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Abstract
Posttranslational modifications (PTMs) greatly enhance the functional diversity of proteins, surpassing the number of gene-encoded variations. One intriguing PTM is ADP-ribosylation, which utilizes nicotinamide adenine dinucleotide (NAD+) as a substrate and is essential in cell signaling pathways regulating cellular responses. Here, we report the first cell-permeable NAD+ analogs and demonstrate their utility for investigating cellular ADP-ribosylation. Using a desthiobiotin-labelled analog for affinity enrichment of proteins that are ADP-ribosylated in living cells under oxidative stress, we identified protein targets associated with host-virus interactions, DNA damage and repair, protein biosynthesis, and ribosome biogenesis. Most of these targets have been noted in various literature sources, highlighting the potential of our probes for cellular ADP-ribosylome studies.
Supplementary materials
Title
General Supporting Information
Description
Experimental procedures, synthesis of compounds with NMR and HR MS characterization, and additional figures.
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Title
Proteomics
Description
1465 identified proteins, including 121 significant proteins found in the samples with probe under oxidative stress
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Title
DAVID Analysis
Description
The results of DAVID analysis of significant proteins
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Title
Comparison with literature
Description
Comparison of enriched significant proteins with the literature data
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