Three unique NADPH:cytochrome P450 reductase (CPR) cDNAs, whose corresponding genes designed as NfCPR1~3 from Nothapodytes nimmoniana have been characterized. The encoded proteins contained the conserved CPR functional domains including the flavin adenine dinucleotide (FAD)-, flavin mononucleotide (FMN)-, nicotinamide adenine dinucleotide phosphate (NADPH)-, and P450-binding motifs. Phylogenetic analysis showed that NfCPR1 is a class I isoform, whereas NfCPR2 and NfCPR3 are class II isoforms. NfCPR1 transcripts were detected in all examined organs, the highest level being in the seeds. NfCPR2 transcripts were also present in all examined organs but predominantly in leaves. In contrast, NfCPR3 transcripts were only detected in flower buds and seeds at almost equal expression levels. NfCPR1 gene expression was repressed by NAA, 6-BA, GA3, ABA, SA, and MeJA. NfCPR2 gene expression was also repressed by NAA, 6-BA, and MeJA but was induced by 2,4-D. NfCPR3 gene expression was slightly inhibited by SA, MeJA, and 2,4-D and was induced by GA3 and ABA. Moreover, NfCPR1 expression did not change during wounding treatment, whereas NfCPR2 and NfCPR3 were induced in response to wounding. The cytochrome P450 gene CrG10H from Catharanthus roseus and cytochrome P450 reductase NfCPR2 from Nothapodytes nimmoniana, AtCPR from Arabidopsis thaliana were cloned and heterologously expressed in baculovirus-infected insect cells. As reported in a previous study, CrG10H hydroxylated the monoterpenoid geraniol at the C-10 position to generate 10-hydroxygeraniol. Interestingly, CrG10H also catalyzed 3’-hydroxylation of naringenin to produce eriodictyol. Co-expression of an Arabidopsis NADPH P450 reductase substantially increased the ability of CrG10H to hydroxylate naringenin. The catalytic activity of CrG10H was approximately 1/10 times efficient with naringenin than with geraniol, judged by the kcat/Km values. Thus, G10H also plays an important role in the biosynthetic pathway of flavonoids, in addition to its previously described role in the metabolism of terpenoids. when the recombinant NfCPR2 protein was coexpressed with CrG10H and NADPH was added into the reaction, the production of eriodictyol from naringein increased and CrG10H activity reached 17.49 nmol/h/mg. However, no activity of CrG10H was detectable if NADPH was not added. This result indicates that the NfCPR2 efficiently interacts with cytochrome P450 to transfer electrons from NADPH. Camptothecin (CPT) derivatives are clinically used anti-neoplastic alkaloids and are extracted from Nothapodytes nimmoniana for commercial production. The highest content of CPT and 10-hydroxycamptothecin (HCPT) in different tissues of Nothapodytes nimmoniana was 0.864 mg/g dry weight in the roots and 0.096 mg/g dry weight in seeds, respectively. During fruit development, the highest aboundance of CPT was detected in seed coat from a mature fruit. The major camptothecin-related alkaloids accumulated in leaf of Nothapodytes nimmoniana were CPT and MCPT. Since cytochrome P450 monooxygenases were known to have function in association with cytochrome P450 reductases (CPR), overexpression vectors containing Nothapodytes nimmoniana cytochrome P450 gene, Nf2-16, Nf3-12, Nf4-15, Nf5-30 with or without CPR were transferred into C. acuminata by particle bombardment on leaf discs as transient expression analysis for CPT and HCPT content. The most abundant accumulation of CPT was detected in all leaf discs transformed with overexpression vectors without NfCPR. The transgenic callus containing Nf2-16 genes via Agrobacterium method were confirmed by polymerase chain reaction analysis. High-performance liquid chromatography analysis revealed that the CPT and HCPT contents were higher after transformation. The transformed calli contain 1.24~2.19 μg CPT /g dry weight, nearly 2~5 folds increase over the non-transformed calli (0.44~0.58 μg/g dry weight). It indicates that Nf2-16 might play an important role in camptothecin biosythesis.