Effects of Active Site Mutations on Specificity of Nucleobase Binding in Human DNA Polymerase η

Human DNA polymerase η (Pol η) plays a vital role in protection against skin cancer caused by damage from ultraviolet light. This enzyme rescues stalled replication forks at cyclobutane thymine–thymine dimers (TTDs) by inserting nucleotides opposite these DNA lesions. Residue R61 is conserved in the Pol η enzymes across species, but the corresponding residue, as well as its neighbor S62, is different in other Y-family polymerases, Pol ι and Pol κ. Herein, R61 and S62 are mutated to their Pol ι and Pol κ counterparts. Relative binding free energies of dATP to mutant Pol η•DNA complexes with and without a TTD were calculated using thermodynamic integration. The binding free energies of dATP to the Pol η•DNA complex with and without a TTD are more similar for all of these mutants than for wild-type Pol η, suggesting that these mutations decrease the ability of this enzyme to distinguish between a TTD lesion and undamaged DNA. Molecular dynamics simulations of the mutant systems provide insights into the mole...