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- 저자 : Shaohua Xi (검색결과 3 건)
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( Meng Li ),( Jiexia Ding ),( Xingyong Wan ),( Xi Jin ),( Shaohua Chen ),( Chaohui Yu ),( Youming Li ) 대한내과학회 2014 대한내과학회 추계학술대회 Vol.2014 No.1
Background: The mitochondrial enzyme 3-mercaptopyruvate sulfurtransferase (MPST) is a source of endogenous hydrogen sul.de (H2S), a gaseous signaling molecule implicated in a wide range of physiological processes. The mechanisms of pathogenesis underlying nonalcoholic fatty liver disease (NAFLD) remain unclear. The possible role of MPST in the development of NAFLD has never been investigated. Methods: The NAFLD cell model was established by treating L02 cells with free fatty acid (FFA) overload. A variety of cellular and molecular approaches were used to study the effects of MPST on hepatic steatosis, oxidative stress and inflammation involved in NAFLD. Results: After culturing L02 cells by FFA for 24h, we detected the increased protein level of MPST. MPST knockdown in L02 cells resulted in a marked decrease of lipid accumulation and downregulation of SREBP-1 pathway and melioration of oxdiative stress, embodied in decreased level of H2O2, MDA and IL-6, meanwhile, increased levels of ATP and MMP. Unexpectedly, we observed a significantly increased level of H2S after knockdown of MPST. And the expression of CSE was enhanced when the MPST was decreased. When the level of H2S was decreased, the TG and H2O2 content within FFA-induced hepatocytes were greatly raised. Meanwhile, we demonstrated the reversed expression of SREBP-1/ ACC pathway with the reduced level of H2S. Conclusions: We showed that MPST knockdown could stimulate the compensatory process of CSE, causing the increasing of H2S which is recently considered as a novel antioxidant gas. The increased endogenous H2S could improve hepatocyte steatosis and partly improve the process of oxidative stress and in. ammatory state of steatosis hepatocytes. MPST is implicated in NAFLD via its important H2S metabolism. It provided new insight into the pathogenic mechanisms of NAFLD, pointing to potential target for therapeutic strategy.
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Yayi Cheng,Jianfeng Huang,Liyun Cao,Yongfeng Wang,Ying Ma,Shaohua Xi,Bingyao Shi,Hui Xie,Jiayin Li 성균관대학교(자연과학캠퍼스) 성균나노과학기술원 2019 NANO Vol.15 No.01
SnSe2 and SnSe nanocrystals were prepared using a simple solvothermal method by changing the molar ratio of SnCl2 · 2H2O and Se powder. When SnSe2 and SnSe are acted as lithium ion battery anodes, the SnSe hybrid structure shows more excellent electrochemical performance than that of SnSe2 interconnected nanosheet. It delivers a reversible capacity of 1023 mA h g -1 at a current density of 200 mA g -1, and maintaining a capacity of 498 mA h g -1 till 120 cycles. According to many present works, SnSe2 with interconnected thin nanosheet should possess more superior property than hybrid structured SnSe due to short charge transfer paths. However, in our research, the result is the opposite. Therefore, we consider that the superior electrochemical performance of SnSe is attributed to its highly reversible conversion reaction mechanism than SnSe2.
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Yue Zhang,Jie Huang,Zixuan Dong,Yu Zhan,Jiangbo Xi,Jian Xiao,Shaohua Huang,Fan Tian 한국탄소학회 2023 Carbon Letters Vol.33 No.1
A promising approach to enhance catalytic performance of supported heterogeneous nano-metal catalysts is to uniformly disperse active nanoparticles on the support. In this work, N-doped carbon-modified graphene (G@NC) nanosheet is designed and prepared to anchor Pd–Fe bimetallic nanoparticles (Pd–Fe/G@NC). The N-doped carbon modification on graphene surface could construct a sandwich-like structure (G@NC), which not only prevented the re-stacking of graphene nanosheets but also provided confined space for stable anchoring of bimetallic Pd–Fe nanoparticles. Benefitted from the unique structural property and synergetic effect of metal Pd and Fe species, the as-obtained Pd–Fe/G@NC composite displays excellent catalytic activity toward 4-nitrophenol reduction reaction with a turnover frequency of 613.2 min? 1, which is far superior to that of the mono-metal counterparts (Fe/G@NC and Pd/G@NC). More importantly, Pd–Fe/G@NC catalyst also exhibits favorable catalytic performance in the reduction of other nitroaromatic compounds (nitrobenzene, 4-nitrotoluene, 4-chloronitrobenzene, and so on). In addition, Pd–Fe/G@NC can catalyze the oxidation of furfuraldehyde to furoic acid with a high yield of 88.64%. This work provides a new guide for rationally designing and developing advanced supported heterogeneous bimetallic catalyst.
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