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The selective action of tetrathionate in bacteriological media: A report to the medical research council

Published online by Cambridge University Press:  15 May 2009

R. Knox
Affiliation:
From the Emergency Public Health Laboratory, Leicester
P. G. H. Gell
Affiliation:
From the Emergency Public Health Laboratory, Leicester
M. R. Pollock
Affiliation:
From the Emergency Public Health Laboratory, Leicester
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The chemical and biological properties of the constituents of tetrathionate media have been investigated.

(1) The selective properties of thiosulphate and tetrathionate are expressed in graphic form, a method which clearly illustrates their differential effect on various intestinal organisms and is of value in preparing media to suit particular needs.

(2) Thiosulphate, tetrathionate, iodide and, indirectly, chalk all have some selective action, but the most important single constituent is tetrathionate.

(3) The discovery that certain organisms, mainly of the Salmonella group, are capable of reducing tetrathionate rapidly to thiosulphate suggests that in tetrathionate media part at least of the selective action is due to the ability of the tetrathionate to act as an alternative hydrogen acceptor to oxygen.

(4) In the light of these facts many of the defects and puzzling features of tetrathionate media can be explained, especially the frequent heavy growth of Proteus.

(5) A medium containing balanced tetrathionate shows a different kind of selectivity from media of Muller's type and has given consistent results as a routine solid medium for plating of faecal specimens.

(6) A diminution in the amount of thiosulphate in media of Muller's type is desirable, since Bact. typhosum is relatively sensitive to thiosulphate.

(7) The possible value of a biochemical approach to the study of selective media is emphasized.

It is a pleasure to thank Prof. M. E. Delafield and Prof. G. S. Wilson for constructive criticism of this paper, and we are much indebted to Dr C. Hamilton Willkie for taking the photograph.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1943

References

REFERENCES

Holt, H. D., Vaughan, A. C. T. & Wright, H. D. (1942). Lancet, 1, 133.CrossRefGoogle Scholar
Hynes, M. (1942). J. Path. Bact. 54, 193.CrossRefGoogle Scholar
Jegorov, A. & Vrtis, M. (1937). Trav. Inst. Hyg. publ. Tchécosl. 8, 121.Google Scholar
Jones, D. J., Gell, P. G. H. & Knox, R. (1942). Lancet, 2, 362.CrossRefGoogle Scholar
Kauffmann, F. (1930-1931). Zbl. Bakt. Abt. I, Orig., 119, 148.Google Scholar
Kauffmann, F. (1935-1936). Z. Hyg. 117, 26.CrossRefGoogle Scholar
Knox, R., Gell, P. G. H. & Pollock, M. R. (1942). J. Path. Bact. 54, 467.CrossRefGoogle Scholar
Muller, L. (1923). C.R. Soc. Biol., Paris, 89, 434.Google Scholar
Pakes, W. C. C. & Jollyman, W. H. (1901). Proc. Chem. Soc. Lond. 17, 39.Google Scholar
Pollock, M. R., Knox, R. & Gell, P. G. H. (1942). Nature, Lond., 18, 325.Google Scholar
Quastel, J. H., Stephenson, M. & Whetham, M. D. (1925). Biochem. J. 19, 305.Google Scholar
Rahn, O. & Richardson, G. L. (1941). J. Bact. 41, 225.CrossRefGoogle Scholar
Schäfer, W. (1934-1935). Zbl. Bakt. Abt. I, Orig., 133, 458.Google Scholar
Schustowa, L. (1931). Zbl. Bakt. Abt. I, Orig., 122, 403.Google Scholar
Seidenglanz, A. (1932). Zbl. Bakt. Abt. I, Orig., 125, 534.Google Scholar
Starkey, L. (1935). J. Gen. Physiol. 18, 325.CrossRefGoogle Scholar
Stickland, L. H. (1931). Biochem. J. 25, 1543.CrossRefGoogle Scholar