• Title/Summary/Keyword: 유전방제

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Analysis of Pyrethroid Resistance Allele in Malaria Vector Anopheles sinensis from Malaria High-risk Area (말라리아 위험지역에서 채집된 말라리아 매개모기 Anopheles sinensis의 피레스로이드계 저항성 대립형질 분석)

  • Choi, Kwang Shik;Lee, Seung-Yeol;Hwang, Do-Un;Kim, Heung-Chul;Chang, Kyu-Sik;Jung, Hee-Young
    • The Korean Journal of Pesticide Science
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    • v.20 no.4
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    • pp.286-292
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    • 2016
  • Malaria is mainly transmitted by Anopheles sinensis which is dominant species in malaria high-risk area, northern part of Gyeonggi province in Korea. Pyrethroid insecticide is used for malaria vector, An. sinensis in Korea and the previous investigation consistently reported insecticide resistance from the vector. This study investigated insecticide susceptible and resistant alleles from An. sinensis and the status of malaria vector control in malaria high-risk area. For the study, An. sinensis collected from Paju, Gimpo and Ganghwa were sequenced for kdr detection. In Paju, there was no homozygous susceptibility and all of tested samples had homozygous or heterozygous resistance. There were 6.7% for susceptible homozygosity and 93.3% for resistant homozygosity or heterozygosity in Gimpo. Furthermore, the percentages of homozygous susceptibility and homozygous or heterozygous resistance in Ganghwa were 5.7% and 94.3% respectively. The results showed that the frequency of the insecticide resistance from An. sinensis in malaria high-risk area were increased much more than the previous investigation. Hence, this study suggests that malaria vector control programs should have to be prepared for the management of pyrethroid insecticide resistance.

Distribution Analysis of Optimal Equipment Assignment Using a Genetic Algorithm (유전알고리즘을 이용하여 최적화된 방제 자원 배치안의 분포도 분석)

  • Kim, Hye-Jin;Kim, Yong-Hyuk
    • Journal of the Korea Convergence Society
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    • v.11 no.4
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    • pp.11-16
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    • 2020
  • As a plan for oil spill accidents, research to collect and analyze optimal equipment assignments is essential. However, studies that have diversified and analyzed the optimal equipment assignments for responding to oil spill accidents have not been preceded. In response to the need for analyzing optimal equipment assignments study, we devised a genetic algorithm for optimal equipment assignments. The designed genetic algorithm yielded 10,000 optimal equipment assignments. We clustered using the k-means algorithm. As a result, the two clusters of Yeosu, Daesan, and Ulsan, which are expected to be the largest spills, were clearly identified. We also projected 16-dimensional data in two dimensions via Sammon's mapping. The projected data were analyzed for distribution. We confirmed that results of the simulation were better than those of optimal equipment assignments included in the cluster.In the future, it will be possible to implement an approximate model with excellent performance based on this study.

Tn5 insertions in the agrocin 84 plasmid the conjugal nature of pAgK84 and the locations of determinants for transfer and agrocin 84 production

