Roko Žaja scite author profile

The poly(ADP-ribose) polymerase (PARP) protein family generates ADP-ribose (ADPr) modifications onto target proteins using NAD+ as substrate. Based on the composition of three NAD+ coordinating amino acids, the H-Y-E motif, each PARP is predicted to generate either poly(ADP-ribose) (PAR) or mono(ADP-ribose) (MAR). However, the reaction product of each PARP has not been clearly defined, and is an important priority since PAR and MAR function via distinct mechanisms. Here we show that the majority of PARPs generate MAR, not PAR, and demonstrate that the H-Y-E motif is not the sole indicator of PARP activity. We identify automodification sites on seven PARPs, and demonstrate that MAR and PAR generating PARPs modify similar amino acids, suggesting that the sequence and structural constraints limiting PARPs to MAR synthesis do not limit their ability to modify canonical amino acid targets. In addition, we identify cysteine as a novel amino acid target for ADP-ribosylation on PARPs.

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Serine ADP-Ribosylation Depends on HPF1

Bonfiglio

et al. 2017

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SummaryADP-ribosylation (ADPr) regulates important patho-physiological processes through its attachment to different amino acids in proteins. Recently, by precision mapping on all possible amino acid residues, we identified histone serine ADPr marks in the DNA damage response. However, the biochemical basis underlying this serine modification remained unknown. Here we report that serine ADPr is strictly dependent on histone PARylation factor 1 (HPF1), a recently identified regulator of PARP-1. Quantitative proteomics revealed that serine ADPr does not occur in cells lacking HPF1. Moreover, adding HPF1 to in vitro PARP-1/PARP-2 reactions is necessary and sufficient for serine-specific ADPr of histones and PARP-1 itself. Three endogenous serine ADPr sites are located on the PARP-1 automodification domain. Further identification of serine ADPr on HMG proteins and hundreds of other targets indicates that serine ADPr is a widespread modification. We propose that O-linked protein ADPr is the key signal in PARP-1/PARP-2-dependent processes that govern genome stability.

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Serine is a new target residue for endogenous ADP-ribosylation on histones

et al. 2016

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ADP-ribosylation (ADPr) is a biologically and clinically important post-translational modification, but little is known about the amino acids it targets on cellular proteins. Here we present a proteomic approach for direct in vivo identification and quantification of ADPr sites on histones.We have identified 12 unique ADPr sites in human osteosarcoma cells and report serine ADPr as a new type of histone mark that responds to DNA damage.

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ADP‐ribosyltransferases, an update on function and nomenclature

et al. 2021

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ADP-ribosylation, a modification of proteins, nucleic acids and metabolites, confers broad functions, including roles in stress responses elicited for example by DNA damage and viral infection and is involved in intra-and extracellular signaling, chromatin and transcriptional regulation, protein biosynthesis and cell death. ADP-ribosylation is catalyzed by ADPribosyltransferases, which transfer ADP-ribose from NAD + onto substrates. The modification, which occurs as mono-or poly-ADP-ribosylation, is reversible due to the action of different ADPribosylhydrolases. Importantly, inhibitors of ADP-ribosyltransferases are approved or are being developed for clinical use. Moreover, ADP-ribosylhydrolases are being assessed as therapeutic targets, foremost as anti-viral drugs and for oncological indications. Due to the development of novel reagents and major technological advances that allow the study of ADP-ribosylation in unprecedented detail, an increasing number of cellular processes and pathways are being

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Roko Žaja

Family-wide analysis of poly(ADP-ribose) polymerase activity

Serine ADP-Ribosylation Depends on HPF1

Serine is a new target residue for endogenous ADP-ribosylation on histones

ADP‐ribosyltransferases, an update on function and nomenclature

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