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Monoclonal antibodies against the H-Y antigen were produced using spleen cells from female C57BL/6 mice hyperimmunized with cells from syngeneic males. Anti-H-Y positive clones were detected by enzyme immunoassays. Supernatant fluids from Daudi cell cultures and testicular cell preparations taken from mice, rabbits or calves served as presumptive sources of H-Y antigen. In addition, testis supernatant from genetically sterile mice was used. Male specificity was ascertained by the fact that the antibodies could be absorbed with spleen cells from male but not from female mice. Binding of the antibodies to H-Y antigen on the surface of male and female cells, obtained from a number of tissues and species, was confirmed by an indirect immunofluorescence assay. Several monoclonal antibodies appeared to be positive in all assays tested, suggesting that the molecule conferring the H-Y antigenicity lacks species-specificity and appears to be identical for soluble and membrane-bound H-Y antigen.

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Two monoclonal mouse antibodies with specificities for group B streptococcal capsular antigens were evaluated in assays for the identification of group B streptococci (GBS). One of these antibodies (A9) was shown to precipitate group B carbohydrate antigen in reactions with both purified group B antigen and antigen present in autoclave or enzyme extracts of GBS. A9 antibody was also specific for group B antigen in gel diffusion reactions with extracts of Lancefield group A, B, C, D, F, and G streptococci and was a highly sensitive reagent in detecting soluble group B antigen by counterimmunoelectrophoresis. Antigen extracted from all five serotypes of GBS was shown to be precipitated by A9 antibody. A second monoclonal antibody (C8) was reactive with intact GBS but did not precipitate soluble antigen in bacterial extracts. In contrast with what has been shown for polyclonal rabbit anti-group B antiserum, neither antibody was significantly inhibited in binding or precipitation assays by high concentrations of free rhamnose or other monosaccharides of carbohydrates found in group B antigen. Rhamnose, the most abundant carbohydrate of the group B antigen, does not appear therefore to be an immunodominant determinant in the binding of A9 or C8 antibody. The epitopes of both monoclonal antibodies are exposed on the surface of live as well as heat-fixed GBS cells. A9 antibody-coated latex particles were compared with a commercially available polyclonal latex agglutination reagent and shown to be equally sensitive and specific in the detection of soluble group B antigen in urine and cerebrospinal fluid from patients with GBS infections. Because of its uniformity and defined antigen specificity, which includes reactivity with all five serotypes of GBS, A9 antibody offers the potential of an improved immunodiagnostic reagent for the identification of GBS.

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Staphylococcus aureus cells coated with rabbit anti-goat immunoglobulin G were compared with soluble second antibody in a radioimmunoassay for human serum alphafetoprotein. Recovery of primary immune complexes with use of the bacterial immunoadsorbant (a) allowed second-antibody incubation time to be shortened from 3 h to 20 min at 37 degrees C, (b) decreased by 80% the amount of second antibody required per assay, thereby significantly reducing assay costs, and (c) provided a convenient and reproducible method for separation of free and bound antigen. The ease of preparation and the uniformity and stability of the S. aureus second-antibody reagent are additional advantages that may be useful in other radioimmunoassay procedures.

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Glycerol:oxidized nicotinamide adenine dinucleotide (NAD+) 2-oxidoreductase (EC 1.1.1.6), an inducible enzyme for anaerobic glycerol catabolism in Klebsiella aerogenes, was purified and found to have a molecular weight of 79,000 by gel electrophoresis. The protein seemed to be enzymatically active either as a dimer of a 40,000-dalton peptide at pH 8.6 or as a tetramer of 160,000 molecular weight at pH 7.0. The enzyme activity was present at high levels in cells growing anaerobically on glycerol, but disappeared with a half-life of about 45 min if molecular oxygen was introduced to the culture. In contrast, no such phenomenon occurred with dihydroxyacetone kinase activity, the second enzyme in the pathway. Immunochemical analysis showed that the inactivation of the oxidoreductase did not involve degradation of the protein. Furthermore, subunits of the active and inactive forms of the enzyme were indistinguishable in size on polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate and had similar isoelectric points (pH 4.7). Inactivation did, however, alter the gel filtration properties of the enzyme protein and, more importantly, reduced its affinity for the dye Cibacron F3GA and the coenzyme NAD+.

