Polarisation und Disproportionalität der Synthese von Enzymkomponenten des Pyruvat-Dehydrogenase-Komplexes als Mutationsfolge inEscherichia coli K 12
Tài liệu tham khảo
Adelberg, E. A., andJ. W. Myers: Modification of the penicillin technique for the selection of auxotrophic bacteria. J. Bact.65, 348–353 (1953).
Ames, B. N., andP. E. Hartman: The histidine operon. Cold Spr. Harb. Symp. Biol.28, 349–356 (1963).
Beckwith, J. R.: A deletion analysis of the lac operator region inEscherichia coli. J. mol. Biol.8, 427–430 (1964).
Beisenherz, G., H. J. Boltze, Th. Bücher, R. Czok, K. H. Garbade, E. Meyer-Arendt u.G. Peleiderer: Diphosphofructose-Aldolase, Phosphoglyceraldehyd-Dehydrogenase, Milchsäure-Dehydrogenase, Glycerophosphat-Dehydrogenase und Pyruvat-Kinase aus Kaninchenmuskulatur in einem Arbeitsgang. Z. Naturforsch.8b, 555–577 (1953).
Britten, R. J., andR. B. Roberts: High-resolution density gradient sedimentation analysis. Science131, 32–33 (1960).
Carlson, G. L., andG. J. Brown: The natural occurrence, enzymatic formation, and biochemical siginificance of a hydroxyethyl derivative of thiamine pyrophosphate. J. biol. Chem.236, 2099–2108 (1961).
Davis, B. D.: Isolation of biochemically deficient mutants of bacteria by penicillin. J. Amer. chem. Soc.70, 4267 (1948).
Englesberg, E.: Enzymatic characterization of17 l-arabinose negative mutants ofE. coli. J. Bact.81, 996–1006 (1961).
Franklin, N. C., andS. E. Luria: Transduction by bacteriophage P1 and the properties of the lac genetic region inE. coli and S. dysenteriae. Virology15, 299–311 (1961).
Gounaris, A. D., andL. P. Hager: A resolution of theEscherichia coli pyruvate dehydrogenase complex. J. biol. Chem.236, 1013–1018 (1961).
Gunsalus, I. C.: Group transfer and acyl-generating functions of lipoic acid derivatives. In:W. D. McElroy andB. Glass, A symposium on the mechanism of enzyme action, p. 545–580. Baltimore: Johns Hopkins Press 1954.
Henning, U.: Ein Regulationsmechanismus beim Abbau der Brenztraubensäure durchEscherichia coli: Biochem. Z.337, 490–504 (1963).
—, u.C. Herz: Ein Strukturgen-Komplex für den Pyruvat-dehydrogenase-Komplex vonEscherichia coli K 12. Z. Vererbungsl.95, 260–275 (1964).
—,K. Szolyvay uC. Herz: Der Einfluß von Suppressor-Gen-Mutation und intragenischer Reversion auf Mutationsorte vom O0-Typ. Z. Vererbungsl.95, 276–287 (1964).
Jacob, F., andJ. Monod: On the regulation of gene activity. Cold Spr. Harb. Symp. quant. Biol.26, 193–211 (1961).
Koike, M., L. J. Reed, andW. R. Carroll: α-Keto acid dehydrogenation complexes. I. Purification and properties of pyruvate and α-ketoglutarate dehydrogenation complexes ofEscherichia coli. J. biol. Chem.235, 1924–1930 (1960).
——— α-Keto acid dehydrogenation complexes. IV. Resolution and reconstitution of theEscherichia coli pyruvate dehydrogenation complex. J. biol. Chem.238, 30–39 (1963).
Korkes, S., A. del Campillo, I. C. Gunsalus, andS. Ochoa: Enzymatic synthesis of citric acid. IV. Pyruvate as acetyl donor. J. biol. Chem.193, 721–735 (1951).
Kubowitz, K., u.P. Ott: Isolierung und Kristallisation eines Gärungsfermentes aus Tumoren. Biochem. Z.314, 94–117 (1943).
Lederberg, J., andN. Zinder: Concentration of biochemical mutants of bacteria with penicillin. J. Amer. chem. Soc.70, 4267 (1948).
Lee, N., andE. Englesberg: Coordinate variations on induced synthesis of enzymes associated with mutations in a structural gene. Proc. nat. Acad. Sci. (Wash.)50, 696–702 (1963).
Martin, R. G.: The one operon-one messenger theory of transcription. Cold Spr. Harb. Symp. quant. Biol.28, 357–361 (1963).
Martin, R. G., andB. N. Ames: A method for determining the sedimentation behavior of enzymes: application to protein mixtures. J. biol. Chem.236, 1372–1379 (1961).
Massey, V., T. Hofmann, andG. Palmer: The relation of function and structure in lipoyl dehydrogenase. J. biol. Chem.237, 3820–3828 (1962).
Ohtaka, Y., andS. Spiegelman: Translational control of protein synthesis in a cell free system directed by a polycistronic viral RNA. Science142, 493–497 (1963).
Oster, M. O., andL.-P. Hager: Studies on the control of acetate formation from pyruvate inEscherichia coli. Bact. Proc. 101 (1964).
Ouchterlony, O.: Diffusion-in-gel methods for immunological analysis. Progr. Allergy5, 1–78 (1958).
Reed, L. J., F. R. Leach, andM. Koike: Studies on a lipoic acid-activating system. J. biol. Chem.232, 123–142 (1958).
—, andC. R. Willms: Dissociation of lipoic reductase-transacetylase into subunits. Fed. Proc.22, 290 (1963); sowieReed, L. J.: Persönliche Mitteilung.
Schlessinger, D.: Protein synthesis by polyribosomes on protoplast membranes of B.megaterium. J. molec. Biol.7, 569–582 (1963).
Slein, M. W.:D-Glucose, Bestimmung mit Hexokinase und Glucose-6-phosphat-dehydrogenase. In:H. U. Bergmeyer, Methoden der enzymatischen Analyse, p. 117. Weinheim: Verlag Chemie 1962.
Somerville, R. J., andC. Yanofsky: On the translation of the A gene region of tryptophan messenger RNA. J. molec. Biol.8, 616–619 (1964).
Stent, G. S.: The operon: On its third anniversary. Science144, 816–820 (1964).
Vogel, H. J., andD. M. Bonner: A convenient growth medium forE. coli and some other microorganisms (medium E). Microbial Genetics Bull.13, 43–44 (1956).
Zabin, I.: Proteins of the lactose system. Cold Spr. Harb. Symp. quant. Biol.28, 431–435 (1963).