SEARCH

SEARCH BY CITATION

REFERENCES

  • Ammann, E. C. B. & Lynch, V. H. (1964). Purine metabolism by unicellular algae. II. Adenine, hypox- anthine, and xanthine degradation by Chlorella pyrenoidosa. Biochim. biophys. Acta, 87, 370.
  • Anderson, E. H. (1945). Nature of the growth factor for the colorless alga Prototheca zopfii. J. gen. Physiol, 28, 287.
  • Anon. (1966). Cambridge Culture Collection of Algae and Protozoa. List of Strains.
  • Arnon, D. I. (1938). Microelements in culture-solution experiments with higher plants. Am. J. Bot., 25, 322.
  • Arst, H. N. & Cove, D. J. (1967). Mutations leading to simultaneous derepression in several metabolic pathways of Aspergillus. Heredity. Lond., 22, 163.
  • Bassham, J. A. & Kirk, M. (1964). Photosynthesis of amino acids. Biochim. biophys. Acta, 90, 553.
  • Belcher, J. H. (1967). Notes on the carbon and nitrogen requirements of Furcilla stigmatophora. Arch. Mikrobiol, 58, 181.
  • Belcher, J. H. (1968). The fine structure of Furcilla stigmatophora (Skuja) Korshikov. Arch. Mikrobiol.. 60, 84.
  • Blumenthal, H. J. (1965). Glycolysis. In: The Fungi, Vol. 1 (Ed. by G. C.Ainsworth & A. S.Sussman). p. 229. New York .
  • Bold, H. C. & Parker, B. C. (1962). Some supplementary attributes in the classification of Chlorococcum species. Arch. Mikrobiol, 42, 267.
  • Butt, V. S. & Beevers, H. (1960). Hexose metabolism in maize roots. Biochem. J., 76, 51P.
  • Cain, J. (1965). Nitrogen utilisation in 38 freshwater chlamydomonad algae. Can. J. Bot., 43, 1367.
  • Callely, A. G. & Lloyd, D. (1964). The metabolism of acetate in the colourless alga, Prototheca zopfii. Biochem. J., 90, 483.
  • Casselton, P. J. (1964). Reversal by histidine of the inhibition of Prototheca growth due to 3-amino-1, 2,4-triazole. Nature. Lond., 204, 93.
  • Casselton, P. J. (1966). Further observations on the inhibition of Prototheca zopfii growth by 3-amino-1, 2,4-triazole. Physiologia Pl, 19, 411.
  • Casselton, P. J. (1967). Influence of the nitrogen source on the adenine reversal of 3-amino-1,2,4-triazole inhibition of Prototheca zopfii growth. Can. J. Microbiol., 13, 1564.
  • Casselton, P. J. & Syeett, P. J. (1962a). The oxidation of 14C-labelled glucose by Chlorella vulgaris. I. The time course of 14CO2 production. Ann. Bot. N.s., 26, 71.
  • Casselton, P. J. & Syrett, P. J. (1962b). The oxidation of 14C-labelled glucose by Chlorella vulgaris. II. The fate of radioactive carbon. Ann. Bot. N.s., 26, 83.
  • Ciferri, O. (1956). Thiamine-deficiency oi Prototheca, a yeast-like achloric alga. Nature. Lond., 178, 1475.
  • Ciferri, O. (1962). Carbohydrate metabolism oi Prototheca zopfii. I. Enzymes of the glycolytic and hexose monophosphate pathways. Enzymologia, 24, 283.
  • Clferri, R. (1963). Resiolamento dell Eomyces crieanus Ludw. (Prototheca) e del Rhodomyces dendrorhoeus Ludw. (Monascus) dal “flusso mucoso” di alberi. Riv. Patol. veg., 3, 168.
  • Conway, E. J. (1950). Microdiffusion Analysis and Volumetric Error. London .
  • Cullinmore, D. R. (1966). An adaptive butyrase enzyme system in the alga Prototheca zopfii. Nature. Lond., 209, 531.
  • Davies, R. R., Spencer, H. & Wakelin, P. O. (1964). A case of human protothecosis. Trans. R. Soc. trop. Med. Hyg., 58, 448.
  • El-Ani, A. S. (1967). Life cycle and variation of Prototheca wickerhamii. Science. N.Y., 156, 1501.
  • Fritsch, F. E. (1935). The Structure and Reproduction of the Algae, Vol. I. Cambridge University Press.