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Glycerol:NAD+2-OXIDOREDUCTASE (EC 1.1.1.6) was purified to homogeneity from a mutant of Escherichia coli K12 that uses this enzyme, instead of ATP:glycerol 3-phosphotransferase (EC 2.7.1.30), as the first enzyme for the dissimilation of glycerol. Polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulfate shows a subunit of 39,000 daltons. During electrophoresis under nondenaturing conditions, the protein migrates as two bands. These two forms, both of which are enzymatically active, appear to be dimers and octomers of the same subunit. The optimal pH for the oxidation of glycerol is about 10, and that for the reduction of dihydroxyacetone is about 6. Glycerol dehydrogenation is highly activated by NH4+, K+, or Rb+, but strongly inhibited by N-ethylmalemide, 8-hydroxyquinoline, 1,10-phenanthroline, Cu2+, and Ca2+. The enzyme exhibits a broad substrate specificity. In addition to glycerol, it act on 1,2-propanediol and several of its analogs.

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A mouse lymphosarcoma (S49) cell line that is growth-inhibited by agents that elevate intracellular concentrations of adenosine 3':5'-cyclic phosphate was used in a sensitive and convenient colorimetric assay for cholera toxin. S49 cells suspended in Dulbecco's modified Eagle's minimal essential medium containing 10(-5)--10(-6) M RO 20-1724, an analogue of 4-(3,4-demethoxybenzyl)-2-imidazolidinone and a phosphodiesterase inhibitor, were growth-inhibited by subnanogram concentrations of cholera toxin. Effects of toxin were detected by the absence of a yellow pH change (phenol red indicator) which normally accompanies the production of acid metabolites by lymphoma cells. An assay using S49 cells grown in microtiter plates, which is capable of detecting 10 pg of cholera toxin or 0.01 units of cholera antitoxin, was used in screening for nontoxinogenic mutants of Vibrio cholerae strain 569B. The properties of two mutants of the Tox--phenotype, which lacked biologically and immunologically detectable toxin products, are described.

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Klebsiella aerogenes dissimilates glycerol aerobically via an inducible pathway initiated by an adenosine triphosphate-linked kinase that converts the substrate to sn-glycerol 3-phosphate. Phosphorylated glycerol is then dehydrogenated to dihydroxyacetone phosphate by an enzyme characteristic of a flavoprotein. Anaerobically, the organism dissimilates glycerol via an inducible pathway initiated by a nicotinamide adenine dinucleotide-linked dehydrogenase that converts the substrate to dihydroxyacetone. The keto product is then phosphorylated by another adenosine triphosphate-linked kinase. Two kinds of constitutive mutants have been isolated: one affecting the aerobic and the other the anaerobic pathway.

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The utilization of glycerol as a carbon source for growth by Klebsiella aerogenes, strain 2103, involves separate aerobic (sn-glycerol-3-phosphate or G3P) and anaerobic (dihydroxyacetone or DHA) pathways of catabolism. Enzyme and transport activities of the aerobic pathway are elevated in cells grown under oxygenated conditions on glycerol or G3P. Anaerobic growth on G3P as carbon source requires the presence of an exogenous hydrogen acceptor such as fumarate; cells thus grown also are highly induced in the G3P pathway. Anaerobic growth on glycerol requires no exogenous hydrogen acceptors; cells thus grown are highly induced in the DHA pathway but almost uninduced in the G3P pathway and the addition of fumarate electron acceptors has no effect on the relative levels of the two pathways. When both glycerol and G3P are provided anaerobically with fumarate, the DHA pathway is still preferentially induced, which probably accounts for the exclusive utilization of glycerol until its exhaustion. These observations suggest the presence of a regulatory control of G3P pathway imposed by the operation of the DHA pathway.

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