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The production of H2S-negative strains of Salmonella

Published online by Cambridge University Press:  15 May 2009

W. James Wilson
Affiliation:
Queen's University and Water Office Laboratories, Belfast
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It has been shown that certain strains of Salmonella grown in nutrient broth containing sulphite and bismuth, develop variants that are incapable of reducing sulphite to sulphides in the media of Wilson & Blair.

The altered strains showed no alterations in their antigenic and biochemical characters.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1948

References

REFERENCES

Braun, W. (1947). Bacterial dissociation. Bacteriological Reviews, ii, 2, 1.Google Scholar
Dubos, René J. (1946). The Bacterial Cell. Cambridge, Mass.: Harvard University Press.Google Scholar
Luria, S. E. (1947). Recent advances in bacterial genetics. Bacteriological Review, ii, 1, 1.CrossRefGoogle Scholar
Medical Research Council (1947). The bacteriology of spray-dried egg with particular reference to food poisoning. Spec. Rep. Ser., no. 260. London: H.M. Stationery Office.Google Scholar
Sage, D. N. & Spaulding, E. H. (1942). J. Bact. 44, 647.Google Scholar
Saphra, I. & Seligmann, E. (1947). J. Bact. 54, 270.Google Scholar
Vietorisz, K. (1937). Zbl. Bakt. (1. Abt. Orig.), 139, 151.Google Scholar
Wilson, W. J. (1923). J. Hyg., Camb., 21, 392.Google Scholar
Wilson, W. J. (1938). J. Hyg., Camb., 38, 507.Google Scholar
Wilson, W. J. & Blair, E. M. McV. (1927). J. Hyg., Camb., 26, 374.Google Scholar
Wilson, W. J. & Blair, E. M. McV. (1931). J. Hyg., Camb., 31, 139.Google Scholar