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.

Background : Astragalus membranaceus is one of the most widely used traditional medicinal herbs in Korea. Studies on the genomic of A. membranaceus resources have not been carried out so far. The present study was carried out to discriminate A. membranaceus based on genetic diversity using genomic simple sequence repeat (SSR) markers. Methods and Results : We collected 5 A. membranaceus lines: Asung, Poongsung, Am-Jecheon, Am-Sancheong, and Am-China. One hundred mg of fresh leaves were used for genomic DNA extraction using the DNeasy plant DNA isolation kit (Qiagen GmbH, Hilden, Germany). 450,449 contigs were searched for 147,766 SSR candidate loci in this study using the MicroSAtellite identification tool (MISA). We selected 949 A. membranaceus genomic SSR markers that were showed variation for the five collections in silico screening with CLC genomics workbench program. The genetic diversity of all A. membranaceus resources was analyzed using 17 SSR markers employing the DNA fragment analysis method. Based on the genetic diversity analysis, these lines were classified into four distinct groups. Conclusion : These findings could be used for further research on cultivar development using molecular breeding techniques and for conservation of the genetic diversity of A. membranaceus. Furthermore, the markers could be used for marker-assisted selection for crop breeding.

Platycodon grandiflorum A. is a perennial plant belongs to Campanulaceae family. This plant has been used herbal medicine ingredient in East Asia. Because of the high saponin content, it is an economically important medicinal plant in Korea. It has been reported that saponins of P. grandiflorum were mainly synthesized in root tissues. The studies about root growth of the plant were few. Expansin is an important protein playing a role in root growth of plants, and is known as a nonenzymatic protein. Expansins are novel plant cell wall loosening proteins leading to turgor-driven cell extension. Expansin encoding genes exist in multigene family, and there are more than 30 genes in Arabidopsis thaliana. and more than 50 genes in Oryaza sativa. Therefore, identification of the genes was difficult in P. grandiflorum because of the lack of genome sequence. Recently, the development of next generation sequencing (NGS) technologies make it possible to obtain the target genes sequences rapidly and precisely. In this study, to identify the expansin encoding genes in P. grandiflorum, we used RNA-seq analysis with Illumina HiSeq platform. We analyzed whole transcriptome of P. grandiflorum through the RNA-seq analysis based on next generation seuqencing. CLC Genomics Workbench software (Clc Bio inc.) was used for assembly. We assembled 122,663 contigs and search 123 contigs were identified from the search using 61 expansin gene

Platycodon grandiflorum is a herbal flowering perennial plant belongs to Campanulaceae family. The saponins derived from P. grandiflorum were termed platycosides and platycodin D, which is the most abundant saponin in the plant and pharmacologically active component, was intensively studied. Platycodin D is synthesized from triterpenoids by several enzymes including cytochrome P450. Cytochrome P450 is known to exist in superfamily in plant kingdom and essential roles in saponin biosynthetic pathway by hydroxylation or oxidation of triterpene skeletons. However, the key genes of P450 involved in biosynthesis of saponin was not identified because of its low conservation rate in amino acid sequence level among plant species and gene superfamilies. Recently, next generation sequencing (NGS) technology is rapidly developed as a method to discover target genes. In this study, we tried to identify P450 genes involved in saponin biosynthetic pathway from the various tissues of P. grandiflorum using 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 obteined 122,663 contigs and found out 191 putative P450 genes. The phylogenetic relationship was analyzed and putative genes related to platicoside biosysthesis were selected and cloned for further analysis.

Platycodon grandiflorum is a perennial herbal plant belongs to Campanulaceae family. It has very important genetic value as a major plant in Asterids order. The major ingredients are platycosides, terpenoid saponins. In Korean industrial plants market, it was produced 5,633 tons in 2013, and the total amount of production was less than only five species, omija, ginger, raspberry, yam and deodeok. P. grandiflorum is called ‘Gilgyung’ and is used as a fresh vegetable and an ornamental plant. Nowadays, various components of P. grandiflorum were already published. But, genetic research is in the starting stage. In this study, 11 cultivars; 1. MariesⅡ, 2. Hakone double white, 3. Hakone double blue, 4. Fuji white, 5. Fuji pink, 6. Fuji blue, 7. Astra white, 8. Astra pink, 9. Astra blue, 10. Astrasemi double blue, 11. Jangback, were analyzed using 60 Operon Universal RAPD primers. The results were phylogenetically analyzed and related to the morphological characteristics of the cultivars.

Platycodon grandiflorum is a species of herbaceous flowering perennial plant of the family Campanulaceae. The major ingredients are platycosides, terpenoid saponins. It contains 1-4 % of the dry weight and there are about 20 types of platycosides. Among them, platycodin D have various pharmacological effects on cough and cold. Platycosides are synthesized from oleanane by mevalonic acid pathway and cytochrome P450s and UGTs are important enzymes in the saponin biosynthesis. UGT is glucose transfer enzyme and act on the final step of the secondary metabolite biosynthesis. In this study, we tried to identify UGT genes involved in saponin biosynthetic pathway from the various tissues of P. grandiflorum and non germinated seeds using 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. The phylogenetic relationship was analyzed and putative genes related to platicoside biosysthesis were selected and cloned for further analysis.