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Mildred-Scheel-Nachwuchszentrum

New MSNZ publication - Burger Group

06.07.2022

In vivo Proximity Labeling of Nuclear and Nucleolar Proteins by a Stably Expressed, DNA Damage-Responsive NONO-APEX2 Fusion Protein

Barbara Trifault
Barbara Trifault, PhD student at the MSNZ Würzburg

The DNA damage response repairs broken DNA and is therefore of utmost importance for the maintenance of genome stability. NONO, a RNA-binding protein, is involved in this process. In this work, Barbara and colleagues describe a new model system to study the NONO interactome in response to DNA damage.

Abstract

Cellular stress can induce DNA lesions that threaten the stability of genes. The DNA damage response (DDR) recognises and repairs broken DNA to maintain genome stability. Intriguingly, components of nuclear paraspeckles like the non-POU domain containing octamer-binding protein (NONO) participate in the repair of DNA double-strand breaks (DSBs).

NONO is a multifunctional RNA-binding protein (RBP) that facilitates the retention and editing of messenger (m)RNA as well as pre-mRNA processing. However, the role of NONO in the DDR is poorly understood. Here, we establish a novel human U2OS cell line that expresses NONO fused to the engineered ascorbate peroxidase 2 (U2OS:NONO-APEX2-HA).

We show that NONO-APEX2-HA accumulates in the nucleolus in response to DNA damage. Combining viability assays, subcellular localisation studies, coimmunoprecipitation experiments and in vivo proximity labeling, we demonstrate that NONO-APEX2-HA is a stably expressed fusion protein that mimics endogenous NONO in terms of expression, localisation and bona fide interactors.

We propose that in vivo proximity labeling in U2OS:NONO-APEX2-HA cells is capable for the assessment of NONO interactomes by downstream assays. U2OS:NONO-APEX2-HA cells will likely be a valuable resource for the investigation of NONO interactome dynamics in response to DNA damage and other stimuli.

©2022 The Authors; This is an open-access article, published in Front. Mol. Biosci. 9:914873. 

Here you can find the full article in Frontiers in Molecular Biosciences.

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