Establishing Riboglow-FLIM to visualize noncoding RNAs inside live zebrafish embryos

Nadia Sarfraz; Harrison J. Lee; Morgan K. Rice; Emilia Moscoso; Luke K. Shafik; Eric Glasgow; Suman Ranjit; Ben J. Lambeck; Esther Braselmann

Biophysical Reports (Dec 2023)

Establishing Riboglow-FLIM to visualize noncoding RNAs inside live zebrafish embryos

Nadia Sarfraz,
Harrison J. Lee,
Morgan K. Rice,
Emilia Moscoso,
Luke K. Shafik,
Eric Glasgow,
Suman Ranjit,
Ben J. Lambeck,
Esther Braselmann

Affiliations

Nadia Sarfraz: Department of Chemistry, Georgetown University, Washington, District of Columbia
Harrison J. Lee: Department of Chemistry, Georgetown University, Washington, District of Columbia
Morgan K. Rice: Department of Chemistry, Georgetown University, Washington, District of Columbia
Emilia Moscoso: Department of Chemistry, Georgetown University, Washington, District of Columbia
Luke K. Shafik: Department of Chemistry, Georgetown University, Washington, District of Columbia
Eric Glasgow: Department of Oncology, Lombardi Comprehensive Cancer Center, Georgetown University Medical Center, Washington, District of Columbia
Suman Ranjit: Department of Biochemistry and Molecular & Cellular Biology, Georgetown University, Washington, District of Columbia; Microscopy & Imaging Shared Resource, Georgetown University, Washington, District of Columbia
Ben J. Lambeck: Department of Chemistry, Georgetown University, Washington, District of Columbia
Esther Braselmann: Department of Chemistry, Georgetown University, Washington, District of Columbia; Corresponding author

Journal volume & issue: Vol. 3, no. 4
p. 100132

Abstract

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The central role of RNAs in health and disease calls for robust tools to visualize RNAs in living systems through fluorescence microscopy. Live zebrafish embryos are a popular system to investigate multicellular complexity as disease models. However, RNA visualization approaches in whole organisms are notably underdeveloped. Here, we establish our RNA tagging and imaging platform Riboglow-FLIM for complex cellular imaging applications by systematically evaluating FLIM capabilities. We use adherent mammalian cells as models for RNA visualization. Additional complexity of analyzing RNAs in whole mammalian animals is achieved by injecting these cells into a zebrafish embryo system for cell-by-cell analysis in this model of multicellularity. We first evaluate all variable elements of Riboglow-FLIM quantitatively before assessing optimal use in whole animals. In this way, we demonstrate that a model noncoding RNA can be detected robustly and quantitatively inside live zebrafish embryos using a far-red Cy5-based variant of the Riboglow platform. We can clearly resolve cell-to-cell heterogeneity of different RNA populations by this methodology, promising applicability in diverse fields.

Published in Biophysical Reports

ISSN: 2667-0747 (Online)
Publisher: Elsevier
Country of publisher: United States
LCC subjects: Science: Physics; Science: Biology (General)
Website: https://www.cell.com/biophysreports

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