低聚木糖的提取工艺及相对分子质量分布

通过单因素试验和正交试验研究低聚木糖的提取条件,使用凝胶树脂对低聚木糖粗提液进行分离,采用高效液相色谱法测定了低聚木糖的相对分子质量分布。低聚木糖的最佳提取条件:在底物质量浓度为100 g/L的情况下,加酶量1 000 U/g,酶解温度55℃,提取时间为4 h。在此条件下,提取的平均聚合度为3.12,高效液相色谱测定结果发现,低聚木糖主要是由木二糖、木三糖以及4～8个聚合度的糖组成。     

双歧杆菌发酵果蔬汁中低聚果糖的高效液相色谱法分析

目的采用高效液相色谱法（HPLC）对双歧杆菌发酵果蔬汁中的低聚果糖进行分析。方法 HPLC分析条件为：ZORBAX NH2 Analytical色谱柱,乙腈∶水（75∶25）为流动相,柱温35℃,流速为1.0ml/min,示差折光检测器（RID）。结果果蔬汁中的低聚果糖及几种主要糖类均得到有效分离。此分离方法的加标回收率和精密度（RSD）均较高。结论分析结果表明双歧杆菌发酵果蔬汁中含有较丰富的功能性低聚果糖,尤其是蔗果三糖含量很高。     

HPLC-ELSD法测定不同炮制方法雪莲果中低聚果糖的含量北大核心CSCD

本文建立了雪莲果低聚果糖的HPLC-ELSD测定方法,分析不同炮制方法雪莲果中低聚果糖的含量。用不同方法处理新鲜雪莲果,然后超声提取雪莲果粉末中低聚果糖,采用HPLC-ELSD测定,色谱柱：华谱XAmide（4.6×250 mm,5μm）,流动相：乙腈∶水=75∶25,流速：1 m L/min,柱温：30℃,检测器：ELSD,漂移管温度70℃。方法学考察结果表明,蔗果三糖、蔗果四糖、蔗果五糖在0.406～2.030 mg/m L、0.420～2.100 mg/m L、0.456～2.280 mg/m L范围内呈良好线性关系,平均回收率分别为101.4%、99.7%、98.6%,RSD分别为1.53%、1.29%、2.81%。该方法稳定、可靠、精密度高、重复性好,不同处理方法所得雪莲果粉末中3种低聚果糖的含量差别较大,其中用清水漂洗0.5 h,然后冷冻干燥所得雪莲果粉末中的低聚果糖含量最高。     

HPLC-ELSD法测定不同炮制方法雪莲果中低聚果糖的含量

本文建立了雪莲果低聚果糖的HPLC-ELSD测定方法,分析不同炮制方法雪莲果中低聚果糖的含量。用不同方法处理新鲜雪莲果,然后超声提取雪莲果粉末中低聚果糖,采用HPLC-ELSD测定,色谱柱:华谱XAmide(4.6×250 mm,5μm),流动相:乙腈∶水=75∶25,流速:1 m L/min,柱温:30℃,检测器:ELSD,漂移管温度70℃。方法学考察结果表明,蔗果三糖、蔗果四糖、蔗果五糖在0.406~2.030 mg/m L、0.420~2.100 mg/m L、0.456~2.280 mg/m L范围内呈良好线性关系,平均回收率分别为101.4%、99.7%、98.6%,RSD分别为1.53%、1.29%、2.81%。该方法稳定、可靠、精密度高、重复性好,不同处理方法所得雪莲果粉末中3种低聚果糖的含量差别较大,其中用清水漂洗0.5 h,然后冷冻干燥所得雪莲果粉末中的低聚果糖含量最高。     

酶法水解超级稻秸秆木聚糖制备低聚木糖的工艺研究

本文以超级稻秸秆为原料,碱溶液抽提法得到粗木聚糖,然后酶水解,制备低聚木糖。对酶解条件进行了优化,并采用高效液相色谱法对木聚糖酶解液主要组分进行了分析。结果表明,正交试验优化的最佳酶解条件为温度50℃、pH5. 0、加酶量4%,在该试验条件下低聚木糖得率为13. 5%。酶解液组分分析发现,其主要组分为木二糖和木三糖,只有少量的单糖,该结果有利于后续低聚木糖的纯化,符合低聚木糖制备的要求。     

