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We report that the streptococcal resistance transposon, Tn916, is conjugally transferred to Clostridium tetani (Utrecht) in intergenic matings. Streptococcus faecalis CG180, harboring a 41-kb plasmid (pAM180) containing Tn916 (15 kb), transferred the transposon-associated tetracycline resistance (Tcr) to C. tetani in filter matings at a frequency of about 10(-4)/donor. An erythromycin resistance marker carried by pAM180 was not transferred, indicating lack of plasmid conjugation or stable inheritance of plasmid sequences. DNA extracted from C. tetani transconjugants was probed with radiolabeled Tn916 using Southern blot analysis and these results indicated that the transposon integrated at multiple host genomic sites. Tn916-carrying C. tetani strains were able to transfer Tcr to suitable recipient strains of C. tetani as well as to S. faecalis recipients. These results indicate that this transposon is able to be disseminated and expressed in obligately anaerobic gram-positive bacteria. Moreover, this system opens avenues for the implementation of transposon mutagenesis in this important pathogenic species.

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Of the nine antigenic determinants on the glycoprotein (G) of the New Jersey serotype of vesicular stomatitis virus (VSV) identified by competitive binding of 25 monoclonal antibodies (MAbs), those relegated to epitopes I, II, III, and IV exhibited no significant ability to neutralize virus infectivity but some nonneutralizing MAbs cross-reacted by ELISA with the G protein of VSV-Indiana. High-titered neutralization of homotypic virus was exhibited by epitope V, VI, and VII MAbs but quite variable neutralizing activity was found among MAbs of epitope "family" VIII and particularly the heterogeneous epitope "family" IX. Peptide mapping of the epitopes was not feasible because most MAbs would not bind by Western blotting to G protein under standard conditions of proteolysis or disulfide bond reduction. Therefore, a technique was devised for roughly locating epitopes by protease footprinting of G protein partially protected by individual MAbs complexed with staphylococcal protein A-Sepharose beads. Under these conditions, MAbs to all nine epitopes protected a similar 12-kDa fragment of the G protein from proteolysis by Staphylococcus aureus V8 protease. N-Terminal amino acid sequencing mapped two of these 12-kDa peptide footprints to a position on the G protein extending from amino acid 219 to about 100 amino acids downstream. Although MAbs to only one epitope bound to the 12-kDa fragment by Western blotting, these data suggest, but do not prove, that all nine epitopes of the undenatured VSV-New Jersey G protein are clustered at the middle 20% of a highly structured protein. This method may help to identify the general regions for epitopes on complex proteins of as yet unknown three-dimensional structure.

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Twenty-nine independent hybridomas producing monoclonal antibodies to the matrix (M) protein of vesicular stomatitis virus (Indiana serotype) were prepared by fusion of SP2/0 myeloma cells with spleen lymphocytes obtained from BALB/c mice which had been immunized with the purified M protein. The specific reactivity of each monoclonal antibody was determined by an enzyme-linked immunosorbent assay and a competitive binding assay. Most of the antibodies were of the immunoglobulin G2a and G2b isotypes, although some were immunoglobulin M. By measuring the competitive binding of 125I-antibody, we identified four antigenic determinants in the M protein of the virus; two of these determinants, however, exhibited a large degree of overlap. Western blot analysis revealed little or no cross-reactivity of the antibodies with other viral proteins or with the M protein of the New Jersey serotype. Prolonged trypsin proteolysis removed the first 43 amino acids from the amino-terminal region of the M protein, but it retained its reactivity with monoclonal antibodies to each epitope, except for diminished reactivity with one. To aid in future mapping of these epitopes, we inserted a cDNA clone of the mRNA encoding the M protein of vesicular stomatitis virus into an inducible lac expression vector; the M protein produced in the JM103 strain of Escherichia coli under induced conditions was found to be approximately the same size as native M protein and was recognized by the monoclonal antibodies. These monoclonal antibodies and the cDNA clone should be useful for studying the role of M protein in virus maturation and the regulation of viral transcription.

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Fifty-seven hybridomas producing antibodies to tetanus toxoid or to the Ibc or B-IIb fragment of the toxin were isolated independently. Competitive inhibition studies demonstrated that monoclonal antibodies from mice immunized with the toxoid bound to at least 20 different epitopes on the toxoid molecule. Similar competitive binding studies revealed eight distinct epitopes on the B-IIb fragment and three to five epitopes on the Ibc fragment of the toxin. Neutralization of toxicity was effected by nine distinct monoclonal antibodies from hybridomas of toxoid-immunized mice and by one monoclonal antibody from B-IIb-immunized mice. Mixtures of two, three, and four different monoclonal antibodies in a variety of combinations exerted a synergistic effect of ca. 200-fold over that observed with individual monoclonal antibodies, indicating that efficient neutralization may involve the simultaneous binding of at least two antibody molecules to different specific regions of the toxin molecule. Only one toxoid-induced monoclonal antibody failed to bind to tetanus toxin. All neutralizing antibodies bound to epitopes on the heavy chain of tetanus toxin. Six of these were directed toward epitopes on the NH2-terminal half, whereas four bound to epitopes on the carboxy-terminal half of the heavy chain. Only one monoclonal antibody bound preferentially to the light chain, but two other monoclonal antibodies appeared to bind to both chains, indicating some homology between these two chains.

