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. 1996 Apr;178(8):2299–2313. doi: 10.1128/jb.178.8.2299-2313.1996

Iron-regulated transcription of the pvdA gene in Pseudomonas aeruginosa: effect of Fur and PvdS on promoter activity.

L Leoni 1, A Ciervo 1, N Orsi 1, P Visca 1
PMCID: PMC177938  PMID: 8636031

Abstract

The pvdA gene, encoding the enzyme L-ornithine N5-oxygenase, catalyzes a key step of the pyoverdin biosynthetic pathway in Pseudomonas aeruginosa. Expression studies with a promoter probe vector made it possible to identify three tightly iron-regulated promoter regions in the 5.9-kb DNA fragment upstream of pvdA. The promoter governing pvdA expression was located within the 154-bp sequence upstream of the pvdA translation start site. RNA analysis showed that expression of PvdA is iron regulated at the transcriptional level. Primer extension and S1 mapping experiments revealed two 5'termini of the pvdA transcript, 68 bp (T1) and 43 bp (T2) 5' of the PvdA initiation. The pvdA transcripts were monocystronic, with T1 accounting for 90% of the pvdA mRNA. Fur box-like sequences were apparently absent in the regions 5' of pvdA transcription start sites. A sequence motif resembling the -10 hexamer of AlgU-dependent promoters and the iron starvation box of pyoverdin genes controlled by the sigmaE -like factor PvdS were identified 5' of the T1 start site. The minimum DNA region required for iron-regulated promoter activity was mapped from bp -41 to -154 relative to the ATG translation start site of pvdA. We used pvdA'::lacZ transcriptional fusions and Northern (RNA) analyses to study the involvement of Fur and PvdS in the iron-regulated expression of pvdA. Two fur mutants of P. aeruginosa were much less responsive than wild-type PAO1 to the iron-dependent regulation of pvdA expression. Transcription from the pvdA promoter did not occur in a heterologous host unless in the presence of the pvdS gene in trans and was abrogated in a pvdS mutant of P. aeruginosa. Interaction of the Fur repressor with a 150-bp fragment encompassing the pvdS promoter was demonstrated in vivo by the Fur titration assay and confirmed in vitro by gel retardation experiments with a partially purified Fur preparation. Conversely, the promoter region of pvdA did not interact with Fur. Our results support the hypothesis that the P. aeruginosa Fur repressor indirectly controls pvdA transcription through the intermediary sigma factor PvdS; in the presence of sufficient iron, Fur blocks the pvdS promoter, thus preventing PvdS expression and consequently transcription of pvdA and other pyoverdin biosynthesis genes.

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Selected References

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