马克斯克鲁维酵母菌菊粉酶的异源表达及低聚果糖制备工艺优化

【目的】低聚果糖是新型的食品和保健品原料,具有广阔的市场需求。以菊粉酶水解菊粉制备低聚果糖的酶法工艺是先进的绿色制造。本研究旨在获得高产的菊粉酶菌株及以菊粉为原料酶法制备低聚果糖的优化工艺。【方法】采用基因工程手段克隆马克斯克鲁维酵母菌(Kluyveromyces marxianus)的菊粉酶基因,实现其在毕赤酵母中的高效表达;测定菊粉酶在不同p H、温度、金属离子和底物浓度等条件下的酶活变化趋势,获得最佳的反应参数;通过高效液相色谱法检测水解产物,获得不同酶量水解产物各组分分布。【结果】菊粉酶工程菌株在10 L发酵罐中的产菊粉酶活达1 570 U/m L、蛋白质含量为2.75 g/L发酵液;菊粉酶最适反应参数为:在体积为1 L的反应体系中,p H 5.0、反应温度50°C、含0.2 mmol/L Mg2+以及菊粉浓度为8%。在该条件下,酶量为10 U时菊粉被完全水解。水解产物中单糖和二糖含量仅为9.25%,而低聚果糖(C3-C8)含量为90.75%,且C3-C5低聚果糖含量高达72.92%。【结论】克隆了K.marxianus菊粉酶基因并实现了高效表达,获得了水解菊粉制备低聚果糖的最佳工艺条件。为菊粉酶的大量生产及低聚果糖的酶法制备奠定了良好的基础。     

蔗渣制备低聚木糖的有机酸预处理条件研究

采用有机酸法水解制备蔗渣低聚木糖,通过单因素实验、正交试验研究了甲酸-乙酸比例、温度、水解时间、固液比等因素的影响,以水解率、总糖收率和聚糖收率为考察指标,得到有机酸法水解蔗渣制备低聚木糖的最优预处理条件为甲酸∶乙酸=9∶1、水解温度100℃、水解时间60min、固液比1∶7,在此条件下蔗渣水解率为47.78%,总糖收率20.57%,聚糖收率11.88%。HPLC检测结果显示:水解物中木二糖含量为17.69%,木三糖为11.23%,更高聚合度聚糖所占比例为29.42%,木糖为36.78%。半纤维素有机酸水解物可进一步通过木聚糖酶水解、分离制备低聚木糖。研究结果可为蔗渣制备低聚木糖新工艺提供科学依据。     

低聚木糖分离纯化的研究进展

综述了低聚木糖分离纯化的研究进展。低聚木糖是一种非消化性寡糖 ,能选择性增殖肠道内双歧杆菌 ,可广泛应用于食品工业和饲料工业。低聚木糖的分离纯化技术主要包括层析分离技术 (包括凝胶过滤层析、离子交换层析和吸附层析 )和膜分离技术 (包括超滤、纳滤和反渗透 )。低聚木糖的提纯主要采用膜分离技术和层析分离技术 ,低聚木糖单一组分的分离主要采用凝胶过滤层析和吸附层析     

