Phenylalanine ammonia lyase (EC 4.3.1.5) plays a key role in linking primary metabolism to phenylpropanoid metabolism. The enzyme catalyzes non-oxidative deamination of L-phenylalanine to produce trans-cinnamic acid, which is used for biosynthesis of phenylpropanoid derived products in plant. Pichia pastoris is a better expression system than E.coli and Saccharomyces for the production of heterologous proteins, and is relatively easy to manipulate like E.coli. Unlike bacterial expression systems, P. pastoris has the ability to perform many of the post-translational modifications usually performed in higher eukaryotes, e.g. correct folding, disulphide bond formation, O- and N- linked glycosylation and processing of signal sequences. Therefore we chose P. pastoris to express PAL in this thesis. Bamboo shoot (Bambusa oldhamii) Bopal 1 and Bopal 2 cDNA were amplified by polymerase chain reaction and cloned into the T vector pGEM®-T and yT&A to construct pGEM®-T/Bopal 1 and yT&A/Bopal 2, then to subclone into the expression vector pPICZ A . Two expression constructs, pPICZ A/Bopal 1 and pPICZ A/Bopal 2, were analyzed by restriction enzyme mapping and by sequencing confirming the correct orientation and nucleotide sequence, and then transformated into P. pastoris. Two constructs produced fusion protein BoPAL 1 and BoPAL 2 containing (histidine)6-tag in C-terminal. The expressed products were purified with a resin containing Ni2+ that retains proteins with polyhistidine fragments. The subunit mass of expressed BoPAL1 and BoPAL2 were determined to be about 80 kD by SDS-PAGE. By using gel filtration chromatography, and the molecular mass of expressed BoPAL 1 and BoPAL 2 were estimated to be 323 and 331 kD, respectively. And both proteins were estimated to be homotetrameric enzymes. The Km values for phenylalanine were 1.01 mM for expressed BoPAL 1 and 0.33 mM for expressed BoPAL 2. The optimum temperature and pH for both expressed BoPAL activity were 50℃ and 9.0, respectively. The activation energy was 10.4 kcal/mol for expressed BoPAL 1 and 12.8 kcal/mol for expressed BoPAL 2. Ni2+, Fe2+, Co2+ and Hg2+ inhibited both expressed BoPAL activity. Plant secondary metabolites, such as trans-cinnamic acid and tannic acid , had feedback inhibition to expressed enzymes. The seryl, tyrosyl and histidyl groups in enzyme were found to be essential residues for expressed BoPAL 1 and BoPAL 2 catalysis. Expressed BoPAL 2 has tyrosine ammonia lyase activity. In this study, we concluded that expressed BoPAL 1 and BoPAL 2 have quite similar biochemical properties compared with bamboo native PAL, but expressed BoPAL 1 has less affinity toward substrate. Comparing with E. coli expressed BoPAL 1 and BoPAL 2, although the catalytic activity of yeast expressed BoPAL 1 and BoPAL 2 both are less active, the conformation of two yeast expressed enzymes are more stable.