Spotted wing drosophila, Drosophila suzukii, is an important pest of grape and strawberry because it lays egg inside fruit by damaging fruit surface. Recently, D. suzukii has been widely spreaded and causes several problems, so many countries include Australia designated D. suzukii as an important quarantine pest. Because of this, Korean farmers have trouble to export strawberry. In this study, we tested ethyl formate and phosphine to control D. suzukii, and also tested concurrent treatment of ethyl formate and phosphine to reduce phytotoxicity and enhance efficacy. When treated 35g/m3 of ethyl formate for 4 hours, mortality of egg, larvae, pupae and adult stages of D. suzukii was 22.2%, 21.1%, 19.2% and 28.3%, respectively. When treated 1g/m3 of phosphine for 24 hours, all stages of D. suzukii was completely controlled, but caused phytotoxic effect on strawberry. When treated with 35g/m3 of ethyl formate and 1g/m3 of phosphine concurrently for 4 hours, efficacy has been increased with less phytotoxicity than separate treatment. This result indicates that concurrent treatment enhanced efficacy with less phytotoxicity.

오염수로부터 자성분리가 가능하며, 방사성 세슘을 효율적으로 제거하기 위한 코발트 페로시아나이드(cobalt ferrocyanide, CoFC) 혹은 니켈 페로시아나이드(nickel ferrocyanide, NiFC)가 도입된 자성입자 흡착제를 제조하였다. Fe3O4 나노 입자는 공침법을 이용해 제조하였고, Co2+와 Ni2+ 이온을 입자 표면에 도입시키기 위해 금속이온과 금속 배위결합(metalcoordination) 을 하는 카르복실기를 포함한 숙신산(succinic acid, SA)을 자성나노입자(magnetic nanoparticles, MNPs) 표 면에 코팅하였다. CoFC와 NiFC는 자성나노입자 표면에 도입된 Co2+ 혹은 Ni2+ 이온이 hexacynoferrate와 결합하여 형성된 다. 제조된 CoFC-MNPs 그리고 NiFC-MNPs는 각각 43.2 emu·g-1, 47.7 emu·g-1의 우수한 포화자화 값을 보여주었다. X- 선 회절분석(XRD), 퓨리에 변환 적외선 분광분석(FT-IR), 나노입자 입도 분석기(DLS), 투과전자현미경(TEM) 등의 분석을 통해 흡착제의 물성을 파악하고, 세슘에 대한 흡착 성능을 알아보았다. 흡착실험을 평가하기 위해 Langmuir/Freundlich 등 온흡착식을 이용해 실험 결과 값을 곡선맞춤 하였고, CoFC-MNPs와 NiFC-MNPs의 최대흡착량(qm)은 각각 15.63 mg·g-1, 12.11 mg·g-1이다. CoFC-MNPs와 NiFC-MNPs는 방사성 세슘에 대해서도 최저 99.09%의 제거율을 가지며, 경쟁이온의 존재에도 방사성 세슘만을 선택적으로 흡착한다.

Today, with the rapid development of economy and the rapid advancement of urbanization, there are still many difficulties and challenges on the road of enterprise production and operation. Especially financial risk, which always accompanies the entire development process of the enterprise, is one of the risks that have the greatest impact on the production process and operation of the enterprise. Timely management and prevention of financial risks is the core link of enterprise operation and development. It can be said that the real estate industry is a very basic and mainstream field, with a certain leading position, and is the mainstay in the process of economic development. Many domestic policies have promoted the development of the real estate industry. The real estate industry continues to grow. Based on the relevant theories of financial risks, this study analyzes in detail the current financial problems faced by Company A, explores the relevant influencing factors of the financial risks of the enterprise, and puts forward specific countermeasures to prevent financial risks, which can help Company A improve the financial risk management system and reduce the occurrence of financial risks.

Panax ginseng C.A. meyer (family: Araliaceae) is a perennial crop that has been widely used as a traditional medicine in Korea. Various P. ginseng cultivars exhibit a range of morphological and physiological traits as well as genetic diversity. To elucidate the differences of primary metabolism underlying such genetic diverstiy, we performed primary metabolite profiles in adventitious roots from five Panax ginseng cultivars using gas chromatography-mass spectrometry (GC-MS). The GC-MS analysis revealed eight primary metabolites as biomarkers and allowed us to classify the five cultivars into three groups. We selected three cultivars to represent each group and analyzed their transcriptomes by Illumina sequencing. We inspected 100 unigenes involved in seven primary metabolite biosynthesis pathways and found that 21 unigenes encoding 15 enzymes were differentially expressed among the three cultivars. Integrated analysis of transcriptomes and metabolomes revealed that the ginseng cultivars differ in primary metabolites as well as in the putative genes involved in the complex process of primary metabolic pathways. Our data derived from this integrated analysis provide insights into the underlying complexity of genes and metabolites that co-regulate flux through these pathways in ginseng.

