Ploidy mosaics: does endopolyploidy in explants affect the cytogenetic stability of orchids regenerated from PLBs?

Abstract

The induction and regeneration of protocorm-like bodies (PLBs) is a morphogenetic pathway widely used for orchid micropropagation. As endopolyploidy, i.e., the coexistence of cells with different ploidy levels, is a common feature in orchid tissues, a natural question arises when using somatic tissues as explants for orchid micropropagation: does endopolyploidy in explants affect the cytogenetic stability of regenerated plantlets? To answer this question, Epidendrum fulgens was used as a model plant, and flow cytometry was used to analyze endopolyploidy in pollinia, petals, labella, leaf bases, leaf tips, root tips, and protocorm bases and apices, which were subsequently used as explants for PLB induction and plant regeneration. Ploidy screenings showed contrasting ploidy patterns in samples, endopolyploidy being detected in all tissues, with C-values ranging from 1 to 16C. Protocorm bases and root tips presented the highest proportion of endopolyploidy, while petals and protocorm apices showed the lowest proportion. Flower parts exhibited high oxidation for PLB induction and pollinia failed to produce PLB or callus. The highest induction rate occurred at 10 µM TDZ, with 92%, 22%, and 0.92% for protocorm bases, leaves, and root tips, respectively. Plantlets were more easily regenerated from PLBs induced from protocorm bases than from leaves and roots. Doubled ploidy levels were registered in a proportion of 11% and 33% for PLB-regenerated plantlets obtained from protocorm bases and leaf bases, respectively, which was not directly associated with the proportion of endopolyploid cells or cycle value of explants. Explants have different endopolyploid patterns and cycle values. Polyploid regenerants were obtained from leaves and protocorms, although in rates not associated with the proportion of endopolyploid cells in the explants.