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RISS 인기검색어
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- 저자 : Junyan Hu (검색결과 3 건)
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Investigation of Neuropsychological Mechanism of Fabric Smoothness Sensation
Xiao Liao,Yi Li,Junyan Hu,Quanhai Li,Xinxing Wu 한국섬유공학회 2019 Fibers and polymers Vol.20 No.5
Stimuli used in previous reported studies were mostly tailor-made embossed surfaces. Validation of neural signalcoding mechanism to address the touch smoothness in daily life was seldom reported. In this study, 20 types of fabrics werechosen as stimuli. Their physical surface profiles were measured by Fabric Touch Tester. Afterwards three different neuralsignal coding mechanisms of SA1 and PC fibers were applied and modified to predict the perceived neural responses. Thepredicted values were compared to subjective smoothness sensations obtained through psychological measurement. Theresults show that it is essential to in detail characterize the unevenness elements on the surfaces of stimuli. The integratedimpacts from the unevenness elements with different intensities and frequencies demonstrate better prediction capacitiesamong the examined neural coding mechanisms. On the basis of the findings, a neuropsychological prediction model offabrics was built. Another 32 types of fabrics were measured and used to validate the model. Strong correlation between thepredicted and subjective sensory results was observed (F=0.808, p<0.001).
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Yixia Xie,Baowei Hu,Yue Gao,Yaxin Tang,Guohe Chen,Jiayuan Shen,Zhikai Jiang,He Jiang,Jiwei Han,Junyan Yan,Lifang Jin 한국통합생물학회 2022 Animal cells and systems Vol.26 No.6
Glycogen storage disease type Ia (GSD-Ia) is caused by a deficiency in the glucose-6-phosphatase (G6Pase, G6pc) enzyme, which catalyses the final step of gluconeogenesis and glycogenolysis. Accumulation of G6pc can lead to an increase in glycogen and development of fatty liver. Ductular reactions refer to the proliferation of cholangiocytes and hepatic progenitors, which worsen fatty liver progress. To date, however, ductular reactions in GSD-Ia remain poorly understood. Here, we studied the development and potential underlying mechanism of ductular reactions in GSD-Ia in mice. We first generated GSD-Ia mice using CRISPR/Cas9 to target the exon 3 region of the G6pc gene. The typical GSD-Ia phenotype in G6pc−/− mice was then analysed using biochemical and histological assays. Ductular reactions in G6pc−/− mice were tested based on the expression of cholangiocytic markers cytokeratin 19 (CK19) and epithelial cell adhesion molecule (EpCAM). Yes-associated protein 1 (Yap) signalling activity was measured using western blot (WB) analysis and quantitative real-time polymerase chain reaction (qRT-PCR). Verteporfin was administered to the G6pc−/− mice to inhibit Yap signalling. The CRISPR/Cas9 system efficiently generated G6pc−/− mice, which exhibited typical GSD-Ia characteristics, including retarded growth, hypoglycaemia, and fatty liver disease. In addition, CK19- and EpCAM-positive cells as well as Yap signalling activity were increased in the livers of G6pc−/− mice. However, verteporfin treatment ameliorated ductular reactions and decreased Yap signalling activity. This study not only improves our understanding of GSD-Ia pathophysiology, but also highlights the potential of novel therapeutic approaches for GSD-Ia such as drug targeting of ductular reactions.
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Jun Yan,Li Ma,Mengyu Gan,Xiao Li,Zhitao Li,Jihai Tang,Ying Tu,Haifeng Hu 한국고분자학회 2014 Macromolecular Research Vol.22 No.8
In this work, flake-like poly(2,3-dimethylaniline) (P(2,3-DMA)) with enhanced thermal stability andanticorrosive ability was synthesized by in situ polymerization using H2O2/Fe2+ catalytic oxidation system, comparingwith traditional oxidant ammonium persulfate (APS) synthetic method. The structure and morphology of thesamples were characterized Fourier transform infrared (FTIR) spectra, X-ray diffraction (XRD) and field-emissionscanning electron microscope (FESEM). The experimental results demonstrated that using H2O2/Fe2+ catalytic oxidationsystem was more inclined to form the two-dimensional P(2,3-DMA) flakes. The enhancement in thermostabilityand corrosion resistance was attributed to the formation of phenazine-like structures in the polymer chains,which could serve as templates to form the flake-like morphology. In addition, using H2O2/Fe2+ catalytic oxidationsystem is more environmental friendly than the APS method that can avoid ammonium pollution on aquatic life aswell as waters.
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