Bacillus amyloliquefaciens ES-2发酵产抗菌脂肽消泡剂的筛选及脂肽的提取和纯化

将大豆油、有机硅消泡剂和聚醚类消泡剂3种消泡剂分别用于Bacillus amyloliquefaciens ES-2抗菌脂肽发酵,研究表明大豆油既可以实现消泡,又有利于抗菌脂肽的发酵,使其产量达到了2497.67mg/L。经过提取得到纯度为55.68%的产品,提取率达到88.72%。此外还比较了不同大孔树脂对抗菌脂肽吸附和解吸附效果,发现大孔树脂X-5最适合抗菌脂肽的纯化。纯化的工艺参数为:上样浓度14.4mg/ml、上样速率1ml/min,洗脱速率2ml/min、洗脱剂用量2.5BV,产品的回收率达90.01%,纯度达74.4%。     

克拉维酸生产中废乙酸乙酯的紫外扫描评价方法及树脂处理

建立克拉维酸生产中废乙酸乙酯的快捷评价方法。采用紫外吸收扫描,以吸收面积作为评价指标,全面评价废乙酸乙酯中的杂质残留。选用不同的树脂吸附处理废乙酸乙酯。结果表明:废乙酸乙酯经FPA90Cl树脂吸附处理后,紫外吸收面积最小,仅有225.601±5.499,残留的杂质最少。经条件优化后,批处理量为60 m3废乙酸乙酯的树脂用于克拉维酸生产,产品质量与新乙酸乙酯生产的产品质量相近。使用树脂处理废乙酸乙酯可减轻乙酸乙酯蒸馏回收和环保的压力,降低生产成本,具有良好的经济效益和环境效益。     

柴达木沙漠链霉菌S10T阿糖腺苷的大孔树脂分离工艺优化与结构鉴定

为了获得具有药用价值的活性天然产物,采用4种大孔吸附树脂对柴达木沙漠链霉菌(Streptomyces qaidemensis)S10^T发酵液进行静态吸附和解吸实验,优化分离工艺。结果显示,AB-8型树脂具有良好的吸附和解吸性能,该树脂对柴达木沙漠链霉菌S10^T发酵液中的活性天然产物吸附工艺为发酵液pH值9,吸附时间4 h,洗脱液70%甲醇溶液。经正向硅胶、反相硅胶和葡聚糖凝胶Sephadex LH-20分离得到了一个化合物,¹H-NMR和¹³C-NMR结合高分辨质谱(LC-HR-MS)鉴定该化合物为阿糖腺苷(vidarabine),是一种具有抗病毒活性的核苷类抗生素,并简单探究了其在柴达木沙漠链霉菌中的生物合成过程。     

Methylated flavonoids from cistus ladanifer and cistuspalhinhae and their taxonomic implications

Three methylated kaempferol and two methylated apigenin derivatives were identified in the leaf resins of Cistus ladanifer and C. palhinhae. The two species produced identical secreted flavonoids which supports their close affinity based on morphological similarities.     

Anatomical and chemical defenses of conifer bark against bark beetles and other pests

Conifers are long-lived organisms, and part of their success is due to their potent defense mechanisms. This review focuses on bark defenses, a front line against organisms trying to reach the nutrient-rich phloem. A major breach of the bark can lead to tree death, as evidenced by the millions of trees killed every year by specialized bark-invading insects. Different defense strategies have arisen in conifer lineages, but the general strategy is one of overlapping constitutive mechanical and chemical defenses overlaid with the capacity to up-regulate additional defenses. The defense strategy incorporates a graded response from 'repel', through 'defend' and 'kill', to 'compartmentalize', depending upon the advance of the invading organism. Using a combination of toxic and polymer chemistry, anatomical structures and their placement, and inducible defenses, conifers have evolved bark defense mechanisms that work against a variety of pests. However, these can be overcome by strategies including aggregation pheromones of bark beetles and introduction of virulent phytopathogens. The defense structures and chemicals in conifer bark are reviewed and questions about their coevolution with bark beetles are discussed.     

In situ extraction strategy affects benzophenanthridine alkaloid production fluxes in suspension cultures of Eschscholtzia californica

The effect of contact between cells and extractive phase on secondary metabolite production was investigated in two-phase suspension cultures of Eschscholtzia californica. A system was designed to extract benzophenanthridine alkaloids from the cell culture, without contact between XAD-7 resins and the cells: only medium was recirculated through a column packed with the extractive phase. This strategy was compared to the classic method of addition of resins directly into the cell suspension. Removal of the product directly from the medium enabled important increases in production of alkaloids, namely a 20-fold increase in sanguinarine production and a 10-fold increase in chelerythrine, with high recovery in the resin. The recirculation strategy greatly simplified the production process since the resins are easily recovered from the cell culture and enable harvest of product without termination of culture. However, due to limited flow rate, the recirculation strategy was slightly less effective than direct addition of resins into the cell suspension. In addition to enabling increased production, removal of secondary metabolites from the medium changed metabolic flux distribution, testifying to a complex control mechanism of production.     

