Free access
Volume 61, Number 3, May-June 2006
Page(s) 171 - 184
Published online 30 June 2006
  1. Balls A.K., Kevorkian A.G., Arana F.E., Process for curing vanilla beans, United States Patent Office, No. 2274120, USA, 1942, 1 p.
  2. Ansaldi G., Gil G., Le Petit J., Procédé d’obtention d’arôme naturel de vanille par traitement des gousses de vanille verte et arôme obtenu, Brevet, INPI, No. 2634979, France, 1988, 7 p.
  3. Rabak F., The effect of curing on the aromatic constituents of vanilla beans, J. Ind. Eng. Chem. 8 (1916) 815–821. [CrossRef]
  4. Balls A.K., Arana F.E., The curing of vanilla, J. Ind. Eng. Chem. 33 (1941) 1073–1075. [CrossRef]
  5. Jones M.A., Vicente G.C., Criteria for testing vanilla in relation to killing and curing methods, J. Agric. Res. 78 (1949) 425–434.
  6. Jones M.A., Vicente G.C., Inactivation and vacuum infiltration of vanilla enzyme systems, J. Agric. Res. 78 (1949) 435–444.
  7. Broderick J.J., A preliminary investigation of the quick curing of vanilla beans, Food Technol. 10 (1956) 188–189.
  8. Ranadive A.S., Szkutnica K., Guerrera J.G., Frenkel C., Vanillin biosynthesis in vanilla beans, in: Proc. 9th Int. Congr. Essent. Oils, Singapore, Malaysia, 1983, pp. 147–154.
  9. Hanum T., Changes in vanillin and activity of Formula -glucosidase and oxidases during post harvest processing of vanilla bean (Vanilla planifolia), Bull. Teknol. Ind. Pengan VIII (1997) 46–52.
  10. Jiang M., Pu F., Xie W.-S., Hu Y.Q., Li Y., Activity of three enzymes in Vanilla capsule, Acta Bot. Yunnanica 22 (2000) 187–190.
  11. Dignum M.J.W., Kerler J., Verpoorte R., Formula -glucosidase and peroxydase stability in crude enzyme extracts from green beans of Vanilla planifolia Andrews, Phytochem. Anal. 12 (2001) 174–179. [CrossRef] [PubMed]
  12. Dignum M.J.W., Kerler J., Verpoorte R., Vanilla curing under laboratory conditions, Food Chem. 79 (2002) 165–171. [CrossRef]
  13. Dignum M., Biochemistry of the processing of vanilla beans, Univ. Leiden, Thesis, Leiden, Nederland, 2002, 103 p.
  14. Havkin-Frenkel D., French J.C., Pak F., Frenkel C., Inside vanilla: Vanilla planifolia’s botany, curing options and future market prospects, Perfum. Flavor. 30 (2005) 36–55.
  15. Pérez-Silva A., Odoux E., Brat P., Ribeyre F., Rodriguez-Jimenes G., Robles-Olvera V., García-Alvarado M. A., Günata Z., GC-MS and GC-olfactometry analysis of aroma compounds in a representative organic aroma extract from cured vanilla (Vanilla planifolia G. Jackson) beans, Food Chem. (2006) 99 (4) 728–735.
  16. Röling W.F.M., Kerler J., Braster M., Apriyantono A., Stam H., Van Verseveld H.W., Microorganisms with a taste for vanilla: microbial ecology of traditional Indonesian vanilla curing, Appl. Environ. Microbiol. 67 (2001) 1995-2003. [CrossRef] [PubMed]
  17. Lecomte H., Sur la formation du parfum de la vanille, CR Séances Acad. Sci. (Paris) T133 (1901) 745–748.
  18. Lecomte H., Formation de la vanilline dans la vanille, Agric. Prat. Pays Chauds 13 (1913) 3–14.
  19. Goris A., Sur la composition chimique des fruits verts de vanille et le mode de formation du parfum de la vanille, CR Acad. Sci. 179 (1924) 70–72.
  20. Goris A., Formation du parfum de la vanille, Ind. Parfum. 2 (1947) 4–12.
  21. Janot M.M., Formation du parfum de la vanille, in: Bouriquet G. (Eds.), Le vanillier et la vanille dans le monde, Paul Lechevalier, Paris, France, 1954.
