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Cell Motility through Blebbing01:16

Cell Motility through Blebbing

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Blebs are a type of membrane protrusion formed by the internal hydrostatic pressure of the cytoplasm. Blebs are observed in several cell types, including fibroblasts, immune cells, and single-celled organisms like the amoeba. The primary function of blebs is cell locomotion and apoptosis, but they are also found during necrosis and cell division. The life cycle of a bleb comprises an initiation phase followed by the expansion and retraction phases.
Blebbing Through the Matrix
In multicellular...
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Excitation-Contraction Coupling in Skeletal Muscles01:20

Excitation-Contraction Coupling in Skeletal Muscles

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Excitation-contraction coupling is a series of events that occur between generating an action potential and initiating a muscle contraction. It occurs at the triad, a structure found in skeletal muscle fibers that comprise a T-tubule and terminal cisternae of the sarcoplasmic reticulum on each side. These triads are visible in longitudinally sectioned muscle fibers. They are typically located at the A-I junction — the junction between the A and I bands of the sarcomere.
When an action...
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Microtubule Instability02:17

Microtubule Instability

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Microtubules are hollow cylindrical filaments having a diameter of approximately 25 nm and a length that varies from 200 nm to 25 μm. GTP-bound tubulin subunits form αβ-heterodimers for microtubule assembly. These core building blocks interact longitudinally, polymerizing into protofilaments. The protofilaments then interact with one another through lateral bonding forces to form stable cylindrical microtubules. These cylindrical filaments are dynamic as they undergo repeated...
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Actin and Myosin in Muscle Contraction01:16

Actin and Myosin in Muscle Contraction

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Actin and myosin are contractile proteins that form the sarcomere found in skeletal muscle tissues for regulating muscle contraction. Actin, a globular contractile protein, interacts with myosin for muscle contraction. The skeletal tissue appears striped or striated under a microscope due to the repeated arrangement of contractile proteins actin and myosin along the length of myofibrils. Dark A bands and light I bands repeat along myofibrils, and the alignment of myofibrils in the cell causes...
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Smooth Muscle Contraction01:25

Smooth Muscle Contraction

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Smooth muscle contraction is a complex process vital for various bodily functions, from maintaining blood vessel tension to facilitating the movement of food through the digestive tract. Unlike striated muscles, smooth muscle contraction begins more slowly and lasts longer.
The onset of contraction is triggered by an increase in calcium ions within the sarcoplasm, similar to the process in striated muscle. However, smooth muscles have a relatively smaller reservoir of the sarcoplasmic...
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The Role of Actin and Myosin in Non-muscle Cells01:10

The Role of Actin and Myosin in Non-muscle Cells

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Actin and myosin or actomyosin filaments also play a significant role in cells other than those involved in muscle contraction (which occurs within the sarcomere of muscle cells). The mechanism of non-muscle cell contractile bundles was first observed in Dictyostelium and Acanthamoeba. In non-muscle cells, two bundles are commonly found: stress fibers and actomyosin adherence belts. These contractile bundles are smaller and less organized than the ones found in muscle cells. They  are held...
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Video Experimental Relacionado

Updated: Sep 1, 2025

Reconstitution of Membrane-Tethered Minimal Actin Cortices on Supported Lipid Bilayers
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Reconstitution of Membrane-Tethered Minimal Actin Cortices on Supported Lipid Bilayers

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Una inestabilidad dinámica de condensado orquesta la activación de la corteza de actomiosina

Victoria Tianjing Yan1,2, Arjun Narayanan3,4,5,6, Tina Wiegand1,7,8

  • 1Max Planck Institute of Molecular Cell Biology and Genetics (MPI-CBG), Dresden, Germany.

Nature
|August 17, 2022
PubMed
Resumen
Este resumen es generado por máquina.

En los ovocitos de C. elegans, los condensados de proteínas de corta duración impulsan la activación de la corteza de actomiosina. Estos condensados exhiben un crecimiento y desmontaje químicamente impulsados, evitando la nucleación incontrolada de actina.

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Área de la Ciencia:

  • Biología celular
  • Biología del desarrollo
  • La biofísica

Sus antecedentes:

  • La activación de la corteza de la actomyosina es crucial para la transición de ovocito a embrión.
  • Este proceso implica la formación de una corteza de actomiosina contráctil.

Objetivo del estudio:

  • Investigar el papel de los condensados de proteínas en la activación de la corteza de actomiosina durante el desarrollo de los ovocitos de C. elegans.
  • Para aclarar la dinámica y los mecanismos que rigen estos condensados corticales.

Principales métodos:

  • Análisis del retrato de fase de las dinámicas individuales de condensado cortical.
  • Investigación de la cinética de las reacciones químicas que rigen el crecimiento y el desmontaje del condensado.

Principales resultados:

  • Miles de condensados de proteínas de corta duración, ricos en F-actina, N-WASP y complejo ARP2/3, forman una microemulsión activa.
  • El crecimiento del condensado es impulsado químicamente, obedeciendo a la cinética de acción de la masa, en lugar de la difusión.
  • La dinámica del condensado presenta inestabilidad, lo que lleva a un crecimiento y desmontaje controlados.

Conclusiones:

  • La inestabilidad dinámica del condensado cortical suprime el engrosamiento de la microemulsión.
  • La cinética impulsada químicamente asegura reacciones independientes del tamaño y evita la nucleación de actina fuera de control.
  • Estos condensados son esenciales para la formación de la malla de actina cortical inicial durante el desarrollo.