Chamaecyparis formosensis Matsum.is a precious tree species unique to Taiwan. Its essential oil components are mainly terpenoids. It has been confirmed to have a variety of excellent biological activities. Therefore, it is important on the research of functional characterization of terpene synthase (TPS) and CYP450 (Cytochrome P450). The research can be applied to the semi-chemical synthesis of important components in the future. On the other hand, the study of P450 from Cupressaceae is also lacking. Once the function of P450 can be identified, it can also help the analysis of evolutionary pathway of gymnosperms. In this study, four sesquiterpene synthases were obtained from the NGS (Next generation sequence) database of Chamaecyparis formosensis Matsum leaf transcriptome: Cf_6163, Cf_17788_1, Cf_17788_2 and Cf_30044; and three P450 sequences: Cf_791, Cf_9283 and Cf_12832. Among them, Cf_6163, Cf_17788_1 and Cf_17788_2 reacted with FPP substrate to produce Germacrene A, a new compound and Isogermacrene A. The new compound was identified as 1,2,3,5,6,7,8,8a-Octahydro-8a-methyl- 1-methylene-7-(1-methylethyl) Naphthalene. Cf_30044 failed to complete the catalytic reaction. The product of Cf_17788_1/2 may have a special cyclization mechanism. In the future, a point mutation test can be used to further understand their cyclization mechanism. Among the three P450s, Cf_791 belongs to the CYP706M subfamily, while Cf_9283 and Cf_12832 belong to the CYP76AA subfamily. In the co-expression system of P450 and TPS in Escherichia coli, only Cf_6163 and Cf_12832 had a new product. In the future, other expression systems can be used, and other TPSs and P450s can be included in the test to obtain accurate P450 functional identification.