Transgenic technology provides enormous possibilities for genetic improvement of higher plants. In the last few years, remarkable progress has been made in the technology for stable integration and expression of engineered foreign genetic information in plant cells. In particular, an Agrobacterium-mediated gene delivery system has been developed and widely used. So far, the hairy roots induced by Ri plasmid of Agrobacterium rhizogenes have been proved to be an efficient means of producing secondary metabolites in pharmaceutically important plants. Plant regeneration from hairy roots induced by infection with Agrobacterium rhizogenes in Rehmannia glutinosa (Chinese foxglove) and characterization of its morphology were studied in this report. Hairy roots were induced from leaf segments of Chinese foxglove when cultured on White’s medium after infection by A. rhizogenes. Hairy roots spontaneously gave rise to adventitious shoots at a frequency of 3% when cultured on growth regulator-free medium in the dark. Rooting of hairy root-derived adventitious shoots and therefore regeneration of transgenic plants occurred easily on growth regulator-free half-strength MS solid medium at a 16 h photoperiod. The stable introduction of rol genes into Rehmannia plants was confirmed by PCR. Transgenic plantlets showed considerable differences in their morphology when compared to the corresponding wild-type plants. Plants derived from hairy roots had wrinkled leaves, reduced apical dominance, and numerous fibrous roots with abundant lateral branches instead of the thickened taproots in non-transformed plants. Adventitious roots were induced in leaves and stems of transformed plants. It has been suggested that rolABC genes acted synergistically in promoting hairy roots from Chinese foxglove leaves and stems. The differences observed reflect the modification of morphological characters by introduction of rol genes. Hairy root culture and its transgenic plant-based catapol production was also qualitatively analyzed. Although these 2-months-old plantlets were found to be unfavorable for catapol production, novel compounds synthesized were valuable to be studied in the future.