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1.
Summary Small, defined in-frame deletions and in-frame duplications of specific sequences were made within the faeG gene encoding the K88ab fimbrial subunit protein from porcine enterotoxigenic Escherichia coli. The cellular localization and proteolytic stability of the different mutated fimbrial subunit proteins were determined, and compared with those of the wild-type protein. Based upon these results, we predict a functional role of specific structures in the K88ab fimbrial subunit protein in subunit-subunit interactions as well as in interactions between FaeG and the other proteins encoded by the K88ab operon. The results obtained were further compared with results obtained from operon deletions, linker insertion mutagenesis and the current model for biogenesis of K88 fimbriae. One of the mutated fimbrial subunit genes was used to construct a secreted in-frame fusion between FaeG and a characterized epitope (lacking cysteine) from the Hepatitis B pre-S2 protein. Such fusion proteins might be useful in the design of recombinant vaccines.  相似文献   

2.
The loci encoding the porcine intestinal receptors for Escherichia coli K88ab and K88ac (K88abR and K88acR) were firmly assigned to chromosome 13 by linkage analysis using a three-generation pedigree. The linear order of these loci and seven other markers on chromosome 13 was determined by multipoint analyses. The K88abR and K88acR loci were tightly linked with the K88abR locus localized 7·4 cM (sex average) proximal to the transferrin locus. The results, together with previous reports from two other groups, provide an unequivocal assignment of the K88 receptor loci to chromosome 13, and reject a previous assignment to chromosome 4. Pigs possessing the receptor had a slightly higher specific IgG response to the K88 antigen after an intramuscular immunization with an E. coli vaccine.  相似文献   

3.
Summary. Brush borders, enterocytes, or both preparations obtained from the small intestine of 345 pedigreed pigs, carrying components of seven breeds, were tested by adhesion assay in vitro with 6–32 enteropathogenic Escherichia coli strains, each expressing one of the three K88 pilus antigens, K88ab, K88ac and K88ad. With few exceptions, all pigs were classified as belonging to one of four adhesion phenotypes: I – corresponding to K88ab(-),ac(-),ad(-); II – K88ab(-),ac(+),ad(+); III – K88ab(+),ac(+),ad(-); and IV – K88ab(+),ac(+),ad(+). The non-adhering phenotype I was found to be the most frequent among the pigs tested, with the exception of one commercial herd, and this phenotype seems to be inherited as a recessive trait. The remaining three phenotypes are adhering, or are susceptible to adherence by one K88 variant, K88ad (phenotype II), by two variants, K88ab,ac (phenotype III), or by all three K88 variants, K88ab,ac,ad (phenotype IV). Phenotype II was found to be at low frequency, whereas III and IV occurred with similar frequencies. While the prevailing phenomenon was the bacterial adhesion to all, or none, of the brush borders, some pigs exhibited both adhering and non-adhering brush borders, a mixed adherence phenotype. Preliminary segregation data, obtained from the F1 generation, seem to indicate that phenotypes III and IV correspond to two haplotypes with genes at two or three closely linked loci respectively. An alternative hypothesis is that the phenotypes [II and IV are expressions of alleles at a single locus, each allele specifying a receptor able to bind two or three different serological types of K88 E. coli.  相似文献   

4.
The two K88 serotypes, K88ab and K88ac, differ in terms of antigenic and adhesive properties. The structural determinants of the serotype-specific epitopes and the identify of the amino acid residues involved in fimbriae-receptor interaction were studied by the construction and analysis of K88 hybrid proteins in which various parts of the K88ab and K88ac fimbrial subunit FaeG were exchanged, and by in vitro mutagenesis of non-conserved amino acid residues. Using a set of monoclonal antibodies, several regions or amino acid residues involved in the formation of serotype-specific antigenic determinants were located. The haemagglutinating activity of the hybrid and mutant proteins revealed several amino acid residues involved in the formation of the receptor binding site. A clear correlation was found between the receptor binding site and the serotype-specific antigenic determinants.  相似文献   

