Structure, dynamics, and processing of 8oxoG:A in the nucleosome

Eukaryotic genomic DNA is packaged into chromatin through a repeating unit known as the nucleosome. In this chromatin environment, DNA is constantly exposed to several sources of DNA damage, such as reactive oxygen species (ROS), which can lead to the formation of 8-oxo-7,8-dihydroguanine (8oxoG). 8oxoG can base pair with cytosine (8oxoG:C) or form a mutagenic base pair with adenine (8oxoG:A), which can lead to single base transversions if left unrepaired. To date, the structure and dynamics of these two possible 8oxoG base pairs in the nucleosome remain unclear. Furthermore, whether MutY homologue (MUTYH) excises 8oxoG:A base pairs in the nucleosome remains elusive. Here using a combination of cryogenic-electron microscopy, molecular dynamics simulations, and biochemistry we determined the structure and dynamics of 8oxoG:C and 8oxoG:A base pairs in the nucleosome and characterize MUTYH activity in nucleosomal DNA. We found that nucleosomal 8oxoG:C forms a stable base pair using its anti conformation, while nucleosomal 8oxoG:A forms a more dynamic base pair using its syn conformation that is unable to be processed by MUTYH. This work provides fundamental insight into the accommodation of oxidative damage in the nucleosome and how this damage contributes to increased mutagenic transversions in nucleosomal compared to linker DNA.