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김동근,Young-Hyun Ryu,Hyung-Gue Hwang 한국식물병리학회 2006 Plant Pathology Journal Vol.22 No.2
Monacrosporium ullum sp. nov. the captures nematodes on adhesive spherical knobs was isolated from soil around Codonopsis lanceolata at Ulleung island, Korea. The spindle-shaped conidia sized 17-44 μm (26.5 μm) long, 7-10 μm (8.1 μm) wide, containing from 1 to 4 cross-walls but most often divided by 2 septa (47%). Resting bodies sized 57×30 μm. Arthrobotrys amerospora has almost spherical non-septate conidia with a small truncate protuberance at the base and sized 20-27 μm (23.3) μm long and 11-17 (14.1) μm wide. Conidiophores are somewhat longer 362.8 μm (311-418 μm) than its original description (75-250 μm).
Kim, Dong-Geun,Ryu, Young-Hyun,Hwang, Hyung-Gue The Korean Society of Plant Pathology 2006 Plant Pathology Journal Vol.22 No.2
Monacroporium ullum sp. nov. the captures nematodes on adhesive spherical knobs was isolated from soil around Codonopsis lanceolata at Ulleung island, Korea. The spindle-shaped conidia sized $17-44{\mu}m\;(26.5{\mu}m)\;long,\;7-10{\mu}m\;(8.1{\mu}m)$ wide, containing from 1 to 4 cross-walls but most often divided by 2 septa (47%). Resting bodies sized $57{\times}30{\mu}m$. Arthrobotrys amerospora has almost spherical non-septate conidia with a small truncate protuberance at the base and sized $20-27{\mu}m\;(23.3){\mu}m$ long and $11-17{\mu}m\;(14.1){\mu}m$ wide. Conidiophores are somewhat longer $362.8{\mu}m\;(311-418{\mu}m)$ than its original description ($75-250{\mu}m$).
Eom, Taedaehyeong,Kim, Won June,Lim, Hyung-Kyu,Han, Myung Hoon,Han, Kyeong Hwan,Lee, Eok-Kyun,Lebè,gue, Sé,bastien,Hwang, Yun Jeong,Min, Byoung Koun,Kim, Hyungjun American Chemical Society 2018 The Journal of Physical Chemistry Part C Vol.122 No.16
<P>For the last several decades, there has been a rapid development of nanoscience and nanotechnology. In particular, nanoparticles (NPs) are applied in various catalyst problems, where their enormously large surface-to-volume ratio not only is advantageous for high catalytic performance but also allows the quantum size effect to play a key role in modifying their chemical properties. However, when understanding the size effect of NPs on the catalytic properties by employing density functional theory (DFT) calculations, there has been an obvious experiment-theory gap in simulating nanocatalysts with realistic sizes. In this study, we developed a new simulation method based on the cluster expansion model, namely, CE-<I>np</I>, which enables efficient and accurate calculations of the intermediate binding energies for various sizes of NPs. We then applied CE-<I>np</I> to investigate the electrochemical CO<SUB>2</SUB> reduction reaction (CO<SUB>2</SUB>RR) of gold NPs (AuNPs). CE-<I>np</I> reproduces not only DFT-level accuracies in predicting the intermediate binding energies on the NPs and slab surfaces but also the experimental behavior of catalytic activity and selectivity of AuNP catalysts. Because of the high computational efficiency of CE-<I>np</I> (without sacrificing the accuracy level of DFT), we performed the most exhaustive search on all possible on-top binding sites of AuNPs to unveil the complicated relations between the catalytic performance (activity and selectivity) and the NP properties (shape and size). This also highlights for the first time the catalytic importance of the near-edge sites, that is, active sites on the facets that are very close to the edges. We anticipate that our methodological development and several new findings on the CO<SUB>2</SUB>RR activity of AuNPs will provide advances in developing CO<SUB>2</SUB> electrochemical reduction technologies based on NPs.</P> [FIG OMISSION]</BR>
Cefepime 의 호기성 그람음성 간균 및 그람양성 구균에 대한 시험관내 항균력
유진홍,강문원,김양리,윤형규,신영신,박경실,최 황,신완식 대한감염학회 1993 감염 Vol.25 No.4
Cafepime and the other three third generation cephalosporins were tested for their antimicrobial effects. Minimal Inibitory concentrations of total 407 clinical isolates were determined by the agar dilution method. Cefepime showed the lowest MIC?? against Citrobacter freundii and Enterobacter cloacae, 1 ug/ml and 8 ug/ml respectively. MIC?? of cefepime, 16 ug/ml, was the lowest against Pseudomonas aeruginosa and Acinetobacter calcoaceticus. Cefepime showed the lowest MIC?? against Serratia marcescens and oxacillinsensityive Staphylococcus aureus. Against Klebsiella pneumoniae, cefepime showed low MIC??, 0.5 ug/ml. MIC?? of cefepime, 16 ug/ml, was the lowest against Streptococcus species. However, cefepime showed high MIC?? against Xanthomonas maltophilia, oxacillin resistant Staphylococcus aureus and coagulase negative Staphylococcus, 128 ug/ml, > 128 ug/ml, and 64 ug/ml, respectively. Compared to the other 3 third generation cephalosporins, cefepime showed the lowest MIC?? against all isolates except Xanthomonas maltophilia, oxacillin resistant Gram-positive cocci. These high active in vitro test results are concluded to indicate the usefulness of cefepime for the treatment of Gram-negative bacilli and oxacillin sensitve Gram-Positive cocci including nosocomial ones.