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Spreading of Chromatin Modifications02:25

Spreading of Chromatin Modifications

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The histone proteins in the nucleosomes are post-translationally modified (PTM) to increase or decrease access to DNA. The commonly observed PTMs are methylation, acetylation, phosphorylation, and ubiquitination of lysine amino acids in the histone H3 tail region. These histone modifications have specific meaning for the cell. Hence, they are called "histone code". The protein complex involved in histone modification is termed as "reader-writer" complex.
Writers
The writer...
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Separation of Sister Chromatids02:17

Separation of Sister Chromatids

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At the transition from prophase to metaphase, there is a reduction in cohesion along the chromosomal arms, resulting in the resolution of sister chromatids. However, residual cohesin connections remain to hold the sister chromatids together until the transition from metaphase to anaphase. The residual connection prevents any premature separation of sister chromatids, blocking the risks of aneuploidy within the daughter cells.
At the onset of anaphase, separase, a proteolytic enzyme, is...
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Histone Modification02:32

Histone Modification

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The histone proteins have a flexible N-terminal tail extending out from the nucleosome. These histone tails are often subjected to post-translational modifications such as acetylation, methylation, phosphorylation, and ubiquitination. Particular combinations of these modifications form “histone codes” that influence the chromatin folding and tissue-specific gene expression.
Acetylation
The enzyme histone acetyltransferase adds acetyl group to the histones. Another enzyme, histone...
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Abnormal Proliferation02:23

Abnormal Proliferation

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Under normal conditions, most adult cells remain in a non-proliferative state unless stimulated by internal or external factors to replace lost cells. Abnormal cell proliferation is a condition in which the cell's growth exceeds and is uncoordinated with normal cells. In such situations, cell division persists in the same excessive manner even after cessation of the stimuli, leading to persistent tumors. The tumor arises from the damaged cells that replicate to pass the damage to the...
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Histone Variants at the Centromere02:30

Histone Variants at the Centromere

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Histone variants are the histone proteins with structural and sequence variations. These variants may be regarded as “mutant” forms that replace their canonical histone counterparts in the nucleosomes. Specific post-translational modifications on the histone variants enable further chromatin complexity and regulate tissue-specific gene expression. The most common histone variants are from histone H2A, H2B, and linker histone H1 families. However, several variants of histone H3...
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Anaphase Promoting Complex00:50

Anaphase Promoting Complex

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The stepwise destruction of specific proteins is necessary for the progression and completion of the cell cycle. Such proteins are ubiquitinated by ubiquitin ligases and then subsequently destroyed by the proteasome. The SCF (Skp1/Cullin/F-box) and the anaphase-promoting complex (APC) are two important ubiquitin ligases involved in cell cycle progression. While SCF is active throughout the cell cycle, APC gets activated during metaphase to anaphase transition. Cdc20 or Cdh1 binds to APC and...
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Related Experiment Video

Updated: Oct 19, 2025

Author Spotlight: Epigenetic Modifications and Metabolic Rewiring as Targets for Cancer Therapy
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Author Spotlight: Epigenetic Modifications and Metabolic Rewiring as Targets for Cancer Therapy

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A Histone Modifier's Phase Separation Is Needed for Antitumor Function

    Cancer Discovery
    |September 25, 2021
    PubMed
    Summary
    This summary is machine-generated.

    The UTX protein utilizes a disordered region that promotes condensate formation to inhibit cancer cell proliferation. This finding is crucial for understanding cancer growth mechanisms.

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    Area of Science:

    • Biochemistry
    • Molecular Biology
    • Cancer Research

    Background:

    • The UTX (ubiquinexus) protein is a key component in epigenetic regulation.
    • Dysregulation of UTX has been linked to various cancers.
    • Intrinsically disordered regions (IDRs) are known to play roles in protein function and cellular organization.

    Purpose of the Study:

    • To investigate the role of UTX's intrinsically disordered region in cancer cell growth.
    • To determine if condensate formation mediated by UTX is essential for its tumor-suppressive function.

    Main Methods:

    • Utilized cell-based assays to assess cancer cell proliferation.
    • Employed biochemical techniques to analyze UTX protein structure and condensate formation.
    • Performed genetic manipulations to study the function of the UTX IDR.

    Main Results:

    • A specific intrinsically disordered region of UTX was identified as critical for its function.
    • This region promotes the formation of biomolecular condensates.
    • Disruption of this region or condensate formation led to increased cancer cell growth.

    Conclusions:

    • UTX's ability to suppress cancer cell growth is dependent on its condensate-promoting intrinsically disordered region.
    • Targeting UTX condensate formation may represent a novel therapeutic strategy for cancer treatment.