Location of the antigenic determinants of conjugative F-like pili

The amino terminus of the pilin protein constitutes the major epitope of F-like conjugative pili studied to date (F, ColB2, R1-19, R100-1, and pED208). Anti-pED208 pilus antibodies were passed through a CNBr-Sepharose affinity column linked to bovine serum albumin which was conjugated to a synthetic peptide, AcP(1-12), containing the major epitope at the amino terminus of pED208 pilin. This allowed the separation of two classes of antibodies; one was specific for the amino terminus and bound to the column, while the other, which recognizes a second epitope on the pilus, did not bind to the column. In addition, antibodies were raised against two amino-terminal peptide-bovine serum albumin conjugates [AcP(1-8) and AcP(1-12)] to ensure a source of pure, high-titer antibodies directed against the amino terminus. The location of these antibodies on intact pili was assayed by immunoelectron microscopy with a protein A-gold technique. The amino terminus-specific antibodies did not bind to the sides of the pili but appeared to be associated with the pilus tip. In addition, these antibodies were found to bind to the vesicle-like structure at the base of the pilus. The anti-pilus antibodies not specific for the amino terminus (unbound immunoglobulin G) were found to bind to the sides of the pilus. Anti-F and anti-ColB2 pilus antibodies bound to the sides of F, ColB2, and R1-19 pili, which have only their secondary epitope in common. The carboxyl-terminal lysine of R1-19 pilin prevents the absorption of anti-F plus antiserum but not anti-ColB2 pilus antiserum to the sides of the pilus, presumably by interfering with the recognition of this secondary epitope.

Nucleotide sequence of the surface exclusion genes traS and traT from the IncF0 lac plasmid pED208

pED208 is a 90-kilobase conjugative plasmid belonging to the incompatibility group IncF0 lac. The surface exclusion system from this plasmid was cloned and sequenced, and two genes demonstrated exclusion ability. traS encoded a 186-amino-acid hydrophobic protein which, when transcribed from a vector promoter, caused exclusion of pED208. The product of traT (TraTp) was a 245-residue protein which was highly expressed independently of a vector promoter in Escherichia coli minicells. The TraTp from pED208 was homologous with traT products from the IncF plasmids R-100 and F (80% homology), but recombinants containing the pED208 surface exclusion system excluded F poorly.

Novel serine proteases encoded by two cytotoxic T lymphocyte-specific genes

Genes that are expressed exclusively in cytotoxic T cells should encode proteins that are essential for target cell lysis in cell-mediated immune responses. The sequences of two cytotoxic T lymphocyte-specific complementary DNA's (cDNA's) suggest that the two genes encode serine proteases. A full-length cDNA corresponding to one of the genes was isolated and sequenced. The predicted protein resembles serine proteases in that it includes all the residues that form the catalytic triad of the active site of serine proteases. Moreover, it has sequence characteristics thought to occur only in rat mast cell protease type II. These results are in accord with the view that a protease cascade plays a key role in cytotoxic T-cell activation.

Nucleotide sequences of the R1-19 plasmid transfer genes traM, finP, traJ, and traY and the traYZ promoter

The complete nucleotide sequences of the R1 drd-19 (R1-19) plasmid transfer genes traM, finP, traJ, and traY and the region encoding the traYZ promoter were determined. The traM protein from R1-19 was similar to the 127-amino-acid traM product from the conjugative plasmid F; only 28 residues were not identical. finP, a negative regulatory element of the traJ gene, contained a 12-base-pair inverted repeat identical to that found in the F plasmid, but differed in the 7 base pairs found between the repeats. The traJ gene and the traYZ promoter (the site of transcriptional stimulation by the traJ product) were completely different from the equivalent sequences in plasmid F. Galactokinase fusion studies of the traYZ promoter indicated that the R1-19 and F plasmids have analogous but not homologous traYZ promoter strengths and regulation. The traY protein from R1-19 was 44 residues shorter than the traY product from plasmid F, but there was some homology within the C-terminal halves of the traY gene products. The predicted translational start codon for the traY gene is GUG.

Expression of the Pseudomonas aeruginosa PAK pilin gene in Escherichia coli

Pseudomonas aeruginosa is a piliated opportunistic pathogen. We have recently reported the cloning of the structural gene for the pilus protein, pilin, from P. aeruginosa PAK (B. L. Pasloske, B. B. Finlay, and W. Paranchych, FEBS Lett. 183:408-412, 1985), and in this paper we present evidence that this chimera (pBP001) expresses P. aeruginosa PAK pilin in Escherichia coli independent of a vector promoter. The strength of the promoter for the PAK pilin gene was assayed, and the cellular location of the pilin protein within E. coli was examined. This protein was present mainly in the inner membrane fraction both with and without its six-amino-acid leader sequence, but it was not assembled into pili.

