The human histo-blood group I and i antigens are characterized as branched and straight chains of N-acetyllactosamine (Galβ1-4GlcNAc, LacNAc) repeat, respectively. Fetal and neonatal erythrocytes predominantly express i antigen, with only a small amount of I. It has been recognized that the presence of the straight-chain i antigen on fetal erythrocytes surface is one of the important mechanisms to prevent the hemolytic disease due to ABO incompatibility pregnancy. After birth, the i antigen of erythrocyte is gradually converted to the branched I antigen; however, the regulatory mechanism for the I branching formation awaits elucidation. Conversion of the straight-chain i to the branched I antigen is catalyzed by the enzyme encoded by the I locus, I-branching β-1,6-N-acetylglucosaminyltransferase (IGnT). The human I locus expresses three IGnT transcripts, IGnTA, IGnTB, and IGnTC, which have different exon 1, but identical exon 2 and exon 3 regions. In our previous study, we have demonstrated that IGnTC is the intrinsic gene responsible for the I antigen expression on erythrocytes. In this thesis, the erythroleukemia cell line K-562 was used as a model to study the regulatory mechanism of I antigen expression during erythroid differentiation. Our results demonstrated that the transcription factor CCAAT/enhancer binding protein α (C/EBPα) stimulated the expression of IGnTC gene in sodium butyrate-induced erythroid differentiation of K-562 cells, and consequently enhanced the I antigen expression on the cell surfaces. The results obtained from chromatin immunoprecipitation (ChIP) and immunoprecipitation (IP) analysis, suggested that the phosphorylation status of C/EBPα may affect its binding affinity onto the 5’ regulatory region of IGnTC gene and thus regulates the expression of IGnTC gene. Human adult and cord CD34+ hemopoietic stem cells were employed to further investigate the role of C/EBPα in the I antigen expression during erythroid differentiation, and lentiviral expression system was used to introduce C/EBPα into adult and cord CD34+ cells. The v results demonstrated that the transcription factor C/EBPα played the determining role in the regulation of the I antigen expression during erythropoiesis. Furthermore, the results suggested that the function of C/EBPα in the IGnTC gene expression and the subsequent I antigen formation may be determined by the post-translational modification status of C/EBPα. The post-translational modification and the mechanism leading to this modification on C/EBPα during erythroid differentiation await further investigation, and it is of significance to further reveal the possible difference of this mechanism between adult and fetal erythropoiesis processes. Only after the elucidation these mechanisms of the post-translational modification on C/EBPα the mechanisms leading to the predominant expression of straight-chain i antigen on fetal erythrocytes and the i-to-I conversion after birth could be answered in more detail.