Producción de aceites esenciales en cultivos in vitro de tejidos vegetales
DOI:
https://doi.org/10.19053/mdm93e52Palabras clave:
Aceites esenciales, monoterpenos , cultivos in vitroResumen
El uso de técnicas cultivo in vitro para la producción de metabolitos secundarios es una de las áreas emergentes en las ciencias biológicas; con la ayuda de las estrategias básicas, las herramientas genéticas y un entendimiento cada vez mayor de la biosíntesis de algunos compuestos, es posible cultivar tejidos en condiciones fisicoquímicas apropiadas para lograr éxito en la producción in vitro de compuestos de interés. El objetivo de esta revisión es abordar algunos temas de investigación importantes para la producción de aceites esenciales a partir de materiales vegetales cultivados in vitro, como alternativa a los métodos de producción tradicional. Este campo de trabajo es atractivo si se logran entender los mecanismos para producir efectivamente dichos compuestos olorosos.
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Referencias
A. Fahn (1979). Secretory Tissues in Plants. Academic Press, London..
A. Giria, V. Dhingraa,C. Girib, A. Singhc, O.P. Wardc, M. Lakshmi Narasua. (2001). Biotransformations using plant cells, organ cultures and enzyme systems: current trends and future prospects. Biotechnology Advances, 19. 175–199.
A. Guedes, L. Amorim, A. Vicente, G. Ramos, M. Fernández-Ferreira, (2003). Essential oils from plants and in vitro Shoots of Hypericum androsaeamum L.J.Agr.Food Chem., p. 1399.
A. Mallouchos, P. Skandamis, P. Loukatos, M. Komaitis, A. Koutinas and M. Kanellaki (2003). Volatile Compounds of wines produced by cell immbolize on grape skins. J. Agric. Food Chem., 51, 3060-3066.
A.H. Scragg (1996). The production of aromas by plant cell cultures. Vol. 51, p. 47 in Biotechnology of aroma compounds.
B. Kangsadan, M. Kenji, A. Yoshihiko, Y. Norishige and K. Tadahiko (2003). Hydroperoxy-arachidonic acid mediated n-hexanal and (Z)-3- and (E)-2- nonenal formation in Laminaria angustata. Phytochemistry 63. p. 669.
B.V. Charlwood, J.T. Brown, C. Moustou, G.S. Morris, K.A. Charlwood (1988).The accumulation of isoprenoid flavour compounds in plant cell cultures. In Scherier, Ed. Bioflavour, 87.We de Gruyter. Berlin,p. 303.
B.V. Charlwood, K.A. Charlwood (1991). Monoterpenoids. In Charlwood BV, Banthorpe DV, Terpenoids. Academic Press, London. p. 43.
C. Osorio and C. Duque (1995). Volátiles generados por hidrólisis enzimática de glicosídos de hojas de lulo (solanum quitoense 1). Rev Col Quím. 24 (2). pр. 69.
C. Osorio, C. Duque, F. Batista-Viera (2003). Studies on aroma generation in Lulo (Solanum quitoense): Enzymatic hydrolysis of glycosides from leaves. Food chemistry, 81. 333-340.
D. Courtois, D. Yvernel and B. Florin (1988). Conversion of tryptamine to serotonin by cell suspension cultures of Peganum harmala. Phytochem. 27. p. 3137.
D. Knorr, S. Miazga and R. Teutonico (1985). Immobilization and permeabilization of cultured plant cells. Food Technol. 39 (10). p. 135.
D. Mc Caskill and R. Croteau. (1996). Prospects for the Bioengineering of isoprenoid biosíntesis. 55,p. 107.
Duque, Carmenza; Osorio, Coralia and Fujimoto, Yoshinori (1999). C13-Norisoprenoid Glucoconjugates from Lulo (Solanum quitoense L.) Leaves. J. of Agric. Food Chem. 47, (4). p. 1641.
F. Bourgaud, A. Gravot, S. Milesi, E. Gontier (2001). Production of plant secondary metabolites: a historical perspective Plant Science 161, 839–851.
