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Shanshan Fang,Yawen Zhou,Man Zhou,ZHONGYU LI,SONG XU,Chao Yao 한국공업화학회 2018 Journal of Industrial and Engineering Chemistry Vol.58 No.-
ZnFe2O4/CdS composites were successfully prepared by a facile process. The obtained samples have beencharacterized by X-ray diffraction (XRD), scanning electron microscopy (FE-SEM), transmission electronmicroscopy (TEM), diffuse reflection spectroscopy (DRS), Raman spectroscopy and photoluminescence(PL). Under visible light irradiation, ZnFe2O4/CdS composite shows higher photocatalytic activity in the Cr(VI) reduction, relative to the pure CdS and ZnFe2O4. The enhanced photocatalytic performance wasascribed to the intimate contact interfaces and matching band potentials between CdS and ZnFe2O4, andcan be related to the efficient transfer and separation of the electron-hole pairs. It was found that themodification of ZnFe2O4 did not affect the morphology of CdS. The result of PL test indicated a lowerintensity, and effective separation of photogenerated electron-hole pairs. In addition, the ZnFe2O4/CdScomposites showed more intense optical absorption than that of pure CdS and ZnFe2O4. Through theanalysis of experiment results, a reasonable photocatalytic mechanism over ZnFe2O4/CdS photocatalystswas also proposed.
Fang, Xiaonan,Ye, Lin-Bai,Zhang, Yijuan,Li, Baozong,Li, Shanshan,Kong, Lingbao,Wang, Yuhua,Zheng, Hong,Wang, Wei,Wu, Zhenghui The Microbiological Society of Korea 2006 The journal of microbiology Vol.44 No.5
GST pull-down assays were used to characterize the SARS-CoV membrane (M) and nucleocapsid (N) interaction, and it was found that the amino acids 211-254 of N protein were essential for this interaction. When tetrad glutamines (Q) were replaced with glutamic acids (E) at positions of 240-243 of the N protein, the interaction was disrupted.
Fang, Xiaonan,Ye, Linbai,Timani, Khalid Amine,Li, Shanshan,Zen, Yingchun,Zhao, Meng,Zheng, Hong,Wu, Zhenghui Korean Society for Biochemistry and Molecular Biol 2005 Journal of biochemistry and molecular biology Vol.38 No.4
Severe acute respiratory syndrome (SARS) is an emerging infectious disease associated with a novel coronavirus (CoV) that was identified and molecularly characterized in 2003. Previous studies on various coronaviruses indicate that protein-protein interactions amongst various coronavirus proteins are critical for viral assembly and morphogenesis. It is necessary to elucidate the molecular mechanism of SARS-CoV replication and rationalize the anti-SARS therapeutic intervention. In this study, we employed an in vitro GST pull-down assay to investigate the interaction between the membrane (M) and the nucleocapsid (N) proteins. Our results show that the interaction between the M and N proteins does take place in vitro. Moreover, we provide an evidence that 12 amino acids domain (194-205) in the M protein is responsible for binding to N protein. Our work will help shed light on the molecular mechanism of the virus assembly and provide valuable information pertaining to rationalization of future anti-viral strategies.
Shanshan Li,Fang Ding,Xinghuan Lin,Zhiguang Li,Xuehong Ren 한국섬유공학회 2019 Fibers and polymers Vol.20 No.3
In this study, a novel organic-inorganic hybrid intumescent flame-retardant composed of nanosilica (SiO2) coveredwith polyethyleneimine (PEI) and phytic acid (PA) was coated on cotton fabrics by layer-by-layer (LbL) self-assembly toimprove flame retardancy of cotton fabrics. FT-IR, SEM and EDX were used to characterize the deposition of SiO2-PEI/PA on the surface of cotton fabrics. The LbL assembly process had a minor effect on the tensile strength of cotton fabrics. With the synergistic effect of phosphorus, nitrogen and silicon, the coated cotton fabrics with only 7 bilayers exhibited excellent flame retardancy with an LOI value of 33.7 % and a char length of 7.5 cm. TG analysis results showed that cotton/(SiO2-PEI/PA)7 had 40.7 % char residue at 600 oC, compared with 8 % char residue of uncoated cotton fabrics. Cone calorimetry test confirmed that cotton/(SiO2-PEI/PA)7 displayed a major reduction in peak of heat release rate (pHRR) of 75 % and total heat release (THR) of 52 %.
Xiaonan Fang,Lin-Bai Ye,Yijuan Zhang,Baozong Li,Shanshan Li,Lingbao Kong,Yuhua Wang,Hong Zheng,Wei Wang,Zhenghui Wu 한국미생물학회 2006 The journal of microbiology Vol.44 No.5
GST pull-down assays were used to characterize the SARS-CoV membrane (M) and nucleocapsid (N)interaction, and it was found that the amino acids 211-254 of N protein were essential for this interaction. When tetrad glutamines (Q) were replaced with glutamic acids (E) at positions of 240-243 of the N protein, the interaction was disrupted.
Yin Xiaoyue,Yan-Xia Liu,Qian Chaoju,Zhou Shanshan,Fang Tingzhou,Fan Xingke,Gao yuan,Chang Yuxiao,Yang Jian,Ma Xiao-Fei 한국식물생명공학회 2021 Plant biotechnology reports Vol.15 No.3
Agriophyllum squarrosum is a folk Mongolian medicine with pleiotropic pharmacological and ecological economic importance endemic to Asian temperature deserts. Terpenoids play critical roles in biotic and abiotic stresses due to their antioxidative activities. Based on non-targeted metabolomic analysis, we detected eight terpenoids enriched in the above-ground tissues of A. squarrosum, however, the molecular mechanism underlying terpenoids biosynthesis in this desert medicinal plant is rarely understood. Here, a comparative transcriptome analysis of diferent tissues in A. squarrosum was conducted to identify 84 unigenes encoding key enzymes in the upstream backbone biosynthesis and 53 unigenes encoding the downstream enzymes for terpenoid diversifcation. Most of the upstream genes exhibited signifcant high expression levels in leaf, and some of which were validated by qRT-PCR. Phylogenetic analysis showed that two downstream gene families OSCs (oxidosqualene cyclases) and TPSs (mainly in terpene synthases -g subfamily) had undergone notable gene expansions in A. squarrosum comparing with the other Amaranthaceae plant species and Arabidopsis. Nevertheless, most members from these two gene families showed the tissue-specifc expression in A. squarrosum, which supported the diversifcation and tissue-specifc enrichment of terpenoids across above-ground tissues. Considering to the habitat characteristics of A. squarrosum, we proposed that the enrichment of terpenoids and the functional diversifcation of terpenoids biosynthesis enzymes were more or less involved into its adaptation to stressful environments of deserts. These results expand the available genetic information underlying terpenoid biosynthesis in A. squarrosum, and contribute to deeper researches on pharmaceutical and eco-agricultural applications in this desert medicinal plant.