多糖在金属纳米材料合成中的应用

利用多糖及其衍生物的特殊结构及性质合成纳米材料已成为纳米材料制备领域的新兴研究课题,引起了研究者广泛关注.多糖及其衍生物在纳米材料合成过程中可以起还原剂和稳定剂的作用,且反应完成后易于降解、无环境污染,因此多糖及其衍生物已成为纳米合成中理想的绿色原料.本文对近年来多糖及其衍生物在纳米材料合成中的应用进展做了简要总结和评述.     

气相色谱在多糖结构测定中的应用

综述了适用气相色谱分析的多糖的降解方法、衍生物的制备、固定液的选择以及气相色谱在多糖结构测定中的应用和最新进展。     

气相色谱法测定芦荟及芦荟干粉中的多糖

用气相色谱法测定了芦荟及芦荟干粉样品中的多糖。实验以木糖醇为内标物,采用以OV-225与OS-138为固定液的色谱柱,使多糖水解为单糖后的衍生物得到了分离。结果表明:未经水解的芦荟中含有少量的单糖,主要为葡萄糖;水解后的单糖主要为甘露糖和葡萄糖。这与用乙醇沉淀多糖后的测定结果(即芦荟及芦荟干粉中的多糖主要为甘露聚糖和葡甘露聚糖)是一致的。     

多糖衍生物类固定相在高效液相色谱手性分离中的应用进展

评述了多糖衍生物手性固定相在高效液相色谱手性分离中的应用进展，介绍了多糖衍生物手性固定相的主要类型，阐述了手性拆分机理和影响手性拆分的因素，引用文献66篇。     

手性逆流色谱的研究进展

总结了手性逆流色谱的5个特点,系统地介绍了逆流色谱的手性分离以及高速逆流色谱手性分离中氨基酸衍生物、环糊精衍生物、手性有机酸、多糖衍生物、牛血清白蛋白等手性选择剂的应用。     

6-叠氮-6-脱氧凝聚多糖的选择性一步合成

由于含氨基或氨基衍生物的多糖对细胞表面及细胞之间的生理功能具有特殊的作用,在研究细胞之间有效作用的促进剂和抑制剂方面具有潜在的应用价值,因而叠氮化多糖作为制备氨基多糖及其衍生物的中间体受到人们的重视,含乙酰氨基的天然多糖（如Chitin）和氨基多糖（如Chitosan）,由于具有抗感染和医治创伤作用,广泛用于医疗领域,含氨基和硫酸酯的多糖肝素有很好的抗凝血作用和降血脂活性,已用于动脉硬化病的治疗,我们发现含乙酰氨基的硫酸化核聚糖具有很高的抗艾滋病毒活性,而且没有抗凝血的副作用。     

气相色谱法测定芦荟及芦荟干粉中的多糖

提取芦荟及芦荟干粉样品中的多糖，将多糖水解为单糖之后衍生化反应，用气相色谱法进行分析，实验选择了最佳分离条件，以木糖醇为内标物，用OV-225与OS-138为色谱柱固定液，使衍生物得到了很好的分离，结果表明：未经水解的芦荟中含有少量的单糖以葡萄糖的形式存在，水解后的单糖主要为甘露糖和葡萄糖，这与用乙醇沉淀多糖后测定结果一致，即芦荟及芦荟干粉中的多糖主要为甘露聚糖和甘露葡聚糖。     

毛细管气相色谱法测定多糖的单糖组成

多糖是生命代谢不可缺少的重要物质,是多个单糖或其衍生物聚合而成的大分子活性化合物。近年来,各种多糖所具有的抗肿瘤、免疫、抗凝血、降血糖和抗病毒活性已相继被发现。一般来说,多糖所具有的药理活性是和其结构密切相关的[1,2],故对多糖的单糖组成和摩尔比测定是研究多糖性     

水溶性高支化多糖及硫酸酯衍生物抗癌活性研究

从虎奶菇菌核中提取出一种水溶性高支化葡聚糖,并用氯磺酸和吡啶在无水二甲亚砜中进行硫酸酯衍生化,制备出硫酸酯衍生物.用巴比赛小鼠动物实验研究该多糖及其硫酸酯衍生物的体内抗肉瘤S-180活性,以及用肝癌细胞株HepG2研究体外活性,同时讨论多糖分子尺寸与抗癌活性的关系.通过形态学、组织切片、以及酶联免疫法研究硫酸酯化对多糖抗肿瘤活性的影响.结果表明,支链多糖的均方根旋转半径在42.5~113 nm之间,显示出较高的体内和体外抗肿瘤活性,硫酸酯衍生物的均方根旋转半径在17.8~34.9 nm之间,抗癌活性随其分子尺寸的增大而逐渐提高.多糖及其硫酸酯衍生物能诱导人体肝癌HepG2细胞凋亡,且具有时间依赖性.它们对免疫反应的调节作用可通过肿瘤坏死因子TNF-α来介导.     

