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Multi-omics analysis using antibody-based in situ biotinylation technique suggests the mechanism of Cajal body formation. | LitMetric
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Multi-omics analysis using antibody-based in situ biotinylation technique suggests the mechanism of Cajal body formation.

Keisuke Noguchi Hidefumi Suzuki Ryota Abe Keiko Horiuchi Rena Onoguchi-Mizutani Nobuyoshi Akimitsu Shintaro Ogawa Tomohiko Akiyama Yoko Ike Yoko Ino Yayoi Kimura Akihide Ryo Hiroshi Doi Fumiaki Tanaka Yutaka Suzuki Atsushi Toyoda Yuki Yamaguchi Hidehisa Takahashi

Cell Rep

Department of Molecular Biology, Yokohama City University Graduate School of Medical Science, 3-9 Fukuura, Kanazawa-ku, Yokohama, Kanagawa 236-0004, Japan. Electronic address:

Published: September 2024

AI Article Synopsis

  • - Membrane-less subcellular compartments are crucial for various cellular functions, but a comprehensive method for analyzing their components in static and dynamic states is lacking.
  • - The researchers used an antibody-based biotinylation proximity-labeling technique to identify the DNA, RNA, and protein components of Cajal bodies, which are specific nuclear structures.
  • - By inhibiting transcription, they discovered that newly transcribed small nuclear RNAs help in Cajal body formation by bringing together various RNA-binding proteins, some of which are related to frontotemporal dementia.

Article Abstract

Membrane-less subcellular compartments play important roles in various cellular functions. Although techniques exist to identify components of cellular bodies, a comprehensive method for analyzing both static and dynamic states has not been established. Here, we apply an antibody-based in situ biotinylation proximity-labeling technique to identify components of static and dynamic nuclear bodies. Using this approach, we comprehensively identify DNA, RNA, and protein components of Cajal bodies (CBs) and then clarify their interactome. By inhibiting transcription, we capture dynamic changes in CBs. Our analysis reveals that nascent small nuclear RNAs (snRNAs) transcribed in CBs contribute to CB formation by assembling RNA-binding proteins, including frontotemporal dementia-related proteins, RNA-binding motif proteins, and heterogeneous nuclear ribonucleoproteins.

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 Source
http://dx.doi.org/10.1016/j.celrep.2024.114734DOI Listing

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