Post-translational modifications of proteins play critical roles in regulation of protein activities. Small ubiquitin-related modifiers (SUMOs) were discovered to resemble ubiquitin in their three-dimensional structures and the way they link to other proteins. SUMO becomes covalently linked by an isopeptide bond between its C-terminal glycine and the lysines within the target proteins. Sumoylation controls a broad spectrum of cellular activities, including roles in changing protein activities, stabilizing proteins, and nuclear trafficking. Protein sumoylation plays an important role in plant development, flowering-time regulation, and abiotic stress response. However, the molecular roles of sumoylation in these pathways are largely unknown. In the previous studies in our laboratory, the leaves of sweet potato (Ipomoea batatas cv. Tainung 57) were treated with nitric oxide (NO), and the abundance of several proteins was increased based on the analyses of 2D electrophoresis. After the identification of LC/MS/MS, IbSUMO2 is one of the NO-induced proteins. Furthermore, fusion protein GFP-IbSUMO2-GFP was constructed to study the localization of IbSUMO2 within Arabidopsis cells by confocal microscopes. Results indicated that most GFP- IbSUMO2-GFP was in nucleus, and, however, after H2O2 treatment GFP-IbSUMO2-GFP translocated to cytoplasm in Arabidopsis cells. In order to understand the mechanism of IbSUMO2 translocation, a method to isolate IbSUMO2-conjugated proteins from sweet potato and Arabidopsis was developed. The effect of H2O2 on the accumulation of IbSUMO2 conjugates in sweet potato was studied by 2D electrophoresis. In addition, immunoprecipitation was used to isolate the putative proteins modified by IbSUMO2 in Arabidopsis after H2O2 treatment, and sumoylated proteins were identified by LC/MS/MS. According to the LC/MS/MS data, I found three putative proteins could be sumoylated after H2O2 treatment, they were BiP1 (Luminal-binding protein 1), putative F-Box protein, and HSC70-1 (Heat shock congnate 70 KDa protein). RT-PCR indicated that these three transcripts were also induced by H2O2, indicating that sumoylation of these three proteins played important roles during oxidative stress.