油樟叶多糖的大孔树脂纯化工艺研究

为研究大孔树脂纯化油樟叶多糖的最佳工艺,以脱色率、多糖保留率和蛋白质脱除率的加权综合评分为指标,首先通过静态及动态实验考察8种不同型号大孔树脂的纯化效果,优选出效果较好的树脂,再通过单因素和正交试验优化油樟叶多糖的纯化工艺参数。研究结果表明,AB-8型大孔树脂对油樟叶多糖有良好的综合纯化效果,其最佳纯化工艺参数为：油樟叶多糖的上样浓度为0.3mg/mL,洗脱剂为40%乙醇,洗脱剂流速为1.0mL/min,洗脱剂体积为2.2BV;在此工艺下纯化,油樟叶多糖保留率为86.35%,脱色率为73.03%,蛋白质去除率达81.18%。AB-8型大孔树脂对油樟叶多糖的纯化工艺稳定可靠、效果良好,为油樟叶多糖的开发利用提供了参考。     

Polysaccharide charge density regulating protein adsorption to air/water interfaces by protein/polysaccharide complex formation

Because the formation of protein/polysaccharide complexes is dominated by electrostatic interaction, polysaccharide charge density is expected to play a major role in the adsorption behavior of the complexes. In this study, pullulan (a non-charged polysaccharide) carboxylated to four different charge densities (fraction of carboxylated subunits: 0.1, 0.26, 0.51, and 0.56) was used to investigate the effect of charge density on the properties of mixed protein/polysaccharide adsorbed layers at air/water interfaces. With all pullulan samples, soluble complexes with beta-lactoglobulin could be formed at low ionic strength, pH 4.5. It was shown that the higher was the pullulan charge density, the more the increase of surface pressure in time was retarded as compared to that for pure beta-lactoglobulin. The retardation was even more pronounced for the development of the dilatational modulus. The lower dilatational modulus can be explained by the ability of the polysaccharides to prevent the formation of a compact protein layer at the air/water interface due to electrostatic repulsion. This ability of the polysaccharides to prevent "layer compactness" increases with the net negative charge of the complexes. If charge density is sufficient (> or = 0.26), polysaccharides may enhance the cohesion between complexes within the adsorbed layer. The charge density of polysaccharides is shown to be a dominant regulator of both the adsorption kinetics as well as the resulting surface rheological behavior of the mixed layers formed. These findings have significant value for the application of complex protein-polysaccharide systems.     

Isolation,Characterization, and Medicinal Potential of Polysaccharides of Morchella esculenta

Mushroom polysaccharides are active medicinal compounds that possess immune-modulatory and anticancer properties. Currently, the mushroom polysaccharides krestin, lentinan, and polysaccharopeptides are used as anticancer drugs. They are an unexplored source of natural products with huge potential in both the medicinal and nutraceutical industries. The northern parts of Pakistan have a rich biodiversity of mushrooms that grow during different seasons of the year. Here we selected an edible Morchella esculenta (true morels) of the Ascomycota group for polysaccharide isolation and characterization. Polysaccharopeptides and polysaccharides from this mushroom were isolated using the green chemistry, hot water treatment method. Fourier transform infrared spectroscopy revealed the sugar nature and possible beta-glucan type structure of these polysaccharides. Antioxidant assays showed that the deproteinized polysaccharides have moderate free radical scavenging activity. These isolated polysaccharides exhibited good acetylcholinesterase (AChE) and butyryl cholinesterase (BChE) inhibition activities. Therefore, these polysaccharides may be valuable for the treatment of Alzheimer’s and Parkinson’s diseases. Further bioassays are needed to discover the true potential of M. esculenta polysaccharides for medicinal purposes.     

Hydrocolloid gels of polysaccharides and proteins

Recent developments from 1997 to 2000 in hydrocolloid gels which consist of dispersed phase (polysaccharide or protein) and dispersing medium (water) are reviewed in the present paper. Gels and gelling processes of polysaccharides such as gellan gum, methylcellulose, xyloglucan, curdlan, konjac glucomannan and starch are described. Fluid gels and galactomannan gels prepared by freeze-thaw cycling are also described. Effects of pH and ionic strength on the gelation of proteins such as casein and β-lactoglobulin are described. Fractal treatment is introduced to study the structure–property relationship for globular protein gels. Gels formed by different hydrocolloids are also described briefly.     

An overview on the application of ultrasound in extraction,separation and purification of plant polysaccharides

In view of the recent emphasis on non-conventional chemistry, application of ultrasound in isolation of plant polysaccharides represents a viable alternative to traditional extraction processes. This review presents an extensive literature survey of ultrasound-assisted extraction of polysaccharides from different plant materials, particularly herbal plants and secondary agricultural plant sources. Targeted, multistep methods were applied with respect to differences in the types of polysaccharides and their location in plant cell walls. The effectiveness of the methods was evaluated according to yield and properties of the isolated polysaccharides in comparison to classical extraction methods. Substantial shortening of extraction time, reduction of reagent consumption and/or extraction temperature are the most important advantages of the ultrasonic treatment. In combination with sequential extraction steps using different solvents, sonication was shown to be effective in separation and/or purification of polysaccharides. The disadvantages of the sonication treatment, such as degradation and compositional changes of the polysaccharide preparations are discussed as well.     

