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Query: UNIPROT:P06889 (Mol)
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The PulO protein required for extracellular secretion of pullulanase by Klebsiella oxytoca is known to be highly homologous to two type IV prepilin peptidases, namely XcpA(PilD) (Pseudomonas aeruginosa) and TcpJ (Vibrio cholerae). The predicted prepilin peptidase activity of PulO was confirmed by showing that it could correctly process the product of the cloned pilE.1 type IV pilin structural gene from Neisseria gonorrhoeae in Escherichia coli. The P. aeruginosa prepilin peptidase and another putative prepilin peptidase, ComC from Bacillus subtilis, also processed prePilE. Subcellular fractionation showed that the pilE gene product that had been processed by PulO remained associated with the cytoplasmic membrane, as did the unprocessed precursor. PulO was also shown to process three of the four prePilE-PhoA hybrids tested. Southern hybridization experiments suggest that a pulO homologue is present in the N. gonorrhoeae chromosome.
Mol Microbiol 1992 Jul
PMID:PulO, a component of the pullulanase secretion pathway of Klebsiella oxytoca, correctly and efficiently processes gonococcal type IV prepilin in Escherichia coli. 135 33

Enteropathogenic Escherichia coli (EPEC) form adherent microcolonies on the surface of tissue culture cells in a pattern termed localized adherence. Localized adherence requires the presence of a large EPEC adherence factor (EAF) plasmid. Recently a bundle-forming pilus has been described in EPEC possessing the EAF plasmid. An analysis of 22 non-invasive EPEC TnphoA mutants revealed that seven have insertions in the EAF plasmid and are incapable of localized adherence. We report here the mapping of the TnphoA insertions in these mutants. The nucleotide sequence of the gene interrupted in these TnphoA mutants (bfpA) was determined and found to correspond to the N-terminal amino acid sequence of the major structural protein of the bundle-forming pilus. The bfpA gene bears sequence similarities to members of the type IV fimbrial gene family and encodes a potential site for processing by a prepilin peptidase. A plasmid containing bfpA as the only open reading frame directs the synthesis of a protein recognized by antiserum raised against the bundle-forming pilus. TnphoA mutants at this locus are unable to synthesize BfpA, but synthesis is restored by introduction of a plasmid containing the cloned gene. The minimum fragment of DNA required to restore localized adherence is considerably greater than that required to restore BfpA synthesis. BfpA expression, as assessed by alkaline phosphatase activity in bfpA::TnphoA mutants, is affected by temperature and growth medium. These studies describe an EPEC plasmid-encoded fimbrial gene, a candidate for the elusive EPEC adherence factor responsible for localized adherence.
Mol Microbiol 1992 Nov
PMID:A plasmid-encoded type IV fimbrial gene of enteropathogenic Escherichia coli associated with localized adherence. 136 46

The last gene (pulO) of the pulC-O pullulanase secretion gene operon of Klebsiella oxytoca codes for a protein that is 52% identical to the product of the pilD/xcpA gene required for extracellular protein secretion and type IV pilus biogenesis in Pseudomonas aeruginosa. The PilD/XcpA protein is known to remove the first six amino acids of the signal sequence of the type IV pilin precursor by cleaving after the glycine residue in the conserved sequence GF(M)XXXE (where X represents hydrophobic amino acids). This prepilin peptidase cleavage site is present in the products of four genes in the pulC-O operon (PulG, PulH, Pull and PulJ proteins). It is shown here that PulO processes the pulG gene product in vivo. Processing was maximal within 15 seconds, but experiments in which the expression of pulO was uncoupled from that of the other genes in the secretion operon suggest that processing can also occur post-translationally. The products of two pulG derivatives with internal inframe deletions were also processed by PulO, but the three PulG-PhoA hybrids, two PulJ-PhoA hybrids and the single PulH-PhoA hybrid tested did not appear to be processed. Sucrose gradient fraction experiments showed that both precursor and mature forms of PulG appear to be associated with low-density, outer membrane vesicles prepared by osmotic lysis of sphaeroplasts. Neither the xcpA gene nor the Bacillus subtilis gene comC, which is also homologous to pulO and codes for a protein with type IV prepilin peptidase activity, can correct the pullulanase secretion defect in an Escherichia coli strain carrying all of the genes required for secretion except pulO. Furthermore, neither XcpA nor ComC is able to process prePulG protein in vivo.
Mol Microbiol 1992 Mar
PMID:An enzyme with type IV prepilin peptidase activity is required to process components of the general extracellular protein secretion pathway of Klebsiella oxytoca. 157 4

