王水密闭溶矿-电感耦合等离子体原子发射光谱法测定锑矿石中的锑

建立了王水密闭溶矿-电感耦合等离子体原子发射光谱法测定锑矿石中锑的方法。研究了溶矿时间、溶矿温度、溶液的酸度、基体效应对测定的影响。样品的相对误差在1.10%~13.33%,11次独立测定的相对标准偏差均小于2%。经标准物质验证,结果满意。     

四酸溶矿-电感耦合等离子体发射光谱法测定铬铁矿中多种元素

建立了四酸溶矿-电感耦合等离子体发射光谱法同时测定铬铁矿中铝、钙、镁、铁、钛、锰、钾、钠、钒、钴、镍的方法。本法在四酸溶矿基础上,用HClHCl O4除铬,使铬以氯化铬酰形式挥发除去,消除了铬在测定时对其它元素的干扰,同时弥补了碱熔时无法测定钾、钠的弊端。对试样的分解、铬干扰的消除、溶液中残存铬的影响及仪器参数进行了探讨研究。本法空白值低,检出限为1~48μg/g,方法 RSD(n=12)为0.93%~9.2%,相对误差为-8.2%~3.6%。通过一系列铬铁矿标准物质及实测样品进行方法验证,四酸溶矿测定值与碱熔的ICP-AES的测定值进行比对,结果均在误差范围内,满足地质矿产检测的要求。该法分析过程简单,避免了在溶矿过程中引入其它待测元素,因消除了铬的干扰,一套标准系列即可满足测试要求,实用性强,适合铬铁矿中钾、钠等元素的测定。     

ICP-MS测定6种花茶中8种微量元素的含量和溶出特性

采用微波消解样品,电感耦合等离子体质谱仪测定了茉莉花,熏衣草,甜菊叶,玫瑰花,菊花和桂花等6种花茶的Zn,As,Cd,Pb,Tl,Cr,Ni和Cu等元素的含量及其溶出特性。所采用方法的加标回收率在80%~120%之间,相对标准偏差小于6%。各样品的元素含量在下列范围内变动:Zn(18~48μg/g),As(2~14μg/g),Cd(0.05~1μg/g),Pb(0.8~9μg/g),Tl(0.08~2μg/g),Cr(0.8~3.9μg/g),Ni(0.6~11.5μg/g),Cu(6~27μg/g),样品中的元素溶出量均呈现随溶出时间延长而增加的趋势。本测定结果为这些花茶的消费行为以及研发花茶新产品提供了实验依据。     

原子荧光光谱法同时测定化妆品中的锑和砷

采用节约时间的样品前处理方法,建立了AFS法同时检测化妆品中砷和锑。砷和锑的检出限分别为0.010μg/L和0.027μg/L,样品加标回收率分别为90.0%~102.2%、88.3%~102.8%。     

电感耦合等离子体质谱(ICP-MS)法测定金绿宝石中16种痕量稀土元素

金绿宝石结构稳定,常规敞开酸溶、密闭酸溶、微波消解三种前处理方法并不能将其完全分解,测定结果偏低。本文采用碳酸钠-硼酸混合熔剂进行熔融,样品分解完全,建立了电感耦合等离子体质谱法(ICP-MS)测定金绿宝石中16种痕量稀土元素的分析方法。选择丰度高、干扰小的同位素、动能歧视碰撞池(KED)模式及干扰系数校正法消除质谱干扰,以185Re为内标元素及样品稀释降低基体干扰。实验表明：各稀土元素的校准曲线相关系数r值在0.9991~0.9998之间,方法检出限为0.0001~0.0134 μg/g,定量限为0.0005~0.0670 μg/g。采用国家标准物质GBW07151验证方法的精密度,计算出相对标准偏差(RSD, n=7)在1.3%~4.6%之间,并将此方法用于金绿宝石实际样品中稀土元素的测定,RSD为0.9%~3.2%,加标回收率为94%~104%,符合国家地质矿产行业标准,结果稳定、可靠。     

复合铋膜电极阳极溶出法测定水样中的痕量铟

在玻碳电极上采用电化学沉积法制备了新型铕离子掺杂普鲁士蓝复合铋膜电极,建立了用示差脉冲阳极溶出法测定环境水样中痕量铟的分析方法。讨论了铟在常规铋膜电极和复合铋膜电极上的溶出性能,对铋膜的厚度、支持电解质、测定底液的pH、富集时间和富集电位等参数进行了优化。在最佳实验条件下,铟的阳极溶出峰电流与其浓度在2~20μg/L和20~100μg/L范围内分别呈良好的线性关系,检测下限为0.15μg/L(S/N=3),相对标准偏差RSD2.0%。该法用于实际水样中痕量铟的测定,样品回收率为97.5%~103%。     

