structural Sensitivity of Intrinsically Disordered Regions in Response to Hyperosmotic Stress in Living Cells Using FRET
05:13

Estimation of Structural Sensitivity of Intrinsically Disordered Regions in Response to Hyperosmotic Stress in Living Cells Using FRET

Published on: January 12, 2024

  • CINのサイクリンE発現細胞は,正常なセンターソーム数を維持したが,S相進行の障害を示した.
  • サイクリンE過剰発現による異常なS相調節はCINと関連している.
  • 結論:

    • サイクリンEの過剰発現は染色体不安定性 (CIN) を誘発する.
    • サイクリンEの規制緩和に起因するS相進行障害がCINに寄与する.
    • G1 / S移行後のサイクリンE / Cdk2活動のダウンレギュレーションは,カリオタイプ安定性を維持し,腫瘍発生を防ぐために不可欠です.