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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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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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Chromatin Position Affects Gene Expression02:35

Chromatin Position Affects Gene Expression

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Chromatin is the massive complex of DNA and proteins packaged inside the nucleus. The complexity of chromatin folding and how it is packaged inside the nucleus greatly influences  access to genetic information. Generally, the nucleus' periphery is considered transcriptionally repressive, while the cell's interior is considered a transcriptionally active area. 
Topologically Associated Domains (TADs)
The 3-dimensional positioning of chromatin in the nucleus influences the...
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Chromatin Structure Regulates pre-mRNA Processing02:41

Chromatin Structure Regulates pre-mRNA Processing

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In eukaryotic cells, nascent mRNA transcripts need to undergo many post-transcriptional modifications to reach the cell cytoplasm and translate into functional proteins. For a long time, transcription and pre-mRNA processing were considered two independent events that occur sequentially in the cell. However, it has now been well established that transcription and pre-mRNA processing are two simultaneous processes that are precisely regulated inside the cell.
The chromatin structure, especially...
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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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Chromatin Modification in iPS Cells01:32

Chromatin Modification in iPS Cells

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Chromatin modification alters gene expression; therefore, scientists can add histone-modifying enzymes, histone variants, and chromatin remodeling complexes to somatic cells to aid reprogramming into pluripotent stem (iPS) cells.
Compact chromatin makes reprogramming difficult. Enzymes, such as histone demethylases and acetyltransferases, are often added during reprogramming to loosen the chromatin, making the DNA more accessible to transcription factors. Molecules that inhibit histone...
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Updated: May 5, 2026

Repressing Gene Transcription by Redirecting Cellular Machinery with Chemical Epigenetic Modifiers
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Repressing Gene Transcription by Redirecting Cellular Machinery with Chemical Epigenetic Modifiers

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Función cerebral y plasticidad de la cromatina.

Catherine Dulac1

  • 1Howard Hughes Medical Institute, Harvard University, 16 Divinity Avenue, Cambridge, Massachusetts 02138, USA. dulac@fas.harvard.edu

Nature
|June 11, 2010
PubMed
Resumen
Este resumen es generado por máquina.

El control epigenético ofrece cambios duraderos en la expresión génica cruciales para las neuronas. Comprender estas modificaciones persistentes de la cromatina ayuda en el estudio de la función cerebral y las enfermedades.

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Área de la Ciencia:

  • La neurociencia es la neurociencia.
  • La epigenética es la epigenética.
  • Biología de la cromatina Biología de la cromatina

Sus antecedentes:

  • Los mecanismos epigenéticos proporcionan cambios estables en la expresión génica más allá de los estímulos iniciales.
  • Las neuronas postmitóticas requieren procesos reguladores estables para adaptarse a las influencias cambiantes en la actividad y la conectividad.
  • Las alteraciones persistentes de la estructura de la cromatina están implicadas en la herencia epigenética.

Objetivo del estudio:

  • Para explorar la importancia del control epigenético en las neuronas post-mitóticas.
  • Investigar cómo los mecanismos epigenéticos contribuyen a los cambios neuronales de larga duración.
  • Aprovechar los avances en la biología de la cromatina para comprender la regulación neuronal.

Principales métodos:

  • Investigando los mecanismos de control epigenético en los sistemas neuronales.
  • Analizar cambios persistentes en la estructura de la cromatina.
  • Utilizando avances recientes en la investigación de la biología de la cromatina.

Principales resultados:

  • El control epigenético ofrece efectos estables y duraderos en la expresión génica en las neuronas.
  • Las modificaciones en la estructura de la cromatina son clave para que los cambios neuronales sean duraderos.
  • Estos mecanismos son vitales para la actividad neuronal y la conectividad.

Conclusiones:

  • La regulación epigenética es crítica para mantener la función neuronal y la adaptabilidad.
  • Comprender estos procesos tiene implicaciones significativas para la función cerebral, el comportamiento y las enfermedades neurológicas.
  • Investigaciones adicionales sobre la biología de la cromatina iluminarán los mecanismos reguladores neuronales.