壳聚糖絮凝纯化香菇多糖的研究

研究了壳聚糖对香菇多糖提取液的沉降作用,考察了壳聚糖用量、沉降时间、溶液酸度对吸附色素、沉降蛋白质和多糖损失的影响,同时考察了壳聚糖对超滤膜分离初始膜通量的影响。实验结果表明壳聚糖对香菇多糖提取液中色素和蛋白质具有较好的絮凝沉降效果,当壳聚糖的用量为5.0mg/mL,絮凝沉降时间为40min,溶液pH为5.0时,60r/min的转速搅拌条件下,色素含量降低了约28%,蛋白质含量降低了42%左右,而多糖含量只损失8.9%左右,溶液粘度降低了11.8%,采用超滤分离时,经壳聚糖沉降的多糖溶液初始膜通量增加了14%左右。     

Genetic heterogeneity and functional properties of intestinal bifidobacteria

AIMS: The aim of the present study was to compare several molecular methods for the identification and genotyping of bifidobacteria, and further to investigate genetic heterogeneity and functional properties of bifidobacterial isolates from intestinal samples of Finnish adult subjects. METHODS AND RESULTS: A total of 153 intestinal bifidobacterial isolates were included in initial screening and 34 isolates were further characterized. Identification results obtained with PCR-ELISA and ribotyping were well in accordance with each other, while randomly amplified polymorphic DNA (RAPD) gave tentative identification only to Bifidobacterium bifidum and to 65% of the B. longum isolates. The most commonly detected species were B. longum biotype longum followed by B. adolescentis and B. bifidum. In addition, B. animalis (lactis), B. angulatum and B. pseudocatenulatum were found. Ribotyping and pulsed-field gel electrophoresis (PFGE) proved to be discriminatory methods for bifidobacteria, but also RAPD revealed intraspecies heterogeneity. Besides two B. animalis (lactis) isolates with very close similarity to a commercially available probiotic strain, none of the intestinal isolates showed optimal survival in all tolerance (acid, bile and oxygen) or growth performance tests. CONCLUSIONS: Several species/strains of bifidobacteria simultaneously colonize the gastrointestinal tract of healthy Finnish adults and intestinal Bifidobacterium isolates were genetically heterogeneous. Functional properties of bifidobacteria were strain-dependent. SIGNIFICANCE AND IMPACT OF THE STUDY: Applicability of ribotyping with the automated RiboPrinter System for identification and genotyping of bifidobacteria was shown in the present study.     

壳聚糖辐照降解产物涂膜保鲜草莓研究

壳聚糖具有抑菌性与成膜性。将壳聚糖辐照降解得到的一系列不同粘均分子量产物进行涂膜草莓保鲜,研究涂膜液中壳聚糖粘均分子量、浓度、pH值、有机酸、明胶含量对草莓保鲜效果的影响;并设计四因素三水平正交试验。实验结果表明：1％（w／v）7．0×10^4Da壳聚糖、1％（v／v）醋酸、pH5、添加明胶0．5％的涂膜配方具有最好的保鲜效果;在常温（20℃、湿度80％～90％）下可以延长贮藏期2d;低温（3℃-4℃、湿度80％-90％）下可以延长贮藏期3d。     

Chitosan Interactions with Metal Ions and Dyes: Dissolved-state vs. Solid-state Application

Summary Chitosan is an amino-polysaccharide with highly efficient properties for the binding of metal ions and anionic dyes. Uptake may occur through chelation on free amino functions (at near-neutral pH) or by electrostatic attraction on protonated amino groups (in acidic solutions). The polymer is soluble in acidic solutions and its binding properties can be used in both solid form (sorption) and liquid form (ultrafiltration coupled with chelation, coagulation–flocculation). These properties have been used for the recovery of mercury from dilute solutions at initial pH 5 (which reveals the most efficient pH in the range pH 4–6) and for the recovery of Reactive Black 5 (RB5, anionic dye) at pH 3. While in the case of mercury binding saturation of the biopolymer is only slightly higher when chitosan is used in the liquid form compared to solid-state adsorption, in the case of the coagulation–flocculation of RB5 (using the liquid-form of chitosan) the saturation of the polymer (calculated on the basis of molar ratio of dye vs. amino groups of the polymer) is reached at a significantly greater value than when the polymer is used for the solid-state binding of the dye. There is a much more efficient use of amino groups when chitosan is used in the liquid-form due to a better availability of amino groups (less hydrogen bonds between the chains of the polymer) and to a better accessibility to internal sorption sites (lower diffusion control).     

Extraction of watermelon seed proteins with enhanced functional properties using ultrasound

Abstract

Watermelon seed is the potential source of value-added proteins, oils, and carbohydrates. The present study evaluates the extraction, and functional properties of watermelon seed protein (WMSP) obtained by ultrasound-assisted extraction (UAE) method from watermelon seed (WMS). The optimization of various operating parameters, such as pH (9), WMS powder to solvent ratio (1:50 w/v), temperature (30?±?2?°C), ultrasound power (90?W), frequency (25?kHz), and duty cycle (75%) has been carried out. The extraction yield obtained was 87% and the extraction time was lowered down to 9?min from 120?min of conventional batch extraction. It contains all essential amino acids in an adequate amount required for adults as per FAO/WHO guidelines while for 2–5?years old children, the content of valine and isoleucine are above the required range. Methionine and lysine contents are adequate for both children and adults. Functional properties of ultrasonic extracted proteins were found superior to conventionally extracted proteins.