碳纤维微电极负载金纳米粒子用于芦荟多糖的在体动态监测

建立了一种对活体芦荟储水凝胶组织中芦荟多糖进行在体实时动态检测的电化学方法. 通过在活体芦荟植株凝胶中嵌入高灵敏度的纳米金粒子修饰的碳纤维微电极, 对不同光照条件下芦荟植株中的芦荟多糖进行在体动态监测, 进而评价植株应激外界环境下芦荟多糖含量的实时变化. 实验结果表明, 纳米金粒子修饰的碳纤维微电极对芦荟储水凝胶组织中芦荟多糖具有显著的电催化活性, 不同光照环境下生长的芦荟植株中芦荟多糖含量的动态变化具有显著的统计学差异. 该修饰电极可用于芦荟植株中芦荟多糖动态变化的在体实时监测, 使电化学检测方法有望成为监测植物光合作用程度的一种快捷检测手段.     

Polysaccharide-induced order-to-order transitions in lyotropic liquid crystals

We report on the order-to-order transitions of lyotropic liquid crystals formed by self-assembled monogylcerides and water in the presence of polysaccharides of various molecular weights. The phase diagram of monoglyceride-water-polysaccharide systems, their morphology, and the topology of liquid crystalline structures were determined by combining optical cross-polarization, oscillatory shear rheometry, and small-angle X-ray scattering. The presence of hydrophilic mono-, oligo-, and polysaccharides in the water domains of liquid crystalline phases resulted in a general decrease of the cubic-to-hexagonal transition temperature. Provided that the sugar could fit within the water channels, the decrease was observed to be dependent on the polysaccharide concentration but independent of its molecular weight. For isotropic bicontinuous cubic phases, monomeric sugars such as glucose were reported to shrink the lattice parameter of the structure without inducing phase transitions. However, when a polymeric form of glucose was used, such as dextran, transitions from the gyroidal Ia3d cubic phase to double diamond Pn3m cubic phases were observed at well-defined molecular weights of polysaccharide. These results were interpreted in terms of size exclusions of polymer sugars by the water domains of the liquid crystal phases as well as the different topologies of water channels. Molecular dynamics simulations of polysaccharides in the water environment were performed to support these findings.     

正交设计优化木贼多糖的超声提取工艺(英文)

以蒸馏水为溶剂提取,通过单因素实验和正交实验,研究料液比、超声功率、超声提取温度和超声作用时间对木贼多糖提取效果的影响。超声提取法的优化工艺条件为:料液比(g/mL)1∶20,提取温度70℃,超声功率100 W,作用时间50 min。在此条件下,木贼多糖的平均提取率为12.33%,RSD为0.16%。超声波强化提取木贼多糖省时高效。     

OKRA (HIBISCUS ESCULENTUS) AND FENUGREEK (TRIGONELLA FOENUM GRACEUM) MUCILAGE: CHARACTERIZATION AND APPLICATION AS FLOCCULANTS FOR TEXTILE EFFLUENT TREATMENTS

The use of new food grade polysaccharides (mucilage) obtained from Hibiscus esculentus and Trigonella foenum graceum,commonly called Okra and Fenugreek,respectively,as flocculants was described.These polysaccharides were used for removal of solids (suspended solids (SS) and total dissolved solids (TDS)) and dyes from real textile effluents and aqueous solutions of different class of synthetic dyes.Influences of varying polysaccharide concentration,contact time and pH on removal of pollutant from the text...     

Polysaccharides/silica hybrid materials: New perspectives for sustainable raw materials

Polysaccharides/silica hybrids prepared through sol-gel reaction have been studied as a model for new generation of hybrid materials for a virtually unlimited number of applications. Numerous studies have therefore attempted to increase the homogeneity between the organic and inorganic moieties using a wide variety of silica precursors and crosslinking reagents. The current review summarizes and discusses the attempts for using polysaccharides for producing hybrid materials with collective properties from the two counterparts. It discusses several issues and strategies to tune the homogeneity of polysaccharide/silica hybrids and the potential applicability of these hybrid materials in biomedical and industrial fields.     

OKRA(HIBISCUS ESCULENTUS)AND FENUGREEK(TRIGONELLA FOENUM GRACEUM)MUCILAGE:CHARACTERIZATION AND APPLICATION AS FLOCCULANTS FOR TEXTILE EFFLUENT TAEATMENTS

The use of new food grade polysaccharides (mucilage) obtained from Hibiscus esculentus and Trigonella foenum graceum,commonly called Okra and Fenugreek,respectively,as flocculants was described.These polysaccharides were used for removal of solids (suspended solids (SS) and total dissolved solids (TDS)) and dyes from real textile effluents and aqueous solutions of different class of synthetic dyes.Influences of varying polysaccharide concentration,contact time and pH on removal of pollutant from the textile wastewater were investigated.Results showed that polysaccharides (mucilage) obtained from Okra and Fenugreek were capable of removing 90%-94% of SS,30%-44% of TDS and 30%-35% of dye using a very low concentration of polysaccharide.X-ray diffraction (XRD) patterns of solid waste material obtained before and after the treatment with polysaccharides were used as a supportive evidence to explain the mechanism of flocculation.