F. Constabel (1987). Cytodifferentaition. In Scherier (ed).Bioflavour, 87. We de Gruyter. Berlin, p. 303.
F. Karp, C.A. Mihaliak, J.L. Harris, R. Croteau (1990). Monoterpene biosynthesis: specificity of the hydroxylation of (-)-limonene by enzyme preparations from peppermint (Mentha piperita), spearmint (Mentha spicata) and perilla (Perilla frutescens) leaves. Arch Biochem Biophys 276. р. 219.
G. Gil, P. Ferreira Dos Santos, C. Bullard (1995). Biotransformation of D2-carene by callus tissues. Phytochemistry, 38. pp. 629-631.
H. Dörnenburg (2004). Evaluation of immobilisation effects on metabolic activities and productivity in plant cell processes. Process Biochemistry 39. p. 1369.
H. E. Flores, M.W. Hoy, J.J. Pickard (1987). Trends Biotechnol., 5. p. 64.
H. Hamada, H. Yasumune, Y. Fuchikami, T. Hirata,C. Sattler (1997). Biotransformation of geraniol, nerol and (+/-) and (d)-carvone by suspension cultures of Cathranthus roseus. Phytochemistry;44. p. 615.
H. Sugisawa, K. Miwa, T. Matsuo, H. Tamura (1988). Volatile compounds produced from the cultured cells of thyme (Thyme Vulgaris). In Scherier P (ed).Bioflavour, 87. We de Gruyter. Berlin, p. 327.
H.A. Collin (2001). Secondary product formation in plant tissue cultures, Plant Growth Regulation, 34(1). p. 119.
H.A. Collin, M. Watts (1984). Handbook of Plant Cell Culture; Evans, D. A.,; Sharp, W. R.; Ammirato, P. V.; Yamada, Y., Eds.; Macmillan Publishing: New York, Vol.1, Chapt. 24.
I. Koch-Heitzmannn and W. Schultze (1987). Compilation of volatile compounds found in plant cell cultures. In Scherier P (ed).Bioflavour, 87. We de Gruyter. Berlin, p. 365.
J. Rohloff (1999). Monoterpene composition of essential oil from peppermint (Mentha × piperita L.) with regard to leaf position using solid-phase microextraction and gas chromatography/mass spectrometry analysis. J Agric Food Chem 47. p. 3782.
J.H. Langenheim (1994). Higher plant terpenoids: a phytocentric overview of their ecological roles. J Chem Ecol 20. p. 1223.
J.T. Brown, P.K. Hegarty, B.V. Charlwood. (1987). The toxicity of monoterpenes to plant cell cultures. 'Mono-and Sesquiterpene Biosynthesis in Plant Cells in Culture' Cell and tissue studies in vitro. Bioflavour,1987.
J.W. Gramshaw, C.M. Cotton, L.V. Evans (1987). Production of flavour volatiles by callus and suspension cultures of tarragon (Artemisia dracunculus). En: Schreier P (ed) Bioflavour 87. W. de Gruyer, Berlin. p. 341.
K. Ushiyama (1996). Presented at the Institute of Food Technologists Annual Meeting, New Orleans, LA, June; paper 45-5.
M.M. Yeoman, M.B. Miedzybrodza, K. Lindsey and W.R. McLaughklin, (1980). The synthetic potential of cultured plant cells. Plant cell cultures: results and prospectives. Elseviet. Amsterdam. p. 3227.
N. Pras, G.E. Booi, D. Dijkstra, A.S. Horn, T.M. Malingre (1990). Bioconversion of bi- and tri-cyclic monophenols by alginate entrapped cells of Mucuna pruriens and by partially purified Mucuna phenoloxidase. Plant Cell, Tissue Organ Cult, 21 p. 9.
N. Sakui, M. Kuroyanagi, Y. Ishitobi, M. Sato, A. Keno (1992). Biotransformation of sesquiterpenes by cells of Curcuma zedoaria. Phytochemistry; 31. p. 143.
O.M. Sahai (1994). Tissue Culture. En: Bioprocess production of flavour fragrance and color ingredients. Ed. A. Gabelman, J.Wiley, pp. 239-275.
P. Meller and R. Riel (1990). Tecnologías de América del Norte para el procesamiento de alimentos. IICA. Doc 14.
P. Santos and F. Fernandez (2003). Essential oils produced by in Vitro Shoots of Sage (Salvia officinalis L.) J. Agric Food Chem. 51, pp. 2260-2266.
