본 연구는 서울시내에서 시판중인 식육에서 E. faecalis 를 분리하고 이 균들의 항생제 내성 패턴, 항생제 유출 펌 프 유전자 및 병독성 유전자의 분포를 분석하였다. 총 277 개의 식육시료에서 93균주의 E. faecalis 를 분리하였다. 이 균주들의 항생제 내성비율은 ampicillin에는 35.5%, chloramphenicol에 6.4%, ciprofloxacin에 4.3%, eryhtromycin 에 18.3%, quinupristin-dalfopristin에 76.3%, tetracycline에 45.2%의 내성이었으며 levofloxacin, teiconplanin 및 vancomycin에는 모든 균이 감수성이었다. 약물 유출펌프인 MFS 타입의 eme(A)와 ABC 타입의 efr(A)유전자는 모든 균주 (100%)에서 확인되었으며 efr(B)는 98.9%, lsa는 91.4%의 균주에서 확인되었다. 병독성 인자인 gel(E)는 68.8%, ace 는 90.3%, asa1는 47.3%, efaA는 91.4%, esp는 12.9%의 균주에서 확인되었다. 본 연구는 시판 식육에서 분리한 지 표 미생물의 하나인 E. faecalis의 항생제 내성, 약물유출 펌프 및 병독서 유전자의 분포를 분석한 연구로 지속적인 모니터링을 하여야 할 것으로 사료된다.

This paper investigated impact resistance capacity and failure mode of strengthened column with PROTECT (Poly-Resilience-Oriented hybrid TEChnology plaTe) panel by analytical study. PROTECT panel is the composite panel with two steel plates and nano-composite. In order to perform impact analysis, dynamic properties of concrete, steels and nano-composite were determined. Finite element analysis was performed with these properties under the drop-weight impact. From the FEA, different failure modes corresponding to different columns were derived.

본 연구에서는 연륙연도 사업에 대응하는 경제성 및 안정성을 갖춘 쌍동선형 차도선의 개발을 위해 U형과 V형의 서로 다른 쌍 동선형을 CFD 해석을 수행하여 저항성능을 비교하였다. CFD 해석 결과 U형 쌍동선형의 경우 14kts 이상의 고속에서 선수부 파형에 이상 이 발생하여 정상적인 운행이 불가능하다 판단되었으며, 이에 비해 V형은 동일한 속도에서도 이상이 발생하지 않았으며, 또한 U형 쌍동선 형 대비 V형 쌍동선형의 경우, 저속에서는 U형 대비 높은 침수표면적에도 불구하고 거의 같은 RTS값을 보이지만, 고속으로 넘어가면 U형 에 비해 확연히 낮은 RTS값을 보임을 확인, V형의 쌍동선형이 U형에 비해 저항성능이 개선됨을 확인하였다.

Anopheles sinensis is an important vector for Plasmodium vivax and thus has been targeted with pyrethroids in Republic of Korea. Using the direct contact mortality bioassay, two field populations of An. sinensis from Ganghwa-gun and Goyang-si were characterized for their resistance to pyrethroids with RR ratio values (Resistant ratio to imidacloprid) of 125.6 to 203.8 folds and 80.0 to 120 folds, respectively. Genomic DNA was used for Allele-specific PCR (AS-PCR) genotyping of the sodium channel genes to detect L1014S mutations. The homozygous susceptible Leu/Leu genotype in Ganghwa-gun and Goyang-si was 5.0% and 11.3% and the resistance genotypes were 95.0% and 88.7%, respectively. The homozygous Phe/Phe resistance genotype was the most prevalent as 35.4% in Ganghwa-gun and 44.0% in Goyang-si. Hence, this study suggests that malaria vector control programs should be prepared for the management of pyrethroid insecticide resistance.

Anopheles sinensis is an important vector for Plasmodium vivax and thus has been targeted with organophosphates in Republic of Korea. Using the direct contact mortality bioassay, two field populations of An. sinensis from Paju-si and Yeoncheon-gun were characterized for their resistance to organophosphats with RR ratio values (Resistant ratio to imidacloprid) of 446.9 to 756.3 folds and 502.1 to 861.7 folds, respectively. Genomic DNA was used for Allele-specific PCR (AS-PCR) genotyping of the acethylcholine esterase to detect Gly119Ser mutations. The homozygous susceptible Ser/Ser genotype in Paju-si and Yeoncheon-gun was 20.0% and 20.9% and the resistance genotypes were 80.0% and 79.1%, respectively. The homozygous Gly/Ser resistance genotype was the most prevalent as 60.7% in Paju-si and 41.9% in Yeoncheon-gun. Hence, this study suggests that malaria vector control programs should be prepared for the management of organophosphate insecticide resistance.

