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Choi, Dong Wook,Seo, Yu-Mi,Kim, Eun-A,Sung, Ki Sa,Ahn, Jang Won,Park, Sang-Joon,Lee, Seung-Rock,Choi, Cheol Yong American Society for Biochemistry and Molecular Bi 2008 The Journal of biological chemistry Vol.283 No.8
<P>Homeodomain-interacting protein kinase 2 (HIPK2) is a member of the nuclear protein kinase family, which induces both p53- and CtBP-mediated apoptosis. Levels of HIPK2 were increased by UV irradiation and cisplatin treatment, thereby implying the degradation of HIPK2 in cells under normal conditions. Here, we indicate that HIPK2 is ubiquitinated and degraded by the WD40-repeat/SOCS box protein WSB-1, a process that is blocked under DNA damage conditions. Yeast two-hybrid screening was conducted to identify the proteins that interact with HIPK2. WSB-1, an E3 ubiquitin ligase, was characterized as an HIPK2-interacting protein. The coexpression of WSB-1 resulted in the degradation of HIPK2 via its C-terminal region. Domain analysis of WSB-1 showed that WD40-repeats and the SOCS box were required for its interaction with and degradation of HIPK2, respectively. In support of the degradation of HIPK2 by WSB-1, HIPK2 was polyubiquitinated by WSB-1 in vitro and in vivo. The knockdown of endogenous WSB-1 with the expression of short hairpin RNA against WSB-1 increases the stability of endogenous HIPK2 and resulted in the accumulation of HIPK2. The ubiquitination and degradation of HIPK2 by WSB-1 was inhibited completely via the administration of DNA damage reagents, including Adriamycin and cisplatin. These findings effectively illustrate the regulatory mechanisms by which HIPK2 is maintained at a low level, by WSB-1 in cells under normal conditions, and stabilized by genotoxic stresses.</P>
Rock-Hyun Baek,Chang-Ki Baek,Hyun-Sik Choi,Jeong-Soo Lee,Yun Young Yeoh,Kyoung Hwan Yeo,Dong-Won Kim,Kinam Kim,Kim, D M,Yoon-Ha Jeong IEEE 2011 IEEE TRANSACTIONS ON NANOTECHNOLOGY Vol.10 No.3
<P>In this paper, the volume trap densities <I>Nt</I> are extracted from gate-all-around silicone-nanowire FETs with different gate oxides, using a cylindrical-coordinate-based flicker noise model developed. For extracting <I>Nt</I>, the drain-current power spectral densities were measured from a large number of identical devices and averaged over, thereby mimicking the spatial distribution of trap sites inducing 1/<I>f</I> curve. Also, effective mobility and threshold voltage were simultaneously extracted with the series resistance to characterize the 1/<I>f</I> noise in terms of intrinsic values of these two channel parameters. The volume trap densities thus extracted from different oxides (in situ steam-generated oxide/rapid thermal oxide/nitride-gated oxide) are compared and further examined using hot-carrier stress data. Finally, radius dependence of the cylindrical 1/<I>f</I> model developed is discussed.</P>
Choi Wook Jin,Cho Young Soon,Ha Young Rock,Oh Je Hyeok,Lee Heekyung,Kang Bo Seung,Kim Yong Won,Koh Chan Young,Lee Ji Han,Jung Euigi,Sohn Youdong,Kim Han Bit,Kim Su Jin,Kim Hohyun,Suh Dongbum,Lee Dong 대한응급의학회 2023 Clinical and Experimental Emergency Medicine Vol.10 No.4
Point-of-care ultrasound (POCUS) is a rapidly developing technology that has the potential to revolutionize emergency and critical care medicine. The use of POCUS can improve patient care by providing real-time clinical information. However, appropriate usage and proper training are crucial to ensure patient safety and reliability. This article discusses the various applications of POCUS in emergency and critical care medicine, the importance of training and education, and the future of POCUS in medicine.
최락현(Choi Rock-Hyun),강유나(Kang Yoo-Na),Widya aulia,이경제(Lee Gyoung-Jae),이동하(Lee Dong-Ha),권오석(Kwon Oh-seok),문상준(Moon Sang-Jun) 한국태양에너지학회 2012 한국태양에너지학회 학술대회논문집 Vol.2012 No.3
A traditional fabrication method is very difficult to make small robots using embedded sensors, actuators and connectors. Fortunately, Shape Deposition Manufacturing can provide an alternative method, and it has many benefits. Firstly, the weight of robot can be lighter, as it can be consisted of composite materials. Secondly, SDM can make simple robot structures because this approach does not need to use connectors and fasteners. Lastly, SDM gives stiffness and flexibility at the specific par이. Therefore, in this paper, we present a design of 3 segment legs organized by SDM, what the SDM approach is, and compare SDM method with 3 segment prototype legs which uses a traditional approach and made by DGIST.