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相关概念视频

Pinocytosis00:38

Pinocytosis

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Cells use energy-requiring bulk transport mechanisms to transfer large particles or large numbers of small particles into or out of the cell. The cells envelop the particles in spherical membranes called vesicles or vacuoles. Vesicles that transport material into the cell are built from the cell membrane. These vesicles encapsulate external molecules and transport them into the cell in a process called endocytosis.
Pinocytosis ("cellular drinking") is one of three main types of...
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Phagocytosis00:41

Phagocytosis

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Cells pull particles inward and engulf them in spherical vesicles in an energy-requiring process called endocytosis. Phagocytosis ("cellular eating") is one of three major types of endocytosis. Cells use phagocytosis to take in large objects, such as other cells (or their debris), bacteria, and even viruses.
The objective of phagocytosis is often destruction. Cells use phagocytosis to eliminate unwelcome visitors, like pathogens (e.g., viruses and bacteria). Many immune system cells,...
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Receptor-mediated Endocytosis01:39

Receptor-mediated Endocytosis

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Overview
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Endocytosis01:16

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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Delivery Pathways to the Lysosome01:36

Delivery Pathways to the Lysosome

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Eukaryotic cells use different mechanisms to eliminate toxic waste obsolete and worn-out substances. Lysosomes play a pivotal role in this, and hence, these substances are carried to the lysosome from other parts of the cell and extracellular space through different pathways. The most elaborately studied pathways to the lysosome are the endocytic pathways.
Endocytosis
In endocytosis, the cell membrane takes up macromolecules and particles from the surrounding medium. Clathrin-mediated...
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Pinching-off of Coated Vesicles01:32

Pinching-off of Coated Vesicles

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Vesicle budding is orchestrated by distinct cytosolic proteins such as adaptor proteins, coat proteins, and GTPases. To initiate vesicle budding, membrane-bending proteins containing crescent-shaped BAR domains bind to the lipid heads in the bilayer and distort the membrane to form a protein-coated vesicle bud. Adaptors proteins such as AP2 for clathrin-coated vesicles can nucleate on the deformed membrane. Finally, coat proteins such as clathrin or COPI and COPII assemble into a coat forming...
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Measuring the pH, Redox Chemistries, and Degradative Capacity of Macropinosomes using Dual-Fluorophore Ratiometric Microscopy
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Measuring the pH, Redox Chemistries, and Degradative Capacity of Macropinosomes using Dual-Fluorophore Ratiometric Microscopy

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巨型皮诺细胞症:吹出泡.

Joel A Swanson1

  • 1Department of Microbiology and Immunology, University of Michigan Medical School, Ann Arbor, MI 48109-5620, USA.

Current biology : CB
|August 8, 2023
PubMed
概括
此摘要是机器生成的。

细胞巨细胞细胞形成,是一种吞细胞外流体的过程,涉及膜张力驱动杯子闭合,而不是行为丝收缩. 这一发现提供了对内细胞分裂机制的新见解.

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Automated Imaging and Analysis for the Quantification of Fluorescently Labeled Macropinosomes
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科学领域:

  • 细胞生物学 细胞生物学
  • 分子生物学分子生物学

背景情况:

  • 巨型皮诺细胞形成是一个关键的细胞过程,用于内化大量的细胞外液体.
  • 它涉及到动态膜结构的形成,称为巨.

研究的目的:

  • 为了研究宏类细胞关闭的机制.
  • 为了确定在这个过程中actin纤维和膜张力的作用.

主要方法:

  • 活细胞成像技术被用来观察巨胞体的形成和关闭.
  • 进行了对膜动态和actin聚合物的定量分析.

主要成果:

  • 观察到,宏类细胞的关闭独立于局部的活性丝收缩.
  • 增加的膜张力与高效的巨细胞密封相关.

结论:

  • 膜张力,而不是actin收缩,是宏类细胞关闭的主要驱动因素.
  • 这一发现完善了我们对控制内细胞分裂的生物物理机制的理解.