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References

  • Aparicio, P. J., Balandin, T., Maurino, S. G. & Maldonado, J. M. (1985). Photoregulation of nitrate utilization in green algae and higher plants. Photochemistry and Photobiology, 42, 765770.
  • Asada, K., Tamura, G. & Bandurski, R. S. (1969). Methyl viologen-linked sulfite reductase from spinach leaves. Journal of Biological Chemistry, 244, 49044915.
  • Azuara, M. P. & Aparicio, P. J. (1983). In vivo blue-light activation of Chlamydomonas reinhardii nitrate reductase. Plant Physiology, 71, 286290.
  • Balandin, T., Fernandez, V. M. & Aparicio, P. J. (1986). Characterization of the reversible inactivation of Ankistrodesmus braunii nitrate reductase by hydroxylamine. Plant Physiology, 82, 6570.
  • Bennoun, P. & Joliot, A. (1969). Etude de la photooxydation de l'hydroxylamine par les chloroplasts d'epinards. Biochimica et Biophysica Acta, 189, 8594.
  • Bhagwat, A. S., Ramakrishna, J. & Sane, P. V. (1978). Specific inhibition of oxygenase activity of ribulose-1,5-diphosphate carboxylase by hydroxylamine. Biochemical and Biophysical Research Communications, 83, 954962.
  • Bouges, B. (1971). Action de faibles concentrations d'hydroxylamine sur remission d'oxygen des algues Chlorella et des chloroplastes d'epinards. Biochimica et Biophysica Acta, 234, 103112.
  • Bouges-Bocquet, B. (1973). Limiting steps in photosystem II and water decomposition in Chlorella and spinach chloropasts. Biochimica et Biophysica Acta, 292, 772785.
  • Cammack, R., Fry, I. V. & Payne, M. J. (1987). The significance of iron-nitrosyl complexes in biology and in the reaction of assimilatory nitrite reductase. In: Inorganic Nitrogen Metabolism (Ed. by W. R.Ullrich, P. J.Aparicio, P. J.Syrett & F.Castillo), pp. 192194. Springer-Verlag, Berlin , Heidelberg .
  • Cheniae, G. M. & Martin, I. F. (1971). Effects of hydroxylamine on photosystem II. I. Factors affecting the decay of O2 evolution. Plant Physiology, 47, 568575.
  • Czygan, F. C. (1965). Zur Frage der Zwischenprodukte der Nitratreduktion bei Griinalgen. Planta, 64, 301311.
  • Da Fonseca-Wollheim, F., Bergmeyer, H. V. & Gutmann, I. (1974). Ammoniak. In: Methoden der Enzymatischen Analyse, 2nd Edn, pp. 18501853. Verlag Chemie, Weinheim .
  • Hageman, R. H., Cresswell, C. F. & Hewitt, E. J. (1962). Reduction of nitrate, nitrite and hydroxylamine to ammonia by enzymes extracted from higher plants. Nature, 193, 247250.
  • Hewitt, E. J. (1975). Assimilatory nitrate-nitrite reduction. Annual Review of Plant Physiology, 26, 73100.
  • Hewitt, E. J. & Hucklesby, D. P. (1966). Molecular exclusion chromatography of nitrite and hydroxylamine reductases from plants with reference to electron donor systems. Biochemical and Biophysical Research Communications, 25, 689693.
  • Hewitt, E. J. & Nicholas, D. J. D. (1964). Enzymes of inorganic nitrogen metabolism. In: Modern Methods of Plant Analysis, vol. 7 (Ed. by K.Peach & M. V.Tracey), pp. 67172. Springer-Verlag, Berlin , Heidelberg & New York .
  • Hewitt, E. J., Hucklesby, D. P. & Betts, G. F. (1968). Nitrite and hydroxylamine in inorganic nitrogen metabolism with reference principally to higher plants. In: Recent Aspects of Nitrogen Metabolism in Plants (Ed. by E. J.Hewitt & C. V.Cutting), pp. 4781. Academic Press, London & New York .
  • Hucklesby, D. P. & Hageman, R. H. (1976). Hydroxylamine reductase enzymes from maize scutellum and their relationship to nitrite reductase. Plant Physiology, 57, 693698.
