A simple and efficient regeneration–transformation method was established to obtain transgenic plants of the model legume Medicago truncatula cv. Jemalong. This method takes advantage of a new highly embryogenic line (M9-10a) isolated in our laboratory. Leaflets of in vitro grown M9-10a plants were co-cultured with Agrobacterium tumefaciens EHA105. Plasmid constructs containing the oat arginine decarboxylase gene, Adc and the GUS reporter gene (p35SAdc–Gus) or ELIP-like drought stress protein 22 (DSP22) encoding gene from Craterostigma plantagineum (p35SDsp22) were used. Both constructs include the nptII gene as selection marker. Embryogenic calli (100–97%) were obtained on embryo induction medium containing 100 mg l ^–1 kanamycin and 500 mg l^–1 carbenicillin. Using a two-fold increase in kanamycin concentration, instead of 50 mg l^–1 usually used, we reduced the number of emerging false kanamycin-resistant (Kan^R) embryos, which is an important improvement to the method, making it less laborious and very efficient. Isolation of late torpedo/cotyledonary-stage embryos to lower carbenicillin/agar media reduced secondary embryogenesis and prevents hyperhydricity, improving embryo conversion. Primary transformants (T₀) were regenerated within 3–4 months and those that were able to root in a 50 mg l^–1 kanamycin medium were transferred to the greenhouse to produce seeds. Southern blot hybridisation analysis confirmed the integration of either the Adc or Dsp22 transgenes in the genome of the T₀ transformants. Detection of -glucuronidase (GUS) activity in Adc–Gus T₀ plants demonstrated the expression of the inserted transgene. In average, 1–2 independent transgenic lines are obtained per Kan^R embryogenic callus, independently of the plasmid construct used for transformation. Inheritance of the transgenes is shown to be stable in the T₁ generation.

Agrobacterium-mediated transformation - Jemalong M9-10a - somatic embryogenesis