http://chineseinput.net/에서 pinyin(병음)방식으로 중국어를 변환할 수 있습니다.
변환된 중국어를 복사하여 사용하시면 됩니다.
DNA 분석을 통한 한우 , 연변황우 및 화우의 유전적 특성
신원집,여정수,김재우,신수길,정진우,이지홍 한국축산학회 1999 한국축산학회지 Vol.41 No.4
This study was conducted to identify the genetic parameters and genetic relationships among 3 cattle breeds of Hanwoo (Korea), Yanbian yellow cattle (China), and Wagyu (Japan). DNA fingerprinting was prepared using M13 probe and Pst 1 enzyme. Genetic homogencities of Hanwoo and Yanbian yellow cattle were comparatively lower than that of Wagyu, suggesting genetic improvement by active breeding program for Wagyu compared to Hanwoo and Yanbian yellow cattle and possibility of improvement capacity for Hanwoo and Yanbian yellow cattle. Genetic similarities between breeds were not significantly different among them, suggesting that these 3 breeds have been raised independently without any inflow or outflow of gene source for a while.
EXPERIMENTAL STUDY ON REGENERATING FOULED EGR COOLER BY NTPI TECHNOLOGY
Y. Y. CHEN,Y. X. CAI,X. H. LI,Y. X. SHI,Y. ZHENG 한국자동차공학회 2015 International journal of automotive technology Vol.16 No.2
In order to investigate the regeneration effect of non-thermal plasma injection (NTPI) technology on fouled exhaust gas recirculation (EGR) cooler, NTPI regeneration apparatus and EGR cooler performance test system were built up. Results showed that non-thermal plasma (NTP) could peel off the deposit layer and improve the heat exchange performance effectively. The carbon removal energy efficiency of this NTPI regeneration setup was 22.46 g/kWh and the O3 utilization ratio was 96.50%. To get a deeper understanding of the regeneration effect, thermo-gravimetric analysis (TGA) and Fourier transform infrared spectroscopy (FTIR) were introduced to investigate the variation of deposit layer’s physical and chemical characteristics before and after regeneration. Results showed that the content of soluble organic fraction (SOF) in deposit specimen decreased obviously, mainly because the carbonyls were effectively removed by NTP. Moreover, soot in deposit specimen was successfully activated by NTP.
Confocal microscopic findings of cysteine protease calpain in Plasmodium falciparum
Choi, Y.Y.,Jung, S.Y.,Cho, P.Y.,Soh, B.Y.,Zheng, B.,Kim, S.Y.,Park, K.I.,Park, H. Academic Press 2010 Experimental parasitology Vol.124 No.3
Pf-calpain, a cysteine protease of Plasmodium falciparum, is believed to be one of the central mediators for essential parasitic activity. However, the roles of calpain on parasitic activity have not been determined in P. falciparum. In the present study, the localization of Pf-calpain was investigated using polyclonal antibodies (anti-Pf-calpain antibody A and B) against peptides that distinguished it from human calpain-7 and rat calpain-10 protein. Recombinant Pf-calpain (rPf-calpain) was identified as a 46kDa protein using an anti-Pf-calpain antibody A, which can recognize the Pf-calpain binding site. Confocal microscopy revealed calpain within cytoplasmic localized parasites in the erythrocytic cycle. The findings suggested that the expression of Pf-calpain would be proportional to all different parasites in the erythrocytic cycle. On the other hand, anti-human calpain-7 antibody detected Pf-calpain in schizonts, and the immunofluorescence was stronger than with anti-rat calpain-10 antibody. However, the antibodies reacted with calpains in human red blood cells. These results show that anti-Pf-calpain antibody A and B specifically recognize only Pf-calpain. Taken together, the results suggest that Pf-calpain is expressed in all erythrocytic stages. In particular, the expression of Pf-calpain is increased much more when the late ring matures into the early trophozoite. Moreover, anti-Pf-calpain antibody A and B against synthetic peptides of the catalytic domain of Pf-calpain are useful to specifically detect Pf-calpain in all erythrocytic stages, while human and rat calpain antibody are not useful.
Zheng, Y.,Chen, Z.,Zheng, C.,Lee, Y.I.,Hou, X.,Wu, L.,Tian, Y. Pergamon Press ; Elsevier Science Ltd 2016 Talanta Vol.155 No.-
<P>A facile method was developed for determination of trace volatile acetone by coupling a derivatization reaction to surface-enhanced Raman scattering (SERS). With iodide modified Ag nanoparticles (Ag IMNPs) as the SERS substrate, acetone without obvious Raman signal could be converted to SERS-sensitive species via a chemical derivatization reaction with 2,4-dinitrophenylhydrazine (2,4-DNPH). In addition, acetone can be effectively separated from liquid phase with a purge-sampling device and then any serious interference from sample matrices can be significantly reduced. The optimal conditions for the derivatization reaction and the SERS analysis were investigated in detail, and the selectivity and reproducibility of this method were also evaluated. Under the optimal conditions, the limit of detection (LOD) for acetone was 5 mg L-1 or 0.09 mM (3 sigma). The relative standard deviation (RSD) for 80 mg L-1 acetone (n=9) was 1.7%. This method was successfully used for the determination of acetone in artificial urine and human urine samples with spiked recoveries ranging from 92% to 110%. The present method is convenient, sensitive, selective, reliable and suitable for analysis of trace acetone, and it could have a promising clinical application in early diabetes diagnosis. (C) 2016 Elsevier B.V. All rights reserved.</P>
EXPERIMENTAL STUDY OF EGR COOLER REGENERATION AIDED BY OXYGEN-FED NTP AND AIR-FED NTP
Y. X. SHI,Y. ZHENG,Y. X. CAI,W. J. LI,H. XU 한국자동차공학회 2016 International journal of automotive technology Vol.17 No.3
Based on non-thermal plasma (NTP) technology fed by oxygen and air as the gas source respectively, the experimental system of exhaust gas recirculation (EGR) cooler regeneration was built to do a study at different regeneration temperatures. By measuring the concentration of main active substance and COx in regeneration process, the influence of temperature on regeneration aided by oxygen-fed NTP and air-fed NTP was investigated. The experimental results indicate that EGR cooler can be regenerated both by air-fed NTP and oxygen-fed NTP at a wide temperature range of 18 oC ~ 300 oC. By comparison of the regeneration with oxygen-fed NTP and air-fed NTP, it can be easily known that the regeneration effect is most remarkable at 150 oC with oxygen-fed NTP and at 120 oC with air-fed NTP. In addition, when the temperature is below 150 oC especially at 120 oC, the regeneration efficiency of air-fed NTP is lower than oxygen-fed NTP, nevertheless, when the temperature is above 150 oC, air-fed NTP has a superiority in regeneration and the higher the temperature is, the more obvious the superiority will be.