蔗果三糖及低聚果糖对T细胞分泌干扰素γ的调节作用CSCD

目的研究蔗果三糖及低聚果糖(fructooligosaccharides,FOS)对T细胞分泌干扰素(interferon-,IFN-γ^(+))的调节作用。方法从外周血单个核细胞分离培养T细胞。在培养基中添加5mg/mL的蔗果三糖或FOS并检测T细胞的诱导分化。平行设置空白对照。经过3d的原代培养或6d的原代及传代培养,采用流式细胞术检测IFN-γ^(+)T细胞的比例,酶联免疫吸附法测定细胞培养液的IFN-γ^(+)浓度。结果经过3d的原代培养,蔗果三糖组IFN-γ^(+)T细胞比例(47.8100%±4.8800%)显著高于FOS组(36.9600%±4.5800%,P=0.0002)或空白对照组(31.4000%±3.8900%,P=0.0001),蔗果三糖组细胞培养液的IFN-γ^(+)浓度(848.5100 ng/mL±269.0000ng/mL)也显著高于FOS组(357.8700ng/mL±87.3000ng/mL,P=0.0040)或空白对照组(283.5100ng/mL±76.0300ng/mL,P=0.0001);而且,经过6d的原代及传代培养,无论传代之后是否添加蔗果三糖与FOS,蔗果三糖组IFN-γ^(+)T细胞比例(32.0600%±5.2600%;31.7900%±4.8600%)始终显著高于FOS组(22.1300%±4.5400%,P=0.0078;21.8900%±4.4800%,P=0.0086)或空白对照组(18.6500%±2.6900%,P=0.0071;17.8300%±3.1300%,P=0.0074)。结论蔗果三糖有助于T细胞分化并促进T细胞分泌IFN-γ^(+)。     

真菌分解玉米芯生产低聚木糖的研究

从53种真菌中筛选出3株能分解玉米芯木聚糖并产生低聚木糖的菌株。摇瓶发酵的适当条件为：基质含木聚糖提取物5％,蛋白胨0.1％、尿素0.1%,温度32℃,摇床转速180r／min,培养时间48h,木二糖相对于木聚糖的转化率最高为52．2％;直接用固体玉米芯接种培养所选菌种,加水保温,分解玉米芯中的木聚糖生产低聚木糖,在适宜的条件下木二糖相对于玉米芯的最高转化率为8％。     

A rapid high performance liquid chromatographic method for the separation of the alkaloid precursor L-tyrosine and six tetrahydroisoquinoline alkaloids of Papaver somniferum

A high performance liquid chromatographic (HPLC) method was developed for the qualitative and quantitative determination of L-tyrosine and six common tetrahydroisoquinoline alkaloids (papaverine, noscapine, sanguinarine, morphine, codeine and thebaine) of Papaver somniferum. The reversed phase HPLC method yields baseline separation of the alkaloids in 20 min and is achieved using a simple H₂O: MeOH linear gradient. Silanol effects commonly associated with the separation of such strongly basic compounds were minimized by the addition of the amine modifier, triethylamine, to the mobile phase.     

Determination of glucosamine in impure chitin samples by high-performance liquid chromatography

A simple, rapid, selective, and specific high-performance liquid chromatography (HPLC) method was developed to quantitate glucosamine, and its application for estimating purity of chitin was investigated. The chromatographic separation was achieved using a reversed-phase C8 column, pre-column derivatization with 9-fluorenylmethoxycarbonyl chloride (Fmoc-Cl) and ultraviolet detection (lambda=254 nm). The mobile phase consisted of CH3CN and H2O. The optimum conditions of acid hydrolysis of chitin (concentration of HCl, temperature, and heating time) was obtained by performing the orthogonal array design (OAD) procedure and the released glucosamine was determined by the above HPLC method. The accuracy of the method was checked by the standard addition technique. The method was found to be specific with good linearity, accuracy, precision, and well suited for quantitation of glucosamine and determination of the purity of chitin in biological materials and food products.     

Enzymatic preparation of wheat bran xylooligosaccharides and their stability during pasteurization and autoclave sterilization at low pH

Xylooligosaccharides (XOS) were prepared from wheat bran insoluble dietary fiber (WBIDF) by treatment with commercial xylanase preparation Sunzymes. XOS, with a purity of 95% (w/w) and degree of polymerization of 2-7 and the ratio of arabinose to xylose of 0.27, was obtained with a yield of approximately 31.2% of WBIDF. Their stability was evaluated by comparing with that of commercial fructooligosaccharides (FOS) during pasteurization (60–100 °C, 30 min) and autoclave sterilization (121 °C, 1 kg/cm², 10–50 min) at pH 2.0–4.0. XOS was characterized by a high thermal stability during pasteurization at pH 2.5–4.0 and sterilization at pH 3.0–4.0. Even at pH 2.0, the remaining XOS reached 97.2% (w/w) and 84.2% (w/w) during pasteurization (100 °C, 30 min) and sterilization (50 min), respectively. Compared with FOS, XOS was strongly resistant to lower acidic conditions. The results revealed that XOS was considered to be more suitable for use as functional food ingredients.     

