槐种子发育中胚乳细胞半乳甘露聚糖积累的研究

槐 ( Sophora japonica L.)开花约 60 d至种子成熟 ,为胚乳半乳甘露聚糖积累期。用组织化学方法 ,对储藏于胚乳细胞壁上的半乳甘露聚糖的形成积累进行了观察 ,结果表明 ,半乳甘露聚糖最先在邻近胚的胚乳细胞的粗面内质网的囊泡腔内形成 ,并通过细胞质膜分泌至细胞壁周围。此后 ,半乳甘露聚糖的积累逐渐向种皮方向扩展 ,及至种子成熟时 ,除糊粉层外 ,所有胚乳细胞几乎全由多糖所填充。此外 ,对半乳甘露聚糖发生部位及其积累过程的消长变化进行了讨论     

半乳甘露聚糖型植物胶的研究进展

本文综述了国内外半乳甘露聚糖型植物胶的研究进展,包括半乳甘露聚糖胶的资源分布、生物学特性、理化性质、结构鉴定、分离提取、产品改性、应用及前景展望等。     

我国半乳甘露聚糖胶资源利用前景初探

半乳甘露聚糖植物胶加工是我国70年代中期兴起的新兴产业。本文从我国植物资源发展的角度。重点论证了瓜尔豆（Cyanopsis tetragonoloba（L.）Taubert.）、田菁（Sesbania cannabina(Retz.)Pers.)、胡芦巴（Trigonella foenum-graecum L.）的生产情况,认为胡芦巴适应性强、产量高、易于机械化大面积种植与轮作,并具有改良土壤以及经济效益好等优势。因此,发展半乳甘露聚糖胶资源,大量种植胡芦巴是最好的选择。     

半乳甘露聚糖胶酶法改性研究进展

由于半乳甘露聚糖的水溶液在低浓度下仍具高黏性以及它的凝胶性质,因此在工业上具有很多重要的应用。半乳甘露聚糖聚糖的酶法改性主要包括脱去支链和切断主链两种方式。相对于化学改性来说,酶法改性具有易控制、反应条件温和等很多优点,因此成为改变半乳甘露聚糖分子结构以获得所需特性的最具潜力的改性方法。α－半乳糖苷酶和 β－甘露聚糖酶是半乳甘露聚糖改性和水解中最常用的酶。简要介绍了有关这两种酶的来源和新型制备菌株的近期研究概况。在医药和食品等工业中,酶法改性后的半乳甘露聚糖具有很广阔的应用前景。     

半乳甘露聚糖胶物理增粘技术的研究

本文对瓜尔胶、胡芦巴胶、皂荚胶、野皂荚胶、田菁胶的水合增粘工艺进行了研究,并比较了螺杆盘磨式和轧辊刨片式两种增粘机。与原胶相比,增粘胶1％胶液粘度提高了50％,水不溶物含量降低了15％。     

半乳甘露聚糖胶物理改性设备的研制

半乳甘露聚糖胶物理改性设备的研制程卫民徐嘉生（南京野生植物综合利用研究设计所,２１００４２）１概述半乳甘露聚糖胶在工业上具有广泛的用途,可作为流体流损抑制剂和絮凝剂用于石油工业,作为填充剂用于造纸工业以及作为增稠剂和稳定剂用于纺织、食品、化妆品及制药...     

半乳甘露聚糖用于侵袭性曲霉感染实验诊断的研究现状

曲霉是导致深部真菌感染的重要条件致病菌,临床早期诊断和治疗对预后具有明确意义。ELISA检测血清中半乳甘露聚糖用于诊断曲霉感染具有良好的敏感度(64.5%～76%)和特异度(81%～98.7%),可用于曲霉感染的早期诊断及治疗的监测。     

我国三种半乳甘露聚糖胶粉比较研究

本文阐述了瓜尔豆胶、胡芦巴胶、田菁胶的胶粉形态及其１％基液粘度、冷水不溶物的情况,讨论了它们之间的差异,为不同胶粉的粉未鉴定提供了一些基础资料。并指出胡芦巴胶粉冷水不溶物低,对其化学改性十分有利。     