Preparation and in vitro evaluation of polystyrene-coated diltiazem-resin complex by oil-in-water emulsion solvent evaporation method

The purpose of this study was to examine the suitability of polystyrene-coated (PS-coated) microcapsules of drug-resin complex for achieving prolonged release of diltiazem-HCl, a highly water-soluble drug, in simulated gastric and intestinal fluid. The drug was bound to Indion 254, a cation-exchange resin, and the resulting resinate was microencapsulated with PS using an oil-in-water emulsion-solvent evaporation method. The effect of various formulation parameters on the characteristics of the microcapsules was studied. Mean diameter and encapsulation efficiency of the microcapsules rose with an increase in the concentration of emulsion stabilizer and the coat/core ratio, while the same characteristics tended to decrease with an increase in the volume of the organic disperse phase. The desorption of drug from the uncoated resinate was quite rapid and independent of the pH of the dissolution media. On the other hand, the drug release from the microcapsules was prolonged for different periods of time depending on the formulation parameters and was also found to be independent of the pH of the dissolution media. Both the encapsulation efficiency and the retardation of drug release were found to be dependent on the uniformity of coating, which in turn was influenced by the formulation parameters. Kinetic studies revealed that the desorption of drug from the resinate obeyed the typical particle diffusion process, whereas the drug release from the microencapsulated resinate followed the diffusion-controlled model in accordance with the Higuchi equation. PS appeared to be a suitable polymer to provide prolonged release of diltiazem independent of the pH of the dissolution media.     

Integrated antiherbivore, antidesiccant and ultraviolet screening properties of creosotebush resin

The surface leaf resin of creosotebush, Larrea spp. (Zygophyllaceae) exhibits antiherbivore, antidesiccant and UV screening properties. Composed mainly of monomeric phenolic aglycones, the resin absorbs most radiation of wavelength shorter than 410 nm, reduces the rate of evaporative water loss across cellulose membrane and exhibits tannin-like protein-complexing and digestibility-reducing properties. Leaf-chewing insects prefer mature leaves which have a lower resin content than young leaves. A phenoloxidaes system present in the leaves probably enhances the digestibility-reducing action of resin on in vitro proteolysis and growth-rates of Astroma quadrilobatum (Orthoptera: Proscopiidae) are negatively correlated with resin-phenoloxidase activity as measured by macerated leaf oxygen demand. Non-ideal behaviour of the resin is suggestive of cooperative action between components.     

Antifungal and physical characteristics of modified denture base acrylic incorporated with silver nanoparticles

doi: 10.1111/j.1741‐2358.2011.00489.x Antifungal and physical characteristics of modified denture base acrylic incorporated with silver nanoparticles Objective: This study evaluated the antifungal and physical characteristics of denture base acrylic combined with silver nanoparticles. Materials and methods: Polymerized denture acrylic disc specimens containing 0 (control), 1.0, 5.0, 10.0, 20.0 and 30.0 wt% of silver nanoparticles were placed on separate culture plate dish and 100 ìL samples of yeast suspension of Candida albicans strain were inoculated on each specimens and incubated at 37°C, for 24 h. The antifungal effects were evaluated as a number of viable cells in retrieved fungal suspension. To characterize physical aspects, specimens were tested for elution of silver cation (Ag⁺) at 24 h and 30th day, thermal analysis (TG/DTA), scanning electron microscope and energy dispersed X‐ray analysis (SEM/EDX) and color stability. Results: Significant reduced CFU was exhibited at 20.0 and 30.0 wt% of silver nanoparticles incorporated (p < 0.01) and Ag⁺ elution from specimens (maximum 0.356 ± 0.11 mg/L) contributed little to the antifungal activity considering MIC of Ag⁺ in this study (3.0 mg/L). The successful synthesis of modified denture acrylic containing silver nanoparticles was accessed by TG/DTA and EDX analysis. Conclusion: The modified denture base acrylic combined with silver nanoparticles displayed antifungal properties and acted like latent antifungal material itself with low‐releasing Ag⁺, however, the improvement of poor color stability was still required.