The effect of putrescine on growth and production of two coumarins, esculin, and esculetin in the transformed and untransformed roots of chicory (Cichorium intybus L. cv. Lucknow local) was examined. To study the role of putrescine (Put) on growth and production of coumarins, polyamine inhibitors namely α-DL-difluromethylornithine (DFMO) and α-L-difluromethylarginine (DFMA) were used at 1 mM levels. Treatment with 1.5 mM of putrescine (Put) produced 1.96 - fold and 4.0 - fold increase in the growth of transformed and untransformed roots of chicory, respectively. The treatment with polyamine inhibitors showed much lower growth, as well as production compared with both 1.5 mM putrescine treatment and control in both transformed and untransformed chicory roots. The endogenous polyamines, both free and conjugated, were studied over the whole culture period, and it was seen that conjugated titers of all three polyamines viz., putrescine, spermidine and spermine were higher than level of free polyamines, throughout the culture period in both transformed and untransformed roots of chicory. Treatment in which polyamine inhibitors were used showed lower level of endogenous polyamines as compared with the 1.5 mM putrescine treated sample in both the systems. The treatment wherein putrescine was added at 1.5 mM level showed maximum accumulation of endogenous conjugated putrescine (2098.86±157.6 nmoles g−1 FW; 896.8±67.2 nmoles·g−1 FW), on the 14th day in both transformed and untransformed roots respectively. The production of esculin and esculetin was strictly correlated with growth in every treatment in both systems. Putrescine at 1.5 mM resulted in greater length of primary root in transformed (18.3±1.4 cm) and untransformed (6.86±0.51 cm) as compared with their respective controls (11±0.9 cm; 2.9±0.1cm) and greater number of secondary and tertiary roots. This study suggests that putrescine influences plant root development and differentiation, and it also provides insight into the morphological changes that occur in roots in response to the external supply of polyamines.