Panax Ginseng is a perennial medicinal plant originated from North-east asia. Because of its well-known tonic effects mainly from ginsenosides, various types of processed ginseng products have been distributed around the world. Here, we analyzed secondary metabolite profiling of adventitious roots of 5 korean ginseng cultivars, Chunpoong (CP), Sunhyang (SH), Gopoong (GO), Sunun (SU), and Cheongsun (CS). At the same time, the profiles of relative gene expressions related to ginsenoside biosynthesis pathway were compared among ginseng cultivars. Secondary metabolite profiles were revealed by UPLC/Q-TOF-MS from extracts of bioreactor derived adventitious roots of five ginseng cultivars. Using principal component analysis, secondary metabolite profiles of ginseng cultivars were categorized into three groups. Metabolites with high VIP values were annotated using known database and standards compounds. Relative gene expression of ginsenoside related gene were analyzed using realtime PCR. The three groups had distinct metabolite contents. Furthermore, gene expression profiles related to ginsenoside were also different, which might contribute diverse secondary metabolite composition of ginseng cultivars. Further integrated analysis would provide a relationship between genetic background of ginseng cultivars and secondary metabolite profiles.

The generation and analysis of genomic resources information are essential to understand genomic features of crops. Even though medicinal component and its effect of Panax ginseng was well studied, the genomic study has been recently started. The ginseng genome has been known to undergo two rounds of whole genome duplication (WGD), therefore we investigated an evidence of WGD in ginseng draft sequence for understanding current ginseng genome structure. Four paralogous gene-rich genome blocks were found, consisted by eight scaffolds, using about 3.0 Gb whole genome draft sequence and 48,821 unigenes of P. ginseng generated by whole genome shotgun sequencing. The eight scaffold sequences were ordered and connected into four genomic blocks, using zig-zag extension within scaffold sequences recently duplicated. The paralogous scaffold pairs that were recently duplicated showed high sequence conservation in genic and non-genic regions. However, paleo duplicated paralogue scaffold sequences showed little conservation only in genic regions. Finally, a total of 110 paralogous gene pairs and its expression were identified from recently and paleo duplicated scaffold pairs, which were co-linear among four genomic blocks. This study provides the first insight into duplicated genome structure of ginseng and will be a valuable information for further ginseng genomics including improvement of draft sequence quality, chromosome anchoring of scaffolds, and genetic mapping.

Panax ginseng is a well-known herbal plant originated from North-east asia for its various tonic effects. However, production of ginseng roots takes long time in field condition, usually five through six years until harvest. Additionally, ginseng is very susceptible to many kinds of biotic and abiotic stresses, for example, Rhizoctonia solani, which causes damping-off, or high temperature. To overcome these limits, induction of adventitious roots has been studied for more than 10 years and also adventitious roots are widely used materials for genetic research of P.ginseng. In this study, we induced adventitious roots from registered Korean ginseng cultivars and cultured them in bioreactor condition. Induction rate of adventitious roots from nine Korean ginseng cultivars was evaluated and growth pattern of four cultivars in bioreactor scale was also studied. Furthermore, genes that are related to biosynthesis of saponins in ginseng, ginsenoside, were discovered in ginseng whole-genome shotgun sequences for genetic research.

Perilla is a genus as a member of the mint family Lamiaceae which is known to contain lots of volatile metabolite. Perilla has been called as ‘deulkae’ indicating ‘wild sesame’ that means it has been maintained in Korea with long history. It has been very friendly used as edible oil and as fresh leaf vegetable. Perilla oil is valued for its medicinal benefit because it contains best amounts of unsaturated fatty acids, especially for the alpha-linolenic acid, known to omega-3 fatty acid, among all of the plant oils. It also include many beneficial phytochemicals. However, little study is conducted on their genetics. Here, we announce construction of well normalized and full length enriched-perilla cDNA library from a whole plant of one cultivar ‘Youngho-deulkae’ and their sequence characterization to provide useful resources for genetics, breeding and metabolite engineering. By sequencing of 5,760 cDNA clones, we 5,438 high quality EST sequences. Sequence trimming and assembly resulted 3,995 unigenes which consists 1,004 contigs and 2,991 singletones. Unigenes that showed little homology at the DNA sequence level with known genes in other plants even though they showed similarity at the protein domain level based on BLASTN, BLASTX, and TBLASTX. This study may provide good resources for initiation of further genomics, comparative genomics, functional genomics such as metabolic engineering and molecular breeding.