Direct and indirect organogenesis of Clivia miniata and assessment of DNA methylation changes in various regenerated plantlets.

Clivia miniata is an important indoor ornamental plant and has been reported to have medicinal value. We developed an efficient in vitro micropropagation protocol from young leaves (indirect organogenesis), young petals (indirect organogenesis) and shoot tips (direct organogenesis) of this plant. Using young leaves and shoot tips as explants, the regeneration frequencies were much higher than those in previous investigation and the regeneration was dependent upon less nutrition. We speculated that the leaf-derived callus can generate amino acids necessary for protein synthesis by itself. We employed the methylation-sensitive amplified polymorphism (MSAP) method to assess cytosine methylation variation in various regenerated plantlets and between organs. The MSAP profiles indicated that the frequency of somaclonal variation in the form of cytosine methylation was highest in petal-derived plantlets followed by secondary leaf-derived, primary leaf-derived and shoot tip-derived plantlets, but the methylation variation in petal-derived plantlets was lower than between petals and leaves of a single plant. The results indicated that the methylation variation in regenerated plantlets was related to the types of explants, regeneration pathways and number of regeneration generations. Two possible factors for the highest somaclonal variation rate in petal-derived plantlets are the callus phase and petal-specific set of epigenetic regulators. The property of meristem integrity can account for the lowest variation rate in shoot tip-derived plantlets. Moreover, the secondary plantlets underwent a longer total period of in vitro culture, which can explain why the methylation variation rate in the secondary plantlets is higher than in the primary ones.