5.
Brush borders, enterocytes, or both preparations obtained from the small intestine of 345 pedigreed pigs, carrying components of seven breeds, were tested by adhesion assay in vitro with 6-32 enteropathogenic Escherichia coli strains, each expressing one of the three K88 pilus antigens, K88ab, K88ac and K88ad. With few exceptions, all pigs were classified as belonging to one of four adhesion phenotypes: I I--corresponding to K88ab(-),ac(-),ad(-); II--K88ab(-),ac(-),ad(+); III--K88ab(+),ac(+),ad(-); and IV--K88ab(+),ac(+),ad(+). The non-adhering phenotype I was found to be the most frequent among the pigs tested, with the exception of one commercial herd, and this phenotype seems to be inherited as a recessive trait. The remaining three phenotypes are adhering, or are susceptible to adherence by one K88 variant, K88ad (phenotype II), by two variants, K88ab, ac (phenotype III), or by all three K88 variants, K88ab,ac,ad (phenotype IV). Phenotype II was found to be at low frequency, whereas III and IV occurred with similar frequencies. While the prevailing phenomenon was the bacterial adhesion to all, or none, of the brush borders, some pigs exhibited both adhering and non-adhering brush borders, a mixed adherence phenotype. Preliminary segregation data, obtained from the F1 generation, seem to indicate that phenotypes III and IV correspond to two haplotypes with genes at two or three closely linked loci respectively. An alternative hypothesis is that the phenotypes III and IV are expressions of alleles at a single locus, each allele specifying a receptor able to bind two or three different serological types of K88 E. coli.  相似文献   

6.
Brush borders or enterocytes obtained from the small intestine of 248 pedigreed pigs were tested by adhesion assay in vitro with enterotoxigenic Escherichia (E.) coli strains, each expressing one of the three K88 pilus variants K88ab, K88ac and K88ad. All pigs were classified as belonging to one of the four adhesion phenotypes: I--K88ab(-), ac(-), ad(-); II--K88ab(-), ac(-), ad(+); III--K88ab(+), ac(+), ad(-); and IV--K88ab(+), ac(+), ad(+). Serum or red cells were typed for 15 blood group systems: A-O, B, C, D, E, F, G, H, I, J, K, L, M, N and O; for 11 biochemical polymorphisms: PI1, PI2, PO1A, A1BG, GPI, PGD, TF, HPX, ADA, PGM and AMY; the polymorphism at the IGHG1 locus. Linkage analysis was performed between the alleles at the locus (loci) specifying K88 receptors able to bind one or more different serological types of K88 E. coli and alleles for markers at other loci. Linkage was demonstrated between the locus for the L blood group system and the locus (loci) for K88 E. coli receptors (Z = 3.24), adding one locus (loci) to the previously identified linkage group IV (LGIV) [L-SLB]. The maximum likelihood estimate of the recombination fraction (theta) was 0.23. No evidence was found for linkage between any of the other biochemical and immunogenetic markers and the receptor locus (loci) of K88 E. coli.  相似文献   

7.
The gene encoding K88ab was localized on the 11.6 kbHindIII-HindIII fragment of 74 kb plasmid DNA ofE. coli 7301. The smallest recombinant DNA producing the K88ab antigen was obtained by excision of the 5.15 kbEcoRI-EcoRI fragment from recombinant DNA composed of the 11.6 kb K88ab fragment in the pBR322 vectro. The size of the smallest fragment was 6.5 kb. Expression of the K88ab antigen was controlled by the P1 promoter of the pBR322 vector. Substitution of promoter Ptac for promoter P1 made it possible to achieve expression of the K88ab antigen byE. coli MT. Substitution of promoter PL for promoter P1 failed to achieve expression of the K88 ab antigen in the recipient strains used.  相似文献   

8.
Summary Pig intestinal brush borders (BB) were radiolabeled by iodination using the lactoperoxidase-hydrogen peroxide procedure. The BB were then detergent solubilized, centrifuged to remove particulate material, and chromatographed on Sepharose CL-4B. The fractions were incubated with K88+ E. coli using an in vitro binding assay. Binding of the iodinated membranes to K88+ E. coli occurred throughout a wide range of molecular weight components, in excess of 690K daltons to near 25K daltons. The system utilizing intact K88+ E. coli and solubilized BB was shown to be saturable. Prior contact of K88+ E. coli with nonradiolabeled membranes or specific antibodies to K88+ pili inhibited binding of the radiolabeled BB. Simple sugars were tested for their ability to block binding of the labeled BB; partial inhibition occurred with galactose (17.9%), galactosamine (32%), glucose (10.6%), and N-acetylglucosamine (32%). Calcium enhanced binding with as little as 10 M. A 10 × increase in binding occurred with 500 M calcium. Affinity chromatography using K88+ pili coupled on agarose beads avidly bound the labeled BB. The receptor membranes were eluted with high molar concentrations of salt, however considerable degradation occurred. Despite low yields from the affinity system, receptor membranes with higher binding activities were recovered. Protein: glycoprotein ratios were 1:4. Elution with SDS and electrophoresis on 12.5% polyacrylamide gels in the presence of a reducing agent produced two major subunits 35–32K and 23K daltons. These components were recovered from the gels and retained their binding activity. This information suggests that the intestinal receptor responsible for binding of K88+ E. coli is a glycoprotein, that in the native state exists in multimeric forms.  相似文献   

