L-form Starch phosphorylase (Pho1) from sweet potato contains a 78 amino acids residues insertion (Loop 78, L78) and may catalyze primer-independent activity (PI activity) to synthesize starch. Pho1 may lose its PI activity completely when L78 is degraded, and the addition of extrinsic expressed L78 rescues the PI activity of the degraded Pho1. Previous studies have indicated that the first Glc-1-P may be bounded to the active site of Pho1 via pyridoxal phosphate (PLP), while the second Glc-1-P binding pocket may compose of 3 pairs of Glu-Lys repeats including Glu528-Lys529, Glu534-Lys535 and Glu540-Lys541 in L78. In this study, we constructed expression vector for L78 as well as its mutants for Glu-Lys pairs and tested their effects on the PI activity. The results showed that mutation at Lys529 may block the PI activity, demonstrating that Lys529 could be a molecular determinant for the second Glc-1-P binding site. On the other hand, the studies for the role of L78 involve in the preparation of L78-removed Pho1 (Pho1*). Previous methods for Pho1* preparation are usually time-costing, and the quality of Pho1* lacks for consistency. This study used trypsin, heat treatment and proteasome to accelerate degradation of Pho1, respectively. But neither of them removed L78 successfully. In the future, we will construct Pho1 expression vector with artificial protease cutting site and use designated protease to remove L78.