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游汝杰(Ru-Jie You),朴贊旭(번역자) 중국어문논역학회 2015 中國語文論譯叢刊 Vol.0 No.36
한어방언학과 사회언어학은 모두 실제 사용된 언어를 연구대상으로 언어의 변화를 탐구한다. 하지만 이념과 목적, 조사방법 등에서 적지 않은 차이를 보이는데 그 중에서도 언어를 질서정연한 동질체로 보는가 질서정연한 이질체로 보는가 하는 점에서 큰 차이를 보인다. 사회언어학의 탄생으로 인해 한어방언학은 새로운 도전에 직면해 있지만 사회언어학은 분명 방언학 발전의 새로운 전기가 될 것이다. 새로운 한어방언학은 앞으로 역사언어학, 기술언어학 그리고 사회언어학이 결합된 것이어야 할 것이다. Both Chinese Dialectology and Sociolinguistics study language changes on the basis of language used in real world. However, there are many differences in the perspective of the idea, goal, research method etc, and above all, there is a distinct difference on the view of language, that is to say, while Chinese Dialectology sees language as a ordered homogeneity, Sociolinguistics considers it as a ordered heterogeneity. By birth of Sociolinguistics, Chinese Dialectology is facing a new challenge, nevertheless Sociolinguistics may offer a turning point for the development of Chinese Dialectology. For the next phase, Chinese Dialectology should be a collaboration of Historical Linguistics, Descriptive Linguistics and Sociolinguistics.
Effect of Water Absorption and Loss Characteristics of Fine Aggregates on Aggregate-Asphalt Adhesion
Jie Ji,Yang Dong,Ran Zhang,Zhi Suo,Chenwei Guo,Xu Yang,Zhanping You 대한토목학회 2021 KSCE Journal of Civil Engineering Vol.25 No.6
This study aims to investigate the effect of aggregate water absorption and loss characteristics on aggregate-asphalt adhesion. Lab tests were designed to analyze the water absorption and loss characteristics of limestone, basalt. and steel slag fine aggregates with different particle sizes under various temperatures and humidity conditions. Meanwhile, the low temperature nitrogen adsorption test, combined with the Brunauer, Emmett and Teller (BET) theory and Barret, Joyner and Halend (BJH) model, were used to calculate the specific surface area and pore size distribution of aggregate. Moreover, the asphalt-aggregate adhesion was evaluated by the net adsorption test. The results indicated that the change trends of water absorption and loss for the aggregates exhibited two stages. In the first stage, the amounts of water absorption and loss of aggregates were large and their change rates were high, while in the second stage, an opposite trend was observed. Humidity had the greatest influence on the water absorption and loss of aggregates, followed by aggregate particle size, contact time, temperature, and aggregate type. The smaller-sized aggregates had greater specific surface area, which led to a higher sensitivity to temperature and humidity changes. In comparison, the 0.3 mm-sized aggregate had a large capillary energy inside the pores, and it was the most sensitive to moisture. The steel slag aggregate had the strongest adhesion with asphalt, followed by the limestone aggregate, and the worst was basalt aggregate.
