Free access
Issue
Ann. For. Sci.
Volume 60, Number 3, April 2003
Page(s) 271 - 276
DOI http://dx.doi.org/10.1051/forest:2003018

References

  1. Anderson A.B., Scheffer T.C., Duncan C.G., On the decay retardant properties of some tropolones, Science 137 (1962) 859-860.
  2. Arima Y., Hatanaka A., Tsukihara S., Fujimoto K., Fukuda K., Sakurai H., Scavenging activities of $\alpha$, $\beta$, $\delta$-thujaplicins against active oxygen species, Chem. Pharm. Bull. 45 (1997) 1881-1886.
  3. Bohme G., Schonfeld P., Kuster U., Kung W., Lyr H., The multifunctional actions of $\beta$-thujaplicin on the oxidative energy transformations as a consequence of its lipophilic and chelating properties, Acta Biol. Med. Germ. 39 (1980) 1153-1163.
  4. Barton B.M., MacDonald B.F., The chemistry and utilisation of western Red Cedar, Canadian For. Ser. Pub. 1023 Ottawa, Canada, 1971.
  5. Erdtman H., Gripenberg J., Antibiotic substances from the heartwood of Thuja plicata Donn., Nature 4097 (1948) 719.
  6. Erdtman H., Gripenberg J., Antibiotic substances from the heartwood of Thuja plicata Donn. II. The constitution of d- thujaplicin, Acta Chem., Scand. 2 (1948) 625-638.
  7. Fengel D., Wegener G., Extractives : phenolic compounds in: W. de Gruyter (Ed.), Wood chemistry, ultrastructure, reactions, Berlin, New York (1984) pp. 194-197.
  8. Fujita Y., Hara Y., Ogino T., Suga C., Production of shikonin derivatives by cell suspension culture of Lithospermum erythrorhizon, Plant Cell Rep. 1 (1981) 59-60.
  9. Gamborg O.L., Miller R.D., Ojima K., Nutrient requirements of suspension cultures of soybean root cells, Plant Physiol. 66 (1968) 205-211.
  10. Haluk J.P., Roussel C., Caractérisation et origine des tropolones responsables de la durabilité naturelle des Cupressacées. Application potentielle en préservation du bois, Ann. For. Sci. 57 (2000) 819-829.
  11. Haluk J.P., Roussel C., Comparaison des activités antifongiques et antitermites de tropolones commerciales et d'extraits cellulaires de Red Cedar. Application en préservation du bois, Récents Progrès en Génie des procédés (matière biologique et systèmes vivants), No. 87, Vol. 15 (2001) 25-31.
  12. Inada S., Tsutsumi Y., Sakai K., Elicitor of the $\beta$-thujaplicin accumulation in callus of Cupressus lusitanica, J. Fac Agr. Kyushu Univ. 38 (1993) 119-126.
  13. Inamori Y., Tsujibo H., Ohishi H., Ishii F., Mizugaki M., Aso H., Ishida N., Cytotoxic effect of hinokitiol and tropolone on the growth of mamalian cells and on blastogenesis of mouse splenic T cells, Biol. Pharm. Bull. 16 (1993) 521-523.
  14. Johansson C.I., Saddler J.N., Beatson R.P., Characterization of the polyphenolics related to the colour of western Red Cedar (Thuja plicata Don.) heartwood, Holzforschung 54 (2000) 246-254.
  15. Kernéis H., Le western Red Cedar, un géant au bois léger et durable, Bois Mag. 1 (2000) 11-14.
  16. Lewis H.F., The signifiant chemical components of western hemlock, Douglas-fir, Western Red cedar, lobloly pine and black spruce, Tappi 33 (1950) 299-301.
  17. Mac Lean H., Gardner J.A.F., Analytical method for thujaplicins, Anal. Chem. 28 (1956) 509-512.
  18. Miyashita M., Hara S., Yoshikosshi A., A regiospecific synthesis of $\beta$-thujaplicin (hinokitiol) from 2-isopropanol, J. Org. Chem. 52 (1987) 2602-2604.
  19. Moret D., Utilisation de biomolécules d'origine végétale à activité biocide élevée comme agents de substitution des produits chimiques toxiques de préservation du bois, DEA Sciences du Bois, Université Henri Poincaré, Nancy I, 1997.
  20. Murashige T., Skoog L., A revised medium for rapid growth and bioassays with tobacco tissue culture, Physiol. Plantarum 15 (1962) 473-497.
  21. Okabe T., Saito K., Otomo V., Antimicrobial activity and safety of hinokitiol, Fragrance J. 17 (1989) 74-79 (in Japanese).
  22. Ono M., Asai T., Watanabe H., Hinokitiol production in a suspension culture of Calocedrus formosana Florin, Biosci. Biotechnol. Biochem. 62 (1998) 1653-1659.
  23. Richards J.H., Ferretti L.D., Tropolone biogenesis, Biochem. Biophys. Research Commun. 2 (1960) 107-110.
  24. Roussel-Bousta C., Utilisation de biomolécules à activité biocide élevée comme agents de préservation du bois. Application à la rosine de tall-oil et aux tropolones naturelles, Thèse de Doctorat de l'Université Henri Poincaré (Technologies industrielles, Sciences du bois), Nancy I, 2000.
  25. Saito K., Okabe T., Fukui T., Ynamori Y., Antibacterial activity of hinokitiol against methicillin-resistant Staphylococcus aureus (MRSA). II. Applications to the desinfections of hospital environments, Mokuzai Gakkaishi 43 (1997) 882-891 (in Japanese).
  26. Sakai K., Kusaba K., Tsutsumi Y., Shiraishi T., Secondary metabolites in cell culture of woody plants. III. Formation of $\beta$-thujaplicin in Cupressus lusitanica callus cultures treated with fungal elicitors, Mokuzai Gakkaishi 40 (1994) 1-5.
  27. Sakai K., Yamaguchi T., Itose R., Biosynthesis of a heartwood tropolone, $\beta$-thujaplicin, Mokuzai Gakkaishi 43 (1997) 696-698.
  28. Tamburtin-Thumin I., Crozet M.P., Barrière J.C., A convenient method for the alkylation of tropolone derivatives and related a-cetohydroxy compounds, Synthesis 7 (1999) 1149-1154.
  29. Yamaguchi T., Fijita K., Sakai K., Biological activity of extracts from Cupressus lusitanica cell culture, J. Wood Sci. 45 (1999) 170-173.
  30. Yamakawa T., Kato S., Ishida K., Kodama T., Minoda Y., Production of anthocyanins by Vitis cells in suspension culture, Agric. Biol. Chem. 47 (1983) 2185-2191.
  31. Yamato M., Mashigaki R., Sakai J., Kawasaki Y., Tsukagoshi S., Synthesis and antitumor activity of tropolones derivatives, J. Med. Chem. 30 (1987) 117-120.
  32. Zhao-Jian K., Fujita K., Sakai K., Production of $\beta$-thujaplicin in Cupressus lusitanica suspension cultures fed with organic acids ans monoterpenes, Biosci. Biotechnol. Biochem. 65 (2001) 1027-1032.

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