  • Holzer, H. & Witt, I. (1960). Beschleunigung des oxydativen Pentosephosphatcyclus in Hefezellen durch Ammoniumsalze. Biochim. biophys. Acta, 38, 163.
  • Hudock, G. A. & Bart, C. (1967). Responses of a mutant strain of Chlamydomonas reinhardi to prolonged organotrophic growth. Pl. Physiol, Lancaster , 42, 186.
  • Ingle, J., Joy, K. W. & Hageman, R. H. (1966). The regulation of activity of the enzymes involved in the assimilation of nitrate by higher plants. Biochem. J., 100, 577.
  • Joy, K.W. & Hageman, R. H. (1966). The purification and properties of nitrite reductase from higher plants, and its dependence on ferredoxin. Biochem. J., 100, 263.
  • Kessler, E. (1964). Nitrate assimilation by plants. A. Rev. Pl Physiol, 15, 57.
  • Kessler, E. (1965). Physiologische und biochemische Beiträge zur Taxonomie der Gattung Chlorella. I. Säureresistenz als taxonomisches Merkmal. Arch. MikrobioL, 52, 291.
  • Kessler, E. (1967a). Physiologische und biochemische Beiträge zur Taxonomie der Gattung Chlorella. III. Merkmale von 8 autotrophen Arten. Arch. MikrobioL, 55, 346.
  • Kessler, E. (1967b). Physiologische und biochemische Beiträge zur Taxonomie der Gattungen Anhstrodes- mus und Scenedesmus. II Säureresistenz. Arch. Mikrobiol, 58, 270.
  • Kessler, E. & Czygan, E. C. (1963). Seasonal changes in the nitrate-reducing activity ot a green alga. Experientia, 19, 89.
  • Kessler, E. & Czygan, E. C. (1966). Physiologische und biochemische Beiträge zur Taxonomie der Gattung Chlorella. II Untersuchungen an Mutanten. Arch. Mikrobiol, 54, 37.
  • Kessler E. & Czygan, E. C. (1967). Physiologische und biochemische Beiträge zur Taxonomie der Gattungen Ankistrodesmus und Scenedesmus. I Hydrogenase, Sekundär-carotmoide und Gelatine- Verflüssigung. Arch. Mikrobiol, 55, 320.
  • Kessler, E. & Soeder, C. J. (1962). Biochemical contributions to the taxonomy of the genus Chlorelta. Nature. Lond., 194, 1096.
  • Kok, W. (1964). Verzeichnis der Sammlung von Algenkulturen am Pflanzenphysiologischen Institut der Universität Göttingen. Arch. Mikrobiol, 47, 402.
  • Krüger, W. (1894). Kurze Charakteristik einiger niederer Organismen im Saftflusse der Laubbäume. Hedwigia, 33, 241.
  • La Rue T. A. & Spencer, J. E. T. (1966). Utilisation of D-amino acids by Prototheca. Can. J. Bot 44, 1222.
  • La Rue, T. A. & Spencer, J. E. T. (1967). The utilisation of D-amino acids by yeasts. Can. J. Microbiol.
  • Lewin, J. & Lewin, R. A. (1967). Culture and nutrition of some apochlorotic diatoms of the genus Nitzschia. J. gen. Microbiol, 46, 361.
  • Lloyd, D. (1965). Respiratory control in mitochondria isolated from the colourless alga Prototheca zopfii. Biochim. biophys. Acta, 110, 425.
  • Lloyd, D. (1966). Inhibition of electron transport in Prototheca zopfii. Phytochem., 5, 527.
  • Lloyd, D. (1967). The isolation of mitochondria from the colourless alga Prototheca zopfii. Expl Cell Res., 45, 120.
  • Lloyd, D. & Callely, A. G. (1965). The assimilation of acetate and propionate by Prototheca zopfii. Biochem. J., 97, 176.
  • Lloyd, D. & Turner, G. (1968). The cell wall of Prototheca zopfii. J. gen. Microbtol, 50, 421.
  • Lloyd, D. & Venables, S. E. (1967). The regulation of propionate oxidation in Prototheca zopfii. Biochem. J., 104, 639.
  • Lowry, O. H., Rosebrough, N. J., Farr, A. L. & Randall, R. J. (1951) - Protein measurement with the Folin phenol reagent, J. Biol. Chem., 193, 265.
  • Ludwig, C. A. (1938). The availability of different forms of nitrogen to a green alga. Am. jf. Bot., 25, 448.
