Bibliografie selectivă
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Aretz, W., Koller, K. P., Riess, G., 1989, Proteolytic enzymes from recombinant Streptomyces lividans TK24, FEMS Microbiol. Letts., 65, p.31-36.
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Ball, A. S., Mc Carthy, A. J., 1988, Saccharification of straw by actinomycetes enzymes, J. Gen. Microbiol., 134, p.2139-2147.
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Baltz, R. H., Seno, E. T., 1988, Genetics of Streptomyces fradiae and tylosin biosynthesis, Ann. Rev. Microbiol., 42, p. 547-574.
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Bayer, E. A., Setter, E., Lamed, R., 1985, Organization and distribution of the cellulosome in Clostridium thermocellum, J. Bact., 163, p.552-559.
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Beguin, P., 1990, Molecular biology of cellulose degradation, Ann. Rev. Microbiol., 44, p. 219-248.
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Beyer, M., Diekman, H., 1985, The chitinase system of Streptomyces sp. ATCC 11238, Appl. Microbiol. Biotechnol., 23, p. 140-146
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Billich, A., Keller, U., Kleinkauf, H., Zocher, K., 1988, Production of protoplasts from Fusarium scirpi by lytic enzymes from Streptomyces tsusimaensis, Appl. Microbiol. Biotechnol., 28, p.442-444
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Binnie, C., Warren, M., Butler, M. J., 1989, Cloning and heterologous expression in S.lividans of S.rimosus genes involved in oxytetracycline biosynthesis, J. Bact., 171, p. 887-895
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Bond, K., Stutzenberger, F., 1989, A note on the localization of cellulosome formation in Thermomonospora curvata, J. Appl. Bacteriol., 67, p. 605-609.
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Bonner, M. A., Stutzenberger, F., 1988, Cell surface changes in Thermomonospora curvata during cellulase induction and repression, Letts. Appl. Microbiol., 6, p.59-63.
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Buttner, M. J., Smith, A. M., Bibb, M. J., 1988, At least three different RNA polymerase holoenzymes direct transcription of the agarase gene (dagA) of S.coelicolor A3(2), Cell, 52, p. 599-607.
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Chardon-Loriaux, I., Charpentier, M., Percheron, F., 1986, Isolation and characterization of a linear plasmid from Streptomyces rimosus, FEMS Microbiol.Letts., 35, p.151-155.
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Chater,K., Bruton,C.J., 1985, Resistance, regulatory and production genes for the antibiotic methylenomycin are clustered, EMBO.J., 4, p.1893-1900.
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Cornea, 1996, Obţinerea unor bacterii cu importanţă biotehnologică prin fuziunea şi transformarea genetică a protoplaştilor, Teză de doctorat, Universitatea Bucureşti.
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Cornea, C. P., Cogălniceanu, G., Brezeanu, A., Vatafu, I., Savu, L., Popescu, I., Pop, A., 1992, Obţinerea protoplaştilor de tutun prin utilizarea unui preparat enzimatic brut de Streptomyces sp. SD16, St. Cercet. Biol., 44, p. 85-88.
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Cornea, C. P., Vatafu, I., Pop, A., Brezeanu, A., Savu, L., Dobrotă, S., 1993, Interspecific protoplast fusion in Streptomyces, Rev. Roum. Biol., 38, p. 49-53.
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Cornea, C. P., Vatafu, I., Savu, L., 1994, Plasmid transfer by protoplast fusion, Microbiol. Ind. Biotehnol., 8, p. 145-148.
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Coughlan, B. P., 1988, Staining techniques for the detection of the individual components of cellulolytic enzyme system, Methods in Enzymology, 160, p. 135-145.
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Cundliff, E., 1989, How antibiotic-producing organims avoid suicide, Ann. Rev. Microbiol., 43, p. 207-233.
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Damude, H. G., Gilkes, N. R., Kilburn, D. G., Miller, R. C., Warren, R. A., 1993, Endoglucanase Cas A from alkalophilic Streptomyces strain KSM-9 is a tipical member of family B of â-1,4-endoglucanase, Gene, 123, p. 105-107.
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Davies, J., 1990, What are antibiotics? Archaic functions for modern activities, Molec. Microbiol. , 4 (8), p. 1227-1232.
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Deobald, L. A., Crawford, D. L., 1987, Activities of cellulase and other extracellular enzymes during lignin solubilization by Streptomyces viridosporus, Appl. Microbiol. Biotechnol., 28, p. 158-163.
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Dimcev, A., 1988, Protoplast from antibiotic-producing actinomycetes. Application in the biotechnology, Biotechnol. Bioeng., 4, p. 12-19.
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Doyle, R. J., 1994, Introduction to lectins and their interactions with microorganisms, in Lectin-Microorganism Interaction, Eds. R.J.Doyle si M.Slifkin, Marcel Dekker Inc., p. 1-65.
