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REFERENCES

  • Al-Wakeel S.A.M., El-Garf I. & Saleh N.A.M. (1988) Distribution of flavonoids in Fagonia thebaica complex. Biochemical Systematics and Ecology 16, 5758.
  • Arora R. & Wisniewski M. (1996) Accumulation of a 60-kD dehydrin protein in peach xylem tissues and its relationship to cold acclimation. HortScience 31, 923925.
  • Arora R., Wisniewski M.E. & Scorza R. (1992) Cold acclimation in genetically related (sibling) deciduous and evergreen peach (Prunus persica [L.] Batsch): I. Seasonal changes in cold hardiness and polypeptides of bark and xylem tissues. Plant Physiology 99, 15621568.
  • Ashworth E.N. & Abeles F.B. (1984) Freezing behavior of water in small pores and the possible role in the freezing of plant tissues. Plant Physiology 76, 201204.
  • Ashworth E.N., Echlin P., Pearce R.S. & Hayes T.L. (1988) Ice formation and tissue response in apple twigs. Plant, Cell & Environment 11, 703710.
  • Balakumar T., Vincent V.H.B. & Paliwal K. (1993) On the interaction of UV-B radiation (280–315 nm) with water stress in crop plants. Physiologia Plantarum 87, 217222.
  • Becwar M.R., Rajashekar C., Bristow K.J.H. & Burke M.J. (1981) Deep undercooling of tissue water and winter hardiness limitations in timberline flora. Plant Physiology 68, 111114.
  • Bieza K. & Lois R. (2001) An Arabidopsis mutant tolerant to lethal ultraviolet-B levels shows constitutively elevated accumulation of flavonoids and other phenolics. Plant Physiology 126, 11051115.
  • Burke M.J. & Stushnoff C. (1979) Frost hardiness: a discussion of possible molecular causes of injury with particular reference to deep supercooling of water. In Stress Physiology in Crop Plants (eds H.Musell & R.C.Staples), pp. 197225. Wiley, New York, NY, USA.
  • Burke M.J., Gusta L.V., Quamme H.A., Weiser C.J. & Li P.H. (1976) Freezing and injury in plants. Annual Review of Plant Physiology 27, 507528.
  • Caple G., Layton R.G. & McCurdy S.N. (1983) Biogenic effects in heterogeneous ice nucleation. CryoLetters 4, 5964.
  • Chalker-Scott L. (1999) Environmental significance of anthocyanins in plant stress responses. Photochemistry and Photobiology 70, 19.
  • Christie P.J., Alfenito M.R. & Walbot V. (1994) Impact of low-temperature stress on general phenylpropanoid and anthocyanin pathways: enhancement of transcript abundance and anthocyanin pigmentation in maize seedlings. Planta 194, 541549.
  • Daniell J.W. & Crosby F.L. (1968) Occlusion of xylem elements in peach trees resulting from cold injury. Proceedings of the American Society for Horticultural Science 93, 128134.
  • Dauguet J.C., Bert M., Dolley J., Bekaert A. & Lewin G. (1993) 8-Methoxykaempferol 3-neohesperidoside and other flavonoids from bee pollen of Crataegus monogyna. Phytochemistry 33, 15031505.
  • Dube A., Bharti S. & Laloraya M.M. (1993) Inhibition of anthocyanin synthesis and phenylalanine ammonialyase activity by Co2+ in leaf disks of Terminalia catappa. Physiologia Plantarum 88, 237242.
  • Duman J.G. (2002) The inhibition of ice nucleators by insect antifreeze proteins is enhanced by glycerol and citrate. Journal of Comparative Physiology B 172, 163168.
  • Fletcher N.H. (1970) The Chemical Physics of Ice, pp. 73103. Cambridge University Press, London, UK.
  • Fujikawa S. (1994) Seasonal ultrastructural alterations in the plasma membrane produced by slow freezing in cortical tissues of mulberry (Morus bombycis Koidz. cv. Goroji). Trees 8, 288296.