  22. Leong G., Archavlis A., Derbesy M., Research on the glucosides fraction of the vanilla bean, J. Essent. Oil Res. 1 (1989) 33–41.
  23. Leong G., Uzio R., Derbesy M., Synthesis, identification and determination of glucosides present in green vanilla beans (Vanilla fragrans Andrews), Flavour Fragranc. J. 4 (1989) 163–167. [CrossRef]
  24. Leong G., Contribution à l’étude des hétérosides des gousses de vanille vertes, Univ. Marseille III, Thèse, Marseille, France, 1991, 153 p.
  25. Kanisawa T., Tokoro K., Kawahara S., Flavour development in the beans of Vanilla planifolia, in: Kurihara K., Suzuki N., Ogawa H. (Eds.), Proc. Int. Symp., Tokyo, Japan, 1994, pp. 268–270.
  26. Kanisawa T., Flavor development in vanilla beans, Kouryou 180 (1993) 113–123.
  27. Dignum M.J.W., Van Der Heijden R., Kerler J., Winkel C., Verpoorte R., Identification of glucosides in green beans of Vanilla planifolia Andrews and kinetics of vanilla Formula -glucosidase, Food Chem. 85 (2004) 199–205. [CrossRef]
  28. Sagrero-Nieves L., Schwartz S.J., Phenolic content of Vanilla planifolia as affected by harvest period, J. Food Compos. Analys. 1 (1988) 362–365. [CrossRef]
  29. Brodelius P.E., Phenylpropanoid metabolism in suspension cultures of Vanilla planifolia Andr. V. High performance liquid chromatographic analysis of phenolic glycosides and aglycones in developing fruits, Phytochem. Anal. 5 (1994) 27–31. [CrossRef]
  30. Havkin-Frenkel D., Podstolki A., Witkowska E., Molecki P., Mikolajczyk P., Vanillin biosynthetic pathways: an overview, in: Fu T.J., Singh G., Curtis W.R. (Eds.), Plant cell and tissue culture for the production of food ingredients, Kluwer Acad./Plenum Publ., New York, USA, 1999.
  31. Arana F.E., Action of a Formula -glucosidase in the curing of vanilla, Food Res. 8 (1943) 343–351.
  32. Brunerie P.M., Procédé d’obtention d’arôme naturel de vanille par traitement enzymatique des gousses de vanille verte et arôme obtenu, Int. Pat. Appl., No. PCT/FR92/00837, France, 1993, 11 p.
  33. Odoux E., Changes in vanillin and glucovanillin concentrations during the various stages of the process traditionally used for curing Vanilla fragrans beans in Réunion, Fruits 55 (2000) 119–125.
  34. Zenk M.H., Biosynthese of vanillin in Vanilla planifolia Andr., Z. Pflanzenphysiol. 53 (1965) 404–414.
  35. Funk C., Brodelius P.E., Influence of growth regulators and an elicitor on phenylpropanoid metabolism in suspension cultures of Vanilla planifolia, Phytochem. 29 (1990) 845–848. [CrossRef]
  36. Funk C., Brodelius P.E., Phenylpropanoid metabolism in suspension cultures of Vanilla planifolia Andr. II. Effects of precursor feeding and metabolic inhibitors, Plant Physiol. 94 (1990) 95–101. [CrossRef] [PubMed]
  37. Funk C., Brodelius P.E., Phenylpropanoid metabolism in suspension cultures of Vanilla planifolia Andr. III. Conversion of 4-methoxycinnamic acids into 4-hydroxybenzoic acids, Plant Physiol. 94 (1990) 102–108. [CrossRef] [PubMed]
  38. Funk C., Brodelius P.E., Phenylpropanoid metabolism in suspension cultures of Vanilla planifolia Andr. IV. Induction of vanillic acid formation, Plant Physiol. 99 (1992) 256–262. [CrossRef] [PubMed]
  39. Funk C., Brodelius P.E., Vanilla planifolia Andrews: in vitro biosynthesis of vanillin and other phenylpropanoid derivatives, in: Bajaj Y.P.S. (Ed.), Biotechnology in agriculture and forestry, Springer Verlag, Berlin-Heidelberg, Germany, 1994.
