Mutational analysis of the uracil DNA glycosylase inhibitor protein and its interaction with Escherichia coli uracil DNA glycosylase.

Uracil DNA glycosylase inhibitor (Ugi), a protein of 9.4 kDa consists of a five-stranded antiparallel beta sheet flanked on either side by single alpha helices, forms an exclusive complex with uracil DNA glycosylases (UDGs) that is stable in 8M urea. We report on the mutational analysis of various structural elements in Ugi, two of which (hydrophobic pocket and the beta1 edge) establish key interactions with Escherichia coli UDG. The point mutations in helix alpha1 (amino acid residues 3-14) do not affect the stability of the UDG-Ugi complexes in urea. And, while the complex of the deltaN13 mutant with UDG is stable in only approximately 4M urea, its overall structure and thermostability are maintained. The identity of P37, stacked between P26 and W68, was not important for the maintenance of the hydrophobic pocket or for the stability of the complex. However, the M24K mutation at the rim of the hydrophobic pocket lowered the stability of the complex in 6M urea. On the other hand, non-conservative mutations E49G, D61G (cancels the only ionic interaction with UDG) and N76K, in three of the loops connecting the beta strands, conferred no such phenotype. The L23R and S21P mutations (beta1 edge) at the UDG-Ugi interface, and the N35D mutation far from the interface resulted in poor stability of the complex. However, the stability of the complexes was restored in the L23A, S21T and N35A mutations. These analyses and the studies on the exchange of Ugi mutants in preformed complexes with the substrate or the native Ugi have provided insights into the two-step mechanism of UDG-Ugi complex formation. Finally, we discuss the application of the Ugi isolates in overproduction of UDG mutants, toxic to cells.