Sexuality and the genetics of bacteria / François Jacob and Élie L. Wollman.
- Élie Wollman
- Date:
- 1961
Licence: Attribution-NonCommercial 4.0 International (CC BY-NC 4.0)
Credit: Sexuality and the genetics of bacteria / François Jacob and Élie L. Wollman. Source: Wellcome Collection.
372/398 page 352
![352 REFERENCES Fuerst, С. R., Jacob, F., and Wollman, E. L. (1956). Détermination de liaisons gé¬ nétiques chez E. coli Kl¿, à l'aide du radiophosphore. Compt. rend. acad. sci. 243, 2162-2164. Fuerst, C. R., Jacob, F., and Wollman, E. L. (1961). Sur les processus de conju¬ gaison et de recombinaison génétique chez E. coli. VI. Etude du transfert et de la recombinaison à l'aide du radiophosphore. In preparation. Fuerst, C. R., and Stent, G. S. (1956). Inactivation of bacteria by decay of incor¬ porated radioactive phosphorus. ]. Gen. Physiol. 40, 73-90. Fumess, G., and Rowley, D. (1957). The presence of the transmissible agent F in non-recombining strains of E. coll. J. Gen. Microbiol. 17, 550-561. Garen, A., and Skaar, P. D. (1958). Transfer of phosphorus-containing material as¬ sociated with mating in Escherichia coli. Biochim. et Biophys. Acta 27, 457-463. Garen, A., and Zinder, N. D. (1955). Radiological evidence for partial genetic ho¬ mology between bacteriophage and host bacteria. Virology 1, 347-376. Giles, N. H. (1958). Mutations at specific loci in Neurospora crassa. Froc. 10th In¬ tern. Congr. Genetics, Montreal 1, 261-279. Goldschmidt, R. B. (1955). Theoretical Genetics. University of California Press, Berkeley. Gorini, L., and Maas, W. (1958). Feed-back control of the formation of biosynthetic enzymes. In The Chemical Basis of Development (W. D. McElroy and B. Glass, eds.), pp. 469-478. Johns Hopkins Press, Baltimore. Gowen, J. W., and Lincoln, R. E. (1942). A test for sexual fusion in bacteria. J. Bacteriol. 44, 551-554. Gratia, A. ( 1932 ). Antagonisme microbien et bactériophage. Ann. inst. Pasteur 48, 413. Gray, С. H., and Tatum, E. L. (1944). X-ray induced growth factor requirements in bacteria. Proc. Natl. Acad. Sci. U.S. 30, 404-410. Griffith, F. (1928). The significance of pneumococcal types. J. Hyg. 27, 113-159. Gros, F., Gilbert, W., Hiatt, H., Kurland, С. G., Risebrough, R. W., and Watson, J. D. (1961). Unstable ribonucleic acid revealed by pulse labelling of Es¬ cherichia coli. Nature 190, 581-585. Guyénot, E. (1930). L'évolution. Doin & Co., Paris. Haan, P. G. de (1954a). Genetic recombination in E. coli В. I. The transfer of the F agent to E. coli В. Genetica 27, 293-300. Haan, P. G. de (1954b). Genetic recombination in E. coli В. П. The cross resistance of E. coli В to the phages T3, T4 and T7. Genetica 27, 300-308. Haan, P. G. de (1955). Genetic recombination in E. coll B. III. The influence of experimental conditions on the transfer of unselected markers. Genetica 27, 364- 376. Haas, F., Wyss, O., and Stone, W. S. (1948). The effect of irradiation on recom¬ bination in E. coli. Proc. Natl. Acad. Sci. U.S. 34, 229-232. Haddow, A. M. (1944). Transformation of cells and viruses. Nature 154, 194. Hadley, P. (1927). Microbic dissociation. J. Infectious Diseases 40, 1-312. Haldane, J. B. S. (1955). Alternatives to sex. New Biol. 19, 7-26. Hartman, P. E. (1957). Transduction; a comparative review. In The Chemical Basis of Heredity (W. D. McElroy and B. Glass, eds.), pp. 408-462. Johns Hopkins Press, Baltimore. Hartman, P. E., and Goodgal, S. H. (1959). Bacterial genetics (with particular ref¬ erence to genetic transfer). Ann. Rev. Microbiol. 13, 465-504.](https://iiif.wellcomecollection.org/image/b1803729x_0373.JP2/full/800%2C/0/default.jpg)
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