  • Menke, W. & Fricke, B. (1962). Einige Beobachtungen an Prototheca ciferrii. Port. Acta biol. A, 6, 243.
  • Miflin, B. J. (1967). Distribution of nitrate and nitrite reductase in barley. Nature. Lond., 214, 1133.
  • Millbank, J. W. (1953). Demonstration of transaminase systems in the alga Chlorella. Nature. Lond., 171, 476.
  • Pringsheim, E. G. (1966). Nutritional requirements of Haematococcus pluvialis and related species, J. Phycology, 11, 1.
  • Ramírez, J. M., Del Campo, E. E., Paneque, A. & Losada, M. (1966). Ferredoxin-nitrite reductase from spinach. Biochim. biophys. Acta, 118, 58.
  • Rowsell, E. V. (1962). Transaminases in animal tissue homogenates. In: Methods in Enzymology, Vol. V (Ed. by S. P.Colowick & N. O.Kaplan), p. 685. New York .
  • Sanderson, G. W. & Cocking, E. C. (1964). Enzymic assimilation of nitrate in tomato plants. IL Reduction of nitrite to ammonia. Pl. Physiol. Lancaster, 39, 423.
  • Shafer, J.. Baker, J. E. & Thompson, J. E. (1961). A Chlorella mutant lacking nitrate reductase. Am.J. Bot., 48, 896.
  • Boeder, C. J. (1964). Elektronenmikroskopische Untersuchungen an ungeteilten Zellen von Chlorella fusca Shihira et Krauss. Arch. Mikrobiol, 47, 311.
  • Stacey, J. L. & Casselton, P. J. (1966). Utilisation of adenine but not nitrate as nitrogen source by Prototheca zopfii. Nature. Lond., 211, 862.
  • Strecker, H. J. (1955). l-glutamic dehydrogenase fromliver. In: Methods in Enzymology, Vol. II (Ed. by S. P.Colowick & N. O.Kaplan), p. 220. New York .
  • Syrett, P. J. (1956a). The assimilation of ammonia and nitrate by nitrogen-starved cells of Chlorella vulgaris. II. The assimilation of large quantities of nitrogen. Physiologia PL, 9, 19.
  • Syrett, P. J. (1956b). The assimilation of ammonia and nitrate by nitrogen-starved cells of Chlorella vulgaris. III. Differences of metabolism dependent on the nature of the nitrogen source. Physiologia Pl, 9, 28.
  • Syrett, P. J. (1962). Nitrogen assimilation. In: Physiology and Biochemistry of Algae (Ed. by R. A.Lewin), p. 171. New York .
  • Syrett, P. J. (1966). The kinetics of isocitrate lyase formation in Chlorella: evidence for the promotion of enzyme synthesis by photophosphorylation. J. exp. Bot., 17, 641.
  • Syrett, P. J. & Morris, I. (1963). The inhibition of nitrate assimilation by ammonium in Chlorella. Biochim. biophys. Acta, 67, 566.
  • Tubaki, K. & Soneda, M. (1959). Cultural and taxonomie studies on Prototheca. Nagaoa, 6, 25.
  • Turner, G. & Lloyd, D. (1966). The chemical composition and structure of the cell wall of Prototheca zopfii. Biochem. J., 99, 55P.
  • Umbreit, W. W., Burris, R. H. & Stauffer, J. E. (1957). Manometric Techniques. Minneapolis .
  • Wallace, W. & Pate, J. S. (1965). Nitrate reductase in the field pea (Pisum arvense L.). Ann. Bot. N.s., 29, 655.
  • Wallace, W. & Pate, J. S. (1967). Nitrate assimilation in higher plants with special reference to the cocklebur (Xanthium pennsylvanicum Wallr.). Ann. Bot. n.s., 31, 213.
  • Webster, D. A. & Hackett, D. P. (1965). Respiratory chain of colorless algae. I. Chlorophyta and Eugleno-phyta. Pl. Physiol. Lancaster, 40, 1091.
  • Webster, D. A., Hackett, D. P. & Park, R. B. (1968). The respiratory chain of colorless algae. III. Electron microscopy. J. Ultrastruct. Res., 21, 514.
  • Yamamoto, Y. (1966). Variation of adenine dinucleotide phosphate level in bean hypocotyls in relation to O2 concentration. Pl. Physiol. Lancaster, 41, 519.