Abstract Phenylalanine ammonia lyase (EC 4.3.1.5) is the first enzyme of the phenylpropanoid biosynthetic pathway. The enzyme catalyzes the non-oxidative deamination of L-phenylalanine to produce trans-cinnamic acid. This reaction leads to the biosynthesis of many phenylpropanoid derived compounds in plant such as flavonoids and lignin. In order to find out which amino acids play important roles in catalysis reaction of PAL, we use site-directed mutagenesis technique to change the specific amino acid residue of PAL and express it by the Pichia pastoris system. Three fusion protein YPAL 2、YPAL 2-SA and YPAL 2-FH containing C-terminal (His)6-tag was expressed then purified with Ni-column which retains proteins with polyhistidine tag. The subunit mass of the three expressed protein are about 80 kD. The Km values for phenylalanine are 0.28 mM for YPAL 2 and 1.11 mM for YPAL 2-FH. The Vmax values are 0.043 nkat for YPAL 2 and 0.014 nkat for YPAL 2-FH. The Kcat is 20.48 s-1 for YPAL 2 and 0.038 s-1 for YPAL 2-FH. The optimum temperature and pH for YPAL 2 are 60℃ and 8.0, respectively. The activation energy for YPAL 2 is 11.8 kcal/mol. Because of the amount and activity of YPAL 2-FH are very low we just can finish the substrate saturation experiment to deduce Km and Vmax values. In the other part, because the YPAL 2-SA totally loss its activity we can’t analyze its biochemical properties. By changing the amino acid in the active site of YPAL 2 from serine to alanine (S200A) could prevent the formation of MIO group which resulted in the losing of total activity. However, changing the amino acid near active site from phenylalanine to histidine (F397H) could affect the formation of intermediate and cause the decrease of PAL activity.