Virtu Solano-Collado scite author profile

Promoter-probe and terminator-probe plasmid vectors make possible to rapidly examine whether particular sequences function as promoter or terminator signals in various genetic backgrounds and under diverse environmental stimuli. At present, such plasmid-based genetic tools are very scarce in the Gram-positive pathogenic bacteria Streptococcus pneumoniae and Enterococcus faecalis. Hence, we developed novel promoter-probe and terminator-probe vectors based on the Streptococcus agalactiae pMV158 plasmid, which replicates autonomously in numerous Gram-positive bacteria. As reporter gene, a gfp allele encoding a variant of the green fluorescent protein was used. These genetic tools were shown to be suitable to assess the activity of promoters and terminators (both homologous and heterologous) in S. pneumoniae and E. faecalis. In addition, the promoter-probe vector was shown to be a valuable tool for the analysis of regulated promoters in vivo, such as the promoter of the pneumococcal fuculose kinase gene. These new plasmid vectors will be very useful for the experimental verification of predicted promoter and terminator sequences, as well as for the construction of new inducible-expression vectors. Given the promiscuity exhibited by the pMV158 replicon, these vectors could be used in a variety of Gram-positive bacteria.

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The pneumococcal MgaSpn virulence transcriptional regulator generates multimeric complexes on linear double-stranded DNA

Solano-Collado

Espinosa

Bravo

2013

Nucleic Acids Research

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The MgaSpn transcriptional regulator contributes to the virulence of Streptococcus pneumoniae. It is thought to be a member of the Mga/AtxA family of global regulators. MgaSpn was shown to activate in vivo the P1623B promoter, which is divergent from the promoter (Pmga) of its own gene. This activation required a 70-bp region (PB activation region) located between both promoters. In this work, we purified an untagged form of the MgaSpn protein, which formed dimers in solution. By gel retardation and footprinting assays, we analysed the binding of MgaSpn to linear double-stranded DNAs. MgaSpn interacted with the PB activation region when it was placed at internal position on the DNA. However, when it was positioned at one DNA end, MgaSpn recognized preferentially the Pmga promoter placed at internal position. In both cases, and on binding to the primary site, MgaSpn spread along the adjacent DNA regions generating multimeric protein–DNA complexes. When both MgaSpn-binding sites were located at internal positions on longer DNAs, electron microscopy experiments demonstrated that the PB activation region was the preferred target. DNA molecules totally or partially covered by MgaSpn were also visualized. Our results suggest that MgaSpn might recognize particular DNA conformations to achieve DNA-binding specificity.

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Virtu Solano-Collado

Novel plasmid-based genetic tools for the study of promoters and terminators in Streptococcus pneumoniae and Enterococcus faecalis

The pneumococcal MgaSpn virulence transcriptional regulator generates multimeric complexes on linear double-stranded DNA

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