Ok Tae Kim

Upregulation of ginsenoside and gene expression related to triterpene biosynthesis in ginseng hairy root cultures elicited by methyl jasmonate

In this study, methyl jasmonate (MJ)-induced changes of triterpene saponins in ginseng (Panax ginseng C.A. Meyer) hairy roots and expression profiling of relevant responsive genes were analyzed. The transcription of PgSS (squalene synthase), PgSE (squalene epoxidase), and PNA (dammarenediol synthase-II) genes in hairy root cultures elicited by MJ treatment increased as compared with the controls, whereas that of PNX (cycloartenol synthase) decreased slightly. In order to select candidate genes encoding for cytochrome P450-dependent hydroxylase or glucosyltransferase associated with triterpene biosynthesis, RT-PCR analysis was conducted following MJ elicitation. No differences were observed in any expression among the five genes associated with the cytochrome P450 family, when compared to that of control. For candidates of the glucosyltransferase gene,expression of EST IDs PG07020C06, PG07025D04, and PG07029G02 was upregulated. In an effort to assess the effects of MJ elicitation on the biosynthesis of triterpene saponin, protopanaxadiol saponin (Rb group) and protopanaxatriol saponin (Rg group) contents in hairy roots were evaluated by HPLC analysis. With 7 days of MJ elicitation, levels of all ginseonsides of the two-groups increased much higher than that observed in the control. In particular, protopanaxadiol-type saponin contents increased by 5.5–9.7 times that of the control, whereas protopanaxatriol-type saponin contents were increased by 1.85–3.82-fold. In the case of Rg1 ginsenoside after MJ elicitation, the content was affected negatively in ginseng hairy root cultures.

Cloning of a cDNA probably encoding oxidosqualene cyclase associated with asiaticoside biosynthesis from Centella asiatica (L.) Urban

A homology-based PCR method was used to clone a cDNA encoding oxidosqualene cyclase from Centella asiatica, which produces a large quantity of triterpene saponins such as asiaticoside and madecassoside. Sequence analysis of one clone found sequences related to β-amyrin synthase. An open reading frame in the full-length clone was named CabAS (Centella asiatica putative β-amyrin synthase). On the basis of amino acid sequence, CabAS appears to be an enzyme (β-amyrin synthase) that synthesizes β-amyrin. Southern analysis showed that the C. asiatica genome contains one copy of the CabAS gene. Northern blot analysis demonstrated that the CabAS gene is expressed in leaves with no detectable transcript in other plant tissues, consistent with the organ-specific accumulation of the asiaticoside. Up-regulation of expression of CabAS by methyl jasmonate in leaves was also demonstrated.

Molecular authentication of ginseng cultivars by comparison of internal transcribed spacer and 5.8S rDNA sequences

Molecular authentication among three Panax species and within cultivars and accessions of P. ginseng was investigated using the DNA sequence in the ribosomal ITS1–5.8S–ITS2 region. Four single-nucleotide polymorphisms were identified between P. ginseng and other Panax species. In the electrophoresis profile, obtained after digestion with the enzyme TaqI, three fingerprinting patterns were obtained from cultivars and accessions of Panax species. Consequently, this authentication procedure based upon the restriction fragment length polymorphism in the ribosomal ITS1–5.8S–ITS2 region can now be utilized to differentiate these Panax species as well as major Korean cultivars such as Gopoong and Kumpoong from other cultivars and accessions in Panax species at the DNA level.

Isolation and characterization of squalene synthase cDNA fromcentella asiatica (L) urban

We have cloned and characterized a gene for squalene synthase (SQS) fromCentella asiatica (L) Urban, a species that produces a large quantity of triterpene saponins such as asiaticoside and madecassoside. Its full-length cDNA clone was isolated by RACE PCR. The sequence ofpSQS contains an open reading frame of 1248 nucleotides, which code for 416 amino acids with a molecular mass of 47.3 kDa. Southern analysis revealed that one copy might exist in the C.asiatica genome. We also determined that 0.1 mM methyl jasmonate was sufficient to up-regulate those levels ofCaSQS mRNA.

Characterization of a dammarenediol synthase in Centella asiatica (L.) Urban.

