Nucleotide sequences of the genes encoding type 1 fimbrial subunits of Klebsiella pneumoniae and Salmonella typhimurium.

The nucleotide sequences of the genes encoding the subunits of Klebsiella pneumoniae and Salmonella typhimurium type 1 fimbriae were determined. Comparison of the predicted amino acid sequences of the two subunits revealed domains in which the sequences were highly conserved. Both gene products possessed signal peptides, a fact consistent with the transport of the fimbrial subunit across the membrane, but these regions showed no amino acid homology between the two proteins. The predicted N-terminal amino acid sequences of the processed fimbrial subunits were in good agreement with those obtained by purification of the fimbrial subunits.     

Identification and characterization of the genes encoding the type 3 and type 1 fimbrial adhesins of Klebsiella pneumoniae.

Strains of Klebsiella pneumoniae are known to express two morphologically and functionally distinct filaments, the type 3 and the type 1 fimbriae. The gene (mrkD) encoding the adhesion of K. pneumoniae type 3 fimbriae was identified by transcomplementation analysis with the pap fimbrial gene cluster of Escherichia coli. The nucleotide sequence of the mrkD gene was determined. In addition, the determinant coding for the K. pneumoniae type 1 fimbrial adhesion was identified, and its nucleotide sequence was deduced. The predicted amino acid sequences of the K. pneumoniae adhesion proteins are compared, and similarities with the major fimbrial structural proteins (MrkA and FimA) are discussed.     

Type 1C fimbriae of a uropathogenic Escherichia coli strain: cloning and characterization of the genes involved in the expression of the 1C antigen and nucleotide sequence of the subunit gene

The genes responsible for expression of type 1C fimbriae have been cloned from the uropathogenic Escherichia coli strain AD110 in the plasmid vector pACYC184. Analysis of deletion mutants from these plasmids showed that a 7-kb DNA fragment was required for biosynthesis of 1C fimbriae. Further analysis of this DNA fragment showed that four genes are present encoding proteins of 16, 18.5, 21 and 89 kDal. A DNA fragment encoding the 16-kDal fimbrial subunit has been cloned. The nucleotide sequence of the structural gene and of the C- and N-terminal flanking regions was determined. The structural gene codes for a polypeptide of 181 amino acids, including a 24-residue N-terminal signal sequence. The nucleotide sequence and the deduced amino acid sequence of the 1C subunit gene were compared with the sequences of the fimA gene, encoding the type 1 fimbrial subunit of E. coli K-12. The data show absolute homology at the N- and C-termini; there is less, but significant homology in the region between the N- and C-termini. Comparison of the amino acid compositions of the 1C and FimA subunit proteins with those of the F72 and PapA proteins (subunits for P-fimbriae) revealed that homology between these two sets of fimbrial subunits is also maximal at the N- and C-termini.     

Cloning and nucleotide sequence analysis of the serotype 2 fimbrial subunit gene of Bordetella pertussis

An oligonucleotide probe complementary to the beginning of the gene encoding the serotype 2(ST2) fimbrial subunit of Bordetella pertussis was synthesized and a cloned DNA fragment hybridizing with the probe identified and sequenced. Several lines of evidence indicate that an open reading frame with coding information for a polypeptide of 207 amino acids, including a 26-amino-acid signal sequence, is the ST2 gene. The protein deduced from the nucleotide sequence shows good agreement with the NH2-terminal amino acid sequence, amino acid composition and molecular weight of the purified fimbrial subunit. In addition, the proposed ST2 subunit is shown to have homology with other fimbrial subunits.     

Cloning and expression in Escherichia coli of Haemophilus influenzae fimbrial genes establishes adherence to oropharyngeal epithelial cells.

In this report the first example of functional expression of a fimbrial gene cluster of a non-enteric human pathogen in Escherichia coli is described. This is shown for Haemophilus influenzae fimbriae which mediate adherence to oropharyngeal epithelial cells. A genomic library of H.influenzae type b, strain 770235f+bo, was constructed using a cosmid vector and screened with a synthetic oligonucleotide probe derived from the N-terminal sequence of the fimbrial subunit of H.influenzae. Four cosmid clones were found which hybridized to this oligonucleotide probe. Escherichia coli strains harbouring these clones expressed the H.influenzae fimbriae at their cell surface, as was demonstrated in a whole-cell ELISA and by immunogold electron microscopy using a monoclonal antibody specific for the H.influenzae fimbriae. Surface expression could be maintained during subcloning until a minimal H.influenzae DNA insert of approximately 8.1 kb was obtained. Escherichia coli strains harbouring the 8.1 kb H. influenzae DNA were able to cause a mannose-resistant adherence to oropharyngeal epithelial cells and a mannose-resistant haemagglutination of human AnWj-positive erythrocytes. The nucleotide sequence of hifA, the gene encoding the major fimbrial subunit, was determined. The predicted amino acid sequence shows a significant homology with a number of E.coli fimbrial subunits.     

