通过确定初始电离位点预测吲哚类生物碱质谱的特征裂解规律

确定初始电离位点是EI源质谱解析中一个至关重要的环节. 本文提出了一种确定初始电离位点的新方法. 该法通过计算和分析分子离子自旋密度, 进而比较从中性分子到分子离子的电荷变化和键长变化, 从而确定初始电离位点. 对简单吲哚类生物碱质谱的特征裂解机理进行了预测, 结果与标准物质的质谱吻合. 在此基础上, 与传统的根据基团电离能确定电离位点的方法进行了比较. 结果表明, 该法优于电离能方法. 此法不仅可用于预测以α-裂解为主导的吲哚生物碱和其它含氮化合物的质谱裂解规律, 还为揭示其它小分子化合物以及气相多肽离子的裂解机理奠定了基础.     

人顶体酶三维结构的同源模建及其与KF950的分子对接研究

采用同源模建方法首次构建了人顶体酶的三维结构模型, 模型的可靠性经Ramachandran图和Profile_3D图验证. 采用InsightII/Binding site方法准确定位了人顶体酶的活性位点, 并研究了顶体酶重要功能残基在活性位点的立体分布. 在此基础上, 通过柔性分子对接方法首次阐明了顶体酶高效抑制剂KF950与靶酶活性位点的相互作用模式, 发现特异性的氢键相互作用是KF950产生高抑制活性的重要分子基础. 其研究结果将为合理设计新型顶体酶抑制剂, 寻找男性口服避孕药奠定坚实基础.     

高熵纳米合金在电化学催化中的应用

The implementation of clean energy techniques, including clean hydrogen generation, use of solar-driven photovoltaic hybrid systems, photochemical heat generation as well as thermoelectric conversion, is crucial for the sustainable development of our society. Among these promising techniques, electrocatalysis has received significant attention for its ability to facilitate clean energy conversion because it promotes a higher rate of reaction and efficiency for the associated chemical transformations. Noble-metal-based electrocatalysts typically show high activity for electrochemical conversion processes. However, their scarcity and high cost limit their applications in electrocatalytic devices. To overcome this limitation, binary catalysts prepared by alloying with transition metals can be used. However, optimization of the activity of the binary catalysts is considerably limited because of the presence of the miscibility gap in the phase diagram of binary alloys. The activity of binary electrocatalysts can be attributed to the adsorption energy of molecules and intermediates on the surface. High-entropy alloys (HEAs), which consist of diverse elements in a single NP, typically exhibit better physical and/or chemical properties than their single-element counterparts, because of their tunable composition and inherent surface complexity. Further, HEAs can improve the performance of binary electrocatalysts because they exhibit a near-continuous distribution of adsorption energy. Recently, HEAs have gained considerable attention for their application in electrocatalytic reactions. This review summarizes recent research advances in HEA nanostructures and their application in the field of electrocatalysis. First, we introduce the concept, structure, and four core effects of HEAs. We believe that this part will provide the basic information about HEAs. Next, we discuss the reported top-down and bottom-up synthesis strategies, emphasizing on the carbothermal shock method, nanodroplet-mediated electrodeposition, fast moving bed pyrolysis, polyol process, and dealloying. Other methods such as combinatorial co-sputtering, ultrashort-pulsed laser ablation, ultrasonication-assisted wet chemistry, and scanning-probe block copolymer lithography are also highlighted. Among these methods, wet chemistry has been reported to be effective for the formation of nano-scale HEAs because it facilitates the concurrent reduction of all metal precursors to form solid-solution alloys. Next, we present the theoretical investigation of HEA nanocatalysts, including their thermodynamics, kinetic stability, and adsorption energy tuning for optimizing their catalytic activity and selectivity. To elucidate the structure–property relationship in HEAs, we summarize the research progress related to electrocatalytic reactions promoted by HEA nanocatalysts, including the oxygen reduction reaction, oxygen evolution reaction, hydrogen evolution reaction, methanol oxidation reaction, and CO₂ reduction reaction. Finally, we discuss the challenges and various strategies toward the development of HEAs.     

磷脂酰肌醇3-激酶与其抑制剂芹菜素的分子对接

采用AutoDock3.05分子对接软件包,以磷脂酰肌醇3-激酶(PI3K)的晶体结构和芹菜素的空间结构为基础,对PI3K和芹菜素的相互作用机制进行了分子对接研究,为芹菜素的抗肿瘤机制提供理论依据.芹菜素是PI3K的有效抑制剂,分子对接结果表明,芹菜素与PI3K发生了强烈的结合作用,结合自由能达到-33.1 kJ·mol-1;结合位点位于该酶底物ATP的结合位点上,与底物形成竞争性结合,从而导致PI3K的酶活性受到抑制;在结合中,疏水力、氢键和静电作用力对芹菜素和PI3K复合物的形成与稳定发挥了重要作用.     

光谱探针猩红S与牛血清白蛋白结合的发光光谱

利用荧光光谱和紫外吸收光谱,详细研究了不同温度下猩红S(PS)与牛血清白蛋白(BSA)的结合反应,发现PS对BSA的内源性荧光具有较强的猝灭作用,其猝灭机理属于静态猝灭,由此求得PS与BSA间的结合常数、结合位点数及热力学参数等.结果表明:PS与BSA之间形成了1:1稳定复合物,它们之间的作用力主要是静电引力.根据Fo...     

非参数方法估计分位数模型的研究综述

目前国内对于线性分位数回归模型的研究及其应用正在火热进行中,而非参数计量方法由于其优越性也受到越来越多人的重视,但对于两种方法结合应用的相关研究才刚刚开始.对于目前国内外已有的以及正在发展中的非参数方法估计分位数回归模型做了一个综述,包括理论综述及实证应用综述,其中重点介绍了此方面研究的前沿理论:Li and Racine关于非参数估计条件累积分布函数(CDF)和分位函数的研究.通过介绍,希望对于我国非参数估计分位数回归模型方法的研究和应用有所裨益.     

不同Ce/Mn摩尔比对CeO_2-MnO_x催化剂低温NH_3选择性催化还原NO的影响

以高锰酸钾和硝酸锰为锰源,采用改进的共沉淀法制备了不同Ce/Mn摩尔比的Ce O2-Mn Ox催化剂.以NH3为还原剂,考察了催化剂低温(小于150℃)NH3选择性催化还原NO的性能.并采用XRD,BET,H2-TPR,NH3-TPD和XPS等手段对催化剂的物理化学性质进行表征.结果表明,Ce O2-Mn Ox催化剂在50~150℃温度区间内表现出了良好的催化活性.引入适量的Ce可以有效地改变催化剂的晶粒大小,增强其氧化还原能力;而Mn的加入,促进了其低温SCR活性.当Ce/Mn摩尔比为1∶3时(C1M3),低温活性最佳,在82~150℃温度区间内NO去除率达到90%以上,这主要是由于C1M3催化剂有较高含量的表面吸附氧、大量的弱酸性位点、良好的氧化还原性能以及表面较高含量的Mn4+物种.     

置信区间的随机加权估计

用随机加权法建立了分位点ｑ的置信区间，又用后向临界点导出了更实用的置信区间。导出的置信区间是非参数的且和原置信区间长度相同。     

分位点随机配序抽样

该文针对统计计算中的某些随机模拟问题提出了分位点随机配序抽样法.该方法是由抽样分布的分位点和伪随机序复合构成的,适用于固定区域上多重积分的计算及随机变量的抽样.该文通过几个典型实例说明该方法在具体问题中的应用,并验证了该方法的计算精度.