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GIST Cell Logistics Research Center identifies the molecular mechanism of atlastin-mediated ER membrane fusion

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  • REG_DATE : 2017.08.29
  • HIT : 1130

GIST Cell Logistics Research Center identifies the molecular mechanism of atlastin-mediated ER membrane fusion

□ Professor Youngsoo Jun and Dr. Sanghwa Lee of the Cell Logistics Research Center (Director Youngsoo Jun) identified the formation mechanism of endoplasmic reticulum, a key organelle that mediates the intracellular material exchange in eukaryotic cells.

 The monomolecular fluorescence analysis technique used in this study can observe the fusion process between membrane structures in real time using a single molecule fluorescence microscope and a fluorescent substance-labeled membrane structure.

□ Using this, the research team observed in real time the membrane fusion process with atlasthin protein *, which is a key step in the formation of the network structure of endoplasmic reticulum. The research suggests a new hypothesis that atlasthin protein plays a major role in the membrane contact phase.

* Atlastin protein: GTP known to mediate vesicle membrane fusion

□ Dr. Sanghwa Lee said, "This study has great significance in refuting the existing hypothesis concerning the principle of network formation in endoplasmic reticulum by proposing a new hypothesis, and the newly developed membrane fusion monomolecular analytical technique is expected to be useful for identifying the intracellular mass exchange process by the endoplasmic reticulum."

□ Their paper entitled "Molecular mechanisms of atlastin-mediated ER membrane fusion revealed by a FRET-based single-vesicle fusion assay" was authored by Kyung Tae Kim, Yeojin Moon, Yunsu Jang, Kang Taek Lee, Changwook Lee, Youngsoo Jun, and Sanghwa Lee and was published in Scientific Reports on August 18, 2017.