9.
Fimbriae isolation by means of thermal shock was applied to fifteen K88-positive (three K88ab, nine K88ac and three K88ad) Escherichia coli reference strains belonging to serotypes O8:K87, O32, O45, O138:K81, O141:K85, O147:K89, O149:K91, and O157, as well as to ten K88-positive enterotoxigenic strains isolated from porcine diarrhea in Spain, all of them belonging to the O149 serogroup. Fimbriae were removed from the bacterial cells by thermal shock at 60 C and then precipitated using ammonium sulfate. The final amount of K88 antigen and the purification degree were not related to the serogroup of the bacteria or to the antigen variant but were related to the buffer used for isolation. Phosphate buffer containing urea was shown to be more effective than Tris-HCl for isolation of K88 antigen. The molecular weights by SDS-PAGE for K88ab, K88ac, and K88ad were 28.5, 29.2, and 31.0 kDa, respectively. All enterotoxigenic E. coli strains isolated in Spain showed the K88ac variant.  相似文献   

10.
Determining the structure of the intestinal receptor for enterotoxigenic Escherichia coli (ETEC) K88 fimbriae will make it possible to develop new strategies to prevent K88+ ETEC-induced disease in pigs. Putative K88 adhesin receptors have been identified in both intestinal brush border and mucus preparations as either glycoproteins or glycolipids. Proteins with sizes of 25, 35, 40–42, 60, and 80 kDa in the intestinal mucus and 16, 23, 35, 40–70, 74, 210, and 240 kDa in brush border membranes were reported to bind specifically to K88ab and K88ac fimbriae. The factors accounting for these variable results may include the variants of K88, ages, breeds, and phenotypes of pigs, and even the sampling sites in the small intestine. Of the reported K88 receptors, only three brush border receptors, i.e., a pair of mucin-type sialoglycoproteins (210 kDa or 240 kDa), an intestinal neutral glycosphingolipid (IGLad), and a 74-kDa transferrin glycoprotein (GP74), have fulfilled the criteria as phenotype-specific K88 fimbrial receptors. Inhibiting the attachment of ETEC to intestine by modifying the receptor attachment sites has been the key for developing novel approaches to preventing ETEC-induced diarrhea in pigs. These include: (1) receptor analogs from a variety of biological sources, (2) an enteric protected protease, (3) chicken egg-yolk containing anti-K88 fimbrial antibodies, and (4) some Lactobacillus isolates producing proteinaceous components or carbohydrates interacting with mucus components. Future studies should be directed to further characterize the carbohydrate and protein moieties of receptors recognized by the K88 adhesin variants and to identify the genes responsible for susceptibility to K88+ infections. Received: 29 February 2000 / Received revision: 4 May 2000 / Accepted: 5 May 2000  相似文献   

11.
Segregation at the loci coding for the K88ab and K88ac small intestinal receptors to E. coli adhesins (K88abR, K88acR) and at the transferrin (TF) locus was studied in 38 pig families including 273 piglets. The TF locus showed a segregation deviation towards the B variant while each of the K88 receptors behaved as a single autosomal dominant gene. Recombinants between K88abR and K88acR provide evidence that they are under the control of two different loci. Thirty-two triple backcross families were selected to test linkage and estimate recombination rates (θ). Our results demonstrate that the two K88 receptor loci are closely linked (θ= 0.02) with a maximum lod score value (Zm) of 46.0. In addition, they are linked to the TF locus, θ= 0.14, Zm= 19.6 for the K88abR locus and θ= 0.16, Zm= 17.9 for the K88acR locus. The estimated recombination rates, smaller in males than in females, are consistent with the order TF-K88abR-K88acR. This linkage thus localizes the K88 loci, as the TF locus, on chromosome 13.  相似文献   

12.
Primers were designed and prepared and conditions were determined for PCR detection and differentiation of enterotoxigenic E. coli bacterial strains isolated from diarrheic pigs. Primers K88/1 and K88/2 are 25 bp oligomers that correspond to a region of genes encoding one of serological variants of the K88 antigen (K88ab(1), K88ab(2), K88ac or K88ad). A positive result of PCR is an amplificate of 792 bp in size for K88ab and K88ad variant or 786 bp for K88ac variant. The individual serological variants of genes of the K88 antigen could be differentiated by cutting the obtained PCR amplificates by restriction endonucleases. The PCR analysis of 674 E. coli strains isolated from diarrheic pigs showed that 184 strains were K88 positive. By using restriction endonucleases the K88-positive strains were in 4 cases classified as K88ab variant, 180 as K88ac variant and none contained gene for the K88ad variant. Ninety-five % coincidence with serological examination using K88ab, K88ac and K88ad specific antibodies was shown.  相似文献   