A new locus required for type 4 pilus biogenesis by Pseudomonas aeruginosa has been identified. A pilE mutant, designated MJ-6, was broadly resistant to pili-specific phages and unable to translocate across solid surfaces by the pilus-dependent mechanism of twitching motility (Twt-). Immunoblot analysis demonstrated that MJ-6 was devoid of pili (Pil-) but was unaffected in the production of unassembled pilin pools. Genetic studies aimed at localizing the pilE mutation on the P. aeruginosa PAO chromosome demonstrated a strong co-linkage between MJ-6 phage resistance and the proB marker located at 71 min. Cloning of the pilE gene was facilitated by the isolation and identification of a pro(B+)-containing plasmid from a PAO1 cosmid library. Upon introduction of the PAO1 proB+ cosmid clone into MJ-6, sensitivity to pili-specific phage, twitching motility and pilus production were restored. The nucleotide sequence of a 1 kb EcoRV-ClaI fragment containing the pilE region revealed a single complete open reading frame with characteristic P. aeruginosa codon bias. PilE, a protein with a molecular weight of 15,278, showed significant sequence identity to the pilin precursors of P. aeruginosa and to other type 4 prepilin proteins. The region of highest homology was localized to the N-terminal 40 amino acid residues. The putative PilE N-terminus contained a seven-residue basic leader sequence followed by a consensus cleavage site for prepilin peptidase and a largely hydrophobic region which contained tyrosine residues (Tyr-24 and Tyr-27) previously implicated in maintaining pilin subunit-subunit interactions. The requirement of PilE in pilus biogenesis was confirmed by demonstrating that chromosomal pilE insertion mutants were pilus- and twitching-motility deficient.
Mol Microbiol 1994 Sep
PMID:The pilE gene product of Pseudomonas aeruginosa, required for pilus biogenesis, shares amino acid sequence identity with the N-termini of type 4 prepilin proteins. 785 30

Three gonococcal genes have been identified which encode proteins with substantial similarities to known components of the type IV pilus biogenesis pathway in Pseudomonas aeruginosa. Two of the genes were identified based on their hybridization with a DNA probe derived from the pilB gene of P. aeruginosa under conditions of reduced stringency. The product of the gonococcal pilF gene is most closely related to the pilus assembly protein PilB of P. aeruginosa while the product of the gonococcal pilT gene is most similar to the PilT protein of P. aeruginosa which is involved in pilus-associated twitching motility and colony morphology. The products of both of these genes display canonical nucleoside triphosphate binding sites and are predicted to be to cytoplasmically localized based on their overall hydrophilicity. The gonococcal pilD gene, identified by virtue of its linkage to the pilF gene, is homologous to a family of prepilin leader peptidase genes. When expressed in Escherichia coli, the gonococcal PilD protein functions to process gonococcal prepilin in a manner consistent with its being gonococcal prepilin peptidase. These results suggest that Neisseria gonorrhoeae is capable of expressing many of the essential elements of a highly conserved protein translocation system and that these gene products are probably involved in pilus biogenesis.
Mol Microbiol 1993 Apr
PMID:Conservation of genes encoding components of a type IV pilus assembly/two-step protein export pathway in Neisseria gonorrhoeae. 810 Mar 47

The signal sequence of the Klebsiella oxytoca puIG gene product, which is required for extracellular secretion of the enzyme pullulanase, is similar in many respects to the corresponding segment of the precursors of type IV (me-Phe) pilins. The significance of this similarity is confirmed by the observation that the puIO gene product processes prePuIG at the consensus type IV prepilin peptidase cleavage site at the amino-terminal end of the PuIG signal sequence. Like most type IV pilins, processed PuIG was found to have a methylated amino-terminal phenylalanine residue. Site-directed mutagenesis was used to replace amino acids in prePuIG that correspond to residues shown by others to be essential for processing, methylation and assembly of type IV pilins. The glycine residue on the amino-terminal side of the prePuIG cleavage site is absolutely required for processing and for pullulanase secretion. The glutamate residue at position 11(+5) is also required for pullulanase secretion but not for processing or methylation. This result contrasts with that reported for corresponding variants of Pseudomonas aeruginosa type IV prepilin, which were processed but only inefficiently N-methylated. Cleavage of prePuIG and pullulanase secretion were both unaffected by replacement of the phenylalanine residue on the carboxy-terminal side of the cleavage site by leucine, isoleucine or valine, by a conservative substitution within the hydrophobic core of the prePuIG signal sequence, or by a glutamine to proline substitution within the processed segment. However, replacement of the same glutamine residue by arginine abolished secretion without affecting either processing or methylation.
Mol Microbiol 1993 Jul
PMID:Processing and methylation of PuIG, a pilin-like component of the general secretory pathway of Klebsiella oxytoca. 841 82