  • 심재섭
    • The Microorganisms and Industry
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    • v.12 no.2
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    • pp.2-13
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    • 1986
  • Agrobacterium tumefaciens의 연구는 유전공학 시대를 맞이하여 많은 연구자들의 커다란 주목을 끌고있다. 식물세포내에 외부 유전자를 도입시키는, 확실히 믿을 수 있는 vector로 등장된 때문이다. 원래 이세균은 식물 줄기나 뿌리에 암종을 유발시키므로서 암발성 원인 구명 연구로 흥미를 끌게 되었다. 연구결과는 암발생 예방및 치료에 목적을 둠은 덩연할 것이다. 많은 약제가 시험되었으나 별로 진전을 보지 못하던중 비 원인성인 Agrobacterium radiobacter, strain 84에 의한 생물학적 방제의 성공으로 유일한 방제법을 갖게되었다. 뒤이어 암종발생 기작도 밝혀졌다. Agrobacterium의 세계는 온통 유전공학 기술로 채워져 있다. 암종발생에서 방제원리에 이르기까지 수없이 먼 옛날부터 이미 익혀오던 DNA 조작기술이었던가\ulcorner 암종을 유발시키는 agrocin84 plasmid를 갖는 비병원성 Agrobacterium을 찾아 생물학적 방제법을 확립하였다. 그후 병원성 Agrobacterium은 이에 대하여 어떻게 살아남을 것인가\ulcorner 실로 놀라운 일이라 아니할 수 있을까\ulcorner 이 병원성 Agrobacterium은 비 병원성 Agrobacterium 속에 있는 agrocin 84 plasmid을 탈취하여 자신이 agrocin84를 생성분비하며 암종 유발을 계소하여 간다. 아니면 비병원성 Agrobacterium이 병원성 Agrobacterium에게 agrocin 84 plasmid를 넘겨주었을까\ulcorner 왜 넘겨주었을까\ulcorner 공존을 위하여서일까\ulcorner 우리의 유전공학 기술은 이것을 막아줄수 있을까\ulcorner 생물학적 방제의 재성공을 위하여 논제의 연구는 왜 필요했던가\ulcorner 그 전후를 여기에 서술해 본다.닭이며 또한 제한된 지면에서 충분히 고찰하기는 어렵다. 우리나라에서 자주 거론되는 백신 및 종류에 국한하여 그 문제점과 앞으로의 전망을 고찰해 보기로 한다.ocking electrode를 제작하여 복합고분자 전해질과의 계면저항을 측정하였다.nm (1.2921eV)는 acceptor-bound exciton 인 I1(AO,X) 이고, 964.6nm(1.2853eV)는 donor-acceptor pair(DAP) 발광, 1341.9nm (0.9239eV)는 self activated(SA)에 기인하는 광발광 봉우리로 고찰되었다.가 높을수록 방출전류가 시간에 따라 급격히 감소하였다. 각 duty비에서 방출전류의 양이 1/2로 감소하는 시점을 에미터의 수명으로 볼 때 duty비 대 에미터 수명관계를 구해 높은 duty비에서 전계방출을 시킴으로써 실제의 구동조건인 낮은 duty비에서의 수명을 단시간에 예측할 수 있었다. 단속적으로 일어난 것으로 생각된다.리 폐 관류는 정맥주입 방법에 비해 고농도의 cisplatin 투여로 인한 다른 장기에서의 농도 증가 없이 폐 조직에 약 50배 정도의 고농도 cisplatin을 투여할 수 있었으며, 또한 분리 폐 관류 시 cisplatin에 의한 직접적 폐 독성은 발견되지 않았다이 낮았으나 통계학적 의의는 없었다[10.0%(4/40) : 8.2%(20/244), p>0.05]. 결론: 비디오흉강경술에서 재발을 낮추기 위해 수술시 폐야 전체를 관찰하여 존재하는 폐기포를 놓치지 않는 것이 중요하며, 폐기포를 확인하지 못한 경우와 이차성 자연기흉에 대해서는 흉막유착술에 더 세심한 주의가 필요하다는 것을 확인하였다. 비디오흉강경수술은 통증이 적고, 입원기간이 짧고, 사회로의 복귀가 빠르며, 고위험군에 적용할 수 있고, 무엇보다도 미용상의 이점이 크다는 면에서 자연기흉에 대해 유용한 치료방법임에는

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Control of Avian Coccidiosis : Past, Present, and Future (닭 콕시듐병 방제의 과거, 현재, 그리고 미래)

  • Ruff, M.D.
    • Korean Journal of Poultry Science
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    • v.19 no.3
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    • pp.151-160
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    • 1992
  • Control of coccidiosis depends on medication, management, immunity, or some combination of these methods. Prophylactic medication with anticoccidials remains the primary method of control, although the development of drug resistance is a major problem. Shuttle and rotation programs are increasingly used to delay the onset of drug resistance. Sensitivity testing has become an important tool in the identification of what specific medications will be effective in specific poultry operations. Management techniques for the control of coccidiosis have not been totally effective because most disinfectants do not kill the coccidial oocysts. Present methods for vaccination are currently limited to the use of controlled doses of live coccidia. New vaccination methods under investigation include vaccination with attenuated strains or parasite antigens produced either by fractionating the parasites or genetically engineered sub unit vaccines.