Nucleotide sequence of the gene encoding the F72 fimbrial subunit of a uropathogenic Escherichia coli strain

The cloned DNA fragment encoding the F72 fimbrial subunit from the uropathogenic Escherichia coli strain AD110 has been identified. The nucleotide sequence of the structural gene and of 196 bp of the noncoding region preceding the gene was determined. The structural gene codes for a polypeptide of 188 amino acid residues, including a 21-residue N-terminal signal sequence. The nucleotide sequence and the deduced amino acid sequence of the F72 gene were compared with the reported sequences of the papA gene (B?ga et al., 1984). Both genes code for subunits of fimbriae that are involved in mannose-resistant hemagglutination (MRHA) of human erythrocytes. The available data show that there is absolute homology between the noncoding regions preceding both genes over 129 bp. The two proteins are homologous at the N terminus and C terminus; there is less, but significant, homology in the region between the N and C termini.     

The nucleotide sequence of the gene encoding the K99 subunit of enterotoxigenic Escherichia coli

Abstract The nucleotide sequence of the gene encoding the K99 fimbrial subunit of enterotoxigenic Escherichia coli was determined. It appeared that the subunit is composed of 159 amino acid residues preceded by a N-terminal signal sequence of 22 amino acid residues. The secondary structure of the mature K99 polypeptide and the location of potential antigenic determinants were predicted. A comparison was made between the amino acid sequence of the K99 subunit and the subunits of other fimbrial adhesins.     

Proteus mirabilis MR/P fimbriae: molecular cloning, expression, and nucleotide sequence of the major fimbrial subunit gene.

Proteus mirabilis, a cause of serious urinary tract infection and acute pyelonephritis, produces several putative virulence determinants, among them, fimbriae. Principally, two fimbrial types are produced by this species: mannose-resistant/Proteus-like (MR/P) fimbriae and mannose-resistant/Klebsiella-like (MR/K) fimbriae. To isolate MR/P fimbrial gene sequences, a P. mirabilis cosmid library was screened by immunoblotting and by hybridization with an oligonucleotide probe based on the N-terminal amino acid sequence of the isolated fimbrial polypeptide, ADQGHGTVKFVGSIIDAPCS. One clone, pMRP101, reacted strongly with a monoclonal antibody specific for MR/P fimbriae and with the DNA probe. This clone hemagglutinated both tannic acid-treated and untreated chicken erythrocytes with or without 50 mM D-mannose and was shown to be fimbriated by transmission electron microscopy. A 525-bp open reading frame, designated mrpA, predicted a 175-amino-acid polypeptide including a 23-amino-acid hydrophobic leader peptide. The unprocessed and processed polypeptides are predicted to be 17,909 and 15,689 Da, respectively. The N-terminal amino acid sequence of the processed fimbrial subunit exactly matched amino acid residues 24 to 43 predicted by the mrpA nucleotide sequence. The MrpA polypeptide shares 57% amino acid sequence identity with SmfA, the major fimbrial subunit of Serratia marcescens mannose-resistant fimbriae.     

Analysis of the first two genes of the CS1 fimbrial operon in human enterotoxigenic Escherichia coli of serotype 0139: H28

An oligonucleotide, derived from the N-terminal amino acid sequence of the CS1 fimbrial subunit protein was used to identify the subunit gene on recombinant plasmid pDEP23 containing the structural genes of the CS1 fimbrial operon. The nucleotide sequence of the subunit gene (csoA), encoding a protein of 171 amino acids, was determined. Flanking it upstream, a gene (csoB) encoding a protein of 238 amino acids was found. The CsoB and CsoA proteins are homologous to the CfaA and CfaB proteins in the CFA/I fimbrial operon. For all the CS1 producing strains investigated the structural genes are located on plasmids. Like CFA/I fimbriae, CS1 fimbriae are only expressed in the presence of a positive regulator, CfaD for CFA/I and Rns for CS1, respectively. The promoter region upstream of the csoB gene was cloned in front of the promoterless alkaline phosphatase (phoA) gene of the promoter-probe vector pCB267. PhoA activity was enhanced approximately two-fold by the introduction of compatible plasmids containing either rns or cfaD.     

Sequence homology between the subunits of two immunologically and functionally distinct types of fimbriae of Actinomyces spp.

