Жизнь микробов в экстремальных условиях - Кашнер Д.
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Мосин А. Ф„ Петрова К. М., Харчук А. И., Абатуров 10. Д. (1974). Токсическое действие арсената на дрожжи, Микробиология, 43, 94—98.
Nelson J. D„ Blair W., Brinckman F, E., Colwell R. R„ Iberson W. P. (1973). Biodegradation of phenylmcrcuric acetate by mercury-resistant bacteria, Appl. Microbiol., 26, 321—326.
Nielsen'A. М., Beck /. V. (1972). Chalcolite oxidation and coupled carbon dioxide fixation by Thiobacillus ferrooxidans, Science, 175, 1124—1126.
Novick R. P., Roth C. (1968). Plasmid-linked resistance to inorganic salts in Staphylococcus aureus, J. Bacteriol., 95, 1335—1342.
Nowosielski O., Knezek B. D., Ellis B. G. (1971). Evaluation of toxicity of metals, NTA and EDTA by Aspergillus niger bioassay, Am. Chem. Soc., Div. Water Air Waste Chem. Gen. Papers, 11, 32—38.
O’Callaghan R. J., Buncly L., Bradley R„ Paranchych W. (1973). Unusual arsenate poisoning of the F pili of Escherichia coli, J. Bacteriol., 115, 76—81.
Oster K. A., Golden M. J. (1954). Fungistatic and fungicidal compounds. In: Antiseptics, Disinfectants, Fungicides, and Chemical and Physical Sterilization (Ed. G. F. Reddish), pp. 548—565, Lea and Febiger, Philadelphia.
Ottow I. С. G. (1968). Evaluation of iron-reducing bacteria in soil and the physiological mechanism of iron reduction in Aerobacter aerogenes (Enterobacter aerogenes), Z. AUg. Mikrobiol., 8, 441—443.
Ottow J. C. G. (1969). Influence of nitrate, chlorate sulfate, form of iron oxide and growth conditions of the extent of bacteriological reduction of iron, Z. Pfl-Ernahr. Bodenk., 124, 238—253.
, Ottow J. C. G. (1970). Selection, characterization and iron-reducing capacity of nitrate reductaseless (nit-) mutants of iron-reducing bacteria, Z. Allg. Microbiol., 10, 55—62.
Ottow J. C. G. (1971). Iron reduction and gley formation by nitrogen-fixing Clostridia, Oecologia, 6, 164—175.
Ou J. Т., Anderson T. F. (1972). Effect of Zn2+ on bacterial conjugation: Inhibition of mating pair formation, J. Bacteriol., Ill, 177—185.
Перфильев Б. В., Габе Д. P. (1965). The use of the microbial-landscape method to investigate bacteria which concentrate manganese and iron in bottom deposits. In: Applied Capillary Microscopy. The Role of Microorganisms in the Formation of Iron-Manganese Deposits (Eds. Б. В. Перфильев, Д. P. Габе, А. М. Гальперина, В. А. Рабинович, А. А. Сапотницкий, E. E. Шерман, E. П. Трошанов), p. 9—54, Consultants Bureau, New York.
Praeve P. (1957). Untersuchungen ueber die Stoffwechselphysiologie des Eisen-bakteriums Leptothrix ochrae Kuetzing, Arch. Mikrobiol., 27, 33—62.
Ramamoorthy S., Kushner D. I. (1975a). Binding of mercuric and other heavy metal ions by microbial growth media, Microb. Ecol., 2, 162—176.
Ramamoorthy S., Kushner D. J. (1975b). Heavy metal binding components of river water, J. Fish. Res. Board Canada, 32, 1755—1766.
Razzell W. E„ Trussell P. C. (1963). Microbiological leaching of metallic sulfides, Appl. Microbiol., 11, 105—110.
Renshaw E. C„ Rosenberg B., Van Camp L. (1966). Platinum-induced growth in Escherichia coli, Bacteriol. Proc.., p. 74.
Romans I. B. (1954). Oligodynamic metals. In: Antiseptics, Disinfectants,
Fungicides, and Chemical and Physical Sterilization (Ed. G. F. Reddish), pp. 388—428, Lea and Febiger, Philadelphia.
Ross D, A. (1972). Red sea hot brine area: revisited, Science, 175, 1455—1457.
Sadler W. R., Trudinger P. A. (1967). The inhibition of microorganisms by heavy metals, Min. Dep., 2, 158—168.
Sartory A., Meyer J. (1947). Contribution a l’etude du metabolisme hydrocarbo-ne des bacteries ferrugenieuses, C. R. Acad. Sci., 225, 541—542.
Sastry K. S., Adiga P. R., Venkatasubramanyam V., Sarma P. S. (1962). Interrelation in trace-element metabolism in metal toxicities in Neurospora crassa, Biochem. J., 85, 486—491.
Sauchelli V. (1969). Trace Elements in Agriculture. Van Nostrand Reinhold Co., New York, Cincinnati, Toronto, London and Melbourne.
Schrauzer G. N.. Weber J. H., Beckham Т. М., Ho R. K. Y. (1971). Alkyl group transfer from cobalt to mercury: reaction of alkyl cobalamins, alkyl-cobaloximes, and of related compounds with mercuric acetate, Tetrahedron , Lett., 3, 275—277.
Schweisfurth R. (19C8). Untersuchungen ueber manganoxydierende und-reduzie-rende Mikroorganismen, Mitt. Internat. Verein. Kimnol., 14, 179—186.
Schweisfurth R. (1971). Manganoxydierende Pilze. I. Vorkommen, Isoliernng und mikroskopische Untersuchungen, Z. Allg. Mikrobiol., 11, 415—430.
Sherman J. M„ Albus W. R. (1923). Physiological youth in bacteria, J. Bacteriol., 8, 127—139.
Silver S., Kralovic M. L. (1969). Manganese accumulation by Escherichia coli: evidence for a specific transport system, Biochem. Biophys. Res. Commun., 34, 640—645.
Silver М., Torma A. E. (1974). Oxidation of metal sulfides by Thiobacillus ferrooxidans grown in different substrates, Can. J. Microbiol., 20, 141—147.
Silver S., lohnsenie P., King К¦ (1970). Manganese active transport in Escherichia coli, J. Bacteriol., 104, 1299—1306.
