Aluminum (Al) toxicity in plants is one of the major limitations to crop growth on acid soils. The Al-induced change of H+-ATPase expression has been regarded as an important mechanism for Al tolerance in soybean. To investigate whether translational regulation of plasma membrane H+-ATPase is involved in the response to Al stress, we conducted western - blot of this protein. The results show that western - blot of plasma membrane H+-ATPase in the "Sowon" (Al tolernace) significantly increased in translational expression level, while citric acid (50 μM) with Al (50 μM) treatment has not effected. In contrast, Al sensitive cultivar "Poongsannamool" inhibited expression level of plasma membrane H+-ATPase with Al treatment. Two - dimensional gel analysis were performed to determine the protein induction patterns of control and Al (50 μM, 24 h) treated soybean. There are many changes of plasma membrane proteins in both cultivars under Al stress. Especially "Sowon" was significantly enhanced the expression of the plasma membrane H+-ATPase in Al treatment. But protein expression of "Poongsannamool" was less than "Sowon". These results suggest that the regulatory role of plasma membrane H+-ATPase may involved the tolerance mechanism in soybean roots. At the present, transcriptional level of H+-ATPase is under investigation.