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  • Development and characterization of new tools for detecting poly(ADP-ribose) in vitro and in vivo.

Development and characterization of new tools for detecting poly(ADP-ribose) in vitro and in vivo.

eLife (2022-04-28)
Sridevi Challa, Keun W Ryu, Amy L Whitaker, Jonathan C Abshier, Cristel V Camacho, W Lee Kraus
ABSTRACT

ADP-ribosylation (ADPRylation) is a reversible post-translation modification resulting in the covalent attachment of ADP-ribose (ADPR) moieties on substrate proteins. Naturally occurring protein motifs and domains, including WWEs, PBZs, and macrodomains, act as 'readers' for protein-linked ADPR. Although recombinant, antibody-like ADPR detection reagents containing these readers have facilitated the detection of ADPR, they are limited in their ability to capture the dynamic nature of ADPRylation. Herein, we describe and characterize a set of poly(ADP-ribose) (PAR) Trackers (PAR-Ts)-optimized dimerization-dependent or split-protein reassembly PAR sensors in which a naturally occurring PAR binding domain, WWE, was fused to both halves of dimerization-dependent GFP (ddGFP) or split Nano Luciferase (NanoLuc), respectively. We demonstrate that these new tools allow the detection and quantification of PAR levels in extracts, living cells, and living tissues with greater sensitivity, as well as temporal and spatial precision. Importantly, these sensors detect changes in cellular ADPR levels in response to physiological cues (e.g., hormone-dependent induction of adipogenesis without DNA damage), as well as xenograft tumor tissues in living mice. Our results indicate that PAR Trackers have broad utility for detecting ADPR in many different experimental and biological systems.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
G 418 disulfate salt, powder, BioReagent, suitable for cell culture
Sigma-Aldrich
Anti-poly-ADP-ribose binding reagent, Anti-poly-ADP-ribose binding reagent is a reagent that selectively binds to ADP ribose for use in Western Blotting, Immunocytochemistry and Dot Blot.