Protein Modification By ADP-Ribose Via Acid-Labile LinkagesShow full item record
Title | Protein Modification By ADP-Ribose Via Acid-Labile Linkages |
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Author | Cervanteslaurean, D; loflin, PT; Minter, DE; Jacobson, EL; Jacobson, MK |
Date | 1995 |
Abstract | As substrate for protein-mono-ADP-ribosyltransferases, NAD has been shown to be the donor of ADP-ribose to many different nucleophiles found in proteins. This post-translational modification of proteins has been implicated in the regulation of membrane associated processes including signal transduction, muscle cell differentiation, and protein trafficking and secretion. Described here is the preparation and chemical characterization of low molecular weight conjugates that were used as models for an acetal linkage between ADP-ribose and the hydroxyl group of a protein acceptor such as serine, threonine, tyrosine, hydroxyproline, or hydroxylysine residues. Model conjugates of ADP-ribose containing an acetal linkage were prepared, their structures were established by NMR, and the chemical stability of the linkage to ADP-ribose was studied and compared to the other known ADP-ribosyl-amino acid linkages. The rapid release of intact ADP-ribose from the acetal model conjugates in 44% formic acid distinguished them chemically from all the other known ADP-ribosyl-amino acid modifications. Rat liver proteins were shown to be modified by ADP-ribose in vivo by acid-labile linkages, providing evidence for a new class of endogenous ADP-ribose modification of animal cell proteins. The amount of modification was approximately 16 pmol of ADP-ribose per mg of total protein, and proteins modified by acid-labile linkages were detected in all subcellular fractions examined, suggesting that the scope of this modification in vivo is broad. |
Link | https://doi.org/10.1074/jbc.270.14.7929
https://repository.tcu.edu/handle/116099117/49927 |
Department | Chemistry and Biochemistry |
Subject | Nucleotide-Binding Protein
Islet-Activating Protein Adenylate-Cyclase Membrane-Protein Ribosylation Ribosyltransferase Invivo Substrate Residue Cells |
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