TRANSGENIC SUGARCANE PLANTS VIA MICROPROJECTILE BOMBARDMENT

Transgenic sugarcane plants were produced by bombardment of embryogenic callus with high-velocity DNA-coated microprojectiles, followed by a selection and regeneration procedure designed for this target tissue. Optimal bombardment conditions for embryogenic callus required microprojectile velocities higher than those previously found effective for sugarcane suspension culture cells. Bombardment of target tissues twice increased the number of transiently expressing cells in regenerable callus regions, to more than 300 per treated plate. Stable transformants were obtained following bombardment with the neomycin phosphotransferase (npt-II) gene under the control of the Emu strong monocot promoter. Stepped increases in antibiotic concentration during selection and regeneration allowed recovery of actively growing callus and plants on media containing geneticin concentrations completely inhibitory to untransformed controls. NPT-II levels in transformed plants were 20-50 times the background levels in control plants in ELISA assays, and Southern analysis revealed integration of one to three copies of the introduced gene in the sugarcane genome. The procedures described yield one to three transgenic plants per treated plate within 16 weeks of bombardment and provide a simple, efficient and broadly applicable system for genetic transformation of sugarcane. A similar approach should be applicable to other members of the Poaceae able to form embryogenic callus.