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相关概念视频

Fusion of Secretory Vesicles with the Plasma Membrane01:26

Fusion of Secretory Vesicles with the Plasma Membrane

11.7K
Proteins and neurotransmitters in secretory vesicles can be released from a cell upon vesicle docking, priming, and fusion with the plasma membrane. Vesicles are docked and primed in preparation for the quick exocytosis of their contents in response to a stimulus. The fusion process is mainly carried out by a SNAP Receptor or SNARE complex, consisting of synaptobrevin, syntaxin-1, and SNAP-25.
In 1993, Jim Rothman proposed that the antiparallel pairing of vesicular and transmembrane SNAREs, or...
11.7K
Vesicular Tubular Clusters01:45

Vesicular Tubular Clusters

2.6K
After budding out from the ER membrane, some COPII vesicles lose their coat and fuse with one another to form larger vesicles and interconnected tubules called vesicular tubular clusters or VTCs. These clusters constitute a compartment at the ER-Golgi interface known as ERGIC (Endoplasmic Reticulum Golgi Intermediate Compartment). The ERGIC is a mobile membrane-bound cargo transport system that sorts proteins secreted from ER and delivers them to the Golgi.
With the help of motor proteins such...
2.6K
Exocytosis00:50

Exocytosis

7.1K
Exocytosis is a process that releases molecules outside the cell. Like other bulk transport mechanisms, exocytosis requires energy.
Exocytosis is the opposite of endocytosis, which brings molecules inside the cell. Sometimes, the released materials are signaling molecules. For example, neurons typically use exocytosis to release neurotransmitters. Cells also use exocytosis to insert proteins such as ion channels into their cell membranes, secrete proteins for use in the extracellular matrix, or...
7.1K
Synaptic Signaling01:09

Synaptic Signaling

5.8K
Neurons communicate at synapses, or junctions, to excite or inhibit the activity of other neurons or target cells, such as muscles. Synapses may be chemical or electrical.
Most synapses are chemical, meaning an electrical impulse or action potential spurs the release of chemical messengers called neurotransmitters. The neuron sending the signal is called the presynaptic neuron, and the neuron receiving the signal is the postsynaptic neuron.
The presynaptic neuron fires an action potential that...
5.8K
Recycling Endosomes and Transcytosis00:58

Recycling Endosomes and Transcytosis

2.8K
The recycling endosome, also known as the endosomal recycling compartment (ERC), is a part of the slow-recycling process of the endocytic pathway. Molecules internalized through receptor-mediated endocytosis are either degraded in the lysosomes or are recycled to the plasma membrane through the fast- or slow-recycling route.
The recycling endosome is not a single organelle but an extensively tubulated network of recycling pathways. It functions in storing molecules or transporting them across...
2.8K
Chemical Synapses01:26

Chemical Synapses

9.1K
Chemical synapses are specialized sites between two neurons or between a neuron and a non-neuronal cell like a muscle, glandular or sensory cell.
Because chemical synapses depend on the release of neurotransmitter molecules from synaptic vesicles to pass on their signal, there is an approximately one millisecond delay between when the axon potential reaches the presynaptic terminal and when the neurotransmitter leads to opening of postsynaptic ion channels. Additionally, this signaling is...
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相关实验视频

Updated: Sep 10, 2025

An Optical Assay for Synaptic Vesicle Recycling in Cultured Neurons Overexpressing Presynaptic Proteins
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An Optical Assay for Synaptic Vesicle Recycling in Cultured Neurons Overexpressing Presynaptic Proteins

Published on: June 26, 2018

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在发育前突触处的突触膀循环

Nawon Kim1,2,3, Michael A Cousin1,2,3

  • 1Centre for Discovery Brain Sciences, University of Edinburgh, Edinburgh, UK.

Journal of neurochemistry
|August 27, 2025
PubMed
概括
此摘要是机器生成的。

在发育和成熟的神经元之间,突触囊 (SV) 的循环不同. 了解这些独特的机制对于解决与大脑沟通障碍相关的神经发育障碍至关重要.

关键词:
没有细胞内细胞外化神经递质在线视频播放突触成熟综合生成一个小囊

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Measuring Synaptic Vesicle Endocytosis in Cultured Hippocampal Neurons
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Live Imaging of Synaptic Vesicle Recycling in the Neuromuscular Junction of Dissected Larval Zebrafish
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Live Imaging of Synaptic Vesicle Recycling in the Neuromuscular Junction of Dissected Larval Zebrafish

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相关实验视频

Last Updated: Sep 10, 2025

An Optical Assay for Synaptic Vesicle Recycling in Cultured Neurons Overexpressing Presynaptic Proteins
09:33

An Optical Assay for Synaptic Vesicle Recycling in Cultured Neurons Overexpressing Presynaptic Proteins

Published on: June 26, 2018

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Measuring Synaptic Vesicle Endocytosis in Cultured Hippocampal Neurons
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Measuring Synaptic Vesicle Endocytosis in Cultured Hippocampal Neurons

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Live Imaging of Synaptic Vesicle Recycling in the Neuromuscular Junction of Dissected Larval Zebrafish
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Live Imaging of Synaptic Vesicle Recycling in the Neuromuscular Junction of Dissected Larval Zebrafish

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科学领域:

  • 神经科学
  • 细胞生物学
  • 发育生物学

背景情况:

  • 神经递质通过突触囊 (SV) 脱细胞是大脑沟通的关键.
  • 通过内细胞分裂和循环再生维护了前突触功能.
  • 在未成熟的神经元中的SV循环是很难理解的,但与神经发育障碍有关.

研究的目的:

  • 审查和整合目前关于未成熟和成熟神经元中的SV循环机制的知识.
  • 突出了神经元发育过程中SV循环的明显的前突触过程.
  • 确定前交联发育领域的关键未来研究问题.

主要方法:

  • 对不同发展阶段的 SV 回收研究的文献综述.
  • 在未成熟和成熟的神经终端中对SV循环机制的比较分析.
  • 专注于流与SV外细胞和内细胞路径的合.

主要成果:

  • 未成熟的神经元表现出松散的-SV融合合,有利于自发的外细胞和克拉介导的内细胞.
  • 成熟的神经元表现出紧密的-SV融合合,主导唤起的外细胞和内细胞.
  • 在神经元发育过程中显而易见的SV循环机制.

结论:

  • 在未成熟的神经元中,神经元循环发生显著的发育变化.
  • 了解这些发育差异对于理解神经发育障碍至关重要.
  • 需要进行进一步的研究,以充分阐明前突触发育和SV循环动态.