Ganoderma is a traditional Asian medicine, which contains many bioactive compounds, such as triterpenoids, polysaccharides, and fungal immunomodulatory proteins (FIPs). GMI is a FIPs found in Ganoderma microsporum, and successfully produced by pichia pastoris, a heterologous protein expression system. It was proved that recombine GMI was able to stimulate Jurkat T cell secreting IL-2, reduced inflammation, and killed cancer cell. GMI was multifunction, but it is difficult to become a drug because of the interactions of those functions. As a result, the detail mechanism of how GMI interacts with the cell surface receptors and which amino acid play a critical role in those functions are important. In the previous studies, FIPs would cause hemagglutination, and the bio-activity were similar to lectins. Both of them were small proteins with different functions to different cells. In this study, we would like to investigate whether the functions of GMI was related to the binding ability to the glycosylation of cell surface receptors just like lectins. From the result, the immunomodulatory function of GMI would inhibit by adding specific carbohydrates and α-amylase; however, the anti-cancer activity of GMI would not affect. Besides, the aromatic amino acids, especially tryptophan, played a critical role in protein-glycan interactions. Thus, trying to replace the 3 tryptophans of GMI into alanine or glycine to see whether these three amino acids are critical to the functions of GMI. The result showed that only the replacement of three tryptophans in the same tine would affect the anti-cancer activity, and the replacement of the 25th or 110th amino acid would affect the immunomodulatory functions of GMI. Overall, the immunomodulatory functions of GMI seemed relative to its carbohydrate binding ability, and the 25th and 110th amino acid of GMI, tryptophan, somehow played an important role in it.