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Lactobacillus brevis LH8이 생산하는 효소에 의한 Ginsenoside Rd의 Compound K로의 전환
전림호(Lin-Hu Quan),양지제(Zhiqi Liang),김호빈(Ho-Bin Kim),김세화(Se-Hwa Kim),김세영(Se-Young Kim),노영덕(Yeong-Deok Noh),양덕춘(Deok-Chun Yang) 고려인삼학회 2008 Journal of Ginseng Research Vol.32 No.3
인삼사포닌 ginsenoside는 인삼의 주요한 약리성분으로 인삼을 경구투여 시 major 사포닌의 생체 내에서의 흡수는 매우 낮아 인삼사포닌의 약효를 증대시키기 위해서 기존에 많이 존재하는 major 사포닌을 상대적으로 흡수도 잘 되며 약효도 더 뛰어난 minor 사포닌으로의 전환이 요구된다. 본 연구는 김치에서 분리한 β-glucosidase 활성균주 L.brevis LH8이 분비하는 효소를 이용하여 ginsenoside Rd를 compound K로 전환시켰다. L. brevis LH8의 효소액은 반응온도 30℃에서 효소활성이 가장 좋았고 35℃이상에서는 활성이 급격히 저하되었으며, pH 6.0~12.0 사이에서 효소활성이 가장 좋았고, pH 5.0 이하 및 pH 13.0 이상에서는 활성도가 떨어지는 것을 관찰할 수 있었다. 또한 ginsenoside Rd는 반응 48시간부터 ginsenoside F2로 전환되기 시작하였으며, 반응 72 시간 이후에는 대부분 compound K로 전환되었다. Ginsenosides have been regarded as the principal components responsible for the pharmacological and biological activities of ginseng. Absorption of major ginsenosides from the gastrointestinal tract is extremely low, when ginseng is orally administered. In order to improve absorption and its bioavailability, conversion of major ginsenosides into more active minor ginsenoside is very much required. Here, we isolated lactic acid bacterium (Lactobacillus brevis LH8) having β-glucosidase activity from Kimchi. Bioconversion ginsenoside Rd by this bacterium in different temperatures was investigated. The maximum activities of crude enzymes precipitated by ethanol were shown in 30oC and then gradually decreased. In order to compare the effect of pH, the crude enzymes of L. brevis LH8 were mixed in 20 mM sodium phosphate buffer (pH 3.5 to pH 8.0) and reacted ginsenoside Rd. Ginsenoside Rd was almost hydrolyzed between pH 6.0 and pH 12.0, but not hydrolyzed under pH 5.0 and above pH 13.0. Ginsenoside Rd was hydrolyzed after 48 h incubation, whereas ginsenoside F2 appeared from 48 h to 72 h, and ginsenoside Rd was almost converted into compound K after 72 h.
Research Progress of the Structure Vibration-Attitude Coordinated Control of Spacecraft
Yang, Jingyu,Qu, Shiying,Lin, Jiahui,Liu, Zhiqi,Cui, Xuanming,Wang, Chu,Zhang, Dujiang,gu, Mingcheng,Sun, Zhongrui,Yang, Kang,Zhou, Lanwei,Chen, Guoping The Korean Society for Aeronautical and Space Scie 2015 International Journal of Aeronautical and Space Sc Vol.16 No.4
This paper gives an overview of research on the field of structure vibration-attitude coordinated control of spacecraft. First of all, the importance of the technology has been given an introduction, and then later the research progress of space structure dynamics modeling, research progress of structure vibration-attitude coordinated control of flexible spacecraft have been discussed respectively. Finally, future research on application of structure vibration-attitude coordinated control of spacecraft has been recommended.
Research Progress of the Structure Vibration-Attitude Coordinated Control of Spacecraft
Jingyu Yang,Shiying Qu,Jiahui Lin,Zhiqi Liu,Xuanming Cui,Chu Wang,Dujiang Zhang,Mingcheng gu,Zhongrui Sun,Kang Yang,Lanwei Zhou,Guoping Chen 한국항공우주학회 2015 International Journal of Aeronautical and Space Sc Vol.16 No.4
This paper gives an overview of research on the field of structure vibration-attitude coordinated control of spacecraft. First of all, the importance of the technology has been given an introduction, and then later the research progress of space structure dynamics modeling, research progress of structure vibration-attitude coordinated control of flexible spacecraft have been discussed respectively. Finally, future research on application of structure vibration-attitude coordinated control of spacecraft has been recommended.
CCN4 Regulates Vascular Smooth Muscle Cell Migration and Proliferation
Hao Liu,Zhengjun Liu,Wenpeng Dong,Zhiqi Lin,Jingbo Lu,Heng Wan,Zhongxin Zhou 한국분자세포생물학회 2013 Molecules and cells Vol.36 No.2
The migration and proliferation of vascular smooth muscle cells (VSMCs) are essential elements during the development of atherosclerosis and restenosis. An increasing number of studies have reported that extracellular matrix (ECM) proteins, including the CCN protein family, play a significant role in VSMC migration and proliferation. CCN4 is a member of the CCN protein family, which controls cell development and survival in multiple systems of the body. Here, we sought to determine whether CCN4 is involved in VSMC migration and proliferation. We examined the effect of CCN4 using rat cultured VSMCs. In cultured VSMCs, CCN4 stimulated the adhesion and migration of VSMCs in a dose-dependent manner, and this effect was blocked by an antibody for integrin 51. CCN4 expression was en-hanced by the pro-inflammatory cytokine tumor necrosis factor (TNF-). Furthermore, knockdown of CCN4 by siRNA significantly inhibited the VSMC proliferation. CCN4 also could up-regulate the expression level of marker proteins of the VSMCs phenotype. Taken together, these results suggest that CCN4 is involved in the migration and proliferation of VSMCs. Inhibition of CCN4 may provide a promising strategy for the prevention of restenosis after vascular interventions.