Y. C. Zee scite author profile

We have previously shown that the 23S rRNA of Salmonella strains is highly fragmented by specific enzyme cleavages. In this article, we report that 23S rRNA of Salmonella strains is rapidly degraded as the cells enter the stationary phase. More than 90% of the 23S rRNA is degraded when the cells reach the stationary phase. The rate of degradation of 23S rRNA correlated with its degree of fragmentation. This degradation is probably mediated by newly synthesized protein factor(s), since treatment with chloramphenicol or rifampin inhibits the rRNA degradation. We propose that degradation of 23S rRNA is a novel mechanism in the regulation of the bacterial 23S rRNA and ribosome concentration and that this additional regulatory mechanism provides some selective advantage to cells.

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Immunoglobulin E-Containing Cells in Mouse Lung Following Allergen Inhalation and Ozone Exposure

Gershwin

Osebold

Zee

1981

Int Arch Allergy Immunol

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Cells containing immunoglobulin E (IgE) were enumerated and their location in mouse lungs was determined by direct immunofluorescence. Lungs were studied from mice that had been immunized with aerosolized ovalbumin as well as from normal mice and from mice that were exposed to ozone (0.5 or 0.8 ppm) prior to receiving aerosolized antigen. In addition, some mice were immunized intraperitoneally with ovalbumin precipitated in alum. IgE-containing cells were primarily airway-related in normal mice and in mice immunized by the intraperitoneal route. Lungs from aerosol-immunized, and aerosol-immunized and ozone-exposed mice showed a more disseminated distribution of IgE-containing cells. Fluorescent cells were counted and numbers were expressed as total cells per square millimeter of lung tissue and as airway-associated cells per millimeter of airway. Total IgE cells increased 9.4-fold in mice that received aerosolized ovalbumin as compared to normal mice. When ozone exposure was added to the effects from aerosolized ovalbumin, the increase of IgE cells over normal was 34.2-fold. IgE cell counts correlated well with anaphylactic sensitivity to intravenous challenge with ovalbumin. The observed enhancement of allergic sensitization by ozone exposure has important implications for human health.

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Enhancement of Allergic Lung Sensitization in Mice by Ozone Inhalation

Osebold

Zee

Gershwin

1988

Experimental Biology and Medicine

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Inhaled ozone was found to exert an enhancing effect for allergic lung sensitization when mice contacted an aerosolized allergen. The animals were exposed to ozone concentrations of 0.24, 0.16, 0.13, and 0.10 ppm. After 4 days of continuous ozone exposure, the mice had allergen contact from an aerosolized solution of ovalbumin. The animals were then maintained in ambient air for several days before the cycle of ozone and aerosolized allergen was repeated over four allergen contact cycles. Mice were rested in ambient air for a week after the last allergen contact, and they were then tested for allergic sensitization by the intravenous injection of 2 mg of ovalbumin to induce anaphylactic shock in allergic individuals. The control groups of mice were maintained in ambient air throughout the experiment, but they experienced identical allergen contact with the ozone-exposed mice. The phenomenon of allergic enhancement from ozone inhalation was detected at 0.24, 0.16, and 0.13 ppm of ozone. The enhancing effect disappeared at 0.10 ppm of ozone. The study indicated a potential for increasing the number of allergically sensitized individuals when various allergens are inhaled during periods of high ozone exposure with the consequent adverse changes on respiratory membranes. The significance to human health of the allergic enhancement phenomenon by Ozone needs investigation.

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Identification of envelope and nucleocapsid proteins of infectious bovine rhinotracheitis virus by SDS-polyacrylamide gel electrophoresis

Bolton

Zee

Ardans

1983

Veterinary Microbiology

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Vesicular Stomatitis Virus Maturation Sites in Six Different Host Cells

Zee

Hackett

Talens

1970

Journal of General Virology

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SUMMARYSix different cell types, L, Vero, HeLa, BHKzI, PK(H13) and CF, were infected with vesicular stomatitis virus. A minimum of IOO individual virus-containing cells of each type was scored for the sites of viral maturation as observed by electron microscopy of thin sections. The principal site of viral maturation was the intracytoplasmic vacuolar membranes for PK(H13) and the plasma membrane for L and Veto cells. Both types of membranes served as sites for HeLa and BHK21 cells. It is concluded that the site of maturation of vesicular stomatitis virus is a hostdependent phenomenon.

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Y. C. Zee

Degradation of rRNA in Salmonella strains: a novel mechanism to regulate the concentrations of rRNA and ribosomes

Immunoglobulin E-Containing Cells in Mouse Lung Following Allergen Inhalation and Ozone Exposure

Enhancement of Allergic Lung Sensitization in Mice by Ozone Inhalation

Identification of envelope and nucleocapsid proteins of infectious bovine rhinotracheitis virus by SDS-polyacrylamide gel electrophoresis

Vesicular Stomatitis Virus Maturation Sites in Six Different Host Cells

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