The Enzymes of Ammonia Assimilation in Trichosporon cutaneum

References

1. Brown C. M., Burn V. J., Johnson B. 1973; Presence of glutamate synthase in fission yeasts, and its possible role in ammonia assimilation. Nature New Biology 246:115–116
   [Google Scholar]
2. Brown C. M., Johnson B. 1970; Influence of the concentration of glucose and galactose on the physiology of Saccharomyces cerevisiae in continuous culture. Journal of General Microbiology 64:279–289
   [Google Scholar]
3. Brown C. M., Rose A. H. 1969; Effects of temperature on composition and cell volume of Candida utilis. Journal of Bacteriology 97:261–272
   [Google Scholar]
4. Burn V. J., Turner P. R., Brown C. M. 1974; Aspects of inorganic nitrogen assimilation in yeasts. Antonie van Leeuwenhoek 40:93–102
   [Google Scholar]
5. Do Carmo-Sousa L. 1970; Genus II: Trichosporon. In The Yeasts. A Taxonomic Study pp. 1323–1326 Lodder J. Edited by Amsterdam and London; North Holland.:
   [Google Scholar]
6. Ferguson A. R., Sims A. P. 1974; The regulation of glutamine metabolism in Candida utilis: the role of glutamine in the control of glutamine synthetase. Journal of General Microbiology 80:159–171
   [Google Scholar]
7. Hierholzer G., Holzer H. 1963; Repression der Synthese von DPN-abhangiger Glutaminsäure-dehydrogenase in Saccharomyces cerevisiae durch Ammoniumionen. Biochemische Zeitschrift 339:175–185
   [Google Scholar]
8. Holzer H., Schneider S. 1957; Anreicherung und Trennung einer DPN-spezifischen und einer TPN spezifischen Glutaminsaure-Dehydrogenase aus Hefe. Biochemische Zeitschrift 329:361–369
   [Google Scholar]
9. Johnson B., Brown C. M. 1974; The enzymes of ammonia assimilation in Schizosaccharomyces sp. and in Saccharomycodes ludwigii. Journal of General Microbiology 85:169–172
   [Google Scholar]
10. Lowry O. H., Rosebrough N. J., Farr A. L., Randall R. J. 1951; Protein measurement with the Folin phenol reagent. Journal of Biological Chemistry 193:265–275
    [Google Scholar]
11. Polakis E. S., Bartley W. 1965; Changes in enzyme activities Of Saccharomyces cerevisiae during aerobic growth on different carbon sources. Biochemical Journal 97:284–297
    [Google Scholar]
12. Roon R. J., Even H. L., Larimore F. 1974; Glutamate synthase: properties of the reduced nicotinamide adenine dinucleotide-dependent enzyme from Saccharomyces cerevisiae. Journal O Bacteriology 118:89–95
    [Google Scholar]
13. Sanwal B. 1961; Diphosphopyridine nucleotide and triphosphopyridine nucleotide linked glutamic dehydrogenases of Fusarium. Archives of Biochemistry and Biophysics 93:377–386
    [Google Scholar]
14. Sanwal B., Lata M. 1961; The occurrence of two distinct glutamic dehydrogenases in Neurospora. Canadian Journal of Microbiology 7:319–328
    [Google Scholar]
15. Thomulka K. W., Moat A. G. 1972; Inorganic nitrogen assimilation in yeasts: alteration in enzyme activities associated with changes in cultural conditions and the growth rate. Journal of Bacteriology 109:25–33
    [Google Scholar]
16. Westphal W., Holzer H. 1964; Synthese von NAD-abhängiger Glutamatdehydrogenase in Proto-plasten von Saccharomyces carlsbergensis. Biochimica et biophysica acta 89:42–46
    [Google Scholar]