Resumen:
In Theobroma cacao L., declined embryogenic potential was observed in regenerated somatic embryos from long-term secondary somatic embryogenesis (SE). In order to explore the relationship between DNA methylation and the long-term secondary SE, the embryogenic potential and global DNA methylation levels in young (12 months-old), aged (36 months-old) and extra somatic embryogenesis (39 months-old) subjected to different 5-Azacytidine (5-azaC) treatments were comparatively assessed. Global DNA methylation levels increased in aged somatic embryos with long-term in vitro culture, but 5-azaC-supplemented treatments resulted in unaltered levels. In addition, DNA methylation pattern during SE was not affected by 5-azaC. DNA methylation increased during SE expression. Interestingly, the extra SE induction showed that aged somatic embryos can recovery the embryogenic potential in treatment supplemented with 5-azaC at specific concentration. The outcome of this study suggested that the long-term SE in cacao induced the decline on embryogenic potential, which can be reversible trough 5-azaC supplementation. Besides, increased DNA methylation levels might be a response to the stress conditions that plant cells were exposed to during SE.