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KIM, Jae Kyeom,CHOI, Soo Jung,BAE, Hyeri,KIM, Cho Rong,CHO, Hong-Yon,KIM, Young Jun,LIM, Seung Taik,KIM, Chang-Ju,KIM, Hye Kyung,PETERSON, Sabrina,SHIN, Dong Hoon Japan Society for Bioscience, Biotechnology, and A 2011 Bioscience, Biotechnology, and Biochemistry Vol.75 No.10
<P>Previously, we identified methoxsalen (8-methoxy-2′,3′,6,7-furocoumarin) as the bioactive compound probably responsible for acetylcholinesterase (AchE) inhibition achieved by feeding crude extract of <I>Poncirus trifoliate.</I> To confirm the activity of methoxsalen, Institute of Cancer Research (ICR) mice were fed a control or a methoxsalen-supplemented diet for 4 weeks, and then learning and memory enhancing effects with respect to trimethyltin (TMT)-induced neurotoxicity were evaluated. The brain tissues of ICR mice were dissected after completion of the behavioral tests for biochemical analysis. Methoxsalen effectively reversed TMT-induced memory impairment on both Y-maze and passive avoidance tests. Brain AchE activity was inhibited by the oral consumption of all concentrations of methoxsalen. Moreover, the level of oxidative stress was significantly ameliorated in the groups on methodsalen containing diets. This is the first <I>in vivo</I> study conducted with methoxsalen in the field of AD research, and it indicates that further investigation of methoxsalen is warranted.</P>
KIM, Jae Kyeom,BAE, Heyri,KIM, Mi-Jeong,CHOI, Soo Jung,CHO, Hong Yon,HWANG, Han-Joon,KIM, Young Jun,LIM, Seung Taik,KIM, Eun Ki,KIM, Hye Kyung,KIM, Bok Yong,SHIN, Dong-Hoon Japan Society for Bioscience, Biotechnology, and A 2009 Bioscience, biotechnology, and biochemistry Vol.73 No.5
<P>Various native Korean plants were screened to find an effective acetylcholinesterase (AChE) inhibitor for the treatment of Alzheimer’s disease (AD). Among these plants, the ethanol extract of <I>Poncirus trifoliate</I> was selected for isolating the AChE inhibitor because it exhibited the highest inhibitory activity (47.31%). To separate the active compound from <I>Poncirus trifoliate</I>, solvent partition, open column chromatography, thin-layer chromatography (TLC), and high-performance liquid chromatography (HPLC) were utilized. The putative chemical structure of the AChE inhibitor was identified as <I>methoxsalen</I> by successive analysis with electron ionization mass spectrometry (EI-MS) and <SUP>13</SUP>C/<SUP>1</SUP>H-nuclear magnetic resonance (NMR). To confirm the attenuating effect of the <I>Poncirus trifoliate</I> extract against trimethyltin (TMT)-induced neurotoxicity, <I>in vivo</I> behavior tests were carried out. Our findings suggest that the <I>Poncirus trifoliate</I> extract significantly reversed TMT-induced learning and memory impairment. These results demonstrate that the <I>Poncirus trifoliate</I> extract could possess a wide range of beneficial activities for neurodegenerative disorders, notably AD.</P>
KIM, Jae Kyeom,CHOI, Soo Jung,CHO, Hong Yon,HWANG, Han-Joon,KIM, Young Jun,LIM, Seung Taik,KIM, Chang-Ju,KIM, Hye Kyung,PETERSON, Sabrina,SHIN, Dong-Hoon Japan Society for Bioscience, Biotechnology, and A 2010 Bioscience, biotechnology, and biochemistry Vol.74 No.2
<P>To determine the effects of kaempferol, rat pheochromocytoma cells (PC12) and Institute of Cancer Research (ICR) mice were utilized as neuronal models. Using <I>in vitro</I> assays, kaempferol was shown to have protective effects against oxidative stress-induced cytotoxicity in PC12 cells. Administration of kaempferol also significantly reversed amyloid beta peptide (Aβ)-induced impaired performance in a Y-maze test. Taken altogether, the results reported here suggest that further investigation is warranted of the influence of kaempferol on pathways related to Alzheimer’s disease.</P>
Nonvolatile Memory Characteristics of Double-Stacked Si Nanocluster Floating Gate Transistor
Kim, Eun-Kyeom,Kim, Kyong-Min,Son, Dae-Ho,Kim, Jeong-Ho,Lee, Kyung-Su,Won, Sung-Hwan,Sok, Jung-Hyun,Hong, Wan-Shick,Park, Kyoung-Wan The Institute of Electronics and Information Engin 2008 Journal of semiconductor technology and science Vol.8 No.1
We have studied nonvolatile memory properties of MOSFETs with double-stacked Si nanoclusters in the oxide-gate stacks. We formed Si nanoclusters of a uniform size distribution on a 5 nm-thick tunneling oxide layer, followed by a 10 nm-thick intermediate oxide and a second layer of Si nanoclusters by using LPCVD system. We then investigated the memory characteristics of the MOSFET and observed that the charge retention time of a double-stacked Si nanocluster MOSFET was longer than that of a single-layer device. We also found that the double-stacked Si nanocluster MOSFET is suitable for use as a dual-bit memory.