Both the mature and precursor forms of PulG, a type IV pilin-like component of the general secretory pathway of Klebsiella oxytoca, can be chemically cross-linked into multimers similar to those obtained by cross-linking the components of type IV pili. To explore the possibility that the PulG precursor could form a pilus-like structure, the PulG sequence was altered in a variety of ways, including (i) replacement of the characteristic hydrophobic region, which is required for the assembly of type IV pilins by the MalE signal peptide, or (ii) fusion of beta-lactamase (beta laM) to the C-terminus. Neither of these changes affected multimerization. PulG precursor could be post-translationally processed by prepilin peptidase (PulO), indicating that the N-terminus of prePulG remains on the cytoplasmic side of the cytoplasmic membrane where it is accessible to the catalytic site of this enzyme. Finally, precursor and mature forms of PulG could be efficiently cross-linked in a mixed dimer, indicating that at least a subpopulation of the two forms of the protein are probably located in clusters in the cytoplasmic membrane. These results provide further evidence that the cross-linked multimers of the precursor form of PulG are unrelated to type IV pilus-like structures. It is still unclear whether a subpopulation of processed PulG can be assembled into a rudimentary pilus-like structure.
Mol Microbiol 1996 Jun
PMID:Multimers of the precursor of a type IV pilin-like component of the general secretory pathway are unrelated to pili. 880 75

The xcp gene products in Pseudomonas aeruginosa are required for the secretion of proteins across the outer membrane. Four of the Xcp proteins, XcpT, U, V and W, present sequence homology to the subunits of type IV pili at their N-termini, and they were therefore designated pseudopilins. In this study, we characterized the xcpX gene product, a bitopic cytoplasmic membrane protein. Remarkably, amino acid sequence comparisons also suggested that the XcpX protein resembles the pilins and pseudopilins at the N-terminus. We show that XcpX could be processed by the prepilin peptidase, PilD/XcpA, and that the highly conserved glycine residue preceding the hydrophobic segment could not be mutated without loss of the XcpX function. We, therefore, classified XcpX (GspK) as the fifth pseudopilin of the system.
Mol Microbiol 1998 Jan
PMID:The secretion apparatus of Pseudomonas aeruginosa: identification of a fifth pseudopilin, XcpX (GspK family). 946 53

Pseudomonas aeruginosa exports a number of hydrolytic enzymes and toxins using the type II or general secretion pathway, found in a variety of Gram-negative bacteria and requiring the functions of at least 12 gene products (XcpP-Z and PilD/XcpA in P. aeruginosa). A number of these gene products are homologues of components of the type IV pilus biogenesis system, including four proteins, XcpT-W, which are highly similar to the pilin subunit in their size, localization and post-translational modifications. These proteins, in addition to the pilin subunit, are cleaved and methylated by the PilD/XcpA prepilin peptidase, but their interactions with other components of the export apparatus are unclear. Using a medium developed for the selection of export-proficient P. aeruginosa strains, we have isolated temperature-sensitive mutations in the xcpT gene and extragenic suppressors for one of the mutants. These suppressors fall into two classes, one that maps outside of the xcpP-Z gene cluster and may define additional cellular functions that are required for export, and a second that maps to the xcpR gene product and indicates a potential protein-protein interaction connecting two different cellular compartments and required for the assembly or function of the export apparatus.
Mol Microbiol 1998 Jan
PMID:Type II protein secretion by Pseudomonas aeruginosa: genetic suppression of a conditional mutation in the pilin-like component XcpT by the cytoplasmic component XcpR. 946 69

Escherichia coli K-12 strains grown at 37 degrees C or 42 degrees C, but not at 30 degrees C, process the precursors of the Neisseria gonorrhoeae type IV pilin PilE and the Klebsiella oxytoca type IV pseudopilin PulG in a manner reminiscent of the prepilin peptidase-dependent processing of these proteins that occurs in these bacteria. Processing of prePulG in Escherichia coli requires a glycine at position -1, as does processing by the cognate prepilin peptidase (PulO), and is unaffected by mutations that inactivate several non-specific proteases. These data suggested that E. coli K-12 has a functional prepilin peptidase, despite the fact that it does not itself appear to express either type IV pilin or pseudopilin genes under the conditions that allow prePilE and prePulG processing. The E. coli K-12 genome contains two genes encoding proteins with significant sequence similarity to prepilin peptidases: gspO at minute 74.5 and pppA (f310c) at minute 67 on the genetic map. We have previously obtained evidence that gspO encodes an active enzyme but is not transcribed. pppA was cloned and shown to code for a functional prepilin peptidase capable of processing typical prepilin peptidase substrates. Inactivation of pppA eliminated the endogenous, thermoinducible prepilin peptidase activity. PppA was able to replace PulO prepilin peptidase in a pullulanase secretion system reconstituted in E. coli when expressed from high-copy-number plasmids but not when present in a single chromosomal copy. The analysis of pppA-lacZ fusions indicated that pppA expression was very low and regulated by the growth temperature at the level of translation, in agreement with the observed temperature dependence of PppA activity. Polymerase chain reaction and Southern hybridization analyses revealed the presence of the pppA gene in 12 out of 15 E. coli isolates.
Mol Microbiol 1998 Feb
PMID:A second prepilin peptidase gene in Escherichia coli K-12. 951 2

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