( Jie Li ),( You Li ),( Shengjie Wang ),( Hui Che ),( Jun Wu ),( Yongxin Ren ) 생화학분자생물학회(구 한국생화학분자생물학회) 2019 BMB Reports Vol.52 No.9
Bisphosphonates are the mainstay of therapy worldwide for osteoporosis. However, bisphosphonates also have limitations. The objective of this study was to determine the role of miR-101-3p/Rap1b signal pathway in osteoclast differentiation after treatment with bisphosphonates. Our results revealed that miR-101-3p was an important regulator in bisphosphonates treated-osteoclasts. When miR-101-3p was down-regulated in bone marrow-derived macrophage-like cells (BMMs), the development of mature osteoclasts was promoted, and vice versa. However, alendronate decreased multinucleated cell number regardless of whether miR-101-3p was knocked down or over-expressed. TRAP activity assay confirmed the above results. Luciferase assay indicated that miR-101-3p was a negative regulator of Rap1b. Western blot analysis revealed that protein expression level of Rap1b in BMMs transfected with OV-miR-101-3p was lower than that in BMMs transfected with an empty vector. Rap1b overexpression increased TRAP-positive multinucleated cells, while Rap1b inhibition decreased the cell numbers. In vivo data showed that miR-101-3p inhibited osteoclast differentiation in ovariectomized mice while overexpressed of Rap1b blocked the differentiation. Taken together, our data demonstrate that miR-101-3p/Rap1b signal pathway plays a key role in osteoclast differentiation after treatment with bisphosphonates. [BMB Reports 2019; 52(9): 572-576]
You-Fei Qi,Chang Shu,Zhan-Xiang Xiao,Ming-Yao Luo,Kun Fang,Yuan-Yuan Guo,Wen-Bo Zhang,Jie Yue 한국분자세포생물학회 2018 Molecules and cells Vol.41 No.3
Aortic dissection (AD) is a catastrophic disease with high mortality and morbidity, characterized with fragmentation of elastin and loss of smooth muscle cells. Although AD has been largely attributable to polymorphisms defect in the elastin-coding gene, tropoelastin (TE), other undermined factors also appear to play roles in AD onset. Here, we investigated the effects of post-transcriptional control of TE by microRNAs (miRNAs) on elastin levels in aortic smooth muscle cells (ASMC). We found that miR-144-3p is a miRNA that targets TE mRNA in both human and mouse. Bioinformatics analyses and dual luciferase reporter assay showed that miR-144-3p inhibited protein translation of TE, through binding to the 3-UTR of the TE mRNA. Interestingly, higher miR-144-3p levels and lower TE were detected in the ASMC obtained from AD patients, compared to those from non-AD controls. In a mouse model for human AD, infusion of adeno-associated viruses (serotype 6) carrying antisense for miR-144-3p (as-miR-144-3p) under CAG promoter significantly reduced the incidence and severity of AD, seemingly through enhancement of TE levels in ASMC. Thus, our data suggest an essential role of miR-144-3p on the pathogenesis of AD.
You-Duo Wu,Chuang Xue,Li-Jie Chen,WenJie Yuan,Feng-Wu Bai 한국생물공학회 2016 Biotechnology and Bioprocess Engineering Vol.21 No.1
Micronutrient zinc is of great importance for acetone-butanol-ethanol (ABE) fermentation by Clostridium acetobutylicum. The effect of zinc supplementation on toxic metabolites (formic, acetic, butyric acid and butanol) tolerance during ABE fermentation was investigated under various stress-shock conditions without pH control. Great improvements on cell growth, glucose utilization and butanol production were achieved. In the presence of 0.45 g/L formic acid, zinc contributed to 11.28 g/L butanol produced from 55.24 g/L glucose compared to only 5.27 g/L butanol from 29.49 g/L glucose in the control without zinc supplementation. More importantly, relatively higher levels of 7.5 g/L acetic acid, 5.5 g/L butyric acid and 18 g/L butanol could be tolerated by C. acetobutylicum with zinc supplementation while no fermentation was observed under the same stress-shock condition respectively, suggesting that the acids and butanol tolerance in C. acetobutylicum could be significantly facilitated by pleiotropic regulation of micronutrient zinc. Thus, this paper provides an efficient bioprocess engineering strategy for improving stress tolerance in Clostridium species.
