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201.
结合生物信息学方法及分子模拟手段, 通过同源模建方法构建了乙型肝炎病毒表面抗原(HBsAg)Pres12的三维空间结构, 并结合生物实验在分子水平上探讨了乙型肝炎病毒表面抗原Pres12作为抗乙型肝炎病毒重要靶标的机理. 研究结果表明, HBsAg三维空间结构是由构型性的Pres1和线性的Pres2组成, 此结构由疏水氨基酸形成3个α-螺旋结构及Loop结构域, 并且N端由Pres1中残基构成了一个开裂, 形成了HBsAg可能的活性部位. 静电势分析结果证实, N端可能的活性部位具有较大的静电势分布, 因而具有与受体细胞蛋白相互作用的能力, 这为HBV病毒抑制剂药物分子的设计提供了有益帮助. 相似文献
202.
203.
用电子管代替气体放电管做等离子体诊断实验,分别使用X-Y自动记录仪和万用表进行测量,计算得出等离子体参量,并与使用放电管得出的等离子参量做比较,证明了用电子管代替气体放电管的可行性. 相似文献
204.
YU Yue XI Zhixiang ZHOU Bingjie JIANG Binbo LIAO Zuwei YANG Yao WANG Jingdai HUANG Zhengliang SUN Jingyuan YANG Yongrong 《高等学校化学研究》2022,38(4):1012-1017
Acidity plays a vital role in methane conversion by co-feeding method, which is one of the best strategies to improve the utilization and gentle the reaction conditions of methane. In this work, Zn, Ni, Mo, La, Ga, Fe and Co-impregnated ZSM-5 zeolites have been prepared with the same substitutions to variate the acidities and tested in co-aromatization of methanol with methane. It is demonstrated that the new medium-strong acid sites formed by metal and strong acid sites are the key role to activate methane in co-reaction. Zn-modified ZSM-5 catalyst is preferred to exhibit the best methane conversion of 12%, whose aromatic selectivity increases from 27.2% to 52.2% compared with that of HZSM-5. Besides, the addition of methane further improves the production of high-valued aromatics compared with methanol to aromatics (MTA) reaction. 相似文献
205.
Separation of acetylene(C2H2) from carbon dioxide(CO2) by adsorbents is very challenging owing to their high similarity on molecular shape and dimension. Exploring inexpensive and easily available porous materials is of importance to facilitate the practical implementation of the challenging but energy-efficient separation. Herein, we utilize an easily available porous material[Zn3(HCOO)6] for the selective separation of C2H2 over CO2. Because of the pore confinement in[Zn3(HCOO)6](pore size of 0.47 nm) and accessible oxygen sites for preferential binding of C2H2, this material exhibits high low-pressure uptake for C2H2(63 cm3/cm3 at 10 kPa and 298 K) and high C2H2/CO2 selectivity(7.4 under ambient conditions) that is comparable to those of out-performing porous materials. The efficient separation of[Zn3(HCOO)6] for C2H2/CO2 mixture has also been confirmed by the breakthrough experiments. 相似文献
206.
Six phthalate acid esters(PAEs) priority pollutants[dimethyl phthalate(DMP), diethyl phthalate(DEP), dibutyl phthalate (DBP or DNBP), di-n-octyl phthalate(DNOP), di 2-ethyl hexyl phthalate(DEHP), and butyl benzyl phthalate(BBP)] were opted as the research object. PAE-degrading esterase CarEW(PDB ID:1C7I) isolated from Bacillus subtilis acting as a template and an iterative saturation mutation strategy was adopted to modify key amino acids to attain efficient PAE-degrading esterase substitutes with a reasonable structure constructed by homology modeling method. Present study designed a total of 285 unit-site and multi-site substitutions of PAE-degrading esterase using the homology modeling method. Among them, 207 PAE-degrading esterase substitutions, which contained the 6-site PAE-degrading esterase substitute 1C7I-6-9 with 84.21% enhancement intensity of degradation ability revealed better degradability to all the 6 PAEs after modification. Moreover, molecular dynamics simulation based on the Taguchi method reported the optimal external application environment for PAE-degrading esterase substitutes as follows:pH=6, T=35℃, the rhamnolipid concentration was 50 mg/L, the molar ratio of nitrogen to phosphorus(N:P) was 10:1, the concentration of H2O2 was 50 mg/L, and the voltage gradient was 1.5 V/cm. The degradation ability of PAE-degrading esterase substitutes was found to be elevated by 13.04% as compared to that of the blank control under the optimal condition. Moreover, 11 highly efficient PAE-degrading esterase substitutes with thermal stability were designed. 相似文献
207.