半乳甘露聚糖对侵袭性曲霉菌感染的诊断价值

近年来侵袭性曲霉菌感染（invasive aspergillosis,IA）发病率逐渐增多,已经成为免疫功能低下患者致死率高的主要原因。有报道称在造血干细胞移植（HSCT）患者中IA的发病率为2％～26％,     

膜分离法纯化大蒜超氧化物歧化酶的条件研究

本文探讨了膜分离技术分离纯化大蒜超氧化物歧化酶(SOD )的工艺条件,研究了中空纤维超滤膜分离提纯大蒜SOD的工艺参数.通过单因素实验,分析了温度、压力、透过率对SOD活力回收率的影响;并通过正交实验确定出超滤膜分离法的最佳条件:温度32 ℃,压力0.15 MPa,透过率90%.在此基础上研究了纳滤膜对超滤液进行浓缩纯化的工艺条件,适宜的纳滤条件为:温度32 ℃,压力1.4 MPa.     

膜分离技术在寡糖制备与分离中的应用*

寡糖是多糖经过降解后得到的小分子活性物质,具有抗氧化、抗肿瘤、抗病毒和免疫调节等多种生物活性,是功能食品开发领域研究的热点。目前,寡糖的分离和制备主要采用离子交换色谱、凝胶渗透色谱以及两者联用的方法,分离时间长、制备成本高,难以实现寡糖的规模化分离和制备。膜分离技术(membrane separation technology,MST)是一种利用膜的选择性渗透作用,实现两组分或者多组分分离的技术,具有操作简单、分离效果好、高效节能等优点,特别是能够直接放大应用于规模化的分离工程,因此在寡糖等小分子的分离和制备等方面具有巨大的应用潜力。系统总结了膜分离技术在寡糖分离与制备领域的最新进展,综述了用于分离和制备寡糖的膜分离技术分类、分离工艺及其应用现状,并对目前膜分离技术用于大规模分离和制备寡糖过程中面临的挑战进行了讨论。     

微滤膜分离提纯苦楝素的研究

通过对不同孔径和材质的微孔滤膜对苦楝提取液过滤分离比较,优选出孔径为0.45μm的聚醚砜微滤膜对苦楝提取液具有良好的过滤性能。确定的膜分离提纯苦楝素优化工艺条件是:在料液浓度为0.374 mg/mL,料液温度35℃,操作压力差为0.08 MPa,循环流量为0.15 L/h,pH=7.0,苦楝素的转移率为99.4%,除杂率为8.3%,通量为147.2 L/m2.h,苦楝素的纯度为由提取液的0.89%,提高到了8.79%。     

Method for Purification of Fluorescence-Labeled Oligosaccharides by Pyridylamination

We developed a convenient method for purification of PA-oligosaccharides to remove contaminants originating from natural fluorescent materials, and excess reagents as well as by-products of tagging reactions in glycan analysis. The method, using a C18-cartridge, is simple and powerful to remove them. Several examples of experiments that showed the usefulness of this purification method are described in this report.     

膜技术纯化菊花总黄酮的工艺研究

研究膜分离技术分离纯化菊花黄酮的工艺,以菊花总黄酮纯度和操作过程稳定性为评价指标,采用膜分离技术对菊花提取液进行处理,对膜的规格、溶液温度、操作压力和操作时间进行了优选。结果表明:选择孔径0.5μm无机陶瓷膜,在溶液温度50℃、操作压力0.25 MPa条件下,微滤180 min能达到较好地除杂和澄清的效果;选择截留分子量为8×103的超滤膜,在溶液温度40℃、操作压力1.6 MPa条件下,超滤120 min,总黄酮纯度为19.81%。采用膜技术纯化菊花总黄酮的工艺操作简单,纯化效果高。     

