Threonine Inhibition of Growth of Bacillus subtilis: Positive Selection for Isoleucine Auxotrophy

References

1. BARAT M, ANAGNOSTOPOULOS C, SCHNEIDER M. 1965; Linkage relationships of genes controlling isoleucine, valine and leucine biosynthesis in B. subtilis. Journal of Bacteriology 21:365–372
   [Google Scholar]
2. CALHOUN D. H, HATFIELD G. W. 1975; Autoregulation of gene expression. Annual Review of Microbiology 29:275–299
   [Google Scholar]
3. EPHRATI-ELIZUR E, SRINIVASAN P. R, ZAMENHOF S. 1961; Genetic analysis, by means of transformation, of histidine linkage groups in Bacillus subtilis . Proceedings of the National Academy of Sciences of the United States of America 47:56–63
   [Google Scholar]
4. GOLDBERGER R. F. 1974; Autogenous regulation of gene expression.. Science 183:810–816
   [Google Scholar]
5. INGRAM L. O, JENSEN R. A. 1973; Growth inhibition by L-phenylalanine inAgmenellum quadruplicatumA clue to some amino acid relationships. Archiv fur Mikrobiologie 91:221–233
   [Google Scholar]
6. LAMB D. H, BOTT K. F. Threonine inhibition of vegetative growth and sporulation inBacillus subtilis . in Chambliss G, Vary J. C, Washington D.C. Spores VII PP American Society for Microbiology.;299–303 1978
   [Google Scholar]
7. LAMB D. H, BOTT K. F. 1979; Inhibition of growth and sporulation of Bacillus subtilis by threonine. Journal of Bacteriology 137:213–220
   [Google Scholar]
8. LEIBOVICI J., ANAGNOSTOPOULOS C. 1969; Properties de la théonine désaminase de la souchs sauvage et d’un mutant sensible a la valine de Bacillus subtilis . Bulletin de la Société de chimie biologique 51:691–707
   [Google Scholar]
9. LEVINTHAL M., WILLIAMAS L. S., LEVINTHL M, UMBARGER H. E. 1973; Role of threonine deaminase in the regulation of isoleucine and valine biosynthesis. Bulletin de la SociéNature New Biology 246:65–68
   [Google Scholar]
10. LOWRY O. H, ROSEBROUGH N. J, FARR A. L, RANDALI R. J. 1951; Protein measurement with the Folin phenol reagent. Journal of Biological Chemistry 193:265–275
    [Google Scholar]
11. PIGGOT P. J., COOTE J. G. 1976; Genetic aspects of bacterial endospore formation. Bacteriological Reviews 40:908–962
    [Google Scholar]
12. RAIMOND J, FARGETTE F. 1977; Regulation de la biosyn these de isoleucine, valine chez Bacillus cereus T : role possible de la thrkonine desaminase. Comptes rendus hebdomadaire des séances de l’Acad4mie des sciences 284:2301–2304
    [Google Scholar]
13. RITTENBERG S. C. 1969; The roles of exogenous organic matter in the physiology of chemolithotrophic bacteria. Advances in Microbial Physiology 3:159–2196
    [Google Scholar]
14. SKARSTEDT M. T., GREER S. 1973; Threonine synthetase of Bacillus subtilis. The nature of an associated dehydratase activity. Journal of Bio-logical Chemistry 248:1032–1044
    [Google Scholar]
15. SPIZIZEN J. 1958; Transformation of biochemically deficient strains of Bacillus subtilis by deoxyribonucleate. Proceedings of the National Academy of Sciences of the United States of America 44:1072–1078
    [Google Scholar]
16. UMBARGER H. E, BROWN B. 1957; Threonine deamination in Escherichia coli. 11. Evidence for two L-threonine deaminases. Journal of Bac-teriology 73:103–112
    [Google Scholar]
17. WILSON G. A, BOTT K. F. 1968; Nutritional factors influencing the development of competence in the Bacillus subtilis transformation system. Journal of Bacteriology 95:1439–1449
    [Google Scholar]