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Duitman, E., Hamoen, L., Rembold, M., Vater, L., 1999, The mycosubtilin synthetase of Bacillus subtilis ATCC6633: A multifunctional hybrid between a peptide synthetase, an amino transferase, and a fatty acid synthase, Proc. Natl. Acad. Sci. USA: 96 (23), 13294-13299.
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Felix, C. R., Ljungdahl, L. G., 1993, The cellulosome: the exocellular organelle of Clostridium, Ann. Rev. Microbiol., 47, p. 791-819.
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Fernandez-Abalos, J. M., Sanchez, P., Coll, P. M., Villanueva, J. R., Perez, P., Santamaria, R. I., 1992, Cloning and nucleotide sequence of celA1, an endo-β-1,4-glucanase-encoding gene from Streptomyces halstedii JM8, J. Bacteriol., 174, p. 6338-6376.
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Ghangas, G. S., Wilson, D. B., 1988, Cloning of the Thermomonospora fusca endoglucanase E2 gene in Streptomyceslividans: affinity purification and functional domains of the cloned gene product, Appl. Envir. Microbiol., 54, p. 2521-2526.
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Gilbert, H. J., Hazlewood, G. P., 1993, Bacterial cellulases and xylanases, J. Gen. Microbiol., 139, p. 187-194.
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Godden, B., Legon, T., Helvenstein, P., Penninckx, M., 1989, Regulation and production of hemicellulolytic and cellulolytic enzymes by a Streptomyces sp. growing on lignocellulose, J. Gen. Microbiol., 135, p. 285-292.
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Gokhale, D. V., Deobagkar, D. N., 1989, Differential expression of xylanase and endoglucanase in the hybrid derived from intergeneric protoplast fusion between Cellulomonas sp. and Bacillus subtilis, Appl. Envir. Microbiol., 55, p. 2675-2680.
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Gormley, E. P., Cantwell, B. A., Barker, P. J., Mc Connell, D. J., 1988, Secretion and processing of the Bacillus subtilis endo-â-1,3-14-glucanase in Escherichia coli, Molec. Microbiol, 2, p. 813-819.
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Horikoshi, K., Nakao, M., Kurono, Y., Sashihara, N., 1984, Cellulases of an alkalophilic Bacillus strain isolated from soil, Can. J. Microbiol., 30, p. 774-779.
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Imanaka, T., 1986, Application of recombinant DNA technology to the production of useful biomaterials, Adv. Biochem. Eng., 33, p. 1-27.
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Ishaque, M., Kluepfel, D., 1980, Cellulase complex of a mesophilic Streptomyces strain, Can. J. Microbiol., 26, p. 183 – 189.
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Kakoniova, D., Labudova, I, Liskova, D., 1987, Callus culture as substrate for the production of specific cell wall degradind enzymes for derived protoplast isolation, Biotechnol. Letts., 9, p. 721-724.
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Kinashi, H., 1988, Giant linear plasmids in Streptomyces and antibiotic production, in Biology of Actinomycetes '88, Japan Scientific Societies Press, p. 117-122.
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Kinashi, H., 1989, Giant linear plasmids in various methylenomycin-producing strains of Streptomyces species, in Genetics and Molecular Biology of Industrial Microorganisms, Ed. C. L. Hershberger, S. W. Queener, G. Hegeman, ASM, p. 141-146.
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Kirby, R., Hopwood, D. A., 1977, Genetic determination of methylenomycin biosynthesis by the SCP1 plasmid of Streptomyces coelicolor A3(2), J. Gen. Microbiol., 98, p. 239-252.
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Kluepfel, D., Shareck, F., Mondou, F., Morosoli, R., 1986, Characterization of cellulase and xylanase activities of Streptomyces lividans, Appl. Microbiol. Biotechnol., 24, p. 230-234.
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Lamed, R., Naimark, J., Morgenstern, E., Bayer, E. A., 1987, Specialized cell surface structures in cellulolytic bacteria, J. Bacteriol., 169, p. 3792-3800.
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Mansouri, K., Pissowotzki, K., Distler, J., Ebert, A., Piepersberg, W., 1989, Genetics of streptomycin production, în Genetics and molecular biology of industrial microorganisms, Ed. Hershberger, C. L., Queener, S. W., Hegeman, G., ASM, p. 61-67.
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Martin, J. F., 1989, Molecular mechanisms for the control by phosphate of the biosynthesis of antibiotics and other secondary metabolites, în Regulation of secondary metabolism in Actinomycetes, Ed. S. Shapiro, Boca Raton, CRC, p. 230-251.
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Martin, J. F., Liras, P., 1989, Organization and expression of genes involved in the biosynthesis of antibiotics and other secondary metabolites, Ann. Rev. Microbiol., 43, p. 173-206.
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Mc Carthy, A. J., Williams, S. T., 1992, Actinomycetes as agents of biodegradation in the environment - a review, Gene, 115, p. 189-192.
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Nakano, M. N., Butsuya, I., Ogawara, H., 1989, Expression of the kanamycin resistance gene in a kanamycin-producing strain of S. kanamyceticus, J. Antib., 42, p. 423-430.
