Litcius/Paper detail

Nucleosomal embedding reshapes the dynamics of abasic sites

Emmanuelle Bignon, Victor E. P. Claerbout, Tao Jiang, Christophe Morell, Natacha Gillet, Élise Dumont

2020Scientific Reports20 citationsDOIOpen Access PDF

Abstract

Apurinic/apyrimidinic (AP) sites are the most common DNA lesions, which benefit from a most efficient repair by the base excision pathway. The impact of losing a nucleobase on the conformation and dynamics of B-DNA is well characterized. Yet AP sites seem to present an entirely different chemistry in nucleosomal DNA, with lifetimes reduced up to 100-fold, and the much increased formation of covalent DNA-protein cross-links leading to strand breaks, refractory to repair. We report microsecond range, all-atom molecular dynamics simulations that capture the conformational dynamics of AP sites and their tetrahydrofuran analogs at two symmetrical positions within a nucleosome core particle, starting from a recent crystal structure. Different behaviours between the deoxyribo-based and tetrahydrofuran-type abasic sites are evidenced. The two solvent-exposed lesion sites present contrasted extrahelicities, revealing the crucial role of the position of a defect around the histone core. Our all-atom simulations also identify and quantify the frequency of several spontaneous, non-covalent interactions between AP and positively-charged residues from the histones H2A and H2B tails that prefigure DNA-protein cross-links. Such an in silico mapping of DNA-protein cross-links gives important insights for further experimental studies involving mutagenesis and truncation of histone tails to unravel mechanisms of DPCs formation.

Topics & Concepts

AP siteDNAHistoneMolecular dynamicsChemistryDNA repairNucleosomeMutagenesisBiophysicsNucleobaseIn silicoDNA damageBiochemistryBiologyMutationComputational chemistryGeneDNA and Nucleic Acid ChemistryDNA Repair MechanismsHIV/AIDS drug development and treatment
Nucleosomal embedding reshapes the dynamics of abasic sites | Litcius