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Complete genome sequence of Bacillus thuringiensis C25, a potential biocontrol agent for sclerotia-forming fungal phytopathogens (생물학적방제 효과가 뛰어난 Bacillus thuringiensis C25 균주의 유전체 분석)

  • Lee, Hwa-Yong;Won, Kyungho;Kim, Yoon-Kyeong;Cho, Min;Kim, Kangmin;Ryu, Hojin
    • Korean Journal of Microbiology
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    • v.53 no.3
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    • pp.216-218
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    • 2017
  • We here provide the complete genome sequence of Bacillus thuringiensis C25, the strain showing antagonistic effects on fungal phytopathogens. The genome comprised of 5,308,062 bp with 35.32% G+C content of a circular chromosome and a plasmid containing 308,946 bp with 32.23% G+C content. The chromosome and plasmid genome included 5,683 protein coding DNA sequences, 107 tRNA and 42 rRNA genes.

Wolbachia-mediated Reproductive Alterations in Arthropod Hosts and its use for Biocontrol Program (볼바키아 세균에 의한 절지동물 기주의 생식적 변화와 생물적방제 프로그램에 이용 방안)

  • Rostami, Elahe;Madadi, Hossein;Abbasipour, Habib;Sivaramakrishnan, Shiva
    • Korean journal of applied entomology
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    • v.55 no.2
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    • pp.177-188
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    • 2016
  • The alpha-proteobacterium Wolbachia is one of the most important intracellular symbionts of arthropods. This Gram-negative bacterium is involved in many biological processes and is currently considered as a potential tool for biological control. Wolbachia is a cytoplasmic bacterium, maternally transferred through generations, and to facilitate its success, it has evolved several strategies that manipulate its host reproductive system to increase the number of infected individuals in the host population. The variety of Wolbachia was first recognized using genes wsp, 16S rRNA, ftsZ, gltA and groEL as molecular markers while strain genotypes of Wolbachia are determined of Multilocus sequence typing (MLST) and sequence of amino acid in region, hyper variable regions (HVRs) in protein WSP. Possible uses of the bacteria and their predominant phenotypes in control programs for agricultural pests and human disease vectors have been considered. Phenotypes are known to induce cytoplasmic incompatibility (CI), parthenogenesis induction (PI), feminization (F) and male killing (MK). Finally, applications of the bacterium in control programs of agricultural and medical insect pests have been discussed.

Phytophthora Blight of Pepper and Genetic Control of the Disease (고추 역병과 그 유전적 방제)

  • Kim, Byung-Soo
    • Current Research on Agriculture and Life Sciences
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    • v.32 no.3
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    • pp.111-117
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    • 2014
  • Phytophthora blight caused by Phytophthora capsici Leonian is a dangerous disease threatening pepper growers worldwide. The efficacy of chemical control is generally low as the pathogen is soil-borne and rapidly spread by zoospores during the rainy season. Thus, based on the demand for resistant varieties, various good resistant sources, such as CM334, AC2258, and PI201234, have been reported and their inheritance of resistance studied by many different authorities. However, the mode of inheritance remains unclear, as 1 or 2 independent dominant genes, 3 genes, or multiple genes have all been reported as responsible for resistance. Recently, QTL mappings of the gene factors for resistance have been reported, and molecular markers for resistance used in breeding programs. With the release of many resistant commercial hybrid cultivars, differentiation of pathotypes of the pathogen is attracting interest among breeders and plant pathologists. Various authorities have already classified the pathogen strains into different races according to the inter-action between resistant host plants, including the source of resistance, such as CM334 and PI201234, and resistant commercial varieties and P. capsici isolates. However, no standard differential host sets have yet been established, so the results are good only for the pathogen strains used in the experiments. Thus, for breeding varieties with durable resist-ance, it is important to introduce resistance from different sources and use diverse local pathogen strains collected in the target area for distribution in a breeding program.

