Abstract: | Conditions for plant regeneration from explants of tomato (Lycopersiconesculentum) cv. UC82B were studied for optimizing transformationprocedure. The best regeneration rate was obtained from cotyledonexplants from 810-d-old seedlings on a modified Murashigeand Skoog medium (1962) with 0·5 mg dm3 zeatinand 0·5 mg dm3 indolylacetic acid. Tomato cultivars(UC82B, Castone, Fl Ferline, Monalbo) and a Lycopersicon peruvkmumCMV sel. INRA were studied. The cultivarUC82Band the wild Lycopersicon species showed an efficient shootregeneration potential. Early events in the transformation of tomato cotyledons wereanalysed using an Agrobacterium tumefaciens strain carryinga binary vector with an nptII (pnos) gene and a reporter GUS-intron(p35S) chimeric gene. Two days after infection, GUS activityappeared specifically at the cut surface. Subepidermal cellswere more susceptible to transformation than epidermal cells.When selection for kanamycin resistance was applied 2 d afterinoculation, transformed cells were efficiently recovered. Preculturewith feeder cells stimulated cell transformation, but reducedregenerationcapacity from transformed cells. The optimal transformationrate was observed witha time of preculture of 1 and 2 d. Transformationevents for two tomato cultivars (UC82B and Monalbo) occurredat the same rate as 55% of the inoculated explants developedkanamycin resistant calli. However, transformed plants wereobtained at different rates of 8% and 14% for cv. Monalbo andcv. UC82B. Key words: Agrobacterium tumefaciens, ß-glucuronid, Lycopersicon esculentum, plant regeneration, transformation |