The hyperhydricity of in vitroregenerants of grass pea ( Lathyrus sativus L.) is linked with an abnormal DNA content

Abstract

The grass pea (Lathyrus sativus) is a wild relative of the protein pea which may be a useful genetic resource for the acquisition of interesting stress resistance traits. However, grass pea is cross incompatible with pea, leaving protoplast fusion as the only alternative to produce interspecific hybrids of grass pea and pea. In addition, as all grass pea seeds contain a toxic aminoacid, low-toxin containing genotypes will have to be produced by gene transfer. In this context, it is therefore essential that regenerated plants are fertile, true-to-type and not chimaeric in nature when they have been obtained in absence of any selection treatment. In the present study, shoot buds were regenerated from hypocotyls of three grass pea genotypes, and flow cytometry permitted us to characterise them in terms of nuclear DNA content. Plant regeneration competence was genotype-dependent and strongly also was correlated with a normal DNA content. The auxin/cytokinin balance of regeneration media affected the DNA level of regenerants. In turn, an abnormal DNA content was systematically associated with severe hyperhydricity symptoms, which hampered the regeneration of rooted, fertile plants.