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- 저자 : Lijuan Niu (검색결과 5 건)
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Effect of Anhydride Grafting Agent on Trap Levels of Low-Density Polyethylene
Lijuan He,Zhenhua Yuan,Xiong Yang,Huiqing Niu,Chao Zhu,Dawei Li,Lei Zhao,Chuntian Chen 보안공학연구지원센터 2016 International Journal of Security and Its Applicat Vol.10 No.5
Trap distribution of the low-density polyethylene(LDPE) modified by anhydride grafting agent was studied and the effect of grafting agent on the trap levels was analyzed by the method of Photo-stimulated Discharge in this paper. Different concentrations and types of same concentration of LDPE modified by anhydride grafting agent were measured by using continuous UV scanning. The results showed that different concentrations and types of grafting agent had effect on trap levels distribution of LDPE. The trap depth would decrease with the anhydride grafting agent content increasing and increase with its damaged condition increasing when anhydride grafting agent was destroyed. Anhydride grafting agent are widely applied to the production and research of high pressure insulating polyethylene materials. The purpose of this paper is to elaborate the effect of anhydride grafting agent on the insulating properties of polyethylene material and explain the strongest binding capacity of anhydride grafting agent to space charge.
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Gong Wenting,Niu Lijuan,Wang Chunlei,Wei Lijuan,Pan Ying,Liao Weibiao 한국식물학회 2022 Journal of Plant Biology Vol.65 No.1
Cadmium (Cd) stress can cause system disorders in plants, affect the absorption of some nutrients. The roles and their relationship of salicylic acid (SA) and hydrogen peroxide (H2O2) in adventitious root formation (ARF) of cucumber (Cucumis sativus L.) under Cd stress were studied. The results showed that the exogenous SA and H2O2 in enhancing ARF in cucumber explants under Cd stress was concentration-dependent, with an optimal biological effect at 0.1 µM SA or 50 µM H2O2. Under Cd stress, SA-induced ARF was significantly reversed by H2O2 scavenger and inhibitor, indicating that endogenous H2O2 may be involved in SA-induced ARF under Cd stress. In addition, endogenous H2O2 levels were also promoted by SA in cucumber explants. The application of SA promoted pectin content and decreased pectin methylesterification degree under Cd stress. Moreover, we founded that SA and SA + H2O2 up-regulated the expression level of CsQUA and CsPME under Cd stress, respectively. However, the application of H2O2 scavenger and inhibitor could significantly reverse the effects of SA on the expression of the above genes. These results suggested that SA might play an important role in ARF in cucumber under Cd stress via enhancing endogenous H2O2 levels.
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Sun Yan,Qu Hai,Niu Xiaohong,Li Ting,Wang Lijuan,Peng Hairui 대한약리학회 2024 The Korean Journal of Physiology & Pharmacology Vol.28 No.1
Type 2 diabetes mellitus (T2DM) is characterized by hyperglycemia and dyslipidemia. Carvacrol (CAR) has demonstrated the potential to mitigate dyslipidemia. This study aims to investigate whether CAR can modulate blood glucose and lipid levels in a T2DM rat model by regulating short-chain fatty acids (SCFAs) and the GPR41/43 pathway. The T2DM rat model was induced by a high-fat diet combined with low-dose streptozocin injection and treated with oral CAR and/or mixed antibiotics. Fasting blood glucose, oral glucose tolerance, and insulin tolerance tests were assessed. Serum lipid parameters, hepatic and renal function indicators, tissue morphology, and SCFAs were measured. In vitro, high glucose (HG)-induced IEC-6 cells were treated with CAR, and optimal CAR concentration was determined. HG-induced IEC-6 cells were treated with SCFAs or/and GPR41/43 agonists. CAR significantly reduced blood lipid and glucose levels, improved tissue damage, and increased SCFA levels in feces and GPR41/43 expression in colonic tissues of T2DM rats. CAR also at tenuated HG-induced apoptosis of IEC-6 cells and enhanced GPR41/43 expression. Overall, these findings suggest that CAR alleviates blood lipid and glucose abnormalities in T2DM rats by modulating SCFAs and the GPR41/43 pathway.
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Yan Wang,Jizhe Guo,Lifang Zhang,Junhua Bai,Jifang Niu,Lijuan Jiang,Junfei Li 대한화학회 2015 Bulletin of the Korean Chemical Society Vol.36 No.7
We investigated the random copolymerization of ε-caprolactone and 2,2-dimethyltrimethylene carbonate [poly(CL-co-DTC)] promoted by various imidazolium-based carbenes, including 1-isopropyl-3-p-methoxyphenylimidazol-2-ylidene [Catalyst (1)], 1-isopropy-3-p-methylphenylimidazol-2-ylidene [Catalyst (2)], and 1-methyl-3-p-methoxyphenyl-imidazol-2-ylidene [Catalyst (3)], all of which are new types of unsymmetrical N-heterocyclic carbene catalysts. The reaction was carried out in the presence of benzyl alcohol (BnOH) as an initiator in tetrahydrofuran. By varying the experimental conditions and the monomer feed composition, poly(CL-co-DTC) with high yield and molecular weight was prepared using the binary system Catalyst (1)/BnOH as catalyst/initiator.1H NMR and differential scanning calorimetry (DSC) characterizations verified random structures of the polymer. GPC characterization further showed high molecular weights and narrow molecular weight distribution of the final product.
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Jian Yu,Jihua Yu,Weibiao Liao,Jianming Xie,Lijuan Niu,Guobin Zhang,Jian Lv,Xuemei Xiao,Yue Wu 한국식물학회 2020 Journal of Plant Biology Vol.63 No.4
Salt stress as one of main abiotic stresses damaged plant growth and development. In this study, the effects of ethylene on Ca2+-regulated rooting index, Na+ and K+ concentration, Na+ transportation and cell ultrastructure during adventitious rooting in cucumber (Cucumis sativus L.) under salt stress were investigated. The results showed that ethylene might play a positive role in Ca2+-regulated rooting index during adventitious rooting under salt stress. Moreover, CaCl2 treatment significantly decreased the intracellular Na+ level but increased K+ content of cucumber explants under salt stress. However, the Na+ and K+ concentration which treated with Ca2+ treatment was significantly influenced by ethylene inhibitors under salt stress. Our results also showed that ethylene might be involved in Ca2+-affected cell ultrastructure of cucumber explants under salt condition. Further analysis showed that ethylene might be responsible for Ca2+-regulated Na+ transport through enhancing the transcriptional and protein levels of Na+/H+ antiporter as well as H+-ATPase for alleviating the negative effects of NaCl stress. Therefore, ethylene might act as a downstream signaling molecule of Ca2+ to maintain Na+ and K+ homeostasis via regulating Na+ transport and preserve the integrity of cellular ultrastructure of cucumber explant during adventitious rooting under salt condition.
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