The post-translational modification of proteins by SUMO is important for plant growth, development, and stress responses. In the previous study, the leaves of sweet potato (Ipomoea batatas cv. Tainung 57) were treated with nitric oxide (NO), and the NO-induced proteins was analyzed by 2D electrophoresis. IbSUMO2 identified by LC/MS/MS is one of the NO-induced proteins. Immuneprecipitation and 2D electrophoresis were further used to isolate the putative proteins modified by IbSUMO2 in Arabidopsis treated by hydrogen peroxide (H2O2). After identified these proteins by LC/MS/MS, four candidate proteins, luminal-binding protein 1 (BiP1), heat shock cognate 70 kDa protein (HSC70-1), putative F-Box protein (PFP) and Patellin 1 (PATL1)1, might be sumoylated by IbSUMO2. The T-DNA insertion mutant lines of BiP1, HSC70-1, PFP, and PATL1 were obtained by ABRC. The physiological properties of their homozygous lines were studied. Results indicated that the root lengths of the homozygous bip1 and hsc70-1 were similar to those of wild type. Via BiFC, HSC70-1 interacted with IbSUMO2 around nuclei, while other proteins showed no interaction with IbSUMO2. To confirm IbSUMO2 can complement the function of AtSUMO1/2 in Arabidosis, I also attempted to construct a transgenic which is atsumo1/2 and overexpressing GFP-IbSUMO2. However, the expected transgenic Arabidopsis can not be obtained due to the uncomplement of IbSUMO2 in atsumo1/2 genetic backgroung. For further study, in vitro and in vivo approaches should be used to confirm that target proteins will be sumoylated by IbSUMO2. A sweet potato that overexpressing GFP-IbSUMO2 should be constructed so that the IbSUMO2-interacted proteins would be study in sweet potato.