mRNA‐encoded fluorescent proteins enable superior organelle labeling for live cell imaging

Live cell labeling of various organelles is of great demand in the research field of cell biology. However, current approaches often lack an optimal balance between efficiency and versatility. We took advantage of chemical modified mRNA to express various organelle located fluorescent proteins. This...

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Veröffentlicht in:	The FASEB journal 2024-12, Vol.38 (23), p.e70244-n/a
Hauptverfasser:	Wang, Jiahui, Cao, Ziyi, Zhang, Qun, Yu, Xiang, Lan, Zhida, Zhao, Leiwen, Wang, Jie, Wang, Wenjing, Zhang, Yu, Zhong, Zikan, Hou, Yutong, He, Xiang, An, Zhiyin, Yu, Hang, Xu, Yingjie, Yang, Wen
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Schlagworte:	Animals COVID-19 - metabolism COVID-19 - virology Endoplasmic Reticulum - metabolism Green Fluorescent Proteins - genetics Green Fluorescent Proteins - metabolism HEK293 Cells HeLa Cells Humans in vitro transcribed mRNA live cell imaging Luminescent Proteins - genetics Luminescent Proteins - metabolism Mice Mitochondria - metabolism organelle marker Organelles - metabolism RNA, Messenger - genetics RNA, Messenger - metabolism SARS-CoV-2 - genetics SARS-CoV-2 - metabolism Spike Glycoprotein, Coronavirus - genetics Spike Glycoprotein, Coronavirus - metabolism
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creator	Wang, Jiahui Cao, Ziyi Zhang, Qun Yu, Xiang Lan, Zhida Zhao, Leiwen Wang, Jie Wang, Wenjing Zhang, Yu Zhong, Zikan Hou, Yutong He, Xiang An, Zhiyin Yu, Hang Xu, Yingjie Yang, Wen
description	Live cell labeling of various organelles is of great demand in the research field of cell biology. However, current approaches often lack an optimal balance between efficiency and versatility. We took advantage of chemical modified mRNA to express various organelle located fluorescent proteins. This approach facilitated highly efficient multi‐organelle labeling across diverse cell types, both in vitro and in vivo. The application of mRNA‐based organelle markers offers faster and more efficient transfection and expression compared to plasmids. When expressing fluorescent proteins in neuronal cells, it is faster and safer compared to viral vectors. Notably, this approach excels in rapidly labeling organelles, making it highly effective for dynamic live cell imaging applications. By leveraging this tool, we unveiled the unique behaviors of mitochondria and the endoplasmic reticulum during spike protein‐mediated cell fusion, a critical event in SARS‐CoV‐2 viral entry. Thus, our results demonstrate the potency of mRNA‐encoded fluorescent proteins as powerful tools for advancing biological research. Live organelle labeling is essential in cell biology, but current methods lack efficiency and versatility. We utilized chemically modified mRNA to express organelle‐targeted fluorescent proteins, enabling efficient multi‐organelle labeling across diverse cell types both in vitro and in vivo. This method is particularly useful for observing dynamic changes in organelles during specific biological processes in live cells. Our findings demonstrate the potential of mRNA‐encoded fluorescent proteins as powerful tools for advancing biological research.
doi_str_mv	10.1096/fj.202401493RR
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Thus, our results demonstrate the potency of mRNA‐encoded fluorescent proteins as powerful tools for advancing biological research. Live organelle labeling is essential in cell biology, but current methods lack efficiency and versatility. We utilized chemically modified mRNA to express organelle‐targeted fluorescent proteins, enabling efficient multi‐organelle labeling across diverse cell types both in vitro and in vivo. This method is particularly useful for observing dynamic changes in organelles during specific biological processes in live cells. 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However, current approaches often lack an optimal balance between efficiency and versatility. We took advantage of chemical modified mRNA to express various organelle located fluorescent proteins. This approach facilitated highly efficient multi‐organelle labeling across diverse cell types, both in vitro and in vivo. The application of mRNA‐based organelle markers offers faster and more efficient transfection and expression compared to plasmids. When expressing fluorescent proteins in neuronal cells, it is faster and safer compared to viral vectors. Notably, this approach excels in rapidly labeling organelles, making it highly effective for dynamic live cell imaging applications. By leveraging this tool, we unveiled the unique behaviors of mitochondria and the endoplasmic reticulum during spike protein‐mediated cell fusion, a critical event in SARS‐CoV‐2 viral entry. Thus, our results demonstrate the potency of mRNA‐encoded fluorescent proteins as powerful tools for advancing biological research. Live organelle labeling is essential in cell biology, but current methods lack efficiency and versatility. We utilized chemically modified mRNA to express organelle‐targeted fluorescent proteins, enabling efficient multi‐organelle labeling across diverse cell types both in vitro and in vivo. This method is particularly useful for observing dynamic changes in organelles during specific biological processes in live cells. 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subjects	Animals COVID-19 - metabolism COVID-19 - virology Endoplasmic Reticulum - metabolism Green Fluorescent Proteins - genetics Green Fluorescent Proteins - metabolism HEK293 Cells HeLa Cells Humans in vitro transcribed mRNA live cell imaging Luminescent Proteins - genetics Luminescent Proteins - metabolism Mice Mitochondria - metabolism organelle marker Organelles - metabolism RNA, Messenger - genetics RNA, Messenger - metabolism SARS-CoV-2 - genetics SARS-CoV-2 - metabolism Spike Glycoprotein, Coronavirus - genetics Spike Glycoprotein, Coronavirus - metabolism
title	mRNA‐encoded fluorescent proteins enable superior organelle labeling for live cell imaging
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