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- 저자 : Keren Shi (검색결과 2 건)
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Lijuan Jiang,Xian-Lei Shi,Yue Lv,Honghui Gong,Shuangshuang Liu,Mengmeng Du,Qianqian Hu,Keren Shi 한국공업화학회 2022 Journal of Industrial and Engineering Chemistry Vol.113 No.-
The development of highly efficient, economical and environmentally friendly catalytic systems is ofgreat significance from the green chemistry point of view. In this paper, we presented a succinct approachto create a heterogeneous acid–base bifunctional catalyst for one-pot tandem reaction from the commerciallyavailable textile fiber. The ultra-high strength textile fiber polyetheretherketone (PEEK) was functionalizedby a post-grafting method to combine two antagonistic active functions in a synergisticcatalyst, and the resulting fiber samples were characterized in detail by morphology, mechanical properties,elemental analysis, X-ray photoelectron spectroscopy, inductively coupled plasma-atomic emissionspectrometry, X-ray diffraction, Fourier transform infrared spectroscopy, ultraviolet–visible spectrum,nuclear magnetic resonance spectroscopy and thermogravimetric analysis, and further revealed thatthe amines and the heteropolyacid were immobilized by acid–base interactions in the PEEK surface layerwith sufficient stability. Moreover, the acid–base bifunctional catalyst can be successfully applied in theacceleration of the one-pot tandem deacetalization–Knoevenagel reactions with high-efficiency (lowercatalyst dosage 0.3 mol%, higher product yields 81–92%), whereas the homogeneous catalysts wereunable to initiate the reaction due to their mutual neutralization in solution, and the catalytic mechanismwas elucidated by comparison. Furthermore, the fibrous catalyst could maintain its activities more than10 cycles with a simple post-processing, and the mediated system was capable of enlarging to the gramscale,which are envisaged for industrial operations and cleaner productions.
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Ke Ren,Wentao Duan,Yujun Shi,Bo Li,Zuojin Liu,Jiangping Gong 대한의학회 2010 Journal of Korean medical science Vol.25 No.7
In order to prove that ectopic over-expression of Pim-2 could induce malignant transformation of human liver cell line L02, three groups of cells were set up including human liver cell line L02 (L02), L02 cells transfected with Pim-2 gene (L02/Pim-2) and L02cells transfected with empty-vector (L02/Vector). Pim-2 expression levels were detected. The morphology, proliferation level, apoptosis rate and migration ability of the cells were detected respectively. Then the cells were subcutaneously inoculated into athymic mice and the microstructures of the neoplasm were observed. Compared with the controls, Pim-2expression levels were significantly higher in L02/Pim-2 cells (P<0.05), and their morphology had obvious malignant changes. They also showed a significantly increased proliferation rate (P<0.05) and migration capacity (P<0.05), as well as a significantly decreased apoptosis rate (P<0.05). Only the athymic mice inoculated with L02/Pim-2 cells could generate neoplasm, and the morphology of the neoplasm coincided with that of the hepatoma. The results manifest that ectopic Pim-2 gene could be stably expressed in L02/Pim-2 cells. Both the morphological and biological changes of L02/Pim-2 cells demonstrate the trend of malignant transformation. L02/Pim-2 cells could generate hepatoma in athymic mice. In conclusion, Pim-2 could induce malignant transformation of human liver cell line L02.
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