Daniel Leong scite author profile

Daniel Leong

4Publications

82Citation Statements Received

44Citation Statements Given

How they've been cited

144

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Affiliations

Duke University Hospital, University of Wisconsin–Madison, National Institute of Allergy and Infectious Diseases

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Surface Antigens of Smooth Brucellae

et al. 1968

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Surface antigens of smooth brucellae were extracted by ether-water, phenol-water, trichloroacetic acid, and saline and examined by immunoelectrophoresis and gel diffusion with antisera from infected and immunized rabbits. Ether-water extracts of Brucella melitensis contained a lipopolysaccharide protein component, which was specific for the surface of smooth brucellae and was correlated with the M agglutinogen of Wilson and Miles, a polysaccharide protein component devoid of lipid which was not restricted to the surface of smooth brucellae and was not correlated with the smooth agglutinogen (component 1), and several protein components which were associated with internal antigens of rough and smooth brucellae. Immunoelectrophoretic analysis of ether-water extracts of B. abortus revealed only two components, a lipopolysaccharide protein component, which was correlated with the A agglutinogen, and component 1. Component 1 from B. melitensis and B. abortus showed identity in gel diffusion tests, whereas component M from B. melitensis and component A from B. abortus showed partial identity with unabsorbed antisera and no cross-reactions with monospecific sera. Attempts to prepare monospecific sera directly by immunization of rabbits with cell walls or ether-water extracts were unsuccessful. Absorption of antisera with heavy fraction of ether-water extracts did not always result in monospecific sera. It was concluded (as has been described before) that the A and M antigens are present on a single antigenic complex, in different proportions depending upon the species and biotype, and that this component is a lipopolysaccharide protein complex of high molecular weight that diffuses poorly through agar gel. Components 1, A, and M were also demonstrated in trichloroacetic acid and phenol-water extracts. With all extracts, B. melitensis antigen showed greater diffusibility in agar than B. abortus antigens. After mild acid hydrolysis, B. abortus ether-water extract was able to diffuse more readily. At least 24 antigenic components were demonstrated in a water extract from Brucella suis

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Taxonomic Position in the GenusBrucellaof the Causative Agent of Canine Abortion

et al. 1968

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The gram-negative organism causing abortion in dogs was examined in parallel with cultures representative of the Brucella species and with Bordetella bronchisepfica. The organism fits into the genus Brucella and most closely resembles B. suis on the basis of its growth characteristics. It is of rough colonial morphology and is agglutinated by antisera prepared against rough Brucella. In mouse toxicity tests, no endotoxic activity could be demonstrated. In contrast to most Brucella cultures, it does not utilize erythritol. Electron microscopy showed a cell wall structure similar to that of other gram-negative organisms. The question of whether the organism should be designated Brucella canis, as proposed by Carmichael and Bruner, or Brucella suis biotype 5 is discussed. The authors favor the designation Brucella canis because the organism lacks the lipopolysaccharide antigen associated with the smooth agglutinogen and endotoxin, and it does not utilize erythritol.

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Differences BetweenBrucellaAntigens Involved in Indirect Hemagglutination Tests with Normal and Tanned Red Blood Cells

et al. 1967

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Brucella antigens capable of sensitizing normal and tanned sheep red blood cells for indirect hemagglutination were compared with antigens involved in agglutination, gel diffusion, and immunoelectrophoresis. Hyperimmune rabbit sera, before and after absorption with various antigenic preparations from smooth and rough B. abortus, were used in the tests. Normal erythrocytes could be sensitized with an NaOH-treated ether-water extract (EW-T) of smooth Brucella. Tanned erythrocytes could be sensitized with a water-soluble extract from ultrasonically disrupted smooth or rough Brucella. The EW-T produced a single precipitation band and the water-soluble antigens produce 6 to 23 bands in immunoelectrophoresis with unabsorbed sera. After absorption of antisera with water-soluble extracts from smooth or rough Brucella cells or from smooth or rough cell walls, the hemagglutinins for sensitized tanned erythrocytes and the precipitins for water-soluble antigens were removed. Absorption with living smooth or rough Brucella cells or with EW-T did not remove these antibodies. The precipitins and hemagglutinins for the antigen EW-T, and agglutinins for smooth cells, were absorbed by smooth antigens but not by rough antigens. It appears that the antigens which sensitize tanned erythrocytes and diffuse through agar gels are present in both smooth and rough forms and may be situated in the cytoplasm or in the internal part of the cell wall, whereas the agglutinogen and the antigen which attaches to normal erythrocytes are surface antigens found only on the smooth Brucella cell. grown on Trypticase Soy Agar or in Trypticase Soy Broth (BBL) on a shaker for 2 to 3 days at 37 C. Harvested organisms were suspended in distilled water, and 3 volumes of chilled acetone were added to 499

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Occurrence of Quinovosamine in Lipopolysaccharides of Brucella Species

et al. 1974

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Daniel Leong

Surface Antigens of Smooth Brucellae

Taxonomic Position in the GenusBrucellaof the Causative Agent of Canine Abortion

Differences BetweenBrucellaAntigens Involved in Indirect Hemagglutination Tests with Normal and Tanned Red Blood Cells

Occurrence of Quinovosamine in Lipopolysaccharides of Brucella Species

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