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The Nucleus01:32

The Nucleus

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The nucleus is a membrane-bound organelle that acts as a control center in a eukaryotic cell. It contains chromosomal DNA, which controls gene expression and precisely regulates the production of proteins within the cell. In contrast, the DNA inside the mitochondria and chloroplast only carries out functions that are specific to those organelles.
Arrangement of DNA within Nucleus
The regulation of gene expression inside the nucleus is dependent on many factors, including the DNA structure. The...
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Additional Subnuclear Structures02:10

Additional Subnuclear Structures

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The eukaryotic nucleus is a double membrane-bound organelle that contains nearly all of the cell’s genetic material in the form of chromosomes. It is rightly called the “brain” of the cell as it shoulders the responsibility of responding to various physiological processes, stress, altered metabolic conditions, and other cellular signals. 
The nucleus contains many membrane-less subnuclear organelles or nuclear bodies, such as nucleoli, Cajal bodies, speckles,...
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The Nucleolus02:55

The Nucleolus

9.4K
The nucleolus is the most prominent substructure of the nucleus. When it was first discovered, it was considered to be an isolated organelle that forms fibrils and granules. In 1931, the relationship between the nucleolus and chromosomes was first described by Heitz. He observed that the appearance and size of nucleolus varies depending on the stage of the cell cycle. He also noticed constricted regions on different chromosomes clustered together at definite cell cycle stages. These regions,...
9.4K
Chromatin Position Affects Gene Expression02:35

Chromatin Position Affects Gene Expression

24.0K
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...
24.0K
Chromatin Packaging02:21

Chromatin Packaging

17.3K
Each human somatic cell contains 6 billion base-pairs of DNA. Each base-pair is 0.34 nm long, which means that each diploid cell contains a staggering 2 meters of DNA. How is such a long DNA strand packed inside a nucleus measuring only 10 - 20 microns in diameter? 
The chromatin
In combination with specialized DNA binding protein called Histones, the DNA double helix forms a compact DNA: protein complex called chromatin. The chromatin itself is further compacted into higher-order...
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DNA Packaging00:58

DNA Packaging

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Overview
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Updated: Oct 12, 2025

A Direct Force Probe for Measuring Mechanical Integration Between the Nucleus and the Cytoskeleton
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A Direct Force Probe for Measuring Mechanical Integration Between the Nucleus and the Cytoskeleton

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Viendo la grasa dentro del núcleo

Anete Romanauska1

  • 1Max Perutz Labs Vienna, 1300 Vienna, Austria.

Science (New York, N.Y.)
|November 25, 2021
PubMed
Resumen
Este resumen es generado por máquina.

La membrana nuclear interna es crucial para el metabolismo de los lípidos. Esta investigación revela sus funciones expandidas en el manejo de las grasas celulares.

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Área de la Ciencia:

  • Biología celular
  • La bioquímica
  • Biología molecular

Sus antecedentes:

  • La membrana nuclear interna (INM) es una estructura celular crítica.
  • Su papel en la organización nuclear está bien establecido.
  • La evidencia emergente sugiere la participación en los procesos celulares más allá del apoyo estructural.

Objetivo del estudio:

  • Para investigar el papel de la membrana nuclear interna en el metabolismo de los lípidos.
  • Identificar las funciones específicas del INM en la regulación de los lípidos celulares.

Principales métodos:

  • Se utilizaron técnicas avanzadas de microscopía para visualizar las gotas de lípidos asociados con el INM.
  • Se realizaron ensayos bioquímicos para cuantificar las especies de lípidos en el INM.
  • Utilizó manipulación genética para estudiar el impacto de las proteínas INM en el metabolismo de los lípidos.

Principales resultados:

  • Se demostró que la membrana nuclear interna interactúa directamente con las gotas de lípidos.
  • Enzimas clave identificadas involucradas en la síntesis lipídica localizada en el INM.
  • Se demostró que la integridad del INM es esencial para la homeostasis lipídica adecuada.

Conclusiones:

  • La membrana nuclear interna juega un papel significativo y ampliado en el metabolismo de los lípidos.
  • El INM funciona como una plataforma para regular la síntesis y el almacenamiento de lípidos.
  • Dirigirse a las funciones del INM podría ofrecer nuevas estrategias para el tratamiento de enfermedades metabólicas.