Abstract
BackgroundDNA polymerase III, the main enzyme responsible for bacterial DNA replication, is composed of three sub-assemblies: the polymerase core, the β-sliding clamp, and the clamp loader. During replication, single-stranded DNA-binding protein (SSB) coats and protects single-stranded DNA (ssDNA) and also interacts with the χψ heterodimer, a sub-complex of the clamp loader. Whereas the χ subunits of Escherichia coli and Pseudomonas aeruginosa are about 40% homologous, P. aeruginosa ψ is twice as large as its E. coli counterpart, and contains additional sequences. It was shown that P. aeruginosa χψ together with SSB increases the activity of its cognate clamp loader 25-fold at low salt. The E. coli clamp loader, however, is insensitive to the addition of its cognate χψ under similar conditions. In order to find out distinguishing properties within P. aeruginosa χψ which account for this higher stimulatory effect, we characterized P. aeruginosa χψ by a detailed structural and functional comparison with its E. coli counterpart.ResultsUsing small-angle X-ray scattering, analytical ultracentrifugation, and homology-based modeling, we found the N-terminus of P. aeruginosa ψ to be unstructured. Under high salt conditions, the affinity of the χψ complexes from both organisms to their cognate SSB was similar. Under low salt conditions, P. aeruginosa χψ, contrary to E. coli χψ, binds to ssDNA via the N-terminus of ψ. Whereas it is also able to bind to double-stranded DNA, the affinity is somewhat reduced.ConclusionsThe binding to DNA, otherwise never reported for any other ψ protein, enhances the affinity of P. aeruginosa χψ towards the SSB/ssDNA complex and very likely contributes to the higher stimulatory effect of P. aeruginosa χψ on the clamp loader. We also observed DNA-binding activity for P. putida χψ, making this activity most probably a characteristic of the ψ proteins from the Pseudomonadaceae.
Highlights
DNA polymerase III, the main enzyme responsible for bacterial DNA replication, is composed of three sub-assemblies: the polymerase core, the b-sliding clamp, and the clamp loader
We show that P. aeruginosa ψ, but not the E. coli ψ subunit, binds to single-stranded DNA (ssDNA) under low salt conditions, even when the ssDNA is coated with single-stranded DNA-binding protein (SSB)
Biophysical characterization of Paecψ To determine the composition of P. aeruginosa cψ (Paecψ), the complex was subjected to sedimentation equilibrium experiments in the analytical ultracentrifuge under high salt conditions
Summary
DNA polymerase III, the main enzyme responsible for bacterial DNA replication, is composed of three sub-assemblies: the polymerase core, the b-sliding clamp, and the clamp loader. Single-stranded DNA-binding protein (SSB) coats and protects single-stranded DNA (ssDNA) and interacts with the cψ heterodimer, a sub-complex of the clamp loader. Whereas the c subunits of Escherichia coli and Pseudomonas aeruginosa are about 40% homologous, P. aeruginosa ψ is twice as large as its E. coli counterpart, and contains additional sequences. The replication machinery of P. aeruginosa presents a good target for the development of new antimicrobial agents, DNA polymerase III holoenzyme is the main enzyme involved in the replication of the bacterial genome. In Escherichia coli, this multiprotein complex is composed of ten distinct subunits that are arranged into three functional subassemblies [4]. The clamp loader complex, composed of subunits τ/g, δ, δ’, c and ψ, uses ATP hydrolysis to load the clamp onto DNA [7]
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