13.
Plasmid pFM205 contains the genetic determinant for the K88ab antigen and is composed of a 4.3-megadalton DNA fragment derived from wild-type K88ab plasmid pRI8801 and cloning vehicle pBR322. The K88 NA of pFM205 contains five genes, which code for polypeptides with apparent molecular weights of 17,000, 26,000 (the K88ab subunit), 27,000 27,500, and 81,000. All five polypeptides were synthesized as precursors approximately 2,000 daltons larger than the mature polypeptides, indicating that they are transported across the cytoplasmic membrane by means of a signal sequence. A set of deletion derivatives of pFM205 was constructed, each containing a deletion in one of the five genes. In strains harboring derivatives of pFM205 containing a deletion in the gene for the 17,000- or 81,000-dalton polypeptide, the K88ab subunit was synthesized and transported to the outside of the cell. However, these strains did not adhere to brushborders or guinea pig erythrocytes, suggesting that the K88ab subunits were not assembled into normal fimbriae. Strains harboring plasmids containing a deletion in the gene for the 27,500-dalton polypeptide still adhered to brush borders and guinea pig erythrocytes, although very little K88ab antigen could be detected with an immunological assay. In strains harboring plasmids containing a deletion in the gene for the 27,000-dalton polypeptide, the K88ab subunit was synthesized but was probably subsequently degraded rapidly.  相似文献   

14.
抗大肠埃希氏菌K88ab,K88ac和K88ad特异单克隆抗体   总被引:6,自引:0,他引:6  
李毅  刘秀梵 《微生物学报》1989,29(5):348-353
A panel of twelve hybridoma cell lines, secreting specific antibodies to K88 adhesin antigens of enterotoxigenic Escherichia coli (ETEC) were established from eight separate fusions between mouse myeloma cell line Sp 2/0-Ag-14 and spleen cells from mice immunized with purified K88 antigens. Among the 12 monoclonal antibodies (MCA), K-A, K-35, K-11, and K-15 were K88a specific and reacted with all K88 adhesin bearing Escherichia coli strains tested, whatever K88ab, K88ac or K88ad they might be, as shown either in enzyme-linked immunosorbent assay (ELISA) or in direct agglutination test, whereas K32, K-4, and K-3 were specific for G88ab, K88ac, and K88ad respectively. The antigen patterns of 33 K88 bearing Escherichia coli strains covering 3 serotypes of K88ab, K88ac, and K88ad were analyzed by the use of these MCAs. The preliminary results showed that all Escherichia strains with the same serotype of K88 antigen shared at least one common type-specific antigenic determinant, that K88ad and K88ac strains enjoyed one common antigenic determinant that did not exist on K88ab strains, and that there were a few K88 antigenic determinants that appeared only on limited Escherichia coli strains of the same K88 serotype.  相似文献   

15.
In gram-negative bacteria only few proteins are exported across both the cytoplasmic membrane and the outer membrane which forms an extra barrier for protein excretion. In this review we describe the mechanisms of production and export of two types of plasmid-encoded proteins inEscherichia coli. These proteins are the bacteriocin cloacin DF13 and the K88ab and K99 fimbrial subunits. Specific so-called helper proteins located at different positions in the cell envelope play an essential role in the export of these proteins. The genetic organization, subcellular location and functions of these helper proteins, as well as the effects of mutations and culture conditions on the export of the proteins are described. Models for the export mechanisms are presented and future application possibilities for engineering foreign protein excretion inE. coli with these export systems are discussed.  相似文献   