  • Fujikawa S. & Kuroda K. (2000) Cryo-scanning electron microscopic study on freezing behavior of xylem ray parenchyma cells in hardwood species. Micron 31, 669686.
  • Fujikawa S., Kuroda K. & Fukazawa K. (1994) Ultrastructural study of deep supercooling of xylem ray parenchyma cells from Styrax obassia. Micron 25, 241252.
  • George M.F. (1983) Freezing avoidance by deep supercooling in woody plant xylem: preliminary data on the importance of cell wall porosity. In Current Topics in Plant Biochemistry and Physiology (eds D.D.Randall, D.G.Blevins, R.L.Larson & B.J.Rapp), pp. 8495. University of Missouri Press, Columbia, MO, USA.
  • George M.F. & Burke M.J. (1977) Cold hardiness and deep supercooling in xylem of shagbark hickory. Plant Physiology 59, 319325.
  • George M.F., Burke M.J., Pellett H.M. & Johnson A.G. (1974) Low temperature exotherms and woody plant distribution. HortScience 9, 519522.
  • George M.F., Becwar M.R. & Burke M.J. (1982) Freezing avoidance by deep undercooling of tissue water in winter-hardy plants. Cryobiology 19, 628639.
  • Gusta L.V., Tyler N.J. & Chen T.H.H. (1983) Deep undercooling in woody taxa growing north of the −40°C isotherm. Plant Physiology 72, 122128.
  • Harborne J.B. (1989) Flavonoids. In Natural Products of Woody Plants I (ed. J.W.Rowe), pp. 533570. Springer-Verlag, Berlin, Germany.
  • Holt C.B. (2003) The effect of antifreeze proteins and poly (vinyl alcohol) on the nucleation of ice: a preliminary study. CryoLetters 24, 323330.
  • Hutzler P., Fischbach R., Heller W., Jungblut T.P., Reuber S., Schmitz R., Veit M., Weissenböck G. & Schnitzler J.P. (1998) Tissue localization of phenolic compounds in plants by confocal laser scanning microscopy. Journal of Experimental Botany 49, 953965.
  • Kasuga J., Mizuno K., Miyaji N., Arakawa K. & Fujikawa S. (2006) Role of intracellular contents to facilitate supercooling capability in beech (Fagus crenata) xylem parenchyma cells. CryoLetters 27, 305310.
  • Kasuga J., Arakawa K. & Fujikawa S. (2007a) High accumulation of soluble sugars in deep supercooling Japanese white birch xylem parenchyma cells. New Phytologist 174, 569579.
  • Kasuga J., Mizuno K., Arakawa K. & Fujikawa S. (2007b) Anti-ice nucleation activity in xylem extracts from trees that contain deep supercooling xylem parenchyma cells. Cryobiology 55, 305314.
  • Kawahara H. & Obata H. (1996) Identification of a compound in spices inhibiting the ice-nucleating activity of Erwinia uredovora KUIN-3. Journal of Antibacterial Antifungal Agents 24, 95100.
  • Kawahara H., Nagae I. & Obata H. (1996) Purification and characterization of a new anti-nucleating protein isolated from Acinetobacter calcoaceticus KINI-1. Biocontrol Science 1, 1117.
  • Kawahara H., Masuda K. & Obata H. (2000) Identification of a compound in Chamaecyparis taiwanensis inhibiting the ice-nucleating activity of Pseudomonas fluorescens KUIN-1. Bioscience, Biotechnology, and Biochemistry 64, 26512656.
  • Korn M., Peterek S., Mock H.P., Heyer A.G. & Hincha D.K. (2008) Heterosis in the freezing tolerance, and sugar and flavonoid contents of crosses between Arabidopsis thaliana accessions of widely varying freezing tolerance. Plant, Cell & Environment 31, 813827.
  • Krol M., Gray G.R., Hurry V.M., Öquist G., Malek L. & Huner N.P.A. (1995) Low-temperature stress and photoperiod affect an increased tolerance to photoinhibition in Pinus banksiana seedlings. Canadian Journal of Botany 73, 11191127.
