Abstract
Cells of Nocardia asteroides undergo structural and chemical changes, especially in the cell wall, during growth in brain heart infusion broth. Experiments were devised to determine whether these changes affected the virulence of Nocardia for mice. It took, on the average, 1,380 times the number of colony-forming units at the stationary phase to achieve the same mortality induced by the log-phase cells. Cells in either the lag phase or early stationary phase of growth were intermediate in the numbers of colony forming units required to kill mice. Dry-weight determinations at different stages of growth demonstrated that the log-phase organisms were approximately 10 times heavier than stationary-phase cells. Thus, on the basis of dry-weight (micrograms) values, the average colony-forming unit of log phase is approximately 130 times more virulent than in stationary-phase cultures. Therefore, the stage of growth affects greatly the virulence of N. asteroides.
Publisher
American Society for Microbiology
Subject
Infectious Diseases,Immunology,Microbiology,Parasitology
Reference21 articles.
1. Activity of minocycline against Nocardia asteroides: comparison with tetracycline in agar-dilution and standard discdiffusion tests and with sulfodiozine in an experimental infection of mice;Bach M. C.;J. Lab. Clin. Med.,1973
2. An ultrastructural analysis of Nocardia during experimental infections in mice;Beaman B. L.;Infect. Immun.,1973
3. Structural and biochemical alterations of Nocardia asteroides cell walls during its growth cycle;Beaman B. L.;J. Bacteriol.,1975
4. Effect of cyclophosphamide on experimental Nocardia asteroides infection in mice;Beaman B. L.;Infect. Immun.,1977
5. Ultrastructure of Nocardia cell growth and development on defined and complex agar media;Beaman B. L.;J. Bacteriol.,1969
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