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REFERENCES

  • Al-Hashimi MH, Perry DA. 1986. Survival and saprobic ability of Monographella nivalis in soil. Transactions of the British Mycological Society 86: 373379.
  • Borrow A, Brown S, Jeffreys EG, Kessell PHJ, Lloyd EC, Lloyd DPB, Rothwell A, Rothwell B, Swait JC. 1964. The effect of varied temperature on the kinetics of metabolism of Gibberella fujikuroi in stirred culture. Canadian Journal of Microbiology 10: 445466.
  • Brown DE. 1988. The submerged culture of filamentous fungi. In: BerryDR, ed. Physiology of industrial fungi. Oxford : Blackwell Scientific. 219248.
  • Cairns AJ. 1987. Colorimetric microtitre plate assay of glucose and fructose by enzyme-linked formazan production: Applicability to the measurement of fructosyl transferase activity in higher plants. Analytical Biochemistry 167: 270278.
  • Cairns AJ. 1989. Fructan biosynthesis in excised leaves of Lolium temulentum L. IV. Cell free 14C labelling of specific oligofructans at low sucrose concentration. New Phytologist 112: 465473.
  • Cairns AJ. 1993. Evidence for the de nova synthesis of fructan by enzymes from higher plants; a reappraisal of the SST/FFT model. New Phytologist 123: 1524.
  • Cairns AJ, Ashton JE. 1991. The interpretation of in vitro measurements of fructosyl transferase activity: an analysis of patterns of fructosyl transfer by fungal invertase. New Phytologist 118: 2334.
  • Cairns AJ, Howarth CJ, Pollock CJ. 1995. Characterisation of acid invertase from the psychrophilic fungus, Monographella nivalis. New Phytologist. (In the press).
  • Cairns AJ, Pollock CJ. 1988a. Fructan biosynthesis in excised leaves of Lolium temulentum L. I. Chromatographic characterization of oligofructans and their labelling patterns following 14CO2 feeding. New Phytologist 109: 399405.
  • Cairns AJ, Pollock CJ. 1988b. Fructan biosynthesis in excised leaves of Lolium temulentum L. II. Changes in fructosyl transferase activity following excision and application of inhibitors of gene expression. New Phytologist 109: 407413.
  • Dejardin RA, Ward EWB. 1971. Studies on the endogenous respiration of the psychrophilic fungus, Typhula idahoensis. Canadian Journal of Botany 49: 20812087.
  • Gaudet DA, Kozub GC. 1991. Screening winter wheat for resistance to cottony snow mould under controlled conditions. Canadian Journal of Plant Science 71: 957965.
  • Gounot AM. 1991. Psychrophilic and psychrotrophic microorganisms. Experientia 42: 11921197.
  • Gupta AK, Bhatia IS. 1980. Glucofructan biosynthesis in Fusarium oxysporum. Phytochemistry 19: 25572563.
  • Gupta AK, Bhatia IS. 1982. Glucofructosan biosynthesis in Fusarium oxysporum: Regulation and substrate specificity of fructosyl transferase and invertase. Phytochemistry 21: 12491253.
  • Hendry G. 1987. The ecological significance of fructan in a contemporary flora. New Phytologist 106 (suppl.): 201216.
  • Hestrin S, Feingold DS, Schramm M. 1955. Hexoside hydrolases. In: ColowickSP, KaplanNO, eds. Methods in Enzymology 1. Academic Press, 231257.
  • Hottiger T, Boller T, Wiemken A. 1987. Rapid changes of heat and desiccation tolerance correlated with changes in trehalose content in Saccharomyces cerevisiae cells subjected to temperature shifts. FEES Letters 220: 113116.
  • Howarth CJ. 1989. Heat shock proteins in Sorghum bicolor and Pennisetum americanum I. Genotypic and developmental variation during seed germination. Plant, Cell and Environment 12: 471477.
  • Howarth CJ, Ougham HJ. 1993. Gene expression under temperature stress. New Phytologist 125: 126.
  • Jamalainen EA. 1974. Resistance in winter cereals and grasses to low temperature parasitic fungi. Annual Review of Phytopathology 12: 218302.
  • Johnson A, Booth C. 1983. Plant pathologist's pocket book, second edition. Commonwealth Mycological Institute.
  • Jones RC, Hough JS. 1970. The effect of temperature on the metabolism of baker's yeast growing in continuous culture. Journal of General Microbiology 60: 107116.
  • Julseth CR, Inniss WE. 1990. Heat shock protein induction and the acquisition of thermotolerance in the psychotrophic yeast Trichosporon pullulans. Current Microbiology 20: 391396.
  • Lawton MB, Burpee LI. 1990. Seed treatments for Typhula blight and pink snow mould of winter wheat and relationships among disease intensity, crop recovery and yield. Canadian Journal of Plant Pathology 12: 6374.
  • Levitt J. 1980. Response of plants to environmental stress. Vol. I, Chilling, freezing and high temperature stress. New York : Academic Press.
