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Receptor-mediated Endocytosis01:38

Receptor-mediated Endocytosis

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Eukaryotic cells acquire nutrients for growth and proliferation. Nutrients and other molecules that require degradation are internalized from the extracellular space by a process called endocytosis. The term ‘endocytosis' was first coined by Christian de Duve in 1963.
Endocytosis always begins with the plasma membrane enclosing an incoming molecule to form a transport vesicle which, in some cases, can be coated with a protein called ‘clathrin.' Endocytosed material is either...
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Receptor-mediated Endocytosis01:20

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Receptor-mediated endocytosis is when bulk amounts of specific molecules are imported into a cell after binding to cell surface receptors. The molecules bound to these receptors are taken into the cell through inward folding of the cell surface membrane, which is eventually pinched off into a vesicle within the cell. Structural proteins, such as clathrin, coat the budding vesicle.
Clathrin-Mediated Endocytosis of LDL
One well-characterized example of receptor-mediated endocytosis is the...
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Overview of Secretory Vesicles01:33

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Secretory vesicles, also known as dense core vesicles (DCVs), are membrane-bound vesicles that transport secretory proteins, such as hormones or neurotransmitters. Regulated secretory vesicles transport proteins from the trans-Golgi network to the exterior of the cell. Proteins present in regulated secretory vesicles are required to be rapidly exocytosed in large amounts upon a specific stimulus.
Various proteins regulate the aggregation of molecules inside the secretory vesicles. Chromogranins...
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Exocrine Glands: Methods of Secretion01:08

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Exocrine glands are those that release their secretions through ducts. Based on their mode of secretion, they can be classified into merocrine, apocrine, and holocrine.
Merocrine Secretion
Merocrine secretion is the most common type of exocrine secretion. The secretions are enclosed in vesicles and moved to the cell's apical surface, where the contents are released by exocytosis. For example, mucous, a watery secretion rich in the glycoprotein mucin, is a merocrine secretion. The eccrine...
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Drug Elimination by Renal Route: Tubular Secretion01:15

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Once the process of glomerular filtration is completed, blood carrying unfiltered drug molecules traverses through efferent arterioles and makes its way into the peritubular capillaries in the proximal tubule. A variety of carriers play a pivotal role in actively secreting drugs from these peritubular capillaries into the tubular fluid. The organic anion transporter transfers acidic drugs, against an electrochemical gradient, from the peritubular capillaries into the renal tubule cells and...
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Updated: May 6, 2026

Glycopeptide Capture for Cell Surface Proteomics
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Glycopeptide Capture for Cell Surface Proteomics

Published on: May 10, 2014

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Aprovechando secreciones no convencionales.

Stephanie K Levi1, Benjamin S Glick

  • 1Department of Molecular Genetics and Cell Biology, The University of Chicago, 920 East 58th Street, Chicago, IL 60637, USA.

Cell
|August 19, 2007
PubMed
Resumen

Las proteínas GRASP, involucradas en las funciones del aparato de Golgi, son sorprendentemente esenciales para una vía secretora no convencional. Esta vía pasa por alto la ruta estándar de tráfico de la membrana dependiente de Golgi, revelando nuevos mecanismos de transporte celular.

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Área de la Ciencia:

  • Biología celular Biología celular.
  • Biología Molecular Biología Molecular
  • Función de las proteínas Función de las proteínas

Sus antecedentes:

  • Se sabe que las proteínas GRASP se asocian con el aparato de Golgi.
  • Se han implicado en el apilamiento de cisternas de Golgi, el enlazamiento de vesículas y la progresión mitótica.
  • Sin embargo, sus funciones precisas siguen siendo en gran medida indefinidas.

Objetivo del estudio:

  • Investigar las funciones específicas de las proteínas GRASP en los procesos celulares.
  • Para aclarar la función de un homólogo de GRASP en el tráfico de membranas.
  • Para identificar nuevas vías secretoras que involucran proteínas GRASP.

Principales métodos:

  • Utilizó un homólogo de GRASP en modelos experimentales.
  • Investigación de las vías de tráfico de la membrana.
  • Analizó rutas independientes y dependientes de Golgi.

Principales resultados:

  • Se descubrió que un homólogo de GRASP se requería inesperadamente para una vía secretora específica.
  • Esta vía representa una ruta poco convencional para el transporte de membranas.
  • El camino identificado elude la ruta convencional dependiente de Golgi.

Conclusiones:

  • Las proteínas GRASP juegan un papel crítico, no reconocido previamente, en la secreción no convencional.
  • Este hallazgo amplía nuestra comprensión del tráfico de membranas independiente de Golgi.
  • El estudio pone de relieve un nuevo mecanismo para el transporte celular evitando las vías estándar de Golgi.