Hostname: page-component-78c5997874-4rdpn Total loading time: 0 Render date: 2024-11-20T00:57:51.579Z Has data issue: false hasContentIssue false
  • English
  • Français

Transduction mechanisms of bacteriophage ε15 III. A new class of mutations affecting the conversion of Salmonella anatum by bacteriophage ε15

Published online by Cambridge University Press:  14 April 2009

R. W. Hedges
R. W. Hedges
Affiliation:
Bacteriology Department, Royal Postgraduate Medical School, Du Cane Road, London, W. 12
Rights & Permissions [Opens in a new window]

Summary

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

Salmonella anatum lysogenized by a doubly mutant strain of bacteriophage εγ shows a markedly rough colonial phenotype on tetrazolium agar. Mutants that abolish the roughness are reported.

Type
Research Article
Information
Genetics Research , Volume 18 , Issue 1 , August 1971 , pp. 29 - 32
Copyright
Copyright © Cambridge University Press 1971

References

REFERENCES

Bray, D. & Robbins, P. W. (1967). Mechanism of ε15 conversion studied with bacteriophage mutants. Journal of Molecular Biology 30, 457.Google Scholar
Ikawa, S., Toyama, S. & Uetake, H. (1968). Conditional lethal mutants of bacteriophage ε34. I. Genetic map of ε34. Virology 35, 519.CrossRefGoogle Scholar
Iseki, S. & Sakai, T. (1953). Artificial transformation of O antigens in Salmonella E group. II. Antigen transforming factor in bacilli of subgroup E 2. Proceedings of the Japanese Academy 29, 127.CrossRefGoogle Scholar
Hedges, R. W. (1971). Transduction mechanisms of bacteriophage ε15. I. General properties of the system. Genetical Research 18, 919.CrossRefGoogle Scholar
Lederberg, J. (1948). Detection of fermentative mutants with tetrazolium. Journal of Bacteriology 56, 695.CrossRefGoogle Scholar
Losick, R. (1969). Isolation of a trypsin-sensitive inhibitor of O antigen synthesis involved in lysogenic conversion by ε15. Journal of Molecular Biology 42, 237.CrossRefGoogle Scholar
Losick, R. & Robbins, P. W. (1967). Mechanism of ε15 conversion studied with a bacterial mutant. Journal of Molecular Biology 30, 445.CrossRefGoogle Scholar
Losick, R. & Robbins, P. W. (1969). The receptor site for a bacterial virus. Scientific American 221 (5), 121.CrossRefGoogle ScholarPubMed
Robbins, P. W., Keller, J. M., Wright, A. & Bernstein, R. L. (1965). Enzymatic and kinetic studies on the mechanism of O antigen conversion by bacteriophage ε15. Journal of Biological Chemistry 240, 384.CrossRefGoogle Scholar
Robbins, P. W. & Uchida, T. (1962). Studies on the chemical basis of the phage conversion of O antigen in E group Salmonellas. Biochemistry 1, 323.CrossRefGoogle Scholar
Robbins, P. W. & Uchida, T. (1965). Chemical and macromolecular structure of O antigen from Salmonella anatum carrying mutants of bacteriophage ε15. Journal of Biological Chemistry 240, 375.CrossRefGoogle Scholar
Uetake, H., Luria, S. E. & Burrous, J. W. (1958). Conversion of somatic antigens in Salmonella by phage infection leading to lysis or lysogeny. Virology 5, 68.CrossRefGoogle ScholarPubMed
Uetake, H. & Uchida, T. (1959). Mutants of Salmonella phage ε15 with abnormal conversion properties. Virology 9, 495.CrossRefGoogle Scholar
Wright, A., Dankert, M. & Robbins, P. W. (1965). Evidence for an intermediate stage in the biosynthesis of the Salmonella O antigen. Proceedings of the National Academy of Sciences, Washington 54, 235.CrossRefGoogle ScholarPubMed