半湿法分离提取半乳甘露聚糖型植物胶

本文叙述了半湿法分离提取植物胶的生产方法,工艺特点以及原料要求。     

烘炒法分离提取半乳甘露聚糖型种子胶

种子多糖胶分离提取工艺试验表明,根据种子胚乳坚硬的物理性能,用机械分离方法分离种子胚乳,其多糖胶抽提率大于80％。烘炒法适用于种皮厚而硬一类种子胚乳的分离,正交试验表明烘炒温度对种子多糖胶抽提率和粘度指标影响最大;皂荚胚乳的最优化分离条件是种子在80℃下预热60min,然后在160℃烘炒机中烘炒4min,再进入开片、选片和筛选工序;野皂荚胚乳的分离条件是种子80℃时预热30min,130℃下烘炒3min。     

人乳寡糖的分离分析

糖是一类重要的生命活性物质,它不仅是细胞能量代谢的源泉,还常作为信号分子参与细胞的各种活动。人乳寡糖（human milk oligosaccharides,HMOs）在人乳干物质中的含量仅次于乳糖和脂肪,高于蛋白质,对婴儿的发育和健康具有重要作用。为了更好的理解人乳寡糖的生物功能和结构的关系,对其组成和结构开展分析研究是必不可少的。对人乳寡糖进行了简要的介绍,并就其预处理方法、分离分析和结构表征方法进行了综述,以期为人乳寡糖的深入研究提供参考。     

Purification of Derivatized Oligosaccharides by Solid Phase Extraction for Glycomic Analysis

Profiling of glycans released from proteins is very complex and important. To enhance the detection sensitivity, chemical derivatization is required for the analysis of carbohydrates. Due to the interference of excess reagents, a simple and reliable purification method is usually necessary for the derivatized oligosaccharides. Various SPE based methods have been applied for the clean-up process. To demonstrate the differences among these methods, seven types of self-packed SPE cartridges were systematically compared in this study. The optimized conditions were determined for each type of cartridge and it was found that microcrystalline cellulose was the most appropriate SPE material for the purification of derivatized oligosaccharide. Normal phase HPLC analysis of the derivatized maltoheptaose was realized with a detection limit of 0.12 pmol (S N⁻¹ = 3) and a recovery over 70%. With the optimized SPE method, relative quantification analysis of N-glycans from model glycoproteins were carried out accurately and over 40 N-glycans from human serum samples were determined regardless of the isomers. Due to the high stability and sensitivity, microcrystalline cellulose cartridge showed potential applications in glycomics analysis.     

Extraction,Purification and Electrical Characterization of Gross Galactomannan and Purified Galactomannan Obtained from Adenanthera pavonina L. Seeds

Aiming of self-sustainable production, the search for biodegradable and biocompatible materials has brought with it the need to know the physicochemical and dielectric characteristics of polysaccharide-based composite structures, which can be used as important and promising raw materials for biotechnology and electronic industries. Galactomannans are polysaccharides, extracted from seeds and microbiological sources, consisting of mannose and galactose. In this context, this work aimed to extract, purify and characterize by XRD, FTIR and impedance spectroscopy galactomannan obtained from seeds of Adenanthera pavonina L. The purification process was made with ethyl alcohol at concentrations of 70, 80 and 90 %. Polymeric films were prepared by solvent slow evaporation at low temperatures. XRD measurements revealed that Galactomannan from Adenanthera pavonina L., after purification, has a semi-crystalline structure due to the identification of two peaks the first between 5.849° and 6.118° and the second between 20.011° and 20.247°. FTIR spectra showed the functional groups associated with monosaccharides of the galactomannan from Adenanthera pavonina L. seeds, as well as the typical polysaccharide bands and peaks, confirmed by literature data. The impedance results give an increment on the state-of-the-art of this biomaterial by showing the existence of dielectric relaxations, independent of the degree of purification, using the dielectric modulus formalism. The permittivity analysis reveals the presence of water in the structure of the film, whose dipoles contribute to the relatively high value of the dielectric constant. From the results obtained, it can be concluded that purified galactomannan has the potential for possible applications in the electronics industry as a green and eco-friendly dielectric material.