The effects of the stem segments, hypocotyls, petioles and young flower buds as explants cultured were studied on Murashige and Skoog (MS) medium supplemented with 0.1 mg•L^(-1) kinetin combining 0.5-2.0 mg•L^(-1) 2,4-D for callus induction of periwinkle [Catharanthus roseus (L) G. Don]. After 8-week culture, all treatments had the 100% callus formation. Medium containing 0.5 mg•L^(-1) 2,4-D resulted in maximum (158.3 mm2) callogenesis in the stem segment explant, followed by hypocotyl explant of 114.8 mm2. Suspension culture was constructed with initial densities of 25 mg•mL^(-1) and 50 mg•mL^(-1), the cell exhibited a typical sigmoid curve, and appropriate subculture cycles were 18-24 d and 14-20 d, respectively. Cell division and further proliferation maintained during subculture. Embryogenesis started with cell polarization, polar axis selection to asymmetric cell division, and then the formation of two-cellular embryonic cell within 2-4 d. The two-cell stage subsequently reached 4-cell stage after 4-6 d culture, and octant pro-embryoid stage after 8-10 d, and then the globular-embryoid stage after 20 d. The green hard callus derived from stem segments and hypocotyl explant showed the embryogenic competence. The effect of BA treatment on the proliferation and maturation of embryoids was studied using embryogenic clumps as explant, and all calli gradually changed color from pale yellowish to light green after eight weeks of culture. The 1.5 mg•L^(-1) BA treatment induced the highest embryo formation percentage (70%), and maximum somatic embryos (96), which reached torpedo- and cotyledonary stages. This result suggested that BA participated in the proliferation and maturation of somatic embryos. Anatomical observations of embryo development revealed that secondary embryoids formed from the surrounding cells of primary embryogenic callus mass. These embryoids showed a typical morphology and histological structure of dicot embryoid, and could develop to plantlets. A regeneration system through somatic embryogenesis was established by using embryogenic callus derived from somatic tissue explants of periwinkle.