Transformation of recalcitrant turfgrass cultivars through improvement of tissue culture and selection regime

Tissue culture techniques, medium composition, pH value and targeted tissues, agroinfection and co-culture conditions, selection process were optimized for efficient turfgrass transformation. A highly regenerable callus lines were produced in callus induction medium modified from N6 basal medium. Six-week-old calluses were cultured on Pre-regeneration medium I for 4 days and then subjected to Agrobacterium tumefaciens. After co-cultivation at 20±1 °C in a 16 h light/8 h darkness for 3 days, the calluses were cultured on non-selective Pre-regeneration medium II supplemented with 400 mg l⁻¹ l-cysteine for 7 days. Plantlets were regenerated on the Regeneration medium without selection pressure. A selection pressure was given to the regenerated plantlets when they were rooted on the Plantlet rooting medium. Roots appeared within 8–12 days in putative transformed plantlets. Resistant plants obtained were phenotypically normal and fully fertile. Chemical and molecular analyses confirmed that foreign genes were successfully introduced into the genome of perennial ryegrass or tall fescue. The transformation efficiency can attain 23.3% in perennial ryegrass.