To elucidate the exact function of CabAS in Centella asiatica, which was previously reported as a putative beta-amyrin synthase [Plant Cell Rep, 24:304-311, 2005], this gene was functionally expressed in the lanosterol synthase-deficient yeast mutant (erg7). After inducing the CabAS gene with galactose, a peak consistent with the dammarenediol standard was detected in LC/APCIMS analyses and the accumulated product was confirmed as dammarenediol. CabAS should therefore be renamed to C. asiatica dammarenediol synthase (CaDDS). The confirmation of this gene function may allow us to better understand the generation of numerous triterpene carbon skeletons.

Genetic transformation ofAjuga multiflora bunge withAgrobacterium rhizogenes and 20-hydroxyecdysone production in hairy roots

An efficient transformation system forAjuga multiflora Bunge was established by usingAgrobacterium rhizogenes strain A4. After inoculation with the bacteria, we obtained a number of hairy-root clones from micro-calli of the explant petioles. One fast-growing line showed the highest production of 20-hydroxyecdysone (20-HE). PCR amplification of rooting locus (rol) genes revealed that the left hand-transferred DNA of the root-inducing plasmid was inserted into the genome of our transformedAjuga hairy roots. This integration was further confirmed by DNA-DNA hybridization. The 20-HE content in hairy roots was 10 times higher than that measured in the wild type.

Global Profiling of Various Metabolites in Platycodon grandiflorum by UPLC-QTOF/MS

In this study, a method of metabolite profiling based on UPLC-QTOF/MS was developed to analyze Platycodon grandiflorum. In the optimal UPLC, various metabolites, including major platycosides, were separated well in 15 min. The metabolite extraction protocols were also optimized by selecting a solvent for use in the study, the ratio of solvent to sample and sonication time. This method was used to profile two different parts of P. grandiflorum, i.e., the roots of P. grandiflorum (PR) and the stems and leaves of P. grandiflorum (PS), in the positive and negative ion modes. As a result, PR and PS showed qualitatively and quantitatively different metabolite profiles. Furthermore, their metabolite compositions differed according to individual plant samples. These results indicate that the UPLC-QTOF/MS-based profiling method is a good tool to analyze various metabolites in P. grandiflorum. This metabolomics approach can also be applied to evaluate the overall quality of P. grandiflorum, as well as to discriminate the cultivars for the medicinal plant industry.

Seasonal variations in yields of Hwangchil lacquer and major sesquiterpene compounds from selected superior individuals ofDendropanax morbifera Lév.

We studied fluctuations in the production of Hwangchil lacquer and major essential oils byDendropanax morbifera Lev. Considerable seasonal as well as intraspecific (individual-tree) variations were observed. Yields of Hwangchil lacquer as well as ß-elemene, α-selinene, ß-selinene, germacrene D, and δ-cadinene also depended on harvesting time, with levels being generally higher in July and August.

Cultivation Characteristics and Variation of Artemisinin Contents by Harvest Time of Artemisia annua L. Distributed in Korea

This study was conducted to obtain the basic data for using the Artemisia anuua as a new economic crop, thus Artemisia anuua was investigated their cultivation characteristics, yield, and variation of artemisinin contents by planting density and harvesting times. Seed characteristics of A. anuua have observed micro-size, and their germination optimum temperature was at 15 to 20 celsius degree. Planting density on the yield of A. anuua was increased high density better than low density. The highest yield was planted in the space of cm. Moreover, optimum harvesting time of A. anuua was investigated in early september and a periods of most highly detected artemisinin was time of before and after blooming of A. anuua.

Optimization of direct somatic embryogenesis from mature zygotic embryos ofPanax ginseng C. A. Meyer

Culture conditions were optimized for somatic embryogenesis ofPanax ginseng. The highest frequency of embryo formation was obtained when tissues were excised from the middle region of the cotyledon segments of zygotic embryos. Only treatment with light could stimulate the formation of single-type somatic embryos, whereas multiple-type somatic embryos and calli were observed under dark conditions. The highest production of somatic embryos was found with an NH4+:NO3 ratio of 21:39. Among the tested media (MS, B5, and SH), maximum formation of somatic embryos was obtained when cotyledon expiants were cultured on an 1% agar MS medium supplemented with 5% sucrose. Regenerated ginseng plantlets were transferred to an autoclaved soil mixture in the greenhouse. These transformants showed no detectable variations in their morphology or growth characteristics compared with the donor plant.