W M Konyecsni scite author profile

The Pseudomonas aeruginosa capsule, composed of polysaccharide alginate, is an important Pseudomonas virulence factor encountered primarily in cystic fibrosis. The regulatory algR gene positively controls transcription of a key alginate biosynthetic gene, algD. The algR gene was subcloned and sequenced by creating a set of nested deletions in M13 bacteriophage. DNA sequence analysis of algR revealed the homology of its gene product with a recently recognized class of environmentally responsive bacterial regulatory genes, including ompR, phoB, sfrA, ntrC, spoOA, dctD, and virG; these transcriptional activators control cellular reactions to osmotic pressure, phosphate limitations, or specific chemical compounds present in the medium or released from wounded host tissue. These findings indicate that novel conditions in lungs affected by cystic fibrosis may be participating in the control of mucoidy.

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Control of mucoidy in Pseudomonas aeruginosa: transcriptional regulation of algR and identification of the second regulatory gene, algQ

Deretić

Konyecsni

1989

J Bacteriol

131

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A new alginate regulatory gene, algQ, was identified in a chromosomal region which, when tandemly amplified, induces mucoidy in Pseudomonas aeruginosa. The algQ gene was found closely linked to the previously identified algR gene. Both algQ and algR were required for transcription of the key alginate biosynthetic gene, algD. In addition, expression of the algR gene was studied. The algR promoter was mapped by Si nuclease and reverse transcription and found to be activated in mucoid cells. However, even in nonmucoid cells, transcription of algR was detectable at an approximately 50-fold-lower level, as opposed to the algD promoter, which was silent in the nonmucoid background. Transcription of both promoters was studied by using algR-and algD-specific oligonucleotides and total cellular RNA from fresh cystic fibrosis isolates of mucoid P. aeruginosa and their nonmucoid revertants. Identical patterns of activity were found in all strains: in mucoid cells, both algR and algD were activated. This finding indicated that common mechanisms were involved in the regulation of alginate gene expression. However, when the algR gene was cloned behind the tac promoter on a broad-host-range-controlled expression vector, induction of transcription with isopropropylj-D-thiogalactopyranoside (IPTG)

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Role of the far-upstream sites of the algD promoter and the algR and rpoN genes in environmental modulation of mucoidy in Pseudomonas aeruginosa

et al. 1990

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The role of several regulatory elements in environmental modulation of mucoidy in Pseudomonas aeruginosa was studied. Transcriptional activation of algD, necessary for the mucoid phenotype, was found to depend on FUS, the newly identified far-upstream sites of the algD promoter. The FUS were delimited to a region spanning nucleotides -432 to -332 relative to the algD mRNA start site. Insertional inactivation of algR in PA0568 abolished the algD promoter response to nitrogen availability and greatly diminished but did not completely eliminate reactivity to changes in salt concentration. Insertional inactivation of rpoN (ntrA) in PA0568 did not affect algR and algD transcription.

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DNA sequence and expression analysis of algP and algQ, components of the multigene system transcriptionally regulating mucoidy in Pseudomonas aeruginosa: algP contains multiple direct repeats

Konyecsni

Deretić

1990

J Bacteriol

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The complete nucleotide sequence of a 3.2-kilobase-pair chromosomal region containing the algP and algQ genes was determined. The algQ gene encodes an acidic 18-kilodalton polypeptide required for transcriptional activation of the algD gene. The algD gene product catalyzes a critical step in alginate biosynthesis, and its overproduction is necessary for the emergence of mucoid Pseudomonas aeruginosa during chronic infections in cystic fibrosis. A novel genetic element, algP, was identified immediately downstream of algQ. This gene appears to act synergistically with algQ. Unlike a biosynthetic gene, algD, and another regulatory gene, algR, which undergo transcriptional activation in mucoid cells, both algP and algQ are equally transcribed in mucoid and nonmucoid isogenic strains of P. aeruginosa. The promoter regions of algP and algQ were mapped by using Si nuclease protection analysis. The algQ promoter was also analyzed and showed activity in an in vitro transcriptional runoff assay with major RNA polymerase species from P. aeruginosa and Escherichia coli. The putative algQ and algP promoter sequences, unlike algD and algR, resemble C70-utilized promoters from E. coli and appeared constitutively transcribed at a low level in P. aeruginosa. The algP gene has an unusual DNA sequence, with multiple direct repeats organized in six highly conserved, tandemly arranged, 75-base-pair (bp) units. At a lower level, this sequence had 45 degenerate repeats of 12 bp overlapping with the 75-bp repeats and extending beyond the region of 75-bp repeats. The algP repeats appeared important for the function of the algQ-algP regulatory region in maintaining mucoidy.

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Mucoid Pseudomonas aeruginosa in cystic fibrosis: mutations in the muc loci affect transcription of the algR and algD genes in response to environmental stimuli

Deretić

Govan

Konyecsni

et al. 1990

Molecular Microbiology

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Increased levels of alginate biosynthesis cause mucoidy in Pseudomonas aeruginosa, a virulence factor of particular importance in cystic fibrosis. The algR gene product, which controls transcription of a key alginate biosynthetic gene, algD, is homologous to the activator members of the two-component, environmentally responsive systems (NtrC, OmpR, PhoB, ArcA, etc). In this report, we show that mutations in the muc loci, (muc-2, muc-22, and muc-23, in the standard genetic P. aeruginosa strain PAO, as well as a mapped muc allele in an isolate from a cystic fibrosis patient) affect transcription of algD and algR. This influence was strongly dependent on environmental factors. Regulation by nitrogen was observed in all strains examined, but the absolute transcriptional levels, determining the mucoid or nonmucoid status, were strain (muc allele)-dependent. Increased concentrations of NaCl in the medium, an osmolyte which is elevated in cystic fibrosis lung secretions, resulted in an increased algD transcription and mucoid phenotype in a muc-2 strain; the same conditions, however, produced a nonmucoid phenotype in the muc-23 background and abolished algD transcription. Mutations in the muc loci may cause mucoidy by deregulating the normal response of the alginate system to environmental stimuli.

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W M Konyecsni

The algR gene, which regulates mucoidy in Pseudomonas aeruginosa, belongs to a class of environmentally responsive genes

Control of mucoidy in Pseudomonas aeruginosa: transcriptional regulation of algR and identification of the second regulatory gene, algQ

Role of the far-upstream sites of the algD promoter and the algR and rpoN genes in environmental modulation of mucoidy in Pseudomonas aeruginosa

DNA sequence and expression analysis of algP and algQ, components of the multigene system transcriptionally regulating mucoidy in Pseudomonas aeruginosa: algP contains multiple direct repeats

Mucoid Pseudomonas aeruginosa in cystic fibrosis: mutations in the muc loci affect transcription of the algR and algD genes in response to environmental stimuli

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