Mucoid-to-nonmucoid conversion in alginate-producing Pseudomonas aeruginosa often results from spontaneous mutations in algT, encoding a putative alternate sigma factor, and shows evidence for autoregulation.

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J Bacteriol. 1994 November; 176(21): 6677-6687

research-article

Mucoid-to-nonmucoid conversion in alginate-producing Pseudomonas aeruginosa often results from spontaneous mutations in algT, encoding a putative alternate sigma factor, and shows evidence for autoregulation.

C A DeVries and D E Ohman

Department of Microbiology and Immunology, University of Tennessee, Memphis 38163.

ABSTRACT

The mucoid phenotype is common among strains of Pseudomonasaeruginosa that cause chronic pulmonary infections in patientswith cystic fibrosis and is due to overproduction of an exopolysaccharidecalled alginate. However, the mucoid phenotype is unstable invitro, especially when the cells are incubated under low oxygentension. Spontaneous conversion to the nonmucoid form is typicallydue to mutations (previously called algS) that are closely linkedto the alginate regulatory gene algT, located at 68 min on thechromosome. Our sequence analysis of algT showed that its 22-kDagene product shares homology with several alternate sigma factorsin bacteria, suggesting that AlgT (also known as AlgU) interactsdirectly with RNA polymerase core to activate the promotersof alginate genes. AlgT showed striking sequence similarity(79%) to sigma E of Escherichia coli, an alternate sigma factorinvolved in high-temperature gene expression. Our analysis ofthe molecular basis for spontaneous conversion from mucoid tononmucoid, in the cystic fibrosis isolate FRD, revealed thatnonmucoid conversion was often due to one of two distinct missensemutations in algT that occurred at codons 18 and 29. RNase protectionassays showed that spontaneous nonmucoid strains with the algT18and algT29 alleles have a four- to fivefold reduction in theaccumulation of algT transcripts compared with the wild-typemucoid strain. Likewise, a plasmid-borne algT-cat transcriptionalfusion was about 3-fold less active in the algT18 and algT29backgrounds compared with the mucoid wild-type strain, and itwas 20-fold less active in an algT::Tn501 background. Thesedata indicate that algT is autoregulated. The spontaneous algTmissense alleles also caused about fivefold-reduced expressionof the adjacent negative regulator, algN (also known as mucB).Transcripts of algN were essentially absent in the algT::Tn501strain. Thus, algT regulates the algTN cluster, and the twogenes may be cotranscribed. A primer extension analysis showedthat algT transcription starts 54 bp upstream of the start oftranslation. Although the algT promoter showed little similarityto promoters recognized by the vegetative sigma factor, it wassimilar to the algR promoter. This finding suggests that AlgTmay function as a sigma factor to activate its own promoterand those of other alginate genes. The primer extension analysisalso showed that algT transcripts were readily detectable inthe typical nonmucoid strain PAO1, which was in contrast toa weak signal seen in the algT18 mutant of FRD. A plasmid-bornealgT gene in PAO1 resulted in both the mucoid phenotype andhigh levels of algT transcripts, further supporting the hypothesisthat AlgT controls its own gene expression and expression ofgenes of the alginate regulon.

J Bacteriol. 1994 November; 176(21): 6677-6687

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