Hairy root cultures of butterfly pea (Clitoria ternatea L.): Agrobacterium × plant factors influencing transformation.

Transformed rhizoclones were developed from Agrobacterium-treated explants of the medicinally important twinning legume Clitoria ternatea L. Several key factors influencing transformation events were optimized. A4T was the most infectious among the strains employed. Internode segments were more responsive than leaves, outdoor-grown explants preferred to those from in vitro cultures. High frequency transformation, resulting in up to 85.8% rhizogenesis, was attained using pre-pricked internodal explants for immersion (10 min) in Agrobacterium rhizogenes suspension grown overnight with acetosyringone (100 μM) to an OD(660) ≅ 0.6, diluted to a density of 10(9) cells ml(-1), followed by 5-day co-cultivation. Roots were individually cultured in MS0 supplemented with the bacteriostatic antibiotic cefotaxime (500 μg ml(-1)). Rhizoclones were renewed through successive subcultures in MS0 under diffused illumination. The T ( L )-DNA rolB and rolC ORF were detected in rhizoclones through PCR amplification. The T ( R )-DNA gene encoding mannopine synthase (man2) was revealed by positive amplification and opine gene expression substantiated by agropine and mannopine biosynthesis in all selected transformed rhizoclones. The implication of such findings is discussed on the context of utilization of such genetically transformed root cultures towards sustainable production of medicinally useful phytocompounds, besides providing a means for plant conservation.