  • Kuroda K., Kasuga J., Arakawa K. & Fujikawa S. (2003) Xylem ray parenchyma cells in boreal hardwood species respond to subfreezing temperatures by deep supercooling that is accompanied by incomplete desiccation. Plant Physiology 131, 736744.
  • Leng P., Itamura H., Yamamura H. & Deng X.M. (2000) Anthocyanin accumutation in apple and peach shoots during cold acclimation. Scientia Horticulturae 83, 4350.
  • Li J., Ou-Lee T.M., Raba R., Amundson R.G. & Last R.L. (1993) Arabidopsis flavonoid mutants are hypersensitive to UV-B irradiation. The Plant Cell 5, 171179.
  • Mabry T.J., Markham K.R. & Thomas M.B. (1970) Systematic Identification of Flavonoids. Springer-Verlag, Berlin, Germany.
  • MacKenzie A.P. (1977) Non-equilibrium freezing behaviour of aqueous systems. Philosophical Transactions of the Royal Society of London, Series B 278, 167189.
  • Malone S.R. & Ashworth E.N. (1991) Freezing stress response in woody tissues observed using low-temperature scanning electron microscopy and freeze substitution techniques. Plant Physiology 95, 871881.
  • Markham K.R., Ryan K.G., Gould K.S. & Rickards G.K. (2000) Cell wall sited flavonoids in lisianthus flower petals. Phytochemistry 54, 681687.
  • Markham K.R., Gould K.S. & Ryan K.G. (2001) Cyotoplasmic accumulation of flavonoids in flower petals and its relevance to yellow flower colouration. Phytochemistry 58, 403413.
  • Mita S., Murano N., Akaike M. & Nakamura K. (1997) Mutants of Arabidopsis thaliana with pleiotropic effects on the expression of the gene for β-amylase and on the accumulation of anthocyanin that are inducible by sugars. The Plant Journal 11, 841851.
  • Parker J. (1962) Relationships among cold hardiness, water-soluble protein, anthocyanins, and free sugars in Hedera helix L. Plant Physiology 37, 809813.
  • Parody-Morreale A., Murphy K.P., Di Cera E., Fall R., DeVries A.L. & Gill S.J. (1988) Inhibition of bacterial ice nucleators by fish antifreeze glycoproteins. Nature 333, 782783.
  • Pearce R.S. (1988) Extracellular ice and cell shape in frost-stressed cereal leaves: a low-temperature scanning-electron-microscopy study. Planta 175, 313324.
  • Polster J., Dithmar H., Burgemeister R., Friedemann G. & Feucht W. (2006) Flavonoids in plant nuclei: detection by laser microdissection and pressure catapulting (LMPC), in vivo staining, and uv-visible spectroscopic titration. Physiologia Plantarum 128, 163174.
  • Quamme H.A. (1991) Application of thermal analysis to breeding fruit crops for increased cold hardiness. HortScience 26, 513517.
  • Quamme H., Stushnoff C. & Weiser C.J. (1972) The relationship of exotherms to cold injury in apple stem tissues. Journal of the American Society for Horticultural Science 97, 608613.
  • Quamme H., Weiser C.J. & Stushnoff C. (1973) The mechanism of freezing injury in xylem of winter apple twigs. Plant Physiology 51, 273277.
  • Quamme H.A., Chen P.M. & Gusta L.V. (1982) Relationship of deep supercooling and dehydration resistance to freezing injury in dormant stem tissues of ‘Starkrimson Delicious’ apple and ‘Siberian C’ peach. Journal of the American Society for Horticultural Science 107, 299304.
  • Rayyan S., Fossen T., Nateland H.S. & Andersen Ø.M. (2005) Isolation and identification of flavonoids, including flavone rotamers, from the herbal drug ‘Crataegi folium cum flore’ (Hawthorn). Phytochemical Analysis 16, 334341.
