Background : Platycodon grandiflorum is a perennial plant and a member of Campanulaceae family. Since ancient times, they have been using P. grandiflorum as an important medicinal plant in Korea. Platycodin D is the most abundant saponin derived from P. grandiflorum and pharmacologically active component. Cytochrome P450s (CYPs) are important enzymes in the saponin biosynthesis. CYP is, in general, the terminal oxidase enzymes and essential roles in saponin biosynthesis pathway by hydroxylation or oxidaition of triterpene skeletons. Methods and Results : We tried to identify CYP genes related to saponin biosynthesis of P. grandiflorum through RNA-seq analysis. The sequencing was performed using Illumina Hi-Seq platform after cDNA library preparation. The produced reads were assembled using CLC Genomics Workbench software (CLC Bio, Inc.). We obtained 122,663 contigs and found 191 putative CYP genes. Familes of CYP716, CYP708, CYP93 and CYP51 were selected as putative saponin biosynthesis related gene families using phylogenetic relationship analysis. Conclusion : The results in this study could help to find the CYPs related to saponin biosynthesis pathway of P. grandiflorum.

Background : Platycodon grandiflorum is a perennial plant and a member of Camanulaceae family. Since ancient times, they have been using P. grandiflorum as an important medicinal plant in Korea. Platycodin D is the most abundant saponin derived from P. grandiflorum and pharmacologically active component. UDP-glycosyltransferases (UGTs) are important enzymes in the saponin biosynthesis. UGT is a glycosyltransferase and act on the final step of the secondary metabolite biosynthesis. Methods and Results : We tried to identify UGT genes related to saponin biosynthesis of P. grandiflorum through RNA-seq analysis. The sequencing was performed using Illumina Hi-Seq platform after cDNA library preparation. The produced reads were assembled using CLC Genomics Workbench software (CLC Bio, Inc.). We obtained 122,663 contigs and found 137 putative UGT genes. Familes of UGT71, UGT73, and UGT74 were selected as putative saponin biosynthesis related gene families using phylogenetic relationship analysis. qPCR condition about UGT73 is preheating 94℃ 180 sec, denaturation 94℃ 60 sec, annealing 53℃ 60 sec, extension 72℃ 90 sec, final extension 72℃ 600 sec, 45 cycles repeated. Conclusion : The results in this study could help to find the UGTs related to saponin biosynthesis pathway of P. grandiflorum.