Protoplast fusion in the genus Gentiana: genomic composition and genetic stability of somatic hybrids between Gentiana kurroo Royle and G. cruciata L

Abstract

Somatic hybridization by protoplast fusion is used in breeding programs to obtain plant material that has inherited valuable traits from two different species, and in order to broaden plant genetic diversity. Somatic hybrids of the genus Gentiana could provide a useful source of new ornamental cultivars and of secondary metabolites. However, in order to evaluate its further usefulness, detailed characterization of the newly created hybrid is essential. Here, genome composition and stability of interspecific gentian somatic hybrids obtained following electrofusion of cell suspension-derived protoplasts of diploid Gentiana kurroo Royle with leaf mesophyll-derived protoplasts of tetraploid G. cruciata L. were characterized using various molecular markers and flow cytometry. AFLP and ISSR analyses revealed that all 21 hybrid plants and 3 lines of hybrid callus were genetically closer to G. cruciata than to G. kurroo. According to the results of chloroplast DNA analysis with the use of CAPS markers, all somatic hybrids inherited chloroplasts from “mesophyll” fusion partner G. cruciata. Flow cytometry revealed that polyploidization occurred, and probably it took place at the early stage of post-fusion culture. In consequence, gradual elimination of nuclear DNA, mixoploidy, and high genetic instability were observed in most hybrid plants and calli during the subsequent 4 years of in vitro culture.