P. Suprasanna, G. Bharati, T. Ganapathi and V.А. Bapat (1999). Aroma in rice: effects of proline supplementation and immobilization of callus cultures. Plant Cell Culture Technology Section, Nuclear Agriculture and Biotechnology Division, Bhabha Atomic Research Centre, Trombay, Mumbai 400 085, India.
P. Suprasanna, T.R. Ganapathi, N.K. Ramaswamy, K.K. Surendranathan, and P.S. Rao (1998). Aroma synthesis in cell and callus cultures of rice. Rice Genet. Newsl. 15. p. 123.
R. Croteau and K.V. Venkatachalam (1986). Metabolism of monoterpenes: demonstration that (+)-cis-isopulegone, not piperitenone, is the key intermediate in the conversion of (-)-isopiperitenone to (+)-pulegone in peppermint (Mentha piperita). Arch Biochem Biophys 249. р. 306.
R. Moshy (1985). Impact of biotechnology on food ingredients. Food Technol. 39(10). р. 113.
R.B. Kjonaas, K.V. Venkatachalam, R. Croteau (1985). Metabolism of monoterpenes: oxidation of isopiperitenol to isopiperitenone, and subsequent isomerization to piperitenone by soluble enzyme preparations from peppermint (Mentha piperita) leaves. Arch Biochem Biophys 238. р. 49.
Ramachandra Rao and G.A. Ravishanka (2002). Plant cell cultures: Chemical factories of secondary metabolites. Biotechnology Advances. 20 (2). p. 101
S. Lidija, D. Grubisic and G. Vunjak-Novakovie (2000). Bioreactors for plant engineering: an outlook for further research. Biochem. Eng. J. 4. p. 89.
S.H. Park, S.U. Kim (1998). Modified monoterpenes from biotransformation of (')-isopiperitinone by suspension cell culture of Mentha piperita. J Nat Prod. 61. р. 354.
T. Songsak, G.B. Lockwood. (2004). Production of two volatile glucosinolate hydrolysis compounds in Nasturtium montanum and Cleome chelidonii plant cell cultures. Fitoterapia. 75. p. 296.
T. Vanek, I. Valterova, R. Vankova, T. Vaisar (1999). Biotransformation of (á) limonene using Solanum aviculare and Dioscorea deltoidea immobilized plant cells. Biotechnol Lett. 21. p. 625.
Tong-Jen Fu (1998). Safety considerations for food ingredients produced by plant cell and tissue culture. Chemtech, 28 (1). p. 40.
V. Derek Banthorpe, J. Thomas Grey, Ian Poots and D. William Fordham (1986). Monoterpene metabolism in cultures of Rosa species. Phytochemistry. 25 (10). p. 2321.
V. Derek, C.O. Vincent (1984). Light-dependent monoterpene synthesis in Pinus radiata cultures. Phytochemistry. 23 (2). р. 295.
Van der Werf, Mj, de bont, J.A.M., D.J. Leak (1996). Opportunities in microbial biotransformation of monoterpenes. Vol.55, p.147. In, Biotechnology of aroma compounds.
Vanisree Mulabagal and Hsin-Sheng Tsay (2004). Plant Cell Cultures - An Alternative and efficient source for the production of biologically important secondary metabolites. Int. J. Appl. Scie. Eng. 2 (1). p. 29.
W. Roca, A. Mroginski (1991). Principios básicos, metodologías y técnicas de cultivo de tejidos vegetales. En: Roca W, Mroginski L. (Eds.), Cultivo de Tejidos en la Agricultura. Fundamentos y aplicaciones. CIAT, Centro Internacional de Agricultura Tropical. Editorial XYZ, Cali, Colombia. pp. 2-17.
W. Zhanga, C. Curtina, C. Franco (2002). Towards manipulation of post biosynthetic events in secondary metabolism of plant cell cultures. Enzyme and Microbial Technology 30. p. 688.
W. Zhu, G. Asghari and G.B. Lockwood (2000). Factors affecting volatile terpene and non-terpene biotransformation products in plant cell cultures. Fitoterapia 71. p. 501.
W.A. Duetz, H. Bouwmeester, J.B. Van Beilen (2003). Witholt Biotransformation of limonene by bacteria, fungi, yeasts, and plants Appl Microbiol Biotechnol., 61:269-277.
