We have successfully cloned an α-galactosidase gene from a rice cDNA library and transformed it into Escherichia coli BL21. It was subsequently cloned to the pPIC9K vector and expressed in Pichia pastoris. A selected clone was found to result in high production yield of the galactosidase enzyme. The secreted enzyme was purified, and it revealed as a major protein band on an SDS-PAGE gel. The optimal pH value, enzyme stabilities, and substrate specificity were studied. The enzyme specificity toward the terminal α1→6, 1→4, and 1→3 linked galactosyl residue from various substrates was investigated. By determining the Michelis constant (Km) of the enzyme for melibiose, raffinose, and stachyose, our results showed that melibiose was hydrolyzed faster than raffinose, whereas the published data reported a reversed sequence, raffinose > melibiose. The enzyme also showed the ability of converting B red blood cells into O red cells. The objective of this work is to develop the Pichia system to produce a large quantity of enzyme for blood cell conversion for transfusion.