• highlights

• The UAE method is more efficient for watermelon seed protein extraction.

• Impact of extraction parameters on the extraction yield was studied.

• Protein isolate with enhanced functional properties was obtained.

• Essential amino acid content was determined.

     

胍乙酸壳聚糖的合成及其对黄瓜的保鲜研究

以自制的不同脱乙酰度的壳聚糖和1-氯胍乙酸为原料合成了胍乙酸壳聚糖,研究了胍乙酸壳聚糖对黄瓜的保鲜效果。结果表明,由脱乙酰度为96%的壳聚糖制得的胍乙酸壳聚糖平均分子量为5287。随着脱乙酰度的增加,黄瓜失重率的增加逐渐减缓,随着贮存时间延长总叶绿素含量先升高然后缓慢下降,而维生素C含量则一直缓慢下降;脱乙酰度为96%的壳聚糖制得的胍乙酸壳聚糖贮存35 d后,黄瓜的质量损失为0.7%;贮存20 d后,总叶绿素含量仍然可达1.34 mg/g;贮存时间20 d后,维生素C含量可达0.18 mg/g。     

不同特性粘数壳聚糖降血浆胆固醇、甘油三酯及抗氧化活性研究

通过醋酸-H2O2氧化降解法制备三种不同特性粘数（50℃时,η=4．76mL／g,29．39mL／g和54．93mL／g）的壳聚糖。以小鼠为实验对象,采取灌胃给药方式,考察其降低血浆TCH、TG的能力,并以血浆SOD酶活及MDA含量为指标,进行抗氧化药效学评价。结果显示,给药21d后,三种壳聚糖均能显著降低小鼠血浆TCH和TG含量,降幅分别大于28．2％和22．5％;且三种壳聚糖也能显著降低小鼠血浆MDA含量,降幅大于30．0％,但对小鼠血浆SOD酶活则无显著影响。     

Chitosan film containing fucoidan as a wound dressing for dermal burn healing: Preparation and in vitro/in vivo evaluation

The aim of this study was to develop chitosan film containing fucoidan and to investigate its suitability for the treatment of dermal burns on rabbits. Porous films, thickness between 29.7 and 269.0 μm, were obtained by the solvent dropping method. Water vapor permeability (3.3–16.6/0.1 g), the swelling (0.67–1.77 g/g), tensile strength (7.1–45.8 N), and bioadhesion (0.076–1.771 mJ/cm²) of the films were determined. The thinnest films were obtained with the lowest chitosan concentration (P<.05). The water absorption capacity of the films sharply increased with the freeze-drying technique. The film having the thickness of 29.7 μm showed the highest amount of moisture permeability (16.6 g/0.1 g). Higher chitosan concentration significantly increased tensile strength of the films (P<.05). Using higher concentration of lactic acid made films more elastic and applicable, and these films were selected for in vivo studies. Seven adult male New Zealand white rabbits were used for the evaluation of the films on superficial dermal burns. Biopsy samples were taken at 7, 14, and 21 days after wounding, and each wound site was examined macroscopically and histopathologically. After 7 days treatment, fibroplasia and scar were observed on wounds treated with fucoidan-chitosan film. The best regenerated dermal papillary formation, best reepithelization, and the fastest closure of wounds were found in the fucoidan-chitosan film treatment group after 14 days compared with other treatment and control groups. It can be concluded that fucoidan-chitosan films might be a potential treatment system for dermal burns and that changing formulation variables can modulate the characterizations of the films. Published: May 24, 2007     

Physical properties of fungal chitosan

Fungi are promising alternative sources of chitosan. This study evaluated the physical properties of fungal chitosan from Absidia coerulea (AF 93105), Mucor rouxii (Ag 92033), and Rhizopus oryzae (Ag 92033). FT-IR and X-ray diffraction of the extracted products showed typical chitosan peak distributions which confirmed the extracted products to be chitosan. All of their glucosamine contents and degrees of deacetylation (DD) were over 80%, not showing obvious differences respectively. However, differences had been observed in their molecular weight (M_w), ranging from 6.6  to 560 kDa. The results of this study demonstrated that different fungi could produce different M_w chitosan with high DD and high purity.     

Composition and functional properties of propolis (bee glue): A review

Propolis is a natural substance collected by honey bees from various plants such as, poplar, palm, pine, conifer secretions, gums, resins, mucilage and leaf buds. It is collected and brought very painstakingly by honey bees to be used for sealing cracks and crevices occurring in their hives. Originally, it as an antiseptic meant for preventing bee-hive from microbial infections along with preventing decomposition of intruders. Additionally, propolis has been used in folk medicine for centuries. The biological characteristics of propolis depend upon its chemical composition, plant sources, geographical zone and seasons. More than 300 compounds have been identified in propolis such as, phenolic compounds, aromatic acids, essential oils, waxes and amino acids. Many scientific articles are published every year in different international journals, and several groups of researchers have focused their attention on the chemical compounds and biological activity of propolis.     

