Flower-stalk nodes of Phalaenopsis (Taisuco Snow × Wataboushi) 'T343', taken at the developmental stage when the first flower bud was visible, were used as explants in tissue culture. Four types of explants were subsequently taken from the induced buds of the initial flower stalk culture. They were leaves, roots, leafless-basal-stems of the new buds, and the original flower-stalk nodes containing 2-3 mm basal stems after removing the new buds. Explants were then cultured on a 1/2MS basal salt medium containing 0.01 mg•L^(-1) NAA and various concentrations of BA (0.0, 1.25, 2.5, 5.0, 10.0 and 15.0 mg•L^(-1)) for 8 weeks. Those explants of original flower nodes with 2-3 mm basal stems had 70% to 100% survival rates after the subculture. The number of shoots produced from each explant increased with BA concentration increase, and 4.8 shoots per explant was the highest. Besides the effect on shoot number, BA concentration also had a significant influence on the type of shoot differentiation. There were four differentiation types, namely: single vegetative shoot, multiple vegetative shoots, shoot plus PLBs, and shoot plus callus-like tissue. For the explants of leafless-basal-stems of the new buds, the highest root induction rate was 50% to 70%, which was at 0.0 or 1.25 mg•L^(-1) BA level. At higher concentrations of BA, more adventitious shoots were produced. They had 3.5 shoots per explant at 10.0 mg•L^(-1) BA. When leaves and roots were used as explants, PLBs and callus were developed respectively. The former had 20% and the latter had 8% of induction rate at 10.0 mg•L^(-1) BA.