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ABSTRACT: The plasmid replication initiator protein, RepD, greatly stimulates the ability of the DNA helicase, PcrA, to unwind plasmid lengths of DNA. Unwinding begins at oriD, the double-stranded origin of replication that RepD recognizes and covalently binds to initiate replication. Using a combination of plasmids containing oriD and oligonucleotide structures that mimic parts of oriD, the kinetics of DNA nicking and separation have been determined, along with the coupling ratio between base separation and ATP hydrolysis. At 30 degrees C, the rate of nicking is 1.0 s(-1), and translocation is approximately 30 bp s(-1). During translocation, the coupling ratio is one ATP hydrolyzed per base pair separated, the same as the value previously reported for ATP hydrolyzed per base moved by PcrA along single-stranded DNA. The data suggest that processivity is high, such that several thousand base-pair plasmids are unwound by a single molecule of PcrA. In the absence of RepD, a single PcrA is unable to separate even short lengths (10 to 40 bp) of double stranded DNA.
Biochemistry 07/2009; 48(27):6326-34. · 3.42 Impact Factor
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ABSTRACT: The replication initiator protein RepD recruits the Bacillus PcrA helicase directly onto the (-) strand of the plasmid replication origin oriD. The 5'-phosphate group at the nick is essential for loading, suggesting that it is the RepD covalently linked to the 5'-phosphate group at the nick that loads the helicase onto the oriD. The products of the unwinding reaction were visualised by atomic force microscopy (AFM) and monitored in real time by fluorescence spectroscopy. RepD remains associated with PcrA and stimulates processive directional unwinding of the plasmid at approximately 60 bp s(-1). In the absence of RepD, PcrA retains the ability to bind to a pre-nicked oriD, but engages the 3' end of the nick and translocates 3'-5' along the (+) strand in a poorly processive fashion. Our data provide a unique insight into the recruitment of PcrA-like helicases to DNA-nick sites and the processive translocation of the PcrA motor as a component of the plasmid replication apparatus.
Journal of Molecular Biology 09/2007; 371(2):336-48. · 4.00 Impact Factor
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ABSTRACT: DNA topoisomerase IV removes undesirable topological features from DNA molecules in order to help maintain chromosome stability. Two constructs of 56 and 59 kDa spanning the DNA-cleavage domain of the A subunit of topoisomerase IV from Staphylococcus aureus (termed GrlA56 and GrlA59) have been crystallized. Crystals were grown at 291 K using the sitting-drop vapour-diffusion technique with PEG 3350 as a precipitant. Preliminary X-ray analysis revealed that GrlA56 crystals belong to space group P2(1), diffract to a resolution of 2.9 A and possess unit-cell parameters a = 83.6, b = 171.5, c = 87.8 A, beta = 90.1 degrees, while crystals of GrlA59 belong to space group P2(1)2(1)2, with unit-cell parameters a = 41.5, b = 171.89, c = 87.9 A. These crystals diffract to a resolution of 2.8 A. This is the first report of the crystallization and preliminary X-ray analysis of the DNA-cleavage domain of a topoisomerase IV from a Gram-positive organism.
Acta Crystallographica Section F Structural Biology and Crystallization Communications 12/2006; 62(Pt 11):1164-7. · 0.51 Impact Factor
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ABSTRACT: The nicking of the origin of transfer (oriT) is an essential initial step in the conjugative mobilization of plasmid DNA. In the case of staphylococcal plasmid pC221, nicking by the plasmid-specific MobA relaxase is facilitated by the DNA-binding accessory protein MobC; however, the role of MobC in this process is currently unknown. In this study, the site of MobC binding was determined by DNase I footprinting. MobC interacts with oriT DNA at two directly repeated 9 bp sequences, mcb1 and mcb2, upstream of the oriT nic site, and additionally at a third, degenerate repeat within the mobC gene, mcb3. The binding activity of the conserved sequences was confirmed indirectly by competitive electrophoretic mobility shift assays and directly by Surface Plasmon Resonance studies. Mutation at mcb2 abolished detectable nicking activity, suggesting that binding of this site by MobC is a prerequisite for nicking by MobA. Sequential site-directed mutagenesis of each binding site in pC221 has demonstrated that all three are required for mobilization. The MobA relaxase, while unable to bind to oriT DNA alone, was found to associate with a MobC-oriT complex and alter the MobC binding profile in a region between mcb2 and the nic site. Mutagenesis of oriT in this region defines a 7 bp sequence, sra, which was essential for nicking by MobA. Exchange of four divergent bases between the sra of pC221 and the related plasmid pC223 was sufficient to swap their substrate identity in a MobA-specific nicking assay. Based on these observations we propose a model of layered specificity in the assembly of pC221-family relaxosomes, whereby a common MobC:mcb complex presents the oriT substrate, which is then nicked only by the cognate MobA.
Molecular Microbiology 07/2006; 60(5):1302-18. · 5.01 Impact Factor
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ABSTRACT: The isolation of plasmid-protein relaxation complexes from bacteria is indicative of the plasmid nicking-closing equilibrium in vivo that serves to ready the plasmids for conjugal transfer. In pC221 and pC223, the components required for in vivo site- and strand-specific nicking at oriT are MobC and MobA. In order to investigate the minimal requirements for nicking in the absence of host-encoded factors, the reactions were reconstituted in vitro. Purified MobA and MobC, in the presence of Mg2+ or Mn2+, were found to nick at oriT with a concomitant phosphorylation-resistant modification at the 5' end of nic. The position of nic is consistent with that determined in vivo. MobA, MobC, and Mg2+ or Mn2+ therefore represent the minimal requirements for nicking activity. Cross-complementation analyses showed that the MobC proteins possess binding specificity for oriT DNA of either plasmid and are able to complement each other in the nicking reaction. Conversely, nicking by the MobA proteins is plasmid specific. This suggests the MobA proteins may encode the nicking specificity determinant.
Journal of Bacteriology 07/2004; 186(11):3374-83. · 3.83 Impact Factor
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ABSTRACT: Mobilization of the staphylococcal plasmid pC221 requires at least one plasmid-encoded protein, MobA, in order to form a relaxosome. pC221 and closely related plasmids also possess an overlapping reading frame encoding a protein of 15 kDa, termed MobC. By completing the nucleotide sequence of plasmid pC223, we have found a further example of this small protein, and gene knockouts have shown that MobC is essential for relaxosome formation and plasmid mobilization in both pC221 and pC223. Primer extension analysis has been used to identify the nic site in both of these plasmids, located upstream of the mobC gene in the sense strand. Although the sequence surrounding the nic site is highly conserved between pC221 and pC223, exchange of the oriT sequence between plasmids significantly reduces the extent of relaxation complex formation, suggesting that the Mob proteins are selective for their cognate plasmids in vivo.
Journal of Bacteriology 07/2004; 186(11):3363-73. · 3.83 Impact Factor
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