四酸密闭消解-电感耦合等离子体质谱(ICP-MS)法测定铀矿中的铼和钪

建立一种准确测定铀矿中铼和钪含量的方法,为铀矿中伴生元素的分析与研究提供数据支持、对探勘铼钪矿实现战略资源合理利用化有着重大意义。采用氢氟酸-硝酸-盐酸-高氯酸四酸溶解样品,利用密闭聚四氟乙烯坩埚-电热板加热方式来测定铼钪,建立了电感耦合等离子体质谱(ICP-MS)法测定铀矿中铼和钪的方法,探讨了分解方法、称样量、酸用量、溶样温度及时间、基体干扰、内标选择的影响。实验结果表明：酸溶分解结果准确性高于碱溶分解,3 mL HF、4 mL HNO3、2 mL HCl和1 mL HClO4为最佳消解体系,0.05 g~0.10 g、10 mL~12 mL为最佳称样量和酸用量,闭盖160 ℃、开盖190 ℃ 18 h为最佳溶样条件,选择碰撞气流速为3.0 mL/min,稀释气流速为0.8 L/min降低基体干扰,In作为内标能够达到测试要求。该方法操作简单同时将铼钪测试,其中铼和钪的检出限分别为0.006 mg/kg和0.366 mg/kg;铼准确度在92.9%~98.4%,相对标准偏差在2.4%~5.7%,钪准确度在93.5%~98.2%,相对标准偏差在1.6%~6.2%;铼加标回收率为87.2%~93.8%,钪加标回收率为90.7%~92.3%,检出限低,精密度良好,灵敏度低满足铀矿中铼和钪的分析要求。     

双抗体夹心酶联免疫检测法测定蓖麻毒素

建立了双抗体夹心酶联免疫法检测蓖麻毒素的方法。优化了最佳蓖麻毒素多克隆抗体包被浓度和包被方法、蓖麻毒素单克隆抗体工作浓度、酶标记二抗体工作浓度和显色时间等实验条件。方法的线性范围在1.2~10.0μg/L之间,线性回归方程y=0.05x 0.42,相关系数为0.9962,检出限为0.2μg/L。将该方法用于检测实际水样蓖麻毒素加标样品,回收率为91.7%~104.0%;检测实际土壤加标样品,回收率为83.3%~98.0%;检测奶粉加标样品,回收率为83.3%~94.0%;检测实际血液加标样品,回收率为75.0%~82.0%。     

硫酸浸出矿液中砷的氢化物发生-原子荧光光谱法快速测定初探

采用氢氧化钾完全中和浸出矿液中的硫酸,在盐酸介质中加入硫脲、抗坏血酸还原。应用氢化物发生-原子荧光光谱法测定硫酸浸出矿液中微量砷的方法进行了探讨。其方法回收率在100%~102%之间,相对标准偏差在1.4%~2.2%之间,方法检出限为3.5×10-10g/mL,线性回归方程:IF=8.214×C+9.688,相关系数为0.9994。经实验证实,方法简便快速、准确可靠、可测范围宽,可直接测定液体样品。亦为硫酸浸出矿液的处理对环境保护的影响提供了科学依据。     

膜去溶-ICP-MS法测定高纯Eu_2O_3中14种痕量稀土杂质

研究了不需基体分离,膜去溶-ICP-MS法直接测定高纯Eu2O3中的14种痕量稀土杂质的分析方法。讨论了Eu基体产生的多原子离子对被测元素的质谱干扰。使用膜去溶后,待测元素灵敏度提高3倍左右,EuO/Eu产率从去溶前的0.016%降低为0.0007%。建立了Tm的数学校正方程,通过膜去溶结合数学校正可将Eu基体对Tm干扰完全消除。14种稀土杂质的检出限和(∑RE)为70 ng/L,测定下限和(∑RE)为0.54μg/g。对6N高纯Eu2O3样品进行了分析,样品回收率为96%~109%,RSD小于10%。所建立的方法对Eu2O3标准样品的测定结果与国家标准方法测定结果相一致。     

Enantiomer separation by CEC——Enantiomer separation by packed-capillary electrochromatography

Three chiral compounds were successfully separated in a short time with two enantiomer separation models on packed-capillary electrochromatography (CEC). (i) 75 μm I.D. capillaries were packed with 5 μm β-cyclodextrin (β-CD) chiral stationary phase (CSP). Effects of voltage, pH and concentration of organic modifier on electroosmotic flow (EOF) and chiral separations were investigated systematically. Enantiomers of a neutral compound (benzoin) and a neutral drug (mephenytoin) were separated within a short time with high efficiency. Efficiency of 32 000 theoretical plates per meter and resolution (R_s) of 1.42 were achieved for enantiomers of benzoin using a βCD packed column with 6.2 cm packed length. Efficiency of 45 000 theoretical plates per meter and R_s of 3.40 were obtained for enantiomers of mephenytoin. Especially, the enantiomer separation of mephenytion was performed in just 3.4 min with R_s of 2.60. (ⅱ) 75 μm I.D. capillary was packed with octadecylsilica particles (ODS). Chiral separat     