  • Mason-Apps S, Cummins WR, Filion, WG. 1990. The characterization of the heatshock response in the artic plant Saxifraga cernua. Canadian Journal of Botany 68: 5662.
  • Matsumoto N, Tajimi A. 1990. Continuous variation within isolates of Typhula ishikariensis biotypes B and C associated with habitat differences. Canadian Journal of Botany 68: 17681773.
  • McAlistair L, Finklestein DB. 1980. Heat shock proteins and thermal resistance in yeast. Biophysical and Biochemical Research Communications 93: 819824.
  • Miller MJ, Xuong N-H, Geiduschek EP. 1979. A response of protein synthesis to temperature shift in the yeast Saccharomyces cerevisiae. Proceedings of the National Academy of Sciences USA 76: 52225225.
  • Moreno S, Sanchez Y, Rodriguez L. 1990. Purification and characterisation of the invertase from Schizosaccharomyces pombe. A comparative analysis with the invertase from Saccharomyces cerevisiae. Biochemical Journal 267: 697702.
  • Morita RY. 1975. Psychrophilic bacteria. Bacteriological Review 39: 144167.
  • Nagao RT, Kimpel JA, Vierling E, Key JL. 1986. The heat shock response: A comparative analysis. Oxford Surveys of Plant Molecular Biology and Cell Biology 3: 384438.
  • Newstead WJ, Huner NPA. 1988. Major sclerotial polypeptides of psychrophilic fungi; Temperature regulation of in vivo synthesis in vegetative hyphae. Canadian Journal of Botany 66: 17551761.
  • Parsell DA, Lindquist S. 1993. The functions of heat-shock proteins in stress tolerance: degradation and reactivation of damaged protein. Annual Review of Genetics 27: 437496.
  • Pelham HRB. 1986. Speculations on the functions of the major heat shock and glucose-regulated proteins. Cell 46: 959961.
  • Perry DA. 1986. Pathogenicity of Monographella nivalis to spring barley. Transactions of the British Mycological Society 86: 287293.
  • Plesofsky-Vig N, Brambl R. 1985. The heat shock response of fungi. Experimental Mycology 9: 187194.
  • Pontis HG, Del Campillo E. 1985. Fructans. In: DeyPM, DixonRA, eds. Biochemistry of storage carbohydrates in green plants. New York : Academic Press, 205227.
  • Pollock CJ, Eagles CE, Sims IM. 1988. Effect of photoperiod and irradiance changes upon development of freezing tolerance and accumulation of soluble carbohydrate in seedlings of Lolium perenne grown at 2 °C. Annals of Botany 62: 95100.
  • Ross GJS. 1987. Maximum likelihood program. Release 3.08. Oxford : Numerical Algorithms Group.
  • Smith JD. 1974. Snow moulds of turfgrasses in Saskatchewan. In: RobertsEC, ed. Proceedings of the second international turfgrass research conference, 313324.
  • Taj-Aldeen SJ, Alkenany KI. 1993. Properties of the cellulolytic system from Aspergillus niveus. Mycological Research 97: 1522.
  • Trinci APJ. 1969. A kinetic study of the growth of Aspergillus nidulans and other fungi. Journal of General Microbiology 57: 1124.
  • Tuite J. 1969. Plant pathological methods; Fungi and bacteria. Minneapolis , USA : Burgess Publishing Company.
  • Vainstein MH, Peberdy JF. 1990. Solubilisation of a cell wall bound invertase in Aspergillus nidulans. FEMS Microbiology Letters 71: 265270.
  • Vainstein MH, Peberdy JF. 1991. Regulation of invertase in Aspergillus nidulans: effect of different carbon sources. Journal of General Microbiology 137: 315321.
  • Vishniac W, Santer M. 1957. The Thiobaccilli. Bacteriological Review 21: 195213.
  • Wale SJ. 1986. A comparison of fungicides for the control of Typhula snow rot in winter barley. Annals of Applied Biology 108: S.42–43.
  • Ward EWB. 1966. Preliminary studies of the physiology of Sclerotinia borealis; a highly psychrophilic fungus. Canadian Journal of Botany 44: 237246.
  • Ward EWB. 1968. Temperature-induced changes in hyphal morphology of the psychrophile Sclerotinia borealis. Canadian Journal of Botany 46: 524525.
  • Willets HJ, Bullock S, Begg E, Matsumoto N. 1990. The structure and histochemistry of sclerotia of Typhula incarnata. Canadian Journal of Botany 68: 20852091.
  • Winters AL, Smeekens SCM, Cairns AJ. 1992. Fructosyl transferase activity in the tissue-macerating preparation, Pectolyase Y-23; Physiological role of fructosyl transfer in Aspergillus and significance for studies of fructan synthesis in grasses. New Phytologist 121: 525533.
  • Woodbridge B, Coley-Smith JR. 1991. Identification and characterisation of isolates of Typhula causing snow rot of winter barley in the United Kingdom. Mycological Research 95: 995999.