  • Hucklesby, D. P. & Hewitt, E. J. (1970). Nitrite and hydroxylamine reduction in higher plants. Fractionation, electron donor and substrate specificity of leaf enzymes, principally from vegetable marrow (Cucurbita pepo L.). Biochemical Journal, 119, 615625.
  • Hucklesby, D. P., Dowling, M. J. & Hewitt, E. J. (1981). Metabolism of hydroxylamine by spinach leaf discs and its relationship to nitrate reduction. Planta, 151, 151156.
  • Hucklesby, D. P., Dowling, M. J. & Hewitt, E. J. (1982). Cyanide formation from glyoxylate and hydroxylamine catalysed by extracts of higher-plant leaves. Planta, 156, 487491.
  • Jawali, N. & Sane, P. V. (1984). Inhibition of the nitrate reductase complex from spinach by oxylamines. Phytochemistry, 23, 225228.
  • Kono, Y. (1984). Cu (II)-dependent inactivation of Mn-catalase by hydroxylamine. Biochemical and Biophysical Research Communications, 124, 7579.
  • Losada, M., Guerrero, M. G. & Vega, J. M. (1981). The assimilatory reduction of nitrate. In: Biology of Inorganic Nitrogen and Sulfur (Ed. by H.Bothe & A.Trebst), pp. 3063. Springer-Verlag, Berlin , Heidelberg & New York .
  • Mckee, H. S. (1962). Nitrogen Metabolism in Plants, pp. 2528. Oxford University Press. London (Clarendon Press.Oxford).
  • Nason, A. (1962). Symposium on metabolism of inorganic compounds. II. Enzymatic pathways of nitrate, nitrite and hydroxylamine metabolisms. Bacteriological Reviews, 26, 1641.
  • Osajima, Y. & Yamafuji, K. (1964). Reduction of nitrate to ammonia by enzymes isolated from green algae. Enzymologia, 27, 129140.
  • Senger, H. (1970). Charakterisierung einer Synchronkultur von Scenedesmus obliquus, ihrer potentiellen Photosyntheseleistung und des Photosynthese-quotienten wahrend des Entwicklungszyklus. Planta, 90, 243246.
  • Snell, F. D. & Snell, C. T. (1949). Coloritnetric Methods of Analysis, p. 804. Van Nostrand, New York .
  • Solomonson, L. P. (1974). Regulation of nitrate reductase activity by NADH and cyanide. Biochimica et Biophysica Acta, 334, 297308.
  • Solomonson, L. P. & Spehar, A. M. (1979). Stimulation of cyanide formation by ADP and its possible role in the regulation of nitrate reductase. Journal of Biological Chemistry, 254, 21762179.
  • Steward, F. C. & Street, H. E. (1947). The nitrogenous constituents of plants. Annual Review of Biochemistry, 16, 471502.
  • Syrett, P. J. & Morris, I. (1963). The inhibition of nitrate assimilation by ammonium in Chlorella. Biochimica et Biophysica Acta, 67, 566575.
  • Ullrich, W. R., Aparicio, P. J., Syrett, P. J. & Castillo, F., (Eds) (1987). Inorganic Nitrogen Metabolism. Springer-Verlag, Berlin , Heidelberg .
  • Vaidyanathan, C. S. & Street, H. E. (1959). Nitrate reduction by aqueous extracts of excised tomato roots. Nature, 184, 531533.
  • Vennesland, B. (1981). HCN and the control of nitrate reduction. The regulation of the amount of active nitrate reductase present in Chlorella cells. In: Biology of Inorganic Nitrogen and Sulfur (Ed. by H.Bothe & A.Trebs), pp. 233243. Springer-Verlag, Berlin .
  • Waelsch, H. (1952). Certains aspects of intermediary metabolism of glutamine, asparagine, and glutathione. In: Advances in Enzymology, vol. 13 (Ed. by F. F.Nord), pp. 237319. Interscience Publishers, New York .
  • Wood, J. G. (1953). Nitrogen metabolism of higher plants. Annual Review of Plant Physiology, 4, 122.
  • Zumft, W. G. (1972). Ferredoxin: nitrite oxidoreductase from Chlorella. Purification and properties. Biochimica et Biophysica Acta, 276, 363375.