Anopheles sinensis is an important vector for Plasmodium vivax and thus has been targeted with pyrethroids in Republic of Korea. Using the direct contact mortality bioassay, two field populations of An. sinensis from Paju-si and Yeoncheon-gun were characterized for their resistance to pyrethroids with RR ratio values (Resistant ratio to imidacloprid) of 96.8 to 167.2 folds and 34.2 to 98.4 folds, respectively. Genomic DNA was used for Allele-specific PCR (AS-PCR) genotyping of the sodium channel genes to detect L1014S mutations. The homozygous susceptible Leu/Leu genotype in Paju-si and Yeoncheon-gun was 3.3% and 37.1% and the resistance genotypes were 96.7% and 62.9%, respectively. The homozygous Phe/Phe resistance genotype was the most prevalent as 45.0% in Paju-si and 31.5% in Yeoncheon-gun. Hence, this study suggests that malaria vector control programs should be prepared for the management of pyrethroid insecticide resistance.

Insect resistance to crop protecting chemicals is developing very rapidly, which is a major problem in the production of crops. Recently, the mechanism of resistance to various pseticides s has been revealed in Helicoverpa armigera. However, to date, no technology has been developed to quickly diagnose resistance yet. In this study, we present the results of developing method of rapid diagnosis of resistance

Metabolic resistance mechanisms of Laodelphax striatella to several insecticides, such as neonicotinoids, organophosphates and pyrethroids, have been investigated by evaluating the transcription levels of CYP450 genes. Nevertheless, no study on the CYP450-mediated carbamate resistance in L. striatella has been conducted to date. Here, we determined the transcription levels of six CYP450 genes and one carboxylesterase gene to screen detoxification genes associated with carbamate resistance. The CYP6CW1 exhibited the highest transcription level (18 fold) in a resistance strain. Interestingly, its transcription level increased slightly (3 fold) in a susceptible strain upon the exposure to a sublethal dose (LC30) of carbofuran. These results suggest that CYP6CW1 expression is inducible by carbofuran and its overexpression is likely responsible for carbofuran tolerance and resistance in L. striatella.

Worldwide, increasing numbers insecticide resistant insect is one of the main problem in agriculture not only in the field but also in the storage. The rusty grain beetle, Cryptolestes ferrugineus is one of the cosmopolitan insect that infests a wide range of stored cereals and related commodities. Until quite recently, phosphine (PH3) has been effective in controlling this species in worldwide including Korea. However, strongly resistant populations of RGB have been detected in Australia that could threaten market access of infested commodities. Resistant populations detected in Australia showed extremely high levels of resistance to phosphine, up to 1300 folds higher than that of susceptible strain. So here we tried to identify their phosphine resistance mechanism based on transcriptome analysis using RNaseq in adult stage. Over 10Gb were sequenced in each strains and some of specific P450 were over expressed in resistance strain.

The eggs of Asian tiger mosquito, Aedes albopictus, possess high desiccation resistance, which could lead rapidly spreading this mosquito across the world. Melanization and/or hardening of mosquito eggshell are critical for desiccation resistance to protect embryo from adverse environment. Dopachrome-conversion enzymes (Yellows) catalyze melanin synthesis in insects. Here we report functional importance of two ovary-specific yellow genes, AalY-g and AalY-g2, in desiccation resistance of Ae. albopictus egg. Loss of function of these genes by RNAi causes the fragile exochorion and delay initial melanization of the endochorion. Furthermore, eggs from control females exhibit high desiccation resistance under the air-dry condition, whereas those from AalY-g- or AalY-g2-deficient females are collapsed. TEM analysis reveals ultrastructural defects in the endochorion and serosal cuticle in these eggs. The results indicate that AalY-g and AalY-g2 are critical for integrity and desiccation resistance of the Ae. albopictus egg.

In order to establish symbiotic host-bacterial relationships, symbionts in insects evolved a mechanism to overcome host immune responses. Here we provide the resistance of symbiotic bacteria on the insect immune system. As a result, through the transposon mutagenesis, we found a salivary gland (SG) susceptible mutant. The disrupted gene was identified as nlpB involved in lipoprotein synthesis. The nlpB, bla double deletion mutant was sensitive to SG like nlpB-Tn5 inserted mutant. This mutant increases outer membrane permeability. It provides an explanation for SG susceptibility, because the antimicrobial peptide in SG would be able to translocate across the outer membrane more easily than in the wild type. These results indicate that nlpB and bla are likely to be important factors in terms of determining resistance against SG of Riptortus that is connected with the successful colonization of the Riptortus midgut.

