The aim of this thesis are to investigate the regulation of proline metabolism in Nicotiana benthamiana under heavy metal stresses. Two pathways of proline synthesis: one via glutamate , the other via ornithine were involved in this thesis. The profile of gene expression of four proline metabolism related enzymes, pyrroline-5- carboxylate synthetase (P5CS)、pyrroline-5-carboxylate reductase (P5CR)、ornithine aminotransferase (OAT) and proline dehydrogenase (PDH) were described. The accumulation of proline in plant under heavy metal stress might due to three factors: (1) the damage of root that cause water deficit in the shoot, (2) the increase of abscisic acid level in the root causes proline accumulation as it transport to shoot, (3) heavy metals themselves induce proline accumulated directly. In order to evaluate the impact of each single factor on proline accumulation under heavy metal stress, the leaf discs of Nicotiana benthamiana were floated on the solution of various treatments, such as abscisic acid, heavy metals and proline synthesis precursors. The experiment were conducted in two parts: the physiological assay and the gene expression of proline metabolism related enzymes. Four heavy metal, CuSO4, CdCl2, ZnCl2 and K2Cr2O7 were chosen for heavy metal treatments. The result showed that, abscisic acid could induce proline accumulation in leaf discs, but the level was only one tenth of the level by water deficit treatment. With the analysis of real-time polymerase chain reaction (RT-PCR) on four proline metabolism related enzymes, the result of the abscisic acid treatment showed that P5CS gene expression increased up to 80 fold mean while PDH, OAT、P5CR gene expression were only up regulated about 2 fold. In water deficit treatment, the expression of OAT, P5CS and P5CR gene was up regulated significantly, but PDH gene was reduced. In heavy metal treatment, proline content increase gradually with the increase of heavy metal concentration. Meanwhile, the expression of OAT、P5CS、P5CR and PDH genes were up regulated. As the heavy metal concentration up to 0.5 mM proline content begin to decrease, whereas though the expression of OAT、P5CS、P5CR genes were up regulated, PDH gene up was regulated massively. Thus, it is likely that the decrease of proline content in higher concentration of heavy metal treatment might due to the up regulation of PDH gene expression. In summary, the proline accumulation on the whole plant of Nicotiana benthamiana in response to heavy metal stress mainly due to water deficit and via the up regulation of the expression of P5CS and P5CR genes. Consequently, when the heavy metal contents in plant increased up to certain level, proline content decreases, the inducement of the expression of PDH gene seems to dominate the regulation of proline level in plant.