Regioselectivity of olefin oxidation by iodosobenzene catalyzed by metalloporphyrins : control by the catalyst

The regioselectivity of the oxidation of three monosubstituted olefins, 6-phenoxyhex-1-ene, hex-1-ene and styrene, by iodosobenzene in the presence of various Fe-, Mn- or Cr-tetraaryl-porphyrins, was studied. It was found that, besides epoxides, known products from such systems, allylic alcohols and aldehydes were formed, the latter not being derived from the corresponding epoxides. The relative importance of these reactions greatly depends upon both the metal and porphyrin constituents of the catalyst. More particularly, the competition between epoxidation and allylic hydroxylation can be efficiently controlled by non-bonded interactions between the olefin and porphyrin substituents. No hydroxylation of the aromatic rings and no oxidative dealkylation of the ether function was detected.     

Glycosidase inhibition by macrolide antibiotics elucidated by STD-NMR spectroscopy

A glycosynthase approach was attempted to glycodiversify macrolide antibiotics, using DesR, a family-3 retaining beta-glucosidase involved in the self-resistance mechanism of methymycin production. STD-NMR was used to probe enzyme-substrate interactions. Analysis of competitive STD-NMR experiments between erythromycin A and a chromogenic substrate (pNP-beta-d-glucose) with the hydrolytically inactive nucleophile mutants led us to discover a family of unprecedented glycosidase inhibitors. Analysis of kinetic data with wild-type DesR determined that erythromycin is a competitive inhibitor of the glucosidase (IC50 = 2.8 +/- 0.3 microM and Ki = 2 +/- 0.2 microM) with respect to the hydrolysis of pNP-beta-d-glucose. Comparable inhibitory data was obtained for clarithromycin; however, the inhibitory effect of azithromycin was weak and no significant inhibition was observed with methymycin or d-desosamine. This report documents significant inhibition of glycosidases by macrolide antibiotics and provides insight into the design of novel glycosidase inhibitors based on the macrolactone ring of macrolide antibiotics.     

Membrane solubilization by detergent: resistance conferred by thickness

The commonly held model for membrane dissolution by detergents/surfactants requires lipid transport from the inner to the outer bilayer leaflet ('flip-flop'). Although applicable to many systems, it fails in cases where cross-bilayer transport of membrane components is suppressed. In this paper we investigate the mechanism for surfactant-induced solubilization of polymeric bilayers. To that end, we examine the dissolution of a series of increasingly thick, polymer-based vesicles (polymersomes) by a nonionic surfactant, Triton X-100, using dynamic light scattering. We find that increasing the bilayer thickness imparts better resistance to dissolution, so that the concentration required for solubilization, after a fixed amount of time, increases nearly linearly with membrane thickness. Combining our experimental data with a theoretical model, we show that the dominant mechanism for the surfactant-induced dissolution of polymeric vesicles, where polymer flip-flop across the membrane is suppressed, is the surfactant transport through the bilayer. This mechanism is different both qualitatively and quantitatively from the mechanisms by which surfactants dissolve pure lipid vesicles.     

Antibiotic recognition by binuclear metallo-beta-lactamases revealed by X-ray crystallography

Metallo-beta-lactamases are zinc-dependent enzymes responsible for resistance to beta-lactam antibiotics in a variety of host bacteria, usually Gram-negative species that act as opportunist pathogens. They hydrolyze all classes of beta-lactam antibiotics, including carbapenems, and escape the action of available beta-lactamase inhibitors. Efforts to develop effective inhibitors have been hampered by the lack of structural information regarding how these enzymes recognize and turn over beta-lactam substrates. We report here the crystal structure of the Stenotrophomonas maltophilia L1 enzyme in complex with the hydrolysis product of the 7alpha-methoxyoxacephem, moxalactam. The on-enzyme complex is a 3'-exo-methylene species generated by elimination of the 1-methyltetrazolyl-5-thiolate anion from the 3'-methyl group. Moxalactam binding to L1 involves direct interaction of the two active site zinc ions with the beta-lactam amide and C4 carboxylate, groups that are common to all beta-lactam substrates. The 7beta-[(4-hydroxyphenyl)malonyl]-amino substituent makes limited hydrophobic and hydrogen bonding contacts with the active site groove. The mode of binding provides strong evidence that a water molecule situated between the two metal ions is the most likely nucleophile in the hydrolytic reaction. These data suggest a reaction mechanism for metallo-beta-lactamases in which both metal ions contribute to catalysis by activating the bridging water/hydroxide nucleophile, polarizing the substrate amide bond for attack and stabilizing anionic nitrogen intermediates. The structure illustrates how a binuclear zinc site confers upon metallo-beta-lactamases the ability both to recognize and efficiently hydrolyze a wide variety of beta-lactam substrates.