Increasing numbers of insecticide resistant insect is one of the main problem in current agriculture. To manage the insecticide resistance, IRAC suggest some tips for farmers : First, sequence or alteration of insecticide based on MOA. Second, choosing the effective insecticide. In this point raised following question : How to distinguish the effective or non-effective insecticide. Until now, bioassay is the right answer. However that is time-consuming, labor-intensive and costly process. So we have been steadily advancing molecular based insecticide resistance diagnosis for supporting and/or substitution of classical bioassay. It can summarized following steps : First, identification of insecticide resistance mechanism. Second, marker development. Third, development molecular diagnosis such as PASA, LAMP etc. Forth, application on field collected insects. Here we discuss some case of these study particular several major pests in highland agriculture.

The diamondback moth (DBM), Plutella xylostella, is a globally distributed and important economic pest. Chemical control is the primary approach to regulate populations of this pest. Chlorantraniliprole is the first commercial insecticide that belongs to the new chemical class of diamide insecticides. In this study, the resistant strain was observed 1578-fold resistance to chlorantraniliprole. Point mutation (G4946E) in ryanodine receptor (RyR) showed a high frequency. Enzyme assays indicated that glutathione S-transferase (GST) activity in the resistant strain was 2.4 times higher compared with the susceptible strain, whereas no difference was seen for P450 and esterase. In addition, the expression of two GSTs genes was up-regulated. These findings pave the way for the complete understanding of the mechanisms of diamide insecticides resistance in insects.

A series of conserved point mutations in acetylcholinesterase (AChE) confer resistance to organophosphorus and carbamate insecticides in most arthropod pests. However, the mutations associated with reduced sensitivity to insecticides usually results in the reduction of catalytic efficiency and leads to a fitness disadvantage. To compensate for the reduced catalytic activity, overexpression of neuronal AChE appears to be necessary, which is achieved by a relatively recent duplication of the AChE gene (ace) as observed in the two-spotted spider mite and other insects. Unlike the cases with overexpression of neuronal AChE, the extensive generation of soluble AChE is observed in some insects either from a distinct non-neuronal ace locus or from a single ace locus via alternative splicing. The production of soluble AChE in the fruit fly is induced by chemical stress. Soluble AChE acts as a potential bioscavenger and provides tolerance to xenobiotics, suggesting its role in chemical adaptation during evolution.

The cotton bollworm, Helicoverpa armigera (Hübner) is a serious agricultural pest which has evolved resistance against many chemical classes of insecticides. This species has evolved resistance to the synthetic pyrethroids across its native range and is becoming a truly global pest, after establishing in Brazil and having been recently recorded in North America. A chimeric cytochrome P450 gene, CYP337B3, has been shown to detoxify to fenvalerate and cypermethrin. The CYP337B3 gene has now been detected in different populations around the world, and is even found in South America. This gene is likely to have arisen independently in different geographic locations, probably through selection on pre-existing diversity, and there is ongoing movement of these alleles around the world. The alleles found in Brazil are those most commonly found in Asia, suggesting a potential origin for the incursion into the Americas. This information should be taken into account when devising control strategies for this invasive pest, both in its native range and in the Americas

The diamondback moth, Plutella xylostella, is known worldwide as a pest that affects cruciferous plants. We surveyed insecticide susceptibility in chlorantraniliprole-resistant strain of P. xylostella to 13 insecticides (3 diamaids, 2 synthetic pyrethroids, 2 spinosyns, 1 organophosphorus, 1 carbamate, 1 marcrolide, and 3 others) to examine resistance ratios. The levels of insecticide resistance were extremely high, especially to chlorantraniliprole and flubendiamide. Enzyme assays indicated that glutathione S-transferase (GST) activity in the resistant strain was 2.4 times higher compared with the susceptible strain, whereas no difference was seen for P450 and esterase. Its F1 progeny resulting from reciprocal crosses with a susceptible strain revealed no maternal effects and a diamide susceptible phenotype, suggesting an autosomally almost recessive mode of inheritance.

Insecticidal crystal toxins from the bacterium Bacillus thuringiensis (Bt) kill insects via a complex mode of action resulting in the creation of cytolytic pores in the membrane of midgut epithelial cells. These toxins are expressed in transgenic cotton and maize which have been adopted worldwide to control lepidopteran pests while reducing dependence on chemical insecticides. However, insect resistance to Bt toxins is increasing in certain key pest species. Beginning with Heliothis virescens, genetic studies in Bt-resistant Lepidoptera and Coleoptera have found mutations in ABC transporters. Cry1A, Cry1C, Cry2A, and Cry3B toxins each appear to target a different member of the ABC superfamily. These studies confirm the essential role of ABC proteins in Bt toxin mode of action. It is proposed that ABC proteins assist in the insertion of the toxin into the midgut epithelial membrane, a crucial step for which the mechanism has not been known in detail. Properties of ABC transporters suggest strategies to increase efficacy of Bt toxins and to delay the evolution of Bt toxin resistance in target insect pests.