Abstract
Among the major grain legume crops, Vicia faba belongs to those where the production of transgenic plants has not yet convincingly been reported. We have produced stably transformed lines of faba bean with an Agrobacterium tumefaciens-mediated gene transfer system. Stem segments from aseptically germinated seedlings were inoculated with A. tumefaciens strains EHA101 or EHA105, carrying binary vectors conferring (1) uidA, (2) a mutant lysC gene, coding for a bacterial aspartate kinase insensitive to feedback control by threonine, and (3) the coding sequence for a methionine-rich sunflower 2S-albumin, each in combination with nptII as selectable marker. Kanamycin-resistant calluses were obtained on callus initiation medium at a frequency of 10–30%. Shoot regeneration was achieved on thidiazuron containing medium in a second culture step. A subsequent transfer of shoots to BA-containing medium was necessary for stem elongation and leaf development. Shoots were rooted or grafted onto young seedlings in vitro and mature plants were recovered. Molecular analysis confirmed the integration of the transgenes into the plant genome. Inheritance and expression of the foreign genes was demonstrated by Southern blot, PCR, western analysis and enzyme activity assays. Although at present the system is time-consuming and of relatively low efficiency, it represents a feasible approach for the production of genetically engineered faba beans.
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