Medicinal plants always suffer from diseases and pests in their cultivation and growing, and the yield and quality are reduced. At present, chemical pesticide is mainly used to control the diseases and pests. The long-term use and over-use of pesticide result in pesticide residue, pests resistance to pesticide, water and soil pollution and other environmental contamination. It is necrssary to provide the integrated pests management, including new technology of biological control for developing green drug. This project makes research on the following aspects: 1. Applied studies on bethyloid wasp (Scleroderma guani) control for stem borer; 2. To develop Trichoderma spp. and use it to control the diseases of medicinal plants; 3. Applying Agro-antibiotics 120 to control phytophthora root rot of ginseng; 4. Researches on application of entomopathogenic nematodes against ten-spotted lema (Lema decempuntata) et al.
Animals ; Hymenoptera ; Pest Control, Biological ; Plant Diseases ; Plants, Medicinal ; growth & development ; Trichoderma

Hymenoptera stings can cause serious injury to humans. We report the clinical findings of 6 cases of Hymenoptera stings. All patients developed painful erythematous papules at the sting sites and had a past history of parasitoid wasp sting. This is the first clinical report of the parasitoid wasp, Cephalonomia gallicola, causing human stings in Korea.
Adult ; Animals ; Child, Preschool ; Female ; Gram-Positive Bacteria ; Humans ; Hymenoptera/*growth & development ; Insect Bites and Stings/*diagnosis/*pathology ; Male ; Middle Aged ; Republic of Korea

The transgenic wheat of improved resistance to the storage pest was production. We have introduced the cowpea trypsin inhibitor gene (CpTI) into cultured embryonic callus cells of immature embryos of wheat elite line by Agrobacterium-mediated method. Independent plantlets were obtained from the kanamycin-resistant calli after screening. PCR and real time PCR analysis, PCR-Southern and Southern blot hybridization indicated that there were 3 transgenic plants viz. transformed- I, II and III (T- I, T-II and T-III). The transformation frequencies were obviously affected by Agrobacterium concentration, the infection duration and transformation treatment. The segregations of CpTI in the transgenic wheat progenies were not easily to be elucidated, and some transgenic wheat lines (T- I and T-III) showed Mendelian segregations. The determinations of insect resistance to the stored grain insect of wheat viz. the grain moth (Sitotroga cerealella Olivier) indicated that the 3 transgenic wheat progeny seeds moth-resistance was improved significantly. The seed moth-eaten ratio of T- I, T-II, T-III and nontransformed control was 19.8%, 21.9%, 32.9% and 58.3% respectively. 3 transgenic wheat T1 PCR-positive plants revealed that the 3 transgenic lines had excellent agronomic traits. They supplied good germplasm resource of insect-resistance for wheat genetic improvement.
Agrobacterium tumefaciens ; genetics ; Animals ; Hymenoptera ; growth & development ; Lepidoptera ; growth & development ; Peas ; genetics ; Plant Proteins ; genetics ; Plants, Genetically Modified ; genetics ; Transformation, Genetic ; Triticum ; genetics ; Trypsin Inhibitors ; biosynthesis ; genetics ; alpha-Amylases ; antagonists & inhibitors