RESUMEN
Los taxoides son diterpenos polioxigenados provenientes de la ruta metabólica del 2-metil-eritritol 4-fosfato cuya biosíntesis se genera en los plastidios. La importancia de los taxoides entre ellos el taxol, en el área de la medicina humana es muy valiosa debido a la utilización en oncología, fármaco utilizado contra el cáncer de seno, pulmón y ovario. Las especies de árboles de Taxus spp. están en peligro de extinción debido a la tala inmoderada, a la baja reproducción, lento crecimiento; por lo que el cultivo de tejidos vegetales in vitro es una alternativa biotecnológica de alto impacto y de gran ayuda para el conocimiento de la producción de los taxoides a nivel in vitro y sobre todo, para la conservación de este valioso recurso natural. Los objetivos de este artículo son: origen del taxol, su mecanismo de acción biológico, la biosíntesis de los taxoides, el método de extracción así como la producción de taxoides in situ y en cultivos in vitro de callos y células de Taxus spp.
The taxoids are polioxigenated diterpenes from the metabolic pathway of the 2-methyl-erythritol 4-phosphate whose biosynthesis is generated in the plastides. The importance of the taxoides including taxol, in the area of human medicine is very valuable due to the use in oncology, drug used against breast, lung and ovarian cancer. The species of trees of Taxus spp. are in danger of extinction due to logging immoderate, to the low reproduction rate, slow growth; therefore, the plant tissue culture in vitro is a biotechnological alternative high-impact and a great help to the knowledge of the production of the taxoides to level in vitro and above all, for the conservation of this valuable natural resource. The objectives of this article are to determine some general information about the geographical distribution of Taxus spp.; chemical characteristics of taxoids, biological mechanism of action of taxol; path of biosynthesis, methods of extraction and analysis of the taxoids and a current review of the production of taxoids in situ and in vitro cultures and cells of Taxus spp.
Asunto(s)
Anticarcinógenos , Callosidades , Células , Taxoides , Taxus , Biotecnología , Neoplasias , TaxaceaeRESUMEN
We isolated and characterized 11 microsatellite loci for the Chinese yew, Taxus chinensis var. mairei, an endangered tree species in China, by constructing a (CA)(12)-enriched library. The number of alleles per locus ranged from 5 to 10. The observed heterozygosities ranged from 0.2500 to 0.8333 and the expected heterozygosities ranged from 0.5196 to 0.8680. No significant linkage disequilibrium was detected at these loci. However, four loci significantly deviated from Hardy-Weinberg equilibrium. The null alleles were found to be present at locus Tach9 and locus Tach11 by the Micro-checker test (P < 0.001). These polymorphic loci could be employed in research of gene flow and spatial genetic patterns of T. chinensis var. mairei.