Augmenting Plant Immune Responses and Biological Control by Microbial Determinants (새로운 생물적 방제 전략: 미생물 인자 유래 식물면역 유도)

  • Lee, Sang Moo;Chung, Joon-hui;Ryu, Choong-Min
    • Research in Plant Disease
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    • v.21 no.3
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    • pp.161-179
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    • 2015
  • Plant have developed sophisticated defence mechanisms against microbial pathogens. The recent accumulated information allow us to understand the nature of plant immune responses followed by recognition of microbial factors/determinants through cutting-edge genomics and multi-omics techniques. However, the practical approaches to sustain plant health using enhancement of plant immunity is yet to be fully appreciated. Here, we overviewed the general concept and representative examples on the plant immunity. The fungal, bacterial, and viral determinants that was previously reported as the triggers of plant immune responses are introduced and described as the potential protocol of biological control. Specifically, the role of chitin, glucan, lipopolysaccharides/extracellular polysaccharides, microbe/pathogen-associated molecular pattern, antibiotics, mimic-phytohormones, N-acyl homoserine lactone, harpin, vitamins, and volatile organic compounds are considered. We hope that this review stimulates scientific community and farmers to broaden their knowledge on the microbial determinant-based biological control and to apply the technology on the integrated pest management program.

Weed Management Technology with Host Specific of Biological Control Agents (기주특이성 잡초 활성 미생물을 이용한 잡초방제 기술)

  • Hong, Yeon-Kyu;Lee, Bong-Choon;Song, Seok-Bo;Park, Sung-Tae;Kim, Jeong-Nam;Geon, Min-Goo;Kim, In-Seob
    • Asian Journal of Turfgrass Science
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    • v.20 no.2
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    • pp.175-190
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    • 2006
  • The term mycoherbicide started in 1970, but its interest heightened due to increase costs of chemical herbicides. A classical biocontrol agent is expected to become a permanent part of its new environment and do no harm to it. Contemporary biological control agent(BCA) must be produced by artificial culture and could be applied like chemical herbicides over weeds. BCA is different from the classical approach in that it released through natural spread. To date 26 species of fungi are used as classical BCA against 26 species of weeds in seven countries. There are a number of examples of pathogens attacking non-target plants. But through risk assessments which include understanding the taxonomy, biology and ecology, the target and non-target species, it will be safe to introduce of exotic pathogens to control weeds. But pathogens have not been successfully used in practice. Many mycoherbicides show potential in laboratories, but are ineffective in the field and not consistent from year to year or field to field. There is also a lack of understanding humidity, dew formation and temperature and their effects on suppression of weeds by plant pathogens. Potential pathogen must be selected as a BCA. Previous studies suggest that these pathogens must (1) produce abundant and durable inoculum in artifical culture, (2) be genetically stable and weed specific and (3) kill weeds in control. A granular preparation of mycoherbicide into sodium alginate is lighter than liquids and less bulky than organic matter. Gel forms have also been used.

Proteomic Dissection of Diagnostics (Purified Protein Derivative) for Tuberculosis (결핵 진단액(Purified Protein Derivative)의 단백질체 분석)

  • Jo, Yun-Sang
    • Proceedings of The Korean Society of Health Promotion Conference
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    • 2005.11a
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    • pp.234-243
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    • 2005
  • 상당히 성공적인 사람병원체인 결핵균을 Robert Koch가 발견한 이래, 결핵 방제의 상당한 진보에도 불구하고, 결핵의 발생은 현재까지 계속되어오고 있다(Tiruviluamala and Reichman 2002). 그러므로, 완전한 민감성과 특이성을 갖는 신속한 진단방법이 결핵과 결핵의 잠복감염을 진단하는데 요구되어지며(Tiruviluamala and Reichman 2002), 계속적으로 결핵균과 BCG의 유전체와 단백질체 연구를 통하여 결핵 방제수단이 발전되어질 것이다 (Jungblut et al. 1999). 본 연구는 PPD가 결핵을 진단하는 특이한 항원만으로 정확하게 조화를 이루고 있지 않다는 것을 보여주었으며, 그것의 역가는 결론적으로 생물학적으로 평가되어져야 하지만, PPD의 제조는 단백질체 분석 기법에 의해 분석되고 표준화될 수 있음을 보여주었다. 이를 통하여 결핵 피내진단의 일괄된 결과를 위해 PPD 사용 전에 이와같은 단백질체 분석기법을 적용할 수 있을 것으로 사료되며, 본 연구에서 밝혀진 특이 항원은 새로운 피내진단항원으로 적용될 수 있을 것으로 사료된다.

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