  40. Knorr D., Caster C., Dörneburg H., Dorn R., Gräf S., Havkin-Frenkel D., Podstolski A., Werrman U., Biosynthesis and yield improvement of food ingredients from plant cell and tissue cultures, Food Technol. (1993) 57–63.
  41. Havkin-Frenkel D., Podstolski A., Knorr D., Effect of light on vanillin precursors formation by in vitro cultures of Vanilla planifolia, Plant Cell Tiss. Org. 45 (1996) 133–136. [CrossRef]
  42. Havkin-Frenkel D., Dorn R., Leustek T., Plant tissue culture for production of secondary metabolites, Food Technol. 51 (1997) 56–61.
  43. Podstolski A., Havkin-Frenkel D., Malinowski J., Blount J., Kourteva G., Dixon R.A., Unusual 4-hydroxybenzaldehyde synthase activity from tissue cultures of the vanilla orchid Vanilla planifolia, Phytochem. 61 (2002) 611–620. [CrossRef]
  44. Pak F.E., Gropper S., Dai W.D., Havkin-Frenkel D., Belanger F.C., Characterization of a multifunctional methyltranferase from the orchid Vanilla planifolia, Plant Cell Rep. 22 (2004) 969–966.
  45. Odoux E., Chauwin A., Brillouet J.M., Purification and characterization of vanilla bean (Vanilla planifolia Andrews) Formula -D-glucosidase, J. Agric. Food Chem. 51 (2003) 3168–3173. [CrossRef] [PubMed]
  46. Wild-Altamirano C., Enzymatic activity during growth of vanilla fruit. 1. Proteinase, glucosidase, peroxidase and polyphenoloxidase, J. Food Sci. 34 (1969) 235–238. [CrossRef]
  47. Heckel E., De l’action du froid et des anesthésiques sur les feuilles de Angaecum fragrans Thou. (Faham) et sur les gousses vertes de la vanille, C.R. Acad. Sci. (Paris) 151 (1910) 128–131.
  48. Odoux E., Contribution à l’étude de l’hydrolyse de la glucovanilline en vanilline dans la « gousse » du vanillier (Vanilla planifolia G. Jackson), Univ. Montpellier II, Thèse, Montpellier, France, 2004, 149 p.
  49. De Lanessan J.-L., Vanille, in: de Lanessan J.-L. (Eds.), Les plantes utiles des colonies françaises, Impr. Natl., Paris, France, 1886.
  50. Joel D.M., French J.C., Graft N., Kourteva G., Dixon R.A., Havkin-Frenkel D., A hairy tissue produces vanillin, Isr. J. Plant Sci. 51 (2003) 157–159. [CrossRef]
  51. Swamy B.G.L., On the life-history of Vanilla planifolia, Bot. Gaz. 108 (1947) 449–456. [CrossRef]
  52. Odoux E., Escoute J., Verdeil J.L., Brillouet J.-M., Localization of Formula -D-glucosidase activity and glucovanillin in vanilla bean (Vanilla planifolia Andrews), Ann. Bot. 92 (2003) 437–444. [CrossRef] [PubMed]
  53. Boudet A.M., Alibert A., Marigo G., Vacuoles and tonoplast in the regulation of cellular metabolism, in: Membranes and compartmentation in the regulation of plant functions, Clarendon Press, Oxford, UK, 1984.
  54. Wink M., Compartmentation of secondary metabolites and xenobiotics in plant vacuoles, Adv. Bot. Res. 25 (1997) 141–169. [CrossRef]
  55. Beckman C. H., Phenolic-storing cells: keys to programmed cell death and periderm formation in wilt disease resistance and in general defence responses in plants? Physiol. Mol. Plant Pathol. 57 (2000) 101–110. [CrossRef]
  56. Bartholomew D.M., Van Dyk D.E., Cindy Lau S.-M., O’keefe D.P., Rea P.A., Viitanen P.V., Alternate energy-dependent pathways for the vacuolar uptake of glucose and glutathione conjugates, Plant Physiol. 130 (2002) 1562–1572. [CrossRef] [PubMed]