Cytoplast-protoplast fusion for interspecific chloroplast transfer in Nicotiana

Summary Protoplasts of Nicotiana tabacum (SR1), carrying a maternally-inherited streptomycin resistance mutation, were enucleated by centrifugation through a Percoll gradient. The resulting cytoplasts containing resistant plastids, were fused with sensitive Nicotiana plumbaginifolia protoplasts. The SR1 cytoplasts, having no nuclei, were unable to form calli. All resistant clones recovered after fusion-induction were therefore supposed to be derived from interspecific cytoplast-protoplast fusion.N. plumbaginifolia plants regenerated in 17 out of the 75 resistant clones studied. Plants obtained from eight of these clones were resistant to streptomycin and inherited the resistance maternally, as expected when transferring SR1 plastids into the N. plumbaginifolia nuclear background. Plastid transfer in these plants has been confirmed by the EcoRI restriction pattern of the chloroplast DNA.In nine clones N. plumbaginifolia plants were sensitive although obtained from initially resistant clones. This phenomenon is explained by the maintenance of plastid heterogeneity on the selective streptomycin medium, and formation of plants from sensitive sectors on the non-selective regeneration medium.SR1 protoplasts, originally present as contaminants in the cytoplast preparation (2–7%) did not form colonies (or very rarely) after polyethylene glycol treatment. The nuclei from such protoplasts were recovered, however, in the interspecific somatic hybrids (56 clones), and in segregants having the SR1 nucleus but some cytoplasm from N. plumbaginifolia (2 clones). The majority (about 80%) of the recovered resistant clones therefore acquired the streptomycin resistance factor from the rare (2–7%) contaminating SR1 protoplasts. This is explained by the protoplasts being more stable during fusion induction.