  • Ryan K.G., Swinny E.E., Markham K.R. & Winefield C. (2002) Flavonoid gene expression and UV photoprotection in transgenic and mutant Petunia leaves. Phytochemistry 59, 2332.
  • Sakai A. (1960) Survival of the twig of woody plants at −196°C. Nature 185, 393394.
  • Sakai A. & Larcher W. (1987) Frost Survival of Plants: Responses and Adaptation to Freezing Stress. Springer-Verlag, Berlin, Germany.
  • Sarnighausen E., Karlson D. & Ashworth E. (2002) Seasonal regulation of a 24-kDa protein from red-osier dogwood (Cornus sericea) xylem. Tree Physiology 22, 423430.
  • Saslowsky D.E., Warek U. & Winkel B.S.J. (2005) Nuclear localization of flavonoid enzymes in Arabidopsis. Journal of Biological Chemistry 280, 2373523740.
  • Schmucker T. (1947) Anthocyan im Holz der Rotbuche. Naturwissenschaften 34, 91.
  • Sherwin H.W. & Farrant J.M. (1998) Protection mechanisms against excess light in the resurrection plants Craterostigma wilmsii and Xerophyta viscosa. Plant Growth Regulation 24, 203210.
  • Shirley B.W. (1996) Flavonoid biosynthesis: ‘new’ functions for an ‘old’ pathway. Trends in Plant Science 1, 377382.
  • Smith G.J. & Markham K.R. (1998) Tautomerism of flavonol glucosides: relevance to plant UV protection and flower colour. Journal of Photochemistry and Photobiology A 118, 99105.
  • Steponkus P.L. (1984) Role of the plasma membrane in freezing injury and cold acclimation. Annual Review of Plant Physiology 35, 543584.
  • Sweeney T.E. & Beuchat C.A. (1993) Limitations of methods of osmometry: measuring the osmolality of biological fluids. American Journal of Physiology: Regulatory, Integrative and Comparative Physiology 264, R469R480.
  • Takata N., Kasuga J., Takezawa D., Arakawa K. & Fujikawa S. (2007) Gene expression associated with increased supercooling capability in xylem parenchyma cells of larch (Larix kaempferi). Journal of Experimental Botany 58, 37313742.
  • Tournaire C., Croux S., Maurette M.T., Beck I., Hocquaux M., Braun A.M. & Oliveros E. (1993) Antioxidant activity of flavonoids: efficiency of singlet oxygen (1Δg) quenching. Journal of Photochemistry and Photobiology B 19, 205215.
  • Tsuda T., Shiga K., Ohshima K., Kawakishi S. & Osawa T. (1996) Inhibition of liqid peroxidation and the active oxygen radical scavenging effect of anthocyanin pigments isolated from Phaseolus vulgaris L. Biochemical Pharmacology 52, 10331039.
  • Vali G. (1971) Quantitative evaluation of experimental results on the heterogeneous freezing nucleation of supercooled liquids. Journal of Atmospheric Sciences 28, 402409.
  • Wang J.R., Duan J.A. & Zhou R.H. (1999) Chemical constituents from bark of Cercidiphyllum japonicum. Acta Botanica Sinica 41, 209212.
  • Wilson P.W. & Leader J.P. (1995) Stabilization of supercooled fluids by thermal hysteresis proteins. Biophysical Journal 68, 20982107.
  • Wisniewski M., Davis G. & Schaffer K. (1991) Mediation of deep supercooling of peach and dogwood by enzymatic modifications in cell-wall structure. Planta 184, 254260.
  • Wowk B. & Fahy G.M. (2002) Inhibition of bacterial ice nucleation by polyglycerol polymers. Cryobiology 44, 1423.
  • Yamashita Y., Kawahara H. & Obata H. (2002) Identification of a novel anti-ice-nucleating polysaccharide from Bacillus thuringiensis YY529. Bioscience, Biotechnology, and Biochemistry 66, 948954.