Abstract
The trimeric staphylococcal phage-encoded dUTPases (Duts) are signalling molecules that induce the cycle of some Staphylococcal pathogenicity islands (SaPIs) by binding to the SaPI-encoded Stl repressor. To perform this regulatory role, these Duts require an extra motif VI, as well as the Dut conserved motifs IV and V. While the apo form of Dut is required for the interaction with the Stl repressor, usually only those Duts with normal enzymatic activity can induce the SaPI cycle. To understand the link between the enzymatic activities and inducing capacities of the Dut protein, we analysed the structural, biochemical and physiological characteristics of the Dut80α D95E mutant, which loses the SaPI cycle induction capacity despite retaining enzymatic activity. Asp95 is located at the threefold central channel of the trimeric Dut where it chelates a divalent ion. Here, using state-of-the-art techniques, we demonstrate that D95E mutation has an epistatic effect on the motifs involved in Stl binding. Thus, ion binding in the central channel correlates with the capacity of motif V to twist and order in the SaPI-inducing disposition, while the tip of motif VI is disturbed. These alterations in turn reduce the affinity for the Stl repressor and the capacity to induce the SaPI cycle.
Highlights
Both the trimeric and the dimeric phage-encoded dUTPase proteins (Dut) act as the de-repressor protein for a subset of Staphylococcal pathogenicity islands (SaPIs), including SaPIbov[1], SaPIbov[5] and SaPIov[12]
In the original work that identified the trimeric Duts as the inducing proteins for SaPIbov[1], we proposed that the dUTPase activity was not required to derepress the SaPI cycle[2]
We had previously reported that the phage 80α Dut (Dut80α) D95E mutant was unable to induce the SaPIbov[1] cycle[2]
Summary
Both the trimeric and the dimeric phage-encoded dUTPase proteins (Dut) act as the de-repressor protein for a subset of SaPIs, including SaPIbov[1], SaPIbov[5] and SaPIov[12]. While this phage was incapable of inducing the SaPIbov[1] cycle, the mutant Dut protein retained its enzymatic activity when overexpressed in E.
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