Covalent organic frameworks(COFs), as a class of crystalline porous materials with periodic lattices and porous structures, have received extensive attention in the fields of gas storage and separation, energy storage, catalysis and optoelectronics and so on. However, COFs are still in their infancy in the field of nuclear waste treatment, especially for sequestration of long-live problematic radionuclides, such as 99Tc. Battle of decontamination of pertechnetate(TcO4–), a main existence of 99Tc under aerobic environments, is far from finished. In this review, recent progresses of COFs and some relative materials in the sequestration of pertechnetate, and perspective on surmounting the unmet issues are elucidated. 相似文献
208.
Enzymes containing 3'→5' exonuclease activities play an important role in various key cellular and physiological processes. The development of fluorescence biosensor is an efficient method to detecting enzyme activity. Herein, a fluorescence resonance energy transfer(FRET) "on" and "off" strategy for detecting exonuclease III(Exo III) activity has been developed. We report here that the double-stranded DNA(dsDNA) enables to bind tightly to self-assembled nanosheets of cationic perylene monoimide derivative(PMI-O7) through electrostatic interaction, and the 6-carboxyfluorescein(FAM)-modified dsDNA could be efficiently quenched via FRET between FAM and PMI-O7. Upon the addition of Exo III, the dsDNA will be digested and the FAM fluorophore will be released, resulting in the fluorescence recovery of FAM. This method provides a simple and sensitive biosensor platform with a low detection limit of 0.077 U/mL for Exo III. Importantly, this method exhibits similar and calibration curves for the detection of Exo III in both buffer and fetal bovine serum samples, indicating that this platform has potential to detect Exo III activity in complex samples. 相似文献
209.
The oxygen reduction reaction in direct glycol fuel cells heavily relies on noble metal-based electrocatalysts. In this work, novel Pt group metal-free catalysts based on porous Fe-N-C materials are successfully synthesized as catalysts with high activity and durability for the cathode oxygen reduction reaction (ORR). Through the encapsulation of NH4SCN salt, the surface elements and pore structure of the catalyst are effectively changed, and the active sites of Fe effectively are increased. The half-wave potential of the best Fe-N-C catalyst was –0.02 V vs. Hg/HgO in an alkaline environment. The porous Fe-N-C catalyst possesses a large specific surface area(1158 m2/g) and shows good activity and tolerance to glycol. The direct glycol fuel cell with the Fe-N-C cathode achieved a maximum power density of 62.2 mW/cm2 with 4 mol/L KOH and 4 mol/L glycol solution at 25 °C and maintained discharge for more than 250 h at a 50 A/cm2 current density. 相似文献
210.
采用溶胶凝胶法制备Gd0.2Ce0.8O3-δ +0.05%(质量分数)SiO2(GDCSi)电解质。在GDCSi体系中加入Fe2O3及MgO可达到降低烧结温度的同时提高晶界电导率,并减小杂质SiO2对氧离子在晶界处传输的阻碍的目的。将MgO和Fe2O3单掺杂或双掺杂在GDCSi体系中并对GDCSi基电解质的微观形貌及电性能进行研究。结果表明,所有样品主要由立方萤石结构相组成;物质的量分数4%MgO单掺杂的GDCSi-M、物质的量分数4%Fe2O3单掺杂的GDCSi-F以及物质的量分数2%MgO-物质的量分数2%Fe2O3共掺杂的GDCSi-MF均可促进GDCSi体系晶粒增长,降低晶粒间孔隙率,提高电解质的相对密度,降低晶粒电阻Rgi、晶界电阻Rgb及总电阻Rt;GDCSi-MF具有最高晶界电导率和总电导率,在400 ℃时GDCSi-MF的晶界电导率σgb和总电导率σt分别是GDCSi的10.41和1.82倍。 相似文献