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References 235
A. Kuhl (1976). Phosphorus. In W. D. P. Stewart (Ed.), Algal Physiology and Biochemistry, University
of California Press, Berkeley, CA, USA, pp. 636–654.
I. S. Kulaev (1956). The role of polyphosphates in the developmental processes of some mould fungi
(in Russian). Candidate’s Thesis, Moscow State University, Moscow.
I. S. Kulaev (1971). The role of inorganic polyphosphates in evolution of phosphorus metabolism. In
R. Buvet and C. Ponnemperuma (Eds), Molecular Evolution, Vol. 1, North-Holland, Amsterdam,
The Netherlands, p. 458.
I. S. Kulaev (1973). The enzymes of polyphosphate metabolism in protoplasts and some subcellular
structures of Neurospora crassa. In J. Villanueva (Ed.), Yeast Mould and Plant Protoplasts,
Academic Press, London, p. 259.
I. S. Kulaev (1974). The role of inorganic polyphosphates in chemical and biological evolution. In
K. Dose, S. W. Fox, G. A. Deborin and T. E. Pavlovskaya (Eds), The Origin of Life. Evolutionary
Biochemistry, Plenum Press, New York, p. 271.
I. S. Kulaev (1979). The Biochemistry of Inorganic Polyphosphates, 1st Edn, Wiley, .
I. S. Kulaev (1986). Some bioenergetic aspects of antibiotic biosynthesis. In G. K. Skryabin and
C.M. Navashin (Eds.), The Mechanisms of Antibiotic Biosynthesis (in Russian), Nauka Publishers,
Moscow, pp. 46–54.
I. S. Kulaev (1994). Inorganic polyphosphate functions at various stages of cell evolution. J. Biol.
Phys., 20, 255–273.
I. S. Kulaev and T. P. Afanas’eva (1969). Localization and physiological role of inorganic polyphos-
phates in the cells of yeasts. Antonie van Loeuwenhoek J. Microbiol. Serol., 35 (suppl. – Yeast
Symposium), 13–19.
I. S. Kulaev and T. P. Afanas’eva (1970). The physiological role of inorganic polyphosphates in the
yeast Endomyces magnusii (in Russian). Dokl. Akad. Nauk SSSR, 192, 668–670.
I. S. Kulaev and A. N. Belozersky (1957). An investigation using 32 P of the physiological role
of polyphosphates in the development of Aspergillus niger (in Russian). Biokhimiya, 22, 587–
596.
I. S. Kulaev and A. N. Belozersky (1958). An electrophoretic investigation into the polyphosphate–
ribonucleic acid complexes from Aspergillus niger (in Russian). Dokl. Akad. Nauk USSR, 20,
1080–1083.
I. S. Kulaev and A. N. Belozersky (1962a). Condensed inorganic phosphates in the metabolism of
living organisms. Part 1 (in Russian). Izv. Akad. Nauk SSSR, Ser. Biol., 3, 354–369.
I. S. Kulaev and A. N. Belozersky (1962b). Condensed inorganic phosphates in the metabolism of
living organisms. Part 2 (in Russian). Izv. Akad. Nauk SSSR, Ser. Biol., 4, 502–522.
I. S. Kulaev and M. A. Bobyk (1971). Detection of a new enzyme in Neurospora crassa –
1,3-diphosphoglycerate:polyphosphatephosphot-ransferase. Biochemistry (Moscow), 36, 356–359.
I. S. Kulaev and G. I. Konoshenko (1971a). The detection and properties of polyphosphatases of
Neurospora crassa which hydrolyse inorganic polyphosphates to orthophosphate. Biochemistry
(Moscow), 36, 1175–1183.
I. S. Kulaev and G. I. Konoshenko (1971b). The localization of 1,3-diphosphoglycerate-
polyphosphate phosphotransferase in cells of Neurospora crassa (in Russian). Dokl. Akad.
Nauk SSSR, 200, 477–479.
I. S. Kulaev and T. V. Kulakovskaya (2000). Polyphosphate and phosphate pump. Ann. Rev.
Microbiol., 54, 709–735.
I. S. Kulaev and V. I. Mel’gunov (1967). Orthophosphate uptake by the adenine-deficient mutant of
Neurospora crassa, 286-10 HSA (in Russian), Biokhmiya, 32, 913–924.