16.
Summary Exometabolites (EXOM) of an Indian strain of Leishmania donovani promastigotes isolated from a chemically defined medium by ultrafiltration consisted of proteins, glycoproteins, lipid and lipophosphopolysaccharide (LPPS). LPPS of Mr 40-28 kDa in SDS-PAGE could be labelled metabolically with [32P]-phosphate and recovered in the aqueous phase of hot-phenol-water extraction of EXOM (PE-Aq) along with a glycoprotein of Mr 150-130 kDa (GP150-130) . These two molecules could be eluted from DE-52 column with 200 mM NaCI (D2). The 300 mM NaCl (D3) and 400 mM NaCl (D4) eluates from DE-52 column contained one unsaturated polar lipid component. The LPPS had Rf value of 0.65–0.75 in Thin Layer Chromatography (TLC) using saturated phenol water solvent system. EXOM revealed 15 bands in SDS-PAGE of which proteins of Mr 84, 66, 56, 50 and 29 kDa were prominent. When EXOM were fractionated through Con A — Sepharose column, the fraction eluted with -methyl-D-mannoside (Con A-E) had seven bands as revealed by SDS-PAGE of which 25, 16, 13 and 12 kDa glycoproteins were prominent.The antigens present in EXOM can be classified as slower anodic migrating and faster anodic migrating antigens as revealed by immunoelectrophoresis (IEP). The slower anodic migrating antigens, LPPS and GP150-130 recovered in PE-Aq and D2 did not cross-react with kala- azar patients' sera but cross-reacted with homologous anti-promastigote sera. Two faster anodic migrating antigens which could be recovered in organic phase of hot phenol extraction of EXOM (PE-O) and eluted in D3 and D4 and Con A-E, cross-reacted with kala-azar patients' sera. The antigens of both the classes were sensitive to periodic acid oxidation.  相似文献   

17.
A cyanogen bromide fragment derived from the K88ab adhesin inhibited the hemagglutinating activity of K88 fibrillae. Smaller fragments which inhibited the adherence of K88 fibrillae to erythrocytes or to intestinal epithelial cells were obtained by digestion of K88ab fibrillae with alpha-chymotrypsin. Active peptides were isolated from the digestion mixture and identified as Ser-Leu-Phe and Ala-Ile-Phe. Both tripeptides correspond to the peptide stretches Ser-148-Leu-Phe-150 and Ala-156-Ile-Phe-158, respectively, which are part of conserved regions in the primary structure of the K88 variants ab, ac, and ad. The isolated tripeptides inhibited the hemagglutinating activity of purified K88 fibrillae in the 1 to 5 microM range, while adherence of the fibrillae to intestinal epithelial cell brush borders was inhibited in the 10 to 50 microM range. Furthermore, the tripeptides were capable of eluting attached bacteria from agglutinated erythrocytes. The inhibitory activity of the isolated peptides was confirmed by testing various synthetic peptides for their ability to inhibit the interaction of the different K88 variants with various species of erythrocytes. The significance of these findings for the localization of the receptor-binding domain is discussed.  相似文献   

18.
The K88ab adhesin operon of Escherichia coli encodes for a fimbrial protein (the K88ab adhesin) which is involved in colonization of the porcine intestine. We characterized a structural gene (gene A) which is part of the K88ab adhesin operon and codes for an as yet unidentified polypeptide (pA). A mutation in gene A resulted in accumulation of K88ab adhesin subunits inside the cell. The nucleotide sequence of gene A was determined, and the deduced amino acid sequence suggested that pA is synthesized as a precursor containing a typical N-terminal signal peptide. The molecular weight of pA was calculated to be ca. 17,600. Gene A is preceded by a sequence showing homology with the consensus promoter. Fimbrial subunits from a number of E. coli strains have significant homology at their N- and C-termini. pA also contained some of these conserved sequences and showed a number of other similarities with fimbrial subunits. Therefore, it seems likely that the K88ab adhesin operon codes for a fimbrial subunit (pA) distinct from the K88ab adhesin subunit.  相似文献   

19.
An aqueous two-phase system containing 7% Dextran T 500-5% polyethylene glycol (PEG) 6000 has been adopted for rapid selective stepwise extractions of high-mobility-group proteins and histones from both isolated chromatin and intact nuclei of calf thymus. After the dissociated proteins in the PEG phase were precipitated with 20% trichloroacetic acid at 4 degrees C, proteins were recovered from this phase by solubilization of PEG with acidified acetone at room temperature. This method allows preparation of nuclei depleted of histone H1.  相似文献   

20.
蒋隽  施启顺  柳小春  黄生强  贺长青 《遗传》2004,26(2):160-162
采用13号染色体上与K88ab和K88ac受体基因连锁的2对引物(S0223和S0068),研究沙子岭猪和大约克猪的遗传差异性。结果表明,2个猪种在2个基因座均存在多态性,其基因杂合度和Shannon信息指数存在很大差异,而中外猪种的K88ab和K88ac受体基因也存在遗传差异,这2对引物可望作为K88ab和K88ac受体基因的遗传标记。Abstract: The genetic variation of ETEC F4 receptor in Shaziling and Yorkshire breeds were studied using two microsatellite markers(S0223 and S0068). The results showed that there were polymorphisms in the two markers, and there were great variations of the gene heterozygosity and Shannon information index in the two breeds. It was also reported that there were differences in K88ab and K88ac receptors in Chinese native breeds and foreign breeds, so the two markers might be the genetic markers of F4 receptor gene.  相似文献   

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