The virulence of soft-rot Erwinia species is dependent mainly upon secreted enzymes such as pectinases, pectin lyases, and proteases that cause maceration of plant tissue. Some soft-rot Erwinia spp. also harbor genes homologous to the hypersensitive reaction and pathogenesis (hrp) gene cluster, encoding components of the type III secretion system. The hrp genes are essential virulence determinants for numerous nonmacerating gram-negative plant pathogens but their role in the virulence of soft-rot Erwinia spp. is not clear. We isolated and characterized 11 hrp genes of Erwinia carotovora subsp. carotovora. Three putative sigmaL-dependent Hrp box promoter sequences were found. The genes were expressed when the bacteria were grown in Hrp-inducing medium. The operon structure of the hrp genes was determined by mRNA hybridization, and the results were in accordance with the location of the Hrp boxes. An E. carotovora strain with mutated hrcC, an essential hrp gene, was constructed. The hrcC- strain was able to multiply and cause disease in Arabidopsis, but the population kinetics were altered so that growth was delayed during the early stages of infection.
Extracellularly targeted proteins are crucial for virulence of gram-negative phytopathogenic bacteria. Erwinia carotovora subsp. carotovora employs the so-called type II (GSP) pathway to secrete a number of pectinases and cellulases, which cause the typical tissue maceration symptoms of soft-rot disease. The type III (hrp) pathway is the major virulence determinant in the genera Pseudomonas, Ralstonia and Xanthomonas, and in non-macerating species of Erwinia. The hrp cluster was recently partially characterized from E. carotovora sp. carotovora, and shown to affect virulence during early stages of infection. Here we have isolated and characterized 15 hrp genes comprising the remaining part of the cluster. The genes hrpL, hrpXY and hrpS were deduced to be transcribed as separate units, whereas the 11 remaining genes from hrpJ to hrcU form a single large operon. The hrpX gene, which codes for the sensory kinase of the two-component regulatory locus hrpXY was insertionally inactivated by placing a transposon (entranceposon) in the gene. The resulting mutant bacterium expresses the hrp genes at high basal level even in a non-inducing medium. This relative overexpression was shown to be due to the hrpX::entranceposon insertion causing enhanced transcription of the downstream hrpY gene. The hrpX(-)-hrpYC mutant bacterium exhibited a slower growth rate and the appearance of disease symptoms in infected Arabidopsis plants was delayed, as compared to the wild-type strain. The need for hrp gene expression for virulence has been documented in both non-macerating plant pathogens and in soft-rotting Erwinia sp. but this is the first demonstration that high basal-level expression of hrp -regulated genes may actually have a negative impact on disease progress in a susceptible host plant.
OmpS is an outer membrane protein of Vibrio cholerae where it forms trimeric pores that function in the uptake of maltose and maltodextrins. Based on sequence similarity to LamB proteins, a model of OmpS folding in the outer membrane has been constructed. According to this model, OmpS contains 18 transmembrane b-strands and nine surface-accessible loops. Adhesive epitopes can, when inserted into surface-accessible loop 4 (L4) and expressed in Escherichia coli, retain their functional characteristics. We inserted three d-repeats from the Staphylococcus aureus fibronectin-binding protein FnBPA into L4 of OmpS and showed that E. coli cells expressing these hybrids bind fibronectin. DNA fragments covering the N-terminal half of the globoside-binding P-fimbrial adhesin class II PapG of E. coli were cloned into the same surface accessible loop (L4) of OmpS. Fragments of papG encoding 53 or 186 amino acids from the N-terminal end of class II PapG adhesin were found to confer bacterial adhesiveness to globoside. Removal of 23 amino acids from the N-terminus of PapG did not affect receptor binding, but removal of 31 amino acids abolished it. The newly developed night sky image technique was also used to demonstrate the binding properties of membrane vesicles carrying the hybrid proteins. We raised antibodies against the purified hybrid protein containing 53 amino acids from PapG. This antiserum recognized the P-fimbriae on E. coli cells. These data provide evidence that the N-terminal first 53 amino acids of class II PapG contain the receptor-binding domain.
Secondary structures affect mRNA stability and may play a role in protein secretion. We have studied the mRNA of hrpA, which codes for the major structural unit of the type III secretion system-associated pilus of Pseudomonas syringae pv. tomato, Erwinia carotovora and Pseudomonas syringae pv. phaseolicola. We show that hrpA mRNA has an unusually long half-live, approximately 33-47 min. We mapped regions in the transcript that affected hrpA mRNA accumulation. Apparently, sequences at both 5 0 and 3 0 ends affect accumulation. Altering the hypothetical, stable GC rich loop structure in the 3 0 end of the transcript decreased transcript levels.
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