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Specificity of DNA ADP-Ribosylation Reversal by NADARs

Bara Cihlova, Yang Lu, Andreja Mikoč, M. Schuller, Ivan Ahel

2024Toxins15 citationsDOIOpen Access PDF

Abstract

Recent discoveries establish DNA and RNA as bona fide substrates for ADP-ribosylation. NADAR (“NAD- and ADP-ribose”-associated) enzymes reverse guanine ADP-ribosylation and serve as antitoxins in the DarT-NADAR operon. Although NADARs are widespread across prokaryotes, eukaryotes, and viruses, their specificity and broader physiological roles remain poorly understood. Using phylogenetic and biochemical analyses, we further explore de-ADP-ribosylation activity and antitoxin functions of NADAR domains. We demonstrate that different subfamilies of NADAR proteins from representative E. coli strains and an E. coli-infecting phage retain biochemical activity while displaying specificity in providing protection from toxic guanine ADP-ribosylation in cells. Furthermore, we identify a myxobacterial enzyme within the YbiA subfamily that functions as an antitoxin for its associated DarT-unrelated ART toxin, which we termed YarT, thus presenting a hitherto uncharacterised ART-YbiA toxin–antitoxin pair. Our studies contribute to the burgeoning field of DNA ADP-ribosylation, supporting its physiological relevance within and beyond bacterial toxin–antitoxin systems. Notably, the specificity and confinement of NADARs to non-mammals infer their potential as highly specific targets for antimicrobial drugs with minimal off-target effects.

Topics & Concepts

ADP-ribosylationDNAADP ribosylation factorChemistryMolecular biologyComputational biologyCell biologyBiophysicsBiologyBiochemistryEnzymeNAD+ kinaseGolgi apparatusCellRNA modifications and cancerRNA and protein synthesis mechanismsPARP inhibition in cancer therapy
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