Characterization and sequence analysis of pilin from F-like plasmids

Conjugative pili are expressed by derepressed plasmids and initiate cell-to-cell contact during bacterial conjugation. They are also the site of attachment for pilus-specific phages (f1, f2, and QB). In this study, the number of pili per cell and their ability to retract in the presence of cyanide was estimated for 13 derepressed plasmids. Selected pilus types were further characterized for reactivity with anti-F and anti-ColB2 pilus antisera as well as two F pilus-specific monoclonal antibodies, one of which is specific for a sequence common to most F-like pilin types (JEL92) and one which is specific for the amino terminus of F pilin (JEL93). The pilin genes from eight of these plasmids were cloned and sequenced, and the results were compared with information on F, ColB2, and pED208 pilin. Six pilus groups were defined: I, was F-like [F, pED202(R386), ColV2-K94, and ColVBtrp]; IIA was ColB2-like in sequence but had a lowered sensitivity to f1 phage due to its decreased ability for pilus retraction [pED236(ColB2) and pED203(ColB4)]; IIB was ColB2-like but retained f1 sensitivity [pED200(R124) and pED207(R538-1)]; III contained R1-19, which had a ColB2-like amino terminus but had an additional lysine residue at its carboxy terminus which may affect its phage sensitivity pattern and its antigenicity; IV was R100-1-like [R100-1 and presumably pED241(R136) and pED204(R6)] which had a unique amino-terminal sequence combined with a carboxy terminus similar to that of F. pED208(Folac) formed group V, which was multipiliated and exhibited poor pilus retraction although it retained full sensitivity to f1 phage. The pED208 pilin gene could not be cloned at this time since it shared no homology with the pilin gene of the F plasmid.

Comparative studies of the amino acid and nucleotide sequences of pilin derived from Pseudomonas aeruginosa PAK and PAO

The entire amino acid sequence for Pseudomonas aeruginosa PAO pilin was determined through peptide sequencing and from the complete nucleotide sequence encoding the pilin gene. The precursor PAO pilin is 149 amino acids in length which includes a 6-amino-acid positively charged leader sequence. Comparison of the amino acid sequences of pilin produced by P. aeruginosa PAO and PAK reveals a region of high homology corresponding to the leader peptide and residues 1 to 54 of the mature pilin. The amino acid sequence of the peptide encompassing the major antigenic determinant of PAK differs greatly from that of the equivalent region in PAO. The C-terminal regions of these proteins are semiconserved. Few major differences were found when the predicted secondary structures for PAO and PAK pilins were compared. Major nucleotide sequence variation between the equivalent restriction fragments from PAO and PAK occurred within the areas coding for the peptides containing the immunodominant site for PAK pilin and the C termini.

Cloning and sequencing of the Pseudomonas aeruginosa PAK pilin gene

A 1.2-kilobase (kb) HindIII restriction fragment containing the pilin gene from Pseudomonas aeruginosa PAK has been cloned and sequenced. The pilin protein is 144 amino acids in length with a positively charged leader sequence of 6 amino acids. There is probably only one copy of the gene per chromosome.

Localization, cloning, and sequence determination of the conjugative plasmid ColB2 pilin gene

ColB2 is a colicin-producing, 96-kilobase plasmid which encodes a conjugative system that is similar, but not identical, to F. A restriction map of this plasmid was generated, and DNA homology studies between F and ColB2 plasmids revealed homology only between their transfer operons. The locations of the ColB2 transfer operon and ColB2 pilin gene were localized on this restriction map. The gene encoding ColB2 pilin, traA, was cloned and sequenced. The pilin protein of ColB2 is identical to F, except at the amino terminus, where ala-gln of ColB2 pilin corresponds to Ala-Gly-Ser-Ser of F pilin. This is due to a 6-base-pair deletion in the ColB2 pilin gene. Biochemical studies on tryptic peptides derived from ColB2 pilin demonstrate the location of this gene to be correct. There is a putative signal peptidase cleavage site after the sequence Ala-Met-Ala, giving a signal peptide of 51 amino acids and a mature pilin protein of 68 amino acids (7,000 daltons). The amino terminus is blocked, probably with an acetyl group. A chimera containing the ColB2 pilin gene was able to complement an F traA mutant, demonstrating that the pilus assembly proteins of F can utilize the ColB2 pilin protein to form a pilus.

Characterization of conjugative plasmid EDP208

EDP208 is a conjugative plasmid belonging to incompatibility group IncF0 lac, A restriction endonuclease map of this plasmid was constructed using five restriction enzymes: BamHI, HindIII, PvuI, SstI, and XhoI. On the basis of these mapping studies, the plasmid was found to be 90 kilobases in length. Clones were constructed from four large HindIII fragments of plasmid EDP208. One fragment, HindIII-20.5, was found to contain the lac genes and the origin of vegetative replication (oriV). Another fragment, HindIII-27.5, was found to contain all of the genes necessary for sex pilus formation, but it was nontransmissible. However, when used to complement a plasmid carrying an adjacent fragment, HindIII-23, the transfer of the latter occurred, suggesting that HindIII-23 contains the origin of transfer (oriT). The further localization of genes concerned with pilus biosynthesis was achieved by transposon mutagenesis. Six EDP208::Tn1 and thirty-seven EDP208::Tn5 mutants were isolated on the basis of their resistance to f1, a filamentous phage which adheres to intact pilus tips. The positions of the inserted transposons were determined on the restriction map and a 16.5-kilobase region was found to be required for pilus synthesis.

N-terminal amino acid sequencing of EDP208 conjugative pili

EDP208 conjugative pili contain a single polypeptide subunit of 11,500 daltons with a blocked N-terminus. This N-terminal blocking moiety was identified as an N-acetyl group by 1H nuclear magnetic resonance analysis of an N-terminal tripeptide isolated from pronase digests of EDP208 pilin. Limited acid hydrolysis of the tripeptide allowed its sequence to be determined as acetyl-NH-Thr-Asp-Leu. Trypsin digestion of EDP208 pilin resulted in the quantitative release of a fragment containing 12 residues from the N-terminus of the protein. The sequence of this dodecapeptide was determined to be acetyl-NH-Thr-Asp-Leu-Leu-Ala-Gly-Gly-Lys-Asp-Val-Asp-Lys.