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The Nucleosome Core Particle01:12

The Nucleosome Core Particle

2.8K
Nucleosomes are the DNA-histone complex, where the DNA strand is wound around the histone core. The histone core is an octamer containing two copies of H2A, H2B, H3, and H4 histone proteins.
Nucleosomes, paradoxically, perform two opposite functions simultaneously. On the one hand, their primary aim is to protect the delicate DNA strands from physical damage and help achieve a higher compaction ratio. On the other hand, they must allow polymerase enzymes to access histone-bound DNA during...
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The Nucleosome Core Particle02:10

The Nucleosome Core Particle

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Nucleosomes are the DNA-histone complex, where the DNA strand is wound around the histone core. The histone core is an octamer containing two copies of H2A, H2B, H3, and H4 histone proteins.
The paradox
Nucleosomes, paradoxically, perform two opposite functions simultaneously. On the one hand, their main responsibility is to protect the delicate DNA strands from physical damage and help achieve a higher compaction ratio. While on the other hand, they must allow polymerase enzymes to access DNA...
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Nucleosome Remodeling02:54

Nucleosome Remodeling

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Nucleosomes are the basic units of chromatin compaction. Each nucleosome consists of the DNA bound tightly around a histone core, which makes the DNA inaccessible to DNA binding proteins such as DNA polymerase and RNA polymerase. Hence, the fundamental problem is to ensure access to DNA when appropriate, despite the compact and protective chromatin structure.
Nucleosome remodeling complex
Eukaryotic cells have specialized enzymes called ATP-dependent nucleosome remodeling enzymes. These enzymes...
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Heterochromatin02:38

Heterochromatin

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The extent of chromatin compaction can be studied by staining chromatin using specific DNA binding dyes. Under the microscope, the dense-compacted regions that take up more dye are called heterochromatin. Heterochromatin is further classified into two forms – constitutive heterochromatin and facultative heterochromatin.
Constitutive heterochromatin: It is a highly compact region of chromatin that is mostly concentrated in the centromere and telomere. Unlike euchromatin, the amino acid at...
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Heterochromatin02:38

Heterochromatin

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5.1K
Inheritance of Chromatin Structures03:17

Inheritance of Chromatin Structures

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Epigenetics is the study of inherited changes in a cell's phenotype without changing the DNA sequences. It provides a form of memory for the differential gene expression pattern to maintain cell lineage, position-effect variegation, dosage compensation, and maintenance of chromatin structures such as telomeres and centromeres. For example, the structure and location of the centromere on chromosomes are epigenetically inherited. Its functionality is not dictated or ensured by the underlying...
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Video Experimental Relacionado

Updated: Apr 19, 2026

Reconstitution of Nucleosomes with Differentially Isotope-labeled Sister Histones
09:26

Reconstitution of Nucleosomes with Differentially Isotope-labeled Sister Histones

Published on: March 26, 2017

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Una personalidad dividida para los nucleosomas.

Daniel J McKay1, Jason D Lieb2

  • 1Department of Biology, Department of Genetics, Integrative Program for Biological and Genome Sciences, The University of North Carolina at Chapel Hill, 250 Bell Tower Drive, Chapel Hill, NC 27599, USA.

Cell
|December 7, 2014
PubMed
Resumen
Este resumen es generado por máquina.

Este estudio revela el nucleosoma.

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Assembly of Nucleosomal Arrays from Recombinant Core Histones and Nucleosome Positioning DNA
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Área de la Ciencia:

  • Biología Molecular Biología Molecular
  • La epigenética es la epigenética.
  • Biología Estructural Biología estructural.

Sus antecedentes:

  • El nucleosoma, compuesto de ADN envuelto alrededor de proteínas histonas, es la unidad fundamental de la cromatina.
  • Comprender la estructura y la dinámica de los nucleosomas es crucial para la regulación de los genes.
  • Los modelos anteriores mostraban una estructura de nucleosomas relativamente estática.

Objetivo del estudio:

  • Para investigar la dinámica estructural de alta resolución del nucleosoma.
  • Identificar nuevas interacciones entre las proteínas histónicas y el ADN.
  • Explorar la relación entre las modificaciones histónicas y la dirección transcripcional.

Principales métodos:

  • Técnicas de imágenes de alta resolución.
  • Pruebas bioquímicas. ensayos bioquímicos. ensayos bioquímicos. ensayos bioquímicos. ensayos bioquímicos. ensayos bioquímicos. ensayos bioquímicos. ensayos bioquímicos. ensayos bioquímicos. ensayos bioquímicos. ensayos bioquímicos.
  • Análisis estructural de los componentes de los nucleosomas.

Principales resultados:

  • Visualización detallada de las interacciones histona-ADN.
  • Descubrimiento de interacciones inesperadas de cola H3 con el ADN de enlace.
  • Evidencia que apoya la existencia de partículas subnucleosómicas.
  • Identificación de patrones asimétricos de modificación de la histona vinculados a la dirección de la transcripción.

Conclusiones:

  • El nucleosoma es una estructura más dinámica y modular de lo que se pensaba anteriormente.
  • Las interacciones de la cola de histona y las estructuras subnucleosómicas juegan un papel clave en la función del nucleosoma.
  • Las modificaciones asimétricas de la histona proporcionan información sobre la regulación de la transcripción a nivel del nucleosoma.