Galectins are a family of β-galactoside-binding proteins to share a high sequence similarity in their carbohydrate recognition domains. They play an important role in numerous biological activities and have been attributed to several diseases. For example, galectin-1 promotes the formation of Ab-secreting plasma cells, interactes with enterovirus 71 during the infection process, and enhances tumor metastasis. In our previously work, several sulfated disaccharides were found to display selective binding with galectins-1 and -8. To study how the negative charges and chain length contribute to the affinity and selectivity, my thesis lays a special emphasis the synthesis of sulfate and Gal-β1,4-GlcNAc (type II) containing tetrasaccharides. We elaborated the use of orthogonal protecting groups and the preparation of the Gal-β1,4-GlcNAc building block with minimal purification steps. We successfully improved and optimized several key reactions, such as the glycosylation, deprotection of trichloroacetyl amide and removal of benzyl ether. Once being available, the synthesized tetrasaccharide products will be measured and quantitated for their binding effinity by using fluorescence polarization (FP), in comparison with the reported standards (i.e. fluorescein-containing LacNAc)