Metabolism of fructooligosaccharides by Lactobacillus paracasei 1195

Fermentation of fructooligosaccharides (FOS) and other oligosaccharides has been suggested to be an important property for the selection of bacterial strains used as probiotics. However, little information is available on FOS transport and metabolism by lactic acid bacteria and other probiotic bacteria. The objectives of this research were to identify and characterize the FOS transport system of Lactobacillus paracasei 1195. Radiolabeled FOS was synthesized enzymatically from [(3)H]sucrose and purified by column and thin-layer chromatography, yielding three main products: glucose (G) alpha-1,2 linked to two, three, or four fructose (F) units (GF(2), GF(3), and GF(4), respectively). FOS hydrolysis activity was detected only in cell extracts prepared from FOS- or sucrose-grown cells and was absent in cell supernatants, indicating that transport must precede hydrolysis. FOS transport assays revealed that the uptake of GF(2) and GF(3) was rapid, whereas little GF(4) uptake occurred. Competition experiments showed that glucose, fructose, and sucrose reduced FOS uptake but that other mono-, di-, and trisaccharides were less inhibitory. When cells were treated with sodium fluoride, iodoacetic acid, or other metabolic inhibitors, FOS transport rates were reduced by up to 60%; however, ionophores that abolished the proton motive force only slightly decreased FOS transport. In contrast, uptake was inhibited by ortho-vanadate, an inhibitor of ATP-binding cassette transport systems. De-energized cells had low intracellular ATP concentrations and had a reduced capacity to accumulate FOS. These results suggest that FOS transport in L. paracasei 1195 is mediated by an ATP-dependent transport system having specificity for a narrow range of substrates.     

魔芋中神经酰胺类物质的HPLC-ELSD分析及其含量测定

建立高效液相色谱-蒸发光散射检测器分析神经酰胺的方法并进行了含量的测定.色谱柱:ZORBZX Eclipse XDB-C18(4.6mm×250mm,5μm),洗脱方法:梯度洗脱,柱温:35℃,流动相:甲醇/水,流速:1ml/min;检测器:蒸发光散射检测器,漂移管温度:40℃,氮气流速:1.5L/min.系统探讨了梯度洗脱的起始浓度、洗脱的时间和洗脱梯度的程序设置,最佳的梯度洗脱条件为5min内,甲醇浓度从60%线性增加为90%,从5min到25min,甲醇浓度线性增加为95%,在此条件下样品和标准品的分离色谱峰对称性较好.随后测定了各种样品中神经酰胺的含量,并进行了方法学验证,结果神经酰胺在0.2～2μg之间线性关系良好,最低检测限为0.01mg/ml,R2=0.9992;平均回收率为93.3%,RSD=1.65%(n=5).本法灵敏、方便、准确,重现性好,可用于魔芋神经酰胺类物质的分离及其含量的测定.     

Comparison of fructooligosaccharide utilization by Lactobacillus and Bacteroides species

The utilization of 1-kestose (GF(2)) and nystose (GF(3)), the main components of fructooligosaccharides (FOS), by Lactobacillus and Bacteroides species was examined. Of seven Lactobacillus and five Bacteroides strains that utilized FOS, L. salivarius, L. rhamnosus, L. casei, and L. gasseri utilized only GF(2), whereas L. acidophilus and all the Bacteroides strains utilized both GF(2) and GF(3). Only the strains able to utilize both GF(2) and GF(3) had β-fructosidase activity in the culture supernatants. The culture supernatants of the Lactobacillus strains had higher β-fructosidase activity for GF(2) than for GF(3), whereas those of the Bacteroides strains had higher activity for GF(3) than for GF(2). Furthermore, β-fructosidase activity of the culture supernatants of the Lactobacillus cells grown in the GF(3) medium was much higher than that of the cells grown in the GF(2) medium, whereas the activity of the culture supernatants of the Bacteroides cells grown in the GF(3) medium was almost the same as that of the cells grown in the GF(2) medium. These results indicate that Lactobacillus species metabolize FOS in a different way from that of Bacteroides species.     