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Nineteen independently isolated hybridomas producing monoclonal antibodies to the glycoprotein of vesicular stomatitis virus were isolated and studied for their capacity to neutralize viral infectivity. By measuring competitive binding of 125I-labeled monoclonal antibodies in a radioimmunoassay. 11 different, non-cross-reacting antigenic determinants were identified on the vesicular stomatitis virus G protein. All monoclonal antibodies reacting with determinants 1, 2, 3, and 4 resulted in viral neutralization, whereas those binding to the other seven determinants did not neutralize infectivity. The mixture of two monoclonal antibodies binding to different determinants resulted in a more rapid neutralization than either antibody alone, suggesting that different antibodies can exert a synergistic effect on viral neutralization. Kinetic experiments revealed biphasic neutralization curves similar to those expected for heterologous antibody. No evidence could be obtained to relate biphasic kinetics of viral neutralization to heterogeneous populations either of antibody molecules or of virus. The possible significance of the kinetic data with monoclonal antibodies is discussed.

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The fatty acids present in lipopolysaccharides from Xanthomonas sinensis were identified as decanoic, 9-methyl-decanoic, 2-hydroxy-9-methyl-decanoic, 2-hydroxy-9-methyl-decanoic, D-3-hydroxy-decanoic, D-3-hydroxy-9-methyl-decanoic, D-3-hydroxy-dodecanoic, and D-3-hydroxy-11-methyl-dodecanoic acid. These fatty acids occur in the lipid A component where they are bound through ester and amide linkages to glucosamine residues. All types of fatty acids are ester bound; however, part of D-3-hydroxy-dodecanoic and D-3-hydroxy-11-methyl-dodecanoic acid is also involved in amide linkage. The hydroxyl groups of ester-linked 3-hydroxy fatty acids are not substituted. Similar fatty acid patterns were obtained from lipopolysaccharides of nine other Xanthomonas species.

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The cell wall lipopolysaccharides from 17 species belonging to the genus Xanthomonas were extracted from the cells with hot 45% phenol. After purification, the components of the polysaccharide were obtained by acid hydrolysis of the lipopolysaccharide and were quantitatively assayed. Data obtained show that all preparations contained uronic acid, phosphate, and mannose in molar ratios of approximately 1:2:1, and glucose and rhamnose in more variable concentrations. Most lipopolysaccharides contained either xylose or fucose, but those extracted from X. sinensis and X. campestris contained neither xylose nor fucose.

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d-Galacturonic acid 1-phosphate was found to be one of the products formed during hydrolysis of the cell wall lipopolysaccharide of Xanthomonas campestris in 0.01 n acetic acid at pH 3.3. The molecule was shown to consist of equimolar amounts of d-galacturonic acid and phosphate. Resistance to borohydride reduction before, but not after, treatment with Escherichia coli alkaline phosphatase indicated that the phosphate group is attached to carbon-1 of the galacturonic acid. The presence of an additional phosphate group in the heteropolysaccharide of the cell wall lipopolysaccharide was also demonstrated. This phosphate group was considerably more resistant to acid hydrolysis than was the phosphate associated with the galacturonic acid. It is suggested that the more resistant phosphate is attached to either mannose or glucose, or to both.

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Volk, Wesley A. (University of Virginia, Charlottesville). Cell wall lipopolysaccharides from Xanthomonas species. J. Bacteriol. 91:39-42. 1966.-The lipopolysaccharides from 20 species of Xanthomonas were extracted and purified. Biological studies suggest that these lipopolysaccharides are analogous to the endotoxins extracted from enteric organisms, as judged by their mouse lethality and their ability to provoke the local Shwartzman reaction in rabbits. Studies on the composition of the polysaccharides revealed that all contained uronic acid, glucose, mannose, and a compound apparently identical to the 2-keto-3-deoxyoctonate previously described in enteric organisms. The polysaccharide also contains organic phosphate, and additional carbohydrates such as rhamnose, xylose, fucose, and galactose are found in some, but not all, species. In contrast to the composition of the enteric lipopolysaccharides, heptose was not found in any of the lipopolysaccharides of the Xanthomonas species studied.