Mechanical Properties of Collagen Biomimetic Films Formed in the Presence of Calcium,Silica and Chitosan

Using eucollagen solutions from ox hide, we cast collagen films to assess the influence of calcium and silica on the reconstitution of the fibrous structure of collagen. The tensile strength and the breaking elongation of the reconstituted collagen films were measured and analysed. Significant differences were observed between reconstituted collagen films with and without calcium and silica. The breaking elongation of the films obtained in the presence of silica was significantly greater, and the degradation was lower than other films of reconstituted collagen. Collagen and chitosan do not exist together as blends in nature, but the specific properties of each may be used to produce in biomimetic way man-made blends with biomedical applications, that confer unique structural, mechanical （detail） and in vivo properties.     

Biochemical properties of insect and crustacean proteasomes

Molecular Biology Reports -     

响应面法优化水酶法提取辣木籽蛋白质的工艺及其功能性质研究

为了提取和利用辣木籽蛋白质,本文通过水酶法优化其提取条件,并探讨其功能性质。以辣木籽为原材料,以蛋白质提取率为指标,首先确定了最佳使用酶为Alcalase碱性蛋白酶,再通过单因素试验考察料液比、时间、温度、酶添加量和pH等因素对蛋白质提取率的影响,在此基础上,利用响应面试验设计优化水酶法提取辣木籽蛋白质的工艺。结果表明,最佳工艺条件为:使用Alcalase碱性蛋白酶,在料液比为1∶10,酶添加量为4.5%,pH为9.0,温度为60℃,时间为4.5 h,此时辣木籽蛋白质的提取率最高为68.23%。在pH为10、温度为55℃时辣木籽蛋白质的氮溶解指数最高;辣木籽蛋白质持水性随着pH的增加而增加,在温度为40℃时持水性最好;在温度为55℃时,辣木籽分离蛋白的吸油效果最明显。     

Microbial community composition and functional diversity in the rhizosphere of maize

This study investigates the small-scale stratification of bacterial community composition and functional diversity in the rhizosphere of maize. Maize seedlings were grown in a microcosm with a horizontal mesh (53 M) creating a planar root mat and rhizosphere soil. An unplanted microcosm served as control. Thin slices of soil were cut at different distances from the mesh surface (0.2–5.0 mm) and analysed for bacterial community composition by PCR-DGGE (polymerase chain reaction-denaturing gradient gel electrophoresis) of 16S rDNA and tested for activities of different enzymes involved in C, N, P and S cycling. Bacterial community composition and microbial functional diversity were affected by the presence of the maize roots. The bacterial composition showed a clear gradient up to 2.2 mm from the root surface, while no such gradient was observed in the unplanted pot. Invertase and phosphatase activities were higher in the close vicinity of maize roots (0.2–0.8 mm), whereas xylanase activity was unaffected. This study shows that the changes in bacterial community composition and functional diversity induced by roots may extend several millimetres into the soil.     

Structural and dynamic properties of liquid alkali metals: molecular dynamics

Molecular dynamics simulations in the canonical ensemble have been performed to calculate structural and transport properties of liquid alkali metals. The alkali metals considered in this work were Na, K, Rb and Cs. Two Yukawa-type potentials were employed as the interaction law among particles. This function is written in terms of two adjustment parameters which make possible tuning the softness of the potential core and the range of the attractive part. The radial distribution functions and transport properties such as self-diffusion and shear viscosity, were calculated in a thermodynamic state near the melting point. The radial distribution function calculated for each alkali metal was compared with previous simulation results where a more elaborated potential was employed. From this comparison we found an excellent agreement. Our results for transport properties were also compared with the available experimental data and a good agreement was found.     

First-principles investigation on structural,elastic, electronic and thermodynamic properties of filled skutterudite PrFe4P12 compound for thermoelectric applications

Filled skutterudite compound PrFe₄P₁₂ is studied using the full potential linear muffin-tin orbital method with the local density approximation for the exchange correlation potential to investigate the systematic trends for structural and elastic properties of the cubic PrFe₄P₁₂ skutterudite. The calculated ground state quantities such as the lattice constant and internal free parameters are in fairly good agreement with the available experimental data. The elastic constants and their pressure dependence are obtained by calculating the total energy versus volume-conserving strains using the Mehl model. Pressure and temperature effects on the lattice constant, bulk modulus, thermal expansion coefficient, Debye temperature and heat capacity are obtained in the range of 0–30 GPa and 0–1000 K. Reduction of bulk modulus and Debye temperature with temperature essentially indicates the thermal softening of the rare earth-filled skutterudites lattice.     

Physical and chemical properties of the mucin secreted by Drosera capensis

The mucin droplets secreted by the leaves of Drosera capensis consist of a 4 % aq. solution of an acidic polysaccharide containing xylose, mannose,