Archive/8oxoG:A Is Structurally Accommodated in the Nucleosome Core Particle, Yet Inaccessible to MUTYH-Initiated DNA Repair
8oxoG:A Is Structurally Accommodated in the Nucleosome Core Particle, Yet Inaccessible to MUTYH-Initiated DNA Repair
Abigayle F. Vito, Justin A. Ling, Julia C. Ferrara et al.
July 8, 2026
en

Abstract

Eukaryotic genomic DNA is packaged into chromatin as nucleosomes, where it remains susceptible to reactive oxygen species (ROS) that generate the mutagenic lesion 8-oxo-7,8-dihydroguanine (8oxoG). While 8-oxoguanine DNA glycosylase 1 (OGG1) can initiate repair of 8oxoG base paired with C within the nucleosome core particle (NCP) in a position- dependent manner, it is unknown whether MutY homolog (MUTYH), the DNA glycosylase that excises misincorporated A opposite 8oxoG, can initiate repair of 8oxoG:A base pairs within NCPs. To address this, we combined cryo-EM, molecular dynamics (MD) simulations, and biochemical assays. We determined that MUTYH activity on nucleosomal 8oxoG:A is strongly suppressed, with detectable excision limited to the entry/exit region. Cryo-EM structures at four superhelical locations reveal that 8oxoG adopts the syn conformation and Hoogsteen base pairs with A, as in non-nucleosomal DNA, indicating that lesion presentation is not altered by the histone octamer. MD simulations further reveal that 8oxoG:A base pair dynamics and local DNA backbone perturbations are similar in nucleosomal and non-nucleosomal DNA. Together, these data establish that the NCP sterically excludes MUTYH from 8oxoG:A base pairs, making them largely inaccessible to MUTYH processing. This work ultimately provides mechanistic insight for the elevated G to T transversion rate observed in histone-bound DNA following oxidative stress.

IPC Classification

G06C07

Keywords

8oxogstructurallyaccommodatednucleosomecoreparticleinaccessiblemutyh-initiatedrepairbiomoleculeseukaryoticgenomicpackagedchromatinnucleosomeswhereremainssusceptiblereactiveoxygenspeciesgeneratemutageniclesion
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