Nucleotide sequencing of the type 1 fimbrial subunit gene of Actinomyces viscosus T14V revealed a consensus ribosome-binding site followed by an open reading frame of 1,599 nucleotides. The encoded protein of 533 amino acids (Mr = 56,899) was predominantly hydrophilic except for an amino-terminal signal peptide and a carboxy-terminal region identified as a potential membrane-spanning segment. Edman degradation of the cloned protein expressed in Escherichia coli and the type 1 fimbriae of A. viscosus T14V showed that both began with alanine at position 31 of the deduced amino acid sequence. The amino acid compositions of the cloned protein and fimbriae also were comparable and in close agreement with the composition of the deduced protein. The amino acid sequence of the A. viscosus T14V type 1 fimbrial subunit showed no significant global homology with various other proteins, including the pilins of gram-negative bacteria. However, 34% amino acid sequence identity was noted between the type 1 fimbrial subunit of strain T14V and the type 2 fimbrial subunit of Actinomyces naeslundii WVU45 (M. K. Yeung and J. O. Cisar, J. Bacteriol. 170:3803-3809, 1988). This homology included several different conserved sequences of up to eight identical amino acids that were distributed in both the amino- and carboxy-terminal thirds of each Actinomyces fimbrial subunit. These findings indicate that the different types of fimbriae on these gram-positive bacteria share a common ancestry.     

Cloning of a novel pilin-like gene from Bordetella pertussis: homology to the fim2 gene

A search for pilin genes in a Bordetella pertussis (Bp) genomic library has led to the identification of several clones which hybridize to synthetic oligonucleotides with sequences derived from amino acid sequences of Bp fimbrial subunits. One of these clones (corresponding to a gene we have named fimX) contains an open reading frame encoding a protein with a molecular weight of about 20 kD and a sequence similar but not identical to the fimbrial subunit fim2 and to other fimbrial protein sequences. In this communication we present the cloning and nucleotide sequence of the fimX gene and its homology to the fim2 gene. A genomic analysis on the positional relationship between the two genes is also presented.     

The fimA gene encoding the type-1 fimbrial subunit of Escherichia coli. Nucleotide sequence and primary structure of the protein

The nucleotide sequence was determined of a region of 1450 base pairs encompassing the fimA gene for the subunit of type 1 fimbriae of Escherichia coli as well as flanking regions containing potential regulator sequences. The 'translated' protein contains a 23-residue signal peptide; the processed fimbrial subunit consists of 158 amino acid residues yielding a relative molecular mass of 15706. The elucidated sequence shows significant homology with those of other E. coli fimbrial proteins.     

Nucleotide sequence and functions of mrk determinants necessary for expression of type 3 fimbriae in Klebsiella pneumoniae.

The nucleotide sequence of six genes involved in the expression of type 3 fimbriae of Klebsiella pneumoniae was determined. In addition to the genes that encode the fimbrial subunit (mrkA) and adhesion (mrkD), the mrkB, mrkC, and mrkE genes appear to be involved in assembly of the fimbrial filament and regulation of type 3 fimbrial expression. The mrkF gene product is required to maintain the stability of the fimbrial filament on the cell surface.     

Structure and function of peripiasmic chaperone-like proteins involved in the biosynthesis of K88 and K99 fimbriae in enterotoxigenic Escherichia coli

The nucleotide sequence of faeE and fanE, two genes involved in the biosynthesis of K88 and K99 fimbriae, respectively, was determined and the amino acid sequence of the FaeE and FanE proteins was deduced. Immunoblotting of subcellular fractions with an antiserum raised against purified FaeE confirmed that FaeE is located in the periplasm. Indications were obtained that FaeE functions as a chaperone-like protein. Its interaction with the fimbrial subunit (FaeG) in the periplasm stabilized this polypeptide and prevents its degradation by the cell-envelope protease DegP. Furthermore, FaeE prevents the formation of FaeG multimers which cannot be incorporated into fimbriae. The reactions of the FaeE/FaeG dimers with a set of monoclonal antibodies directed against the various epitopes present on K88 fimbriae revealed that the fimbrial subunits associated with FaeE were present in a conformation resembling their native configuration. Indications about the domains in FaeG involved in the interaction with FaeE are discussed.     

Identification of minor fimbrial subunits involved in biosynthesis of K88 fimbriae.