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Nakano, M. N., Mashiko, H., Ogawara, H., 1984, Cloning of the kanamycin resistance gene from a kanamycin producing Streptomyces species, J. Bact., 157, p. 79-83.
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Okanishi, M., Katagiri, K., Furumai, T., Takeda, K., Kawagichi, K., Saitoh, M., Nabeshima, S., 1983, Basic techniques for DNA cloning and conditions required for streptomycetes as host, J. Antib., 36, p. 99-108.
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Okuda, T., Ito, Y., 1982, Biosynthesis and mutasynthesis of aminoglycoside antibiotics, în Aminoglycoside antibiotics, Ed. Umezawa, H., Hooper, I. R., Springer Verlag., p. 111-203.
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Omich, P. K., 1988, Streptomyces cloning: useful recombinant DNA systems and a summation of cloned genes, Antim. Ag. Chemoth., 32, p. 1465-1471.
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Peberdy, J. F., Illing, G. T., 1985, Genetic manipulation of antibiotic producer strains, in The Scientific Basis of Antimicrobial Chemotherapy, Ed. D. Greenwood, F. O' Grady, p.283-322.
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Pettey, T. M., Crawford, D. L., 1984, Enhancement of lignin degradation in Streptomyces spp. by protoplast fusion, Appl. Envir. Microbiol., 47, p. 439-440.
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Pokorny, M., Vitale, L., 1980, Enzymes as by-products during biosynthesis of antibiotics, în Industrial and Clinical Enzymology, Ed. Vitale, L., Simeon, V., Pergamon Press Oxford, p. 13-25.
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Pongs, O., 1979, Cloramphenicol, în Antibiotics, Ed.Hahn, F. E., Springer Verlag, 5, p. 26-42.
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Ramachandra, M., Crawford, D. L., Pometta, A. L., 1987, Extracellular enzyme activities during lignocellulose degradation by Streptomyces spp.: a comparative study of wild-type and genetically manipulated strains, Appl. Envir. Microbiol., 53, p. 2754-2760.
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Robson, J. M., Chambliss, G. H., 1989, Cellulases of bacterial origin, Enzyme Microbiol. Technol., 11, p. 626-644.
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Schlochtermeier, A., Miemeier, F., Schrempf, H., 1992, Biochemical and electron microscopic studies of the Streptomyces reticuli cellulase (avicelase) in its mycelium-associated and extracellular forms, Appl. Environ. Microbiol., 58, p. 3240-3248.
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Schlochtermeier, A., Walter, S., Schroder, J., Moorman, M., Schrempf, H., 1992, The gene encoding the cellulase (avicelase) Cel1 from Streptomyces reticuli and analysis of protein domains, Molec. Microbiol., 6, p. 3611-362.
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Srinivasan, M. C., Laxman, R. S., Deshpande, M. V., 1991, Physiology and nutritional aspects of actinomycetes: an overview, World J. Microbiol. Biotechnol., 7, p. 171-184.
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Tiraby, G., Bejar, S., Reynes, J. P., Sicard, P. J., Farber, G. K., Ringe, D., Petsko, G. A., 1989, Genetic, enzymatic and crystallographic studies of the glucose isomerase of two Streptomyces species, în Genetics and molecular biology of industrial microorganisms, Ed. Hershberger, C. L., Queener, S. W., Hegeman, G., ASM, p. 119-126.
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Vining, L. C., 1990, Functions of secondary metabolites, Ann. Rev. Microbiol., 44, p. 395-427
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Vining, L. C., 1992, Secondary metabolism, inventive evolution and biochemical diversity: a review, Gene, 115, p. 135-140.
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Wachinger, G., Bronnenmeier, K., Staudenbauer, W. L., Schrempf, H., 1989, Identification of mycelium-associated cellulase from Streptomyces reticuli, Appl. Environ. Microbiol., 55, p. 2653-2657.
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Wilson, D. B., 1992, Biochemistry and genetics of actinomycete cellulase, Crit.Rev. Biotechnol., 12, p. 45-63.
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Winkelmann G., Allgaier H., Lupp R., Jung G., Iturin AL- a new long chain iturin a possessing an unusual high content of C16--amino acids, J Antibiot (Tokyo) 1987 Apr., 40(4): 437-42.
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Wood, T. M., Bhat, K. M., 1988, Methods for measuring cellulase activities, Methods Enzymol., 160, p. 87-112.
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Zarnea, G., 1984, Tratat de microbiologie generală, 1, Ed. Academiei.
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Zimmermann, W., 1989, Hemicellulolytic enzyme systems from actinomycetes, în Enzyme systems for lignocellulose degradation, Ed. Coughlan, M. P., Elsevier Applied Science, p. 167-181.
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Zimmermann, W., Davis, B., Winter, B., Shou,W., 1992, Actinomycetes and their enzymes for applications in the pulp and paper industry, în Biotechnology in Pulp and Paper Industry, Ed. Kuwahara, M., Shimada, M., Uni Publishers, Co. LdT, p. 145-150.
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