( Jie Xia Ding ),( Meng Li ),( Xi Jin ),( Shao Hua Chen ),( Chao Hui Yu ),( You Ming Li ) 대한내과학회 2014 대한내과학회 추계학술대회 Vol.2014 No.1
Background: The association between altered expression of miR-34a and pathophysiological features of nonalcoholic fatty liver disease (NAFLD) and whether there is a connection between susceptibility to NAFLD has not been completely clarifi ed. Methods: The vitro model was established by culturing L02 cells with a high concentration of free fatty acid (FFA) and the vivo model was established by feeding C57BL/6 mice with HFD. To determine the effects of miR-34a, cultured L02 cells transfected with miR-34a inhibitor and C57BL/6 mice injected with miR-34a inhibitor through vein tail were analysed for the level of PPARaand the metabolic sensor AMPK. In functional experiments, TG content and steatosis degree were measured by TG assay kit, HE and Oil Red O staining. Results: miR-34a expression is signifi cantly upregulated in steatosis-induced hepatocytes and in liver tissues of HFD fed mice. The upregulation of miR-34a resulted in the downregulation of hepatic peroxisome proliferator-activated receptor-a(PPARa), the direct target of miR-34a. Moreover, the action of miRNA-34a on PPAR-a depends on the presence of a single miRNA-34a binding site. Silencing miR-34a led to an initial increase the level of PPARaand the targets of PPARa, including CPT1, CPT2, SLC27A4, SLC27A1 and ACBD3. Activation of the central metabolic sensor AMPK was also increased. In functional experiments, miR-34a inihibitor suppressed cell and mice liver TG content and improve steatosis degree. Furthermore, inhibition of PPARa expression aggravated hepatocellular steatosis in vitro models. Conclusions: NAFLD is associated with altered hepatic miR-34a expression. Decreased expression of miR-34a potentially contributes to altered lipid metabolism implicated in the pathogenesis of NAFLD. These results suggest that regulating it`s target PPARa by down-regulation of miR-34a levels may be a therapeutic strategy against NAFLD.
Jie Chen,You-Jia Dong,Fan-Long Jin,박수진 한국고분자학회 2019 Macromolecular Research Vol.27 No.1
In this study, epoxy-based composites were prepared using diglycidyl ether of bisphenol A (DGEBA) as the matrix, carbon fiber cloth (CFC) as the reinforcing agent, and metallic powder as the conductive filler. The mechanical and electrical properties of DGEBA/CFC and DGEBA/CFC/metallic powder composites were investigated using several techniques. The morphology of the fracture surface was investigated using field-emission scanning electron microscopy. The flexural strength of the DGEBA/CFC composites was found to significantly increase with the addition of CFC. The electrical conductivity of the DGEBA/CFC composites significantly increased with the increasing amount of CFC and further increased after the addition of metallic powders. The electrical conductivity of the DGEBA/CFC composites significantly improved with the addition of a small amount of graphene.
( Jie Xia Ding ),( Meng Li ),( Xing Yong Wan ),( Xi Jin ),( Shao Hua Chen ),( Chao Hui Yu ),( You Ming Li ) 대한내과학회 2014 대한내과학회 추계학술대회 Vol.2014 No.1
Background: The mechanisms of pathogenesis underlying nonalcoholic fatty liver disease (NAFLD) remain unclear at present and the depth study of HADHA 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. Small interfering RNA (siRNA) was used to knock down HADHA level. The expression of HADHA and key enzymes associated with fatty acid beta- oxidation in L02 cells were determined by q-PCR. Key protein associated in energy metabolism, endoplasmic reticulum(ER) stress and infl ammatory were determined by western blotting. ATP, hydroperoxide (H2O2), catalase (CAT) and mitochondrial membrane potential (MMP) were measured. The prediction of HADHA upstream regulation of miRNA was carried out and luciferase reporter assays were implemented to validate the prediction. Results: After culturing L02 cells by FFA for 48h, we detect the increased protein level of HADHA. HADHA knockdown in L02 cells resulted in an increased of lipid accumulation and downregulation of gene expression involved in fatty acid beta-oxidation, including PPARa, ACOX1, CPT2, EHHADH, ECHS1, HADHB and HADH. Additionally, administering HADHA siRNA exhibited improvement of oxidative stress, embodied in decreased level of H2O2 and MDA, meanwhile, increased levels of ATP, CAT and MMP. Furthermore, HADHA knockdown demonstrated weakened AMPK pathway, activation of MAPK and MKK3 pathway, and improve ER stress by downregulation of C/EBPa and C/EBPß. Moreover, HADHA was regulated directly by upstream gene of miR-124. Conclusions: Our results show that HADHA may plays a role of double-edged sword in hepatic steatosis and cell injury in NAFLD, and provide a new insight into the pathogenic mechanisms of NAFLD, may becoming a potential new therapeutic target for NAFLD.