The nucleotide sequences of the genes faeF, faeH, faeI, and faeJ encoding K88 minor fimbrial subunits were determined. Analysis of the primary structure of the gene products revealed that all four proteins are synthesized with an amino-terminal signal sequence. The molecular masses of the mature FaeF, FaeH, FaeI, and FaeJ proteins were calculated to be 15,161, 25,461, 24,804, and 25,093 Da, respectively. FaeH, FaeI, and FaeJ showed significant homology with FaeG, the major fimbrial subunit of K88 fimbriae. Mutations in the respective genes were constructed. Analysis of the mutants showed that the minor fimbrial subunits FaeF and FaeH play an essential role in the biogenesis but not in the adhesive properties of the K88 fimbriae. Mutations in faeI or faeJ had no significant effect on K88 production or adhesive capacity. Specific antisera against FaeF and FaeH were raised by immunization with hybrid Cro-LacZ-FaeF and Cro-LacZ-FaeH proteins. Immunoblotting and immunoelectron microscopy revealed that FaeF and FaeH are located in or along the K88 fimbrial structure.     

Proteus mirabilis MR/P fimbrial operon: genetic organization, nucleotide sequence, and conditions for expression.

Proteus mirabilis, an agent of urinary tract infection, expresses at least four fimbrial types. Among these are the MR/P (mannose-resistant/Proteus-like) fimbriae. MrpA, the structural subunit, is optimally expressed at 37 degrees C in Luria broth cultured statically for 48 h by each of seven strains examined. Genes encoding this fimbria were isolated, and the complete nucleotide sequence was determined. The mrp gene cluster encoded by 7,293 bp predicts eight polypeptides: MrpI (22,133 Da), MrpA (17,909 Da), MrpB (19,632 Da), MrpC (96,823 Da), MrpD (27,886 Da), MrpE (19,470 Da), MrpF (17,363 Da), and MrpG (13,169 Da). mrpI is upstream of the gene encoding the major structural subunit gene mrpA and is transcribed in the direction opposite to that of the rest of the operon. All predicted polypeptides share > or = 25% amino acid identity with at least one other enteric fimbrial gene product encoded by the pap, fim, smf, fan, or mrk gene clusters.     

Cloning and sequencing of the gene encoding Vibrio cholerae O1 fimbrial subunit (fimbrillin)

Abstract The gene encoding an 18 kDa fimbrial subunit of Vibrio cholerae O1 was identified in a fimbriate strain Bgd17. Mixed oligoprimers were prepared based on the amino acid sequence of the N-terminus and that from a cyanogen bromide-cleaved fragment of the fimbrillin. A PCR-amplified 185 bp DNA fragment was sequenced. This 185 bp fragment was further extended to 540 bp to 3' and 5' termini by RNA-PCR using a primer containing a random hexamer at its 3' end. This fragment did not contain the stop codons. It was further extended by a gene walking method using Eco RI cassette and its primers. Finally a 660 bp fragment was obtained and sequenced. This fragment contained the complete open reading frame of the structural subunit of the fimbriae, composed of 169 amino acids with a molecular mass of 17435.65 and a leader sequence of 6 or 9 amino acids. The deduced amino acid sequence of the polypeptide encoded by the gene, designated fim A, displayed a highly conserved sequence of MKXXXGFTLI EL of type 4 fimbriae.     

Purification and characterization of thin, aggregative fimbriae from Salmonella enteritidis.

Novel fimbriae were isolated and purified from the human enteropathogen Salmonella enteritidis 27655. These fimbriae were thin (measuring 3 to 4 nm in diameter), were extremely aggregative, and remained cell associated despite attempts to separate them from blended cells by centrifugation. The thin fimbriae were not solubilized in 5 M NaOH or in boiling 0.5% deoxycholate, 8 M urea, or 1 to 2% sodium dodecyl sulfate (SDS) with or without 5% beta-mercaptoethanol. Therefore, an unconventional purification procedure based on the removal of contaminating cell macromolecules in sonicated cell extracts by enzymatic digestion and preparative SDS-polyacrylamide gel electrophoresis (PAGE) was used. The insoluble fimbriae recovered from the well of the gel required depolymerization in formic acid prior to analysis by SDS-PAGE. Acid depolymerization revealed that the fimbriae were composed of fimbrin subunits, each with an apparent molecular mass of 17 kDa. Although their biochemical characteristics and amino acid composition were typical of fimbriae in general, these thin fimbriae were clearly distinct from other previously characterized fimbriae. Moreover, their fimbrin subunits had a unique N-terminal amino acid sequence. Native fimbriae on whole cells were specifically labeled with immune serum raised to the purified fimbriae. This immune serum also reacted with the denatured 17-kDa fimbrin protein in Western blots. The polyclonal immune serum did not cross-react with the other two native fimbrial types produced by this strain or with their respective fimbrins on Western blots (immunoblots). Therefore, these fimbriae represent the third fimbrial type produced by the enteropathogen S. enteritidis.