Synthesis of poly(ADP-robose)-agarose beads: An affinity resin for studying (ADP-ribose) n-protein interactions

Abstract

Polymers of ADP-ribose bind chromatosomal histones in solution and may play a role in chromatin accessibility in vivo. We have enzymatically synthesized a poly(ADP-ribose) affinity resin to further characterize binding of nuclear proteins to ADP-ribose polymers. NAD +- and (ADP-ribose)-derivatized agarose beads were recognized as polymer acceptors by the nuclear enzyme poly(ADP-ribose) polymerase. This polymerase elongated the existing ligands by successive addition of exogenously available ADP-ribose residues to form polymers covalently linked to the agarose beads. Poly(ADP-ribose) formation on the beads was dependent on incubation time and the mode of ligand attachment to the agarose. The resulting poly(ADP-ribose)-derivatized agarose beads possessed polymers which closely resembled those modifying the ADP-ribose polymerase by the automodification reaction. Fractionation of rat liver nuclear lysate over the poly(ADP-ribose) resin revealed a strong affinity of H1 for ADP-ribose polymers, thereby supporting a role for poly(ADP-ribose) in chromatin functions. Poly(ADP-ribose)-agarose beads are extremely stable and will be useful not only for affinity studies, but also for mechanistic studies involving polymer elongation and catabolism.