DNA translocase repositions a nucleosome by the lane-switch mechanism
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- DNA translocase repositions a nucleosome by the lane-switch mechanism
Translocases such as DNA/RNA polymerases, replicative helicases, and exonucleases are involved in eukaryotic DNA transcription, replication, and repair. Since eukaryotic genomic DNA wraps around histone core complexes and forms nucleosomes, translocases inevitably encounter nucleosomes. Previous studies have shown that a histone core complex repositions upstream (downstream) when SP6RNA or T7 RNA polymerase (bacterial exonuclease, RecBCD) partially unwraps nucleosomal DNA.
However, the molecular mechanism of the downstream repositioning remains unclear. In this study, we identify the lane-shift mechanism for downstream nucleosome repositioning via coarse-grained molecular dynamics simulations, which we validated by restriction enzyme digestion assays and deep sequencing assays. In this mechanism, after a translocase unwraps nucleosomal DNA up to the site proximal to the dyad, the remaining wrapped DNA switches its binding region (lane) to that vacated by the unwrapping, and the downstream DNA rewraps, completing downstream repositioning.
This mechanism may have crucial implications for transcription through nucleosomes, histone recycling, and nucleosome remodeling.