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Journal Abstract Search

108 related items for PubMed ID: 3309135

  • 1. Catabolite repressive effects of 5-thio-D-glucose on Saccharomyces cerevisiae.
    Egilsson V, Gudnason V, Jónasdottir A, Ingvarsson S, Andresdottir V.
    J Gen Microbiol; 1986 Dec; 132(12):3309-13. PubMed ID: 3309135
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  • 3. Mutants of Saccharomyces cerevisiae resistant to carbon catabolite repression.
    Zimmermann FK, Scheel I.
    Mol Gen Genet; 1977 Jul 07; 154(1):75-82. PubMed ID: 197390
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  • 4. Parallel changes in catabolite repression of haem biosynthesis and cytochromes in repression-resistant mutants of Saccharomyces cerevisiae.
    Borralho LM, Malamud DR, Panek AD, Tenan MN, Oliveira DE, Mattoon JR.
    J Gen Microbiol; 1989 May 07; 135(5):1217-27. PubMed ID: 2695599
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  • 7. Catabolite repression mutants of Saccharomyces cerevisiae show altered fermentative metabolism as well as cell cycle behavior in glucose-limited chemostat cultures.
    Aon MA, Cortassa S.
    Biotechnol Bioeng; 1998 Jul 20; 59(2):203-13. PubMed ID: 10099331
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  • 8. Carbon catabolite repression of maltase synthesis in Saccharomyces carlsbergensis.
    Federoff HJ, Eccleshall TR, Marmur J.
    J Bacteriol; 1983 Oct 20; 156(1):301-7. PubMed ID: 6352680
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  • 9. Isolation and characterization of carbon catabolite repression mutants in Saccharomyces cerevisiae.
    Donnini C, Goffrini P, Rossi C, Ferrero I.
    Microbiologica; 1990 Oct 20; 13(4):283-95. PubMed ID: 2087199
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  • 10. Xylose and some non-sugar carbon sources cause catabolite repression in Saccharomyces cerevisiae.
    Belinchón MM, Gancedo JM.
    Arch Microbiol; 2003 Oct 20; 180(4):293-7. PubMed ID: 12955310
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  • 12. Genetical and biochemical aspects of resistance to p-fluorophenylalanine in Saccharomyces cerevisiae.
    Rhodes PM, Wilkie D.
    J Gen Microbiol; 1975 Dec 20; 91(2):217-24. PubMed ID: 1107471
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  • 14. The role of ALA-S and ALA-D in regulating porphyrin biosynthesis in a normal and a HEM R+ mutant strain of Saccharomyces cerevisiae.
    Correa García S, Bermúdez Moretti M, Cardalda C, Rossetti MV, Batlle AM.
    Yeast; 1993 Feb 20; 9(2):165-73. PubMed ID: 8465603
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  • 15. Influence of carbon catabolite repression on the G1 arrest of Saccharomyces cerevisiae MATa cells by alpha factor.
    Ruíz T, Villanueva JR, Rodríguez L.
    J Gen Microbiol; 1984 Feb 20; 130(2):337-42. PubMed ID: 6374021
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  • 16. Isolation and characterization of yeast mutants defective in intermediary carbon metabolism and in carbon catabolite derepression.
    Ciriacy M.
    Mol Gen Genet; 1977 Jul 20; 154(2):213-20. PubMed ID: 197391
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  • 17. Mutations releasing mitochondrial biogenesis from glucose repression in Saccharomyces cerevisiae.
    Böker-Schmitt E, Francisci S, Schweyen RJ.
    J Bacteriol; 1982 Jul 20; 151(1):303-10. PubMed ID: 7045078
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  • 18. Proteolysis of hexokinase PII is not the triggering signal of carbon catabolite derepression in Saccharomyces cerevisiae.
    Fernández MT, Herrero P, Lopez-Boado YS, Fernández R, Moreno F.
    J Gen Microbiol; 1987 Sep 20; 133(9):2509-16. PubMed ID: 3329214
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  • 19. Adenosine 3':5'-cyclic monophosphate in lifting of glucose repression of alpha-glucosidase by fluoride in yeast [proceedings].
    Wiseman A, Lim TK.
    Biochem Soc Trans; 1977 Sep 20; 5(4):970-3. PubMed ID: 199506
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  • 20. Carbon and energy uncoupling associated with cell cycle arrest of cdc mutants of Saccharomyces cerevisiae may be linked to glucose-induced catabolite repression.
    Mónaco ME, Valdecantos PA, Aon MA.
    Exp Cell Res; 1995 Mar 20; 217(1):52-6. PubMed ID: 7867720
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