In this study, we tested the effect of a range of insect orders including Trichoptera as outgroups for lepidopteran phylogeny. Phylogenetic analyses performed with four different partitioning schemes using the maximum-likelihood method provided four different topologies (T1-T4) and topological test most supported T1 topology. When the means of first principle component for nucleotide frequency between A/T and G/C of PCGs was considered Trichoptera, Diptera, Coleoptera, and Orthoptera tended to result in T1 topology more frequently in the given ingroup taxa and outgroups tested. This result contradicts to the general view that the sister taxon might be the best outgroup. The T1 topology was largely consistent with a recent large molecular dataset-based lepidopteran phylogeney, presenting the relationships ((((((((((Noctuoidea + Geometroidea) + (Bombycoidea + Lasiocampoidea)) + Drepanoidea) + Mimallonoidea) + Pyraloidea) + Gelechioidea) + Papilionoidea) + Tortricoidea) + (Gracillaroidea + Yponomeutoidea)) + Hepialoidea).

Next generation sequencing (NGS) approaches can also be useful tool for characterization of organelle genomes. We generated chloroplast (CP) genome sequences of two Korean ginseng cultivars, Chunpoong and Yunpoong, based on reference-guided assembly using whole genome NGS data. We used 0.5x of P. ginseng genome NGS reads to assemble CP genome. Of the NGS reads used, about 6% were mapped to the reference CP genome with mean coverage of 94x due to high copy number of CP genome in plant cell. CP genomes of the two cultivars were predicted to be 156,248 bp and 156,355 bp in length and showed about 0.1% differences at nucleotide level, compared to reference CP genome sequenced from P. ginseng (Acc.no. NC_006290), whereas difference between CP genomes of the two cultivars is very rare. In this study, we developed the molecular marker to perform taxon identification and also to elucidate phylogenetic relationship among Korean ginseng cultivars. Now, we are analyzing the CP genomes of other P. ginseng cultivars together with other Panax species including American ginseng and Panax related species.