黄曲霉毒素的太赫兹检测研究

为了探索能够快速简便、特异敏感的黄曲霉毒素检测方法,应用太赫兹时域光谱(THz-TDS)技术获得了黄曲霉毒素B1和M1在0.3~2.1 THz范围内的吸收光谱,实验结果显示它们在测量波段范围表现出不同的吸收位置和吸收强度,表明THz波对它们结构的变化有灵敏响应。黄曲霉毒素在THz波段的指纹谱的测定显示出太赫兹时域光谱技术作为一种新的光谱研究手段具有用于黄曲霉毒素结构和功能研究的潜力,并为此技术应用于食品中黄曲霉毒素的检测奠定了基础。     

Application of Central Composite Design for the Determination of Exfoliating Agents in Cosmetics by Capillary Electrophoresis with Electroosmotic Flow Modulation

Multivariate analysis within central composite design is applied to simplify an optimization procedure and explore the interactions among experimental parameters in analytical chemistry. In this study, central composite design was used to identify the optimal capillary electrophoresis conditions with electroosmotic flow modulation to determine seven exfoliating agents in cosmetics. The influence of phosphate concentration, cetyltrimethylammonium bromide concentration, and methanol percentage on the response was evaluated by the use of the chromatographic exponential function to simultaneously investigate the resolution and separation under sixteen sets of capillary electrophoresis conditions. The optimized conditions were 150 mM phosphate solution (pH = 7) containing 0.5 mM cetyltrimethylammonium bromide, 3 mM γ-cyclodextrin, and 25% methanol as the running buffer. To shorten the analysis time, an electroosmotic flow modulating agent (cetyltrimethylammonium bromide) was added to the separation buffer. Calibration plots were linear (r ≧ 0.998) with high precision and accuracy in the homemade cosmetic matrix. The exfoliating agents in two commercial cosmetic products were determined using the optimized conditions, and the results correlated well with results obtained by high-performance liquid chromatography–mass spectrometry.     

疏水作用色谱介质的合成及色谱特性研究

利用国产大孔硅胶作基质合成了疏水填料。按照高效疏水作用色谱法,采用梯度洗脱方式分离了6种标准蛋白及唾液中α-淀粉酶和基因工程生产的γ-干扰素。柱子不可逆吸附小、被试验的α-淀粉酶和溶菌酶活性几乎定量被回收。应用合成的色谱填料研究了洗脱剂中盐浓度和温度对蛋白质保留行为的影响,论证了合成填料的色谱属性。     

Dicyanobiphenyl polysioloxane stationary phases for capillary column gas chromatography

Summary The chromatographic performance of newly developed dicyanobiphenyl polysiloxane stationary phases were evaluated and compared with the performance of other polar stationary phases, including the previously reported monocyanobiphenyl polysiloxanes. Due to the unique combination of polarizable biphenyl and polar cyano functionalities in the side chains of the flexible polysiloxane backbone, and by virtue of their mild liquid crystalline properties, the new stationary phases provide excellent resolution of a wide variety of analytes, both polar and nonpolar, in both GC and SFC. They can be easily coated and cross-linked in open tubular columns, and the resultant columns demonstrate excellent efficiency and performance at temperatures up to 280–300°C. The new stationary phases exhibit enhanced selectivities for various types of isomeric compounds.     

Chemometric quality control of chromatographic purity

It is common practice in chromatographic purity analysis of pharmaceutical manufacturing processes to assess the quality of peak integration combined by visual investigation of the chromatogram. This traditional method of visual chromatographic comparison is simple, but is very subjective, laborious and seldom very quantitative. For high-purity drugs it would be particularly difficult to detect the occurrence of an unknown impurity co-eluting with the target compound, which is present in excess compared to any impurity. We hypothesize that this can be achieved through Multivariate Statistical Process Control (MSPC) based on principal component analysis (PCA) modeling. In order to obtain the lowest detection limit, different chromatographic data preprocessing methods such as time alignment, baseline correction and scaling are applied. Historical high performance liquid chromatography (HPLC) chromatograms from a biopharmaceutical in-process analysis are used to build a normal operation condition (NOC) PCA model. Chromatograms added simulated 0.1% impurities with varied resolutions are exposed to the NOC model and monitored with MSPC charts. This study demonstrates that MSPC based on PCA applied on chromatographic purity analysis is a powerful tool for monitoring subtle changes in the chromatographic pattern, providing clear diagnostics of subtly deviating chromatograms. The procedure described in this study can be implemented and operated as the HPLC analysis runs according to the process analytical technology (PAT) concept aiming for real-time release.     

吸附树脂的色层吸附及其在甜菊甙分离纯化中的应用

研究了ADS－7等吸附树脂对甜菊甙各组分的吸附选择性及色层吸附性能,发现ADS－7吸附树脂不仅在吸附甜菊甙时对各个组分呈现出一定的选择吸附顺序,在水洗时还有一定的选择洗脱顺序,这两个顺序正好相反。利用ADS－7吸对脂的这一色层性能,制备了富含甜度最高、味质最好的Rebaudioside A及几科不含色素的高品质甜菊甙,具有很好的实际应用意义。     

磷脂酶A2家族的功能性分类研究

采用“结合强度指纹图谱分析”方法, 通过对多重分子对接得到的作用强度数据进行聚类矩阵分析对蛋白质进行功能分类. 着重研究了磷脂酶A₂家族基于抑制剂作用强度的功能分类, 并且与基于序列的聚类结果进行比较, 成功地解决了序列比对方法不能处理的远源蛋白(cPLA₂)的分类问题.     

脱叔丁基杯[8]芳烃键合固定相的制备及其液相色谱性能

杯芳烃(Cahixarenes)是一类由苯酚单元经亚甲基相连而成的大环化合物,与β-环糊精类似,它能与多种溶质形成主客体包容配合物,并通过超分子作用识别离子和中性分子等客体,利用杯芳烃的分子识别作用可提高色谱分离性能,Glennon等制备了酯化杯[4,6]芳烃键合固定相,     

Identification of volatiles from pineapple (Ananas comosus L.) pulp by comprehensive two-dimensional gas chromatography and gas chromatography/mass spectrometry

Combining qualitative data from the chromatographic structure of 2-D gas chromatography with flame ionization detection (GC×GC-FID) and that from gas chromatography-mass spectrometry (GC/MS) should result in a more accurate assignment of the peak identities than the simple analysis by GC/MS, where coelution of analytes is unavoidable in highly complex samples (rendering spectra unsuitable for qualitative purposes) or for compounds in very low concentrations. Using data from GC×GC-FID combined with GC/MS can reveal coelutions that were not detected by mass spectra deconvolution software. In addition, some compounds can be identified according to the structure of the GC×GC-FID chromatogram. In this article, the volatile fractions of fresh and dehydrated pineapple pulp were evaluated. The extraction of the volatiles was performed by dynamic headspace extraction coupled to solid-phase microextraction (DHS-SPME), a technique appropriate for slurries or solid matrices. Extracted analytes were then analyzed by GC×GC-FID and GC/MS. The results obtained using both techniques were combined to improve compound identifications.