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The Endoplasmic Reticulum01:43

The Endoplasmic Reticulum

20.9K
The endoplasmic reticulum or ER makes up for more than half of the membranes in a cell and accounts for 10% of total cell volume. It is also the primary protein and lipid synthesis factory for most cell organelles, such as the Golgi apparatus, lysosomes, secretory vesicles, and the plasma membrane. Despite being the most extensive and functionally complex subcellular organelle, ER was the last to be discovered. After years of deliberation, Keith Porter and George Palade in the year 1954,...
20.9K
Endoplasmic Reticulum01:39

Endoplasmic Reticulum

105.7K
The Endoplasmic Reticulum (ER) in eukaryotic cells is a substantial network of interconnected membranes with diverse functions, from calcium storage to biomolecule synthesis. A primary component of the endomembrane system, the ER manufactures phospholipids critical for membrane function throughout the cell. Additionally, the two distinct regions of the ER specialize in the manufacture of specific lipids and proteins.
105.7K
Assembly of the Lipid Bilayer in the ER01:28

Assembly of the Lipid Bilayer in the ER

4.0K
Biological membranes are more than just a barrier separating cell cytoplasm from the outside environment. They are highly dynamic and help maintain the integrity and physiological stability of the cells as well as membrane-bound organelles. Membranes also play vital roles in cell-to-cell and intracellular communication.
A large chunk of any biological membrane is composed of phospholipids. These lipids have a heterogeneous distribution across different subcellular organelles and even between...
4.0K
Golgi Apparatus01:49

Golgi Apparatus

99.7K
As they leave the Endoplasmic Reticulum (ER), properly folded and assembled proteins are selectively packaged into vesicles. These vesicles are transported by microtubule-based motor proteins and fuse together to form vesicular tubular clusters, subsequently arriving at the Golgi apparatus, a eukaryotic endomembrane organelle that often has a distinctive ribbon-like appearance.
99.7K

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Updated: Jan 7, 2026

Visualization of Caenorhabditis elegans Cuticular Structures Using the Lipophilic Vital Dye DiI
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Visualization of Caenorhabditis elegans Cuticular Structures Using the Lipophilic Vital Dye DiI

Published on: January 30, 2012

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昆虫クチクラナノ構造における小胞体パターン

Sachi Inagaki1,2, Housei Wada1, Takeshi Itabashi3,4

  • 1Laboratory for Morphogenetic Signaling, RIKEN Center for Biosystems Dynamics Research , Kobe, Japan.

The Journal of cell biology
|December 31, 2025
PubMed
まとめ
この要約は機械生成です。

研究者らは、新規のER-血漿膜相互作用を利用して昆虫クチクラがナノポアを形成する仕組みを解明した。ER-ファジーを含むこのプロセスは、昆虫のナノパターニングと生体模倣アプリケーションのための遺伝的制御に関する洞察を明らかにする。

キーワード:
昆虫クチクラナノポア形成小胞体血漿膜ER-ファジー生体模倣遺伝的制御ナノパターニング

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Drosophila Embryo Preparation and Microinjection for Live Cell Microscopy Performed using an Automated High Content Analyzer
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Bottom-Up In Vitro Methods to Assay the Ultrastructural Organization, Membrane Reshaping, and Curvature Sensitivity Behavior of Septins
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Bottom-Up In Vitro Methods to Assay the Ultrastructural Organization, Membrane Reshaping, and Curvature Sensitivity Behavior of Septins
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