Somatic hybridization in mint: identification and characterization of Mentha piperita (+) M. spicata hybrid plants

Abstract

Twenty eight somatic hybrid plants were identified following protoplast fusions between peppermint (Mentha piperita L. cv Black Mitcham), producing high-quality oil, and spearmint (Mentha spicata L. cv Native Spearmint), likewise producing high-quality oil and also possessing resistance to verticillium wilt. Prior to fusion, peppermint protoplasts were subjected to iodoacetic acid to inhibit cell division. Protoplasts of peppermint and spearmint were fused using polyethylene glycol plus DMSO. Fusion products were cultured according to an efficient protoplast-to-plant-cycle protocol developed for peppermint. Using this protocol, iodoacetic acid-treated peppermint protoplasts were not able to divide, whereas untreated spearmint protoplasts had the ability to produce callus but not shoots. Therefore, selection of somatic hybrid calli was based on the presumed capability of hybrid cells to form calli and shoots. Shoots in vitro were initially identified as hybrids using RAPD profiles. Subsequently, observations on morphology, chromosome counts, and Southern-hybridization patterns confirmed their hybrid status. The results of verticillium tests revealed that 18 somatic hybrids were more susceptible than Native Spearmint, while hybrid II-14 had a level of susceptibility intermediate between that of the fusion parents. Oil-analysis of hybrid plants indicated that they all have a GC-profile typical of spearmint oil.