Aspergillus niger inulinase immobilized in polyurethane foam and treated in pressurized LPG: A potential catalyst for enzymatic synthesis of fructooligosaccharides

Inulinase from Aspergillus niger was immobilized in polyurethane foam (PU). Immobilized catalyst was treated in pressurized liquefied petroleum gas (LPG) system. This biocatalyst was used in the fructooligosaccharide production using sucrose as substrate in aqueous system. The main objective of this study was to evaluate the reaction yield and productivity by using polyurethane foam as a low-cost support for enzyme immobilization in an alternative processes for fructooligosaccharide production in pressurized LPG system with potential for industrial application. The total FOS concentration obtained were 31% as a result of sucrose concentration reduction, and formation of FOS long chain (GF3 and GF4) from kestose (GF2). FOS concentrations of 5%, 22%, and 3% were obtained for GF2, GF3, and GF4, respectively. The methodology suggested in this research work, enzyme immobilization in a low-cost support, and treatment in LPG, showed potential technology for fructooligosaccharide synthesis.     

用高效液相色谱测定重组人尿激酶原制剂的蛋白含量

目的:用RP-HPLC方法对注射用重组人尿激酶原制剂蛋白含量进行定量分析。方法:用反相C18柱、0.1%TFA水溶液与0.1%乙腈进行梯度洗脱,280nm波长紫外检测器监测;以重组人尿激酶原同质标准品作为对照品,根据进样量和相应的峰面积建立标准曲线方程,将待测定样品的峰面积代入标准曲线方程,可测得蛋白含量。结果:按照方法学验证要求对此方法进行了专属性、检测限、定量限、线形、精密度(重复性、中间精密度)、准确度(回收率)考察,线性范围为9～27μg,回收率在97%以上,RSD2.0%,完全满足对制剂蛋白的定量需求。结论:本方法准确,适用于注射用重组人尿激酶原成品制剂蛋白定量测定。     

Carbohydrate preferences of Bifidobacterium species isolated from the human gut

The growth of nine species of Bifidobacterium on media containing glucose, xylose, xylooligosaccharides (XOS), xylan or fructooligosaccharides (FOS) as the sole carbon source were compared in pure culture. The bifidobacteria differed in fermentation profiles when tested on different carbohydrates. All species grew to their highest final optical density (OD) on a glucose containing medium, with the exception of B. catenulatum which demonstrated a preference for xylose over glucose, and XOS over FOS. B. bifidum grew to the highest OD on XOS compared to xylose suggesting a specific transport system for the oligosaccharide over the monomer. This is consistent with a lack of beta-xylosidase activity present in the culture medium. Lactate, formate and acetate levels were determined and the ratios of these metabolites altered between and within species growing on different carbohydrates. In general, high lactate production correlated with low formate production and low lactate concentrations were obtained at higher levels of formate. Bifidobacteria may alter their metabolic pathways based upon the carbohydrates that are available for their use.     

Application of liquid chromatographic method with fluorescence detection for the determination of triclabendazole in tablets and biological fluids

A simple and rapid liquid chromatographic method was developed and validated for the determination of triclabendazole with high accuracy and precision within 6 min. Good chromatographic separation was achieved using a CLC Shim‐pack C₈ (250 × 4.6 mm, 5 µm particle size) using the mobile phase containing a mixture of 0.02 m phosphate buffer and methanol with a ratio of (20 : 80 v/v) at pH 4.0 was pumped at a flow rate of 1.2 mL/min with fluorescence detection for the first time at 338 nm after excitation at 298 nm. Losartan potassium was used as an internal standard. The method showed good linearity in the ranges of 0.05–2.0 µg/mL with limits of detection and quantification of 14.1 and 42.6 ng/mL, respectively. The suggested method was successfully applied for the analysis of triclabendazole in tablets. The high sensitivity of the method enabled the determination of the studied drug in spiked human plasma with mean percentage of recoveries of 99.79 ± 5.09. Statistical evaluation of the data was performed according to ICH Guidelines. Copyright © 2013 John Wiley & Sons, Ltd.