Biochemical characterization and mechanistic insight of the family IV uracil DNA glycosylase from Sulfolobus islandicus REY15A

Uracil DNA glycosylase (UDG) can remove uracil from DNA, thus playing an essential role in maintaining genomic stability. Family IV UDG members are mostly widespread in hyperthermophilic Archaea and bacteria. In this work, we characterized the family IV UDG from the hyperthermophilic crenarchaeon Sulfolobus islandicus REY15A (Sis-UDGIV) biochemically, and dissected the roles of nine conserved residues in uracil excision by mutational analyses. Biochemical data demonstrate that Sis-UDGIV displays maximum efficiency for uracil excision at 50 degrees C similar to 70 degrees C and at pH 7.0-9.0. Additionally, the enzyme has displays a weak activity without a divalent metal ion, but maximum activity with Mg2+. Our mutational analyses show that residues E48 and F55 in Sis-UDGIV are essential for uracil removal, and residues E48, F55, R87, R92 and K146 are responsible for binding DNA. Importantly, we systemically revealed the roles of four conserved cysteine residues C14, C17, C86 and C102 in Sis-UDGIV that are required for being ligands of Fe-S cluster in maintaining the overall protein conformation and stability by circular dichroism analyses. Overall, our work has provided insights into biochemical function and DNA-binding specificity of archaeal family IV UDGs.