Ramón Díaz scite author profile

We provide evidence that a mutation which derepresses an autoregulated system that is located in the vicinity of the basic replicon of R1, stabilizes the ParA- and ParB- miniplasmid of R1 pKN1562, without increasing its copy number. The system, which we have called ParD, maps inside the 1.45-kb PstI-EcoRI fragment that is adjacent to the origin of replication of the plasmid. Two proteins whose expression is coordinated are components of the system. The sequence of the PstI-EcoRI fragment was obtained. The wild-type ParD system determines in cis a basal but detectable stability.

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Genetic and functional analysis of the basic replicon of pPS10, a plasmid specific for Pseudomonas isolated from Pseudomonas syringae patovar savastanoi

Nieto

Giraldo

Fernández-Tresguerres

et al. 1992

Journal of Molecular Biology

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Killing of Escherichia coli cells modulated by components of the stability system ParD of plasmid R1

et al. 1988

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The proteins P10 and P12 have been shown to be gene products of a new stability system, ParD, of plasmid R1. It is now shown that an R1 miniplasmid, pAB112, carrying a trans-complementable amber mutation in the gene of the P10 protein, is lethal for the host in the absence of suppression. This lethal effect is suppressed in a supF background and also by deletions in pAB112 that affect the gene of the P12 protein. These data indicate that the P12 protein has a lethal effect on the host and that this effect is neutralized by the P10 protein. The possibility that the stabilization conferred by the ParD system could be due to a counterselection, mediated by P12, of cells that lose the plasmid at cell division, is discussed.

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Replication of the streptococcal plasmid pMV158 and derivatives in cell-free extracts of Escherichia coli

1987

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pMV158 is a 5.4 kb broad host range multicopy plasmid specifying tetracycline resistance. This plasmid and two of its derivatives, pLS1 and pLS5, are stably maintained and express their genetic information in gram-positive and gram-negative hosts. The in vitro replication of plasmid pMV158 and its derivatives was studied in extracts prepared from plasmid-free Escherichia coli cells and the replicative characteristics of the streptococcal plasmids were compared to those of the E. coli replicons, ColE1 and the mini-R1 derivative pKN182. The optimal replicative activity of the E. coli extracts was found at a cellular phase of growth that corresponded to 2 g wet weight of cells per litre. Maximal synthesis of streptococcal plasmid DNA occurred after 90 min of incubation and at a temperature of 30 degrees C. The optimal concentration of template DNA was 40 micrograms/ml. Higher plasmid DNA concentrations resulted in a decrease in the incorporation of dTMP, indicating that competition of specific replication factor(s) for functional plasmid origins may occur. In vitro replication of plasmid pMV158 and its derivatives required the host RNA polymerase and de novo protein synthesis. The final products of the streptococcal plasmid DNAs replicated in the E. coli in vitro system were monomeric supercoiled DNA forms that had completed at least one round of replication, although a set of putative replicative intermediates could also be found. The results suggest that a specific plasmid-encoded factor is needed for the replication of the streptococcal plasmids.

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Replication of mini RK2 plasmid in extracts of Escherichia coli requires plasmid-encoded protein TrfA and host-encoded proteins DnaA, B, G DNA gyrase and DNA polymerase III

Pinkney

Díaz

Lanka

et al. 1988

Journal of Molecular Biology

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Ramón Díaz

Identification of components of a new stability system of plasmid R1, ParD, that is close to the origin of replication of this plasmid

Genetic and functional analysis of the basic replicon of pPS10, a plasmid specific for Pseudomonas isolated from Pseudomonas syringae patovar savastanoi

Killing of Escherichia coli cells modulated by components of the stability system ParD of plasmid R1

Replication of the streptococcal plasmid pMV158 and derivatives in cell-free extracts of Escherichia coli

Replication of mini RK2 plasmid in extracts of Escherichia coli requires plasmid-encoded protein TrfA and host-encoded proteins DnaA, B, G DNA gyrase and DNA polymerase III

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