Abstract
Poly(ADP-ribose) polymerase 1 (PARP1) is a nuclear enzyme involved in catalyzing Poly-(ADP-ribosyl)ation. PARP1 binds to different forms of DNA and DNA breaks and thus plays important roles in several cellular processes, including DNA damage repair, cell cycle regulation, chromatin remodeling, and maintaining genomic stability. In this study, we conducted biochemical and biophysical characterization of PARP1 binding to G-quadruplex DNA (G4-DNA). Our investigation identified ZnF1, ZnF3, and WGR as the critical domains to mediate PARP1 binding to G4-c-KIT1. Also, our results show that these domains together show cooperativity for G4-c-KIT1 recognition. Further, we establish that the presence of an oxidized (5-carboxylcytosine) base in the loop region of G4-c-KIT1 (G4-5caC-cKIT1) does not affect its recognition by PARP1. Both G4-c-KIT1 and G4-5caC-cKIT1 are potent stimulators of PARP1's catalytic activity. Our study advances the understanding of PARP1's versatile DNA binding capabilities for G4-c-KIT1 DNA irrespective of the oxidation/ modification in the DNA base. These insights into PARP1's domain-specific contributions to G4-c-KIT1 DNA recognition and catalysis expand our knowledge of its multifaceted roles in DNA repair and genome maintenance.
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