Nucleotide insertion initiated by van der Waals interaction during polymerase beta DNA replication

Abstract

We give unambiguous theoretical analyses and show that the exclusive biochemical reaction involved in a single nucleotide insertion into the DNA primer can be efficiently tracked using the renormalized van der Waals (vdW) interaction of a stronger type, the Hermansson blue-shifting hydrogen bond effect, and the Arunan composite hydrogen-vdW bond. We find that there are two biochemical steps involved to complete the insertion of a single base (cytosine) into the 3' end of a DNA primer. First, the O3' (from a DNA primer) initiates the nucleophilic attack on Pα (from an incoming dCTP), in response, O3α (bonded to Pα) interacts with H' (bonded to O3'). These interactions are shown to be strongly interdependent and require the forming and breaking of P---O and H---O covalent bonds, which in turn imply that we do not need any external energy supply.