Effect of corrosion on the ultimate strength of double hull oil tankers - Part I: stiffened panels
Kim, Do Kyun,Park, Dae Kyeom,Kim, Jeong Hwan,Kim, Sang Jin,Kim, Bong Ju,Seo, Jung Kwan,Paik, Jeom Kee Techno-Press 2012 Structural Engineering and Mechanics, An Int'l Jou Vol.42 No.4
Age-related problems especially corrosion and fatigue are normally suffered by weatherworn ships and aging offshore structures. The effect of corrosion is one of the important factors in the Common Structural Rule (CSR) guideline of the ship design based on a 20 or 25 years design life. The aim of this research is the clarification of the corrosion effect on ultimate strength of stiffened panels on various types of double hull oil tankers. In the case of ships, corrosion is a phenomenon caused by the ambient environment and it has different characteristics depending on the parts involved. Extensive research considering these characteristic have already done by previous researchers. Based on this data, the ultimate strength behavior of stiffened panels for four double hull oil tankers such as VLCC, Suezmax, Aframax, and Panamax classes are compared and analyzed. By considering hogging and sagging bending moments, the stiffened panels of the deck, inner bottom and outer bottom located far away from neutral axis of ship are assessed. The results of this paper will be useful in evaluating the ultimate strength of an oil tanker subjected to corrosion. These results will be an informative example to check the effect of ultimate strength of a stiffened panel according to corrosion addition from CSR for a given type of ship.
Kim, Jae Kyeom,Shin, Eui-Cheol,Lim, Ho-Jeong,Choi, Soo Jung,Kim, Cho Rong,Suh, Soo Hwan,Kim, Chang-Ju,Park, Gwi Gun,Park, Cheung-Seog,Kim, Hye Kyung,Choi, Jong Hun,Song, Sang-Wook,Shin, Dong-Hoon Hindawi Publishing Corporation 2015 Journal of analytical methods in chemistry Vol.2015 No.-
<P>Few studies have investigated <I>Seomae</I> mugwort (a Korean native mugwort variety of <I>Artemisia argyi</I> H. Lév. & Vaniot), exclusively cultivated in the southern Korean peninsula, and the possibility of its use as a food resource. In the present study, we compared the nutritional and chemical properties as well as sensory attributes of <I>Seomae</I> mugwort and the commonly consumed species <I>Artemisia princeps</I> Pamp. In comparison with <I>A. princeps, Seomae</I> mugwort had higher contents of polyunsaturated fatty acids, total phenolic compounds, vitamin C, and essential amino acids. In addition, <I>Seomae</I> mugwort had better radical scavenging activity and more diverse volatile compounds than <I>A. princeps</I> as well as favorable sensory attributes when consumed as tea. Given that scant information is available regarding the <I>Seomae</I> mugwort and its biological, chemical, and sensory characteristics, the results herein may provide important characterization data for further industrial and research applications of this mugwort variety.</P>
Kim, Jae Kyeom,Lim, Ho-Jeong,Kim, Mi-So,Choi, Soo Jung,Kim, Mi-Jeong,Kim, Cho Rong,Shin, Dong-Hoon,Shin, Eui-Cheol Medknow PublicationsMedia Pvt Ltd 2016 Pharmacognosy magazine Vol.12 No.47
<P><B>Background:</B></P><P>The central nervous system is easily damaged by oxidative stress due to high oxygen consumption and poor defensive capacity. Hence, multiple studies have demonstrated that inhibiting oxidative stress-induced damage, through an antioxidant-rich diet, might be a reasonable approach to prevent neurodegenerative disease.</P><P><B>Objective:</B></P><P>In the present study, response surface methodology was utilized to optimize the extraction for neuro-protective constituents of <I>Camellia japonica</I> byproducts.</P><P><B>Materials and Methods:</B></P><P>Rat pheochromocytoma cells were used to evaluate protective potential of <I>Camellia japonica</I> byproducts.</P><P><B>Results:</B></P><P>Optimum conditions were 33.84 min, 75.24%, and 75.82°C for time, ethanol concentration and temperature. Further, we demonstrated that major organic acid contents were significantly impacted by the extraction conditions, which may explain varying magnitude of protective potential between fractions.</P><P><B>Conclusions:</B></P><P>Given the paucity of information in regards to defatted <I>C. japonica</I> seed cake and their health promoting potential, our results herein provide interesting preliminary data for utilization of this byproduct from oil processing in both academic and industrial applications.</P><P><B>SUMMARY</B></P><P><P>Neuro-protective potential of <I>C. japonica</I> seed cake on cell viability was affected by extraction conditions</P><P>Extraction conditions effectively influenced on active constituents of <I>C. japonica</I> seed cake</P><P>Biological activity of <I>C. japonica</I> seed cake was optimized by the responsive surface methodology.</P></P> >[FIG OMISSION]</BR><P><B>Abbreviations used:</B> GC-MS: Gas chromatography-mass spectrometer, MTT: 3-(4,5-dimethylthiazol-2-yl)-2,5-diphenyltetrazolium bromide, PC12 cells: Pheochromocytoma, RSM: Response surface methodology.</P>