灰树花活性多糖构效关系研究进展

灰树花是一种珍贵的食药用菌,具有降血糖、抗肿瘤、免疫调节和抗病毒等多种生物活性。灰树花多糖是其主要的活性成分,多糖的生物活性与多糖的结构密切相关。本文综述了从20世纪80年代起国内外已报道的灰树花活性多糖的结构表征。部分研究认为多糖的降血糖活性可能与β-1,6-葡聚糖主链化学结构相关,而灰树花多糖结构为β-1,6主链或β-1,3主链葡聚糖时具有较好的抗肿瘤活性。然而多糖结构异常复杂,精细结构的解析困难,导致目前灰树花多糖结构表征一般止步于单糖组成、分子量、糖苷键类型、分支结构和粗略分子链构象,但二维核磁(two dimensional nuclear magnetic resonance,2D-NMR)和高分辨质谱联用等技术的发展将有助于解开灰树花多糖构效关系,并为灰树花活性多糖的开发利用提供理论依据。     

灰树花胞外多糖的结构分析*

灰树花胞外多糖是一种具有显著生物活性的生物反应调节剂,动物实验及临床研究表明灰树花多糖在抗肿瘤、抗HIV病毒以及防治糖尿病、高血压、高血脂、肥胖症、老年痴呆症等方面具有良好的效果,有些方面甚至超过已经临床应用的香菇多糖、云芝多糖和裂褶菌多糖（邢增涛等,1999;李强等,1989;项哨等,1995;劳华均等,1997）。多糖的生物活性与其结构有着密切的关系,许多文献中报道了灰树花子实体多糖的活性及结构（Ohno et al.,1985;Ohno et al.,1987;Ohno et al.,1988;）,但是关于灰树花胞外多糖的结构的分析则较少见到报道。本文…     

金耳多糖的分离纯化及其化学结构的研究

金耳(Tremella aurantialbaBandoni et Zang)是我国稀有的珍贵食用菌和药用菌,具有化痰、止咳、定喘、调气、平肝阳之功效。多糖作为金耳的主要生理活性成分之一,具有增强免疫、降血糖、降血脂、抗肿瘤、抗血栓和抗氧化等作用。但由于技术手段的落后,金耳多糖的化学研究比较滞后,其药理活性的研究也主要集中于粗多糖的研究,对均一多糖的化学结构分析和生物活性还很少涉及,这种状况对合理开发和利用金耳多糖产品造成很大影响。该研究对金耳子实体多糖进行了提取、分离纯化、结构鉴定、分子修饰和生物活性研究,为更好地开发金耳资源提供可靠的理论依据。     

多糖硫酸化修饰和多糖硫酸酯的研究进展

硫酸多糖是一类糖羟基上带有硫酸根的多糖,包括从植物中提取的各种硫酸多糖、肝素、天然多糖的硫酸衍生物及人工合成的各种硫酸多糖。硫酸多糖具有抗病毒、抗肿瘤、抗凝血和增强免疫等生物活性,为提高中药多糖的生物活性,可通过硫酸化修饰的方法进行结构改造,获取多糖硫酸酯。本文就多糖的硫酸化修饰方法、多糖硫酸酯的生物学活性及其影响因素、作用机制和临床应用进行了综述。     

海藻多糖生物活性及分子修饰

简要介绍了近年来有关海藻多糖抗病毒、抗肿瘤、免疫促进、免疫抑制等生理活性的最新研究 ,重点介绍了不同种类海藻多糖的不同生理活性机理的研究进展。对多糖与生理活性之间的构效关系进行了阐述 ,在构效关系基础上进行多糖分子结构修饰是提高海藻多糖生理活性、降低毒副作用的有效手段。进一步介绍了目前多糖分子修饰常用方法 ,并对修饰后分子的生理活性改变进行了阐述。     

多糖的化学修饰对其生物活性影响研究进展

多糖是重要的药用活性成分,将其结构进行化学修饰,得到的修饰后多糖有可能具有较修饰前更高的活性或者产生新的活性。本文对这一方面进行研究,阐述了硫酸化、磷酸化、羧甲基化、烷基化、乙酰化等化学修饰方法对多糖生物活性的影响,并对多糖化学修饰应用前景加以展望。     

天然多糖羧甲基化对其生物活性影响的研究进展

多糖由于具有抗氧化、抗肿瘤、调节免疫、降血糖等生物活性而受到诸多领域的关注。多糖的结构与其生物活性相关,经过化学修饰会增强其生物活性或产生新的活性。本文就天然多糖的羧甲基化修饰及对其生物活性的影响进行综述,以期为多糖的研发与应用提供理论参考。     

天然多糖分子修饰研究进展

多糖衍生物因其在生物学上的重要作用引起了科学家们的高度重视。近年来,国内外在多糖的分子修饰方法、多糖衍生物的药理学、结构与功能关系、临床应用上的研究已取得很大进展。本文综述了近年来国内外多糖的分子修饰方法及其衍生物的生物活性研究,并对其应用前景进行展望。     

灰树花子实体多糖D-组分的提取、硫酸化及免疫测定

从灰树花(Maitake)子实体中提取分离得到子实体多糖D组分,并分别考察了提取中的几个关键因素对D组分得率的影响,包括加水倍数、浸提时间、醇沉浓度、浓缩倍数。然后,对D组分进行了硫酸化修饰,得到了两种不同取代度的硫酸化多糖。最后,研究了灰树花多糖D组分及硫酸化灰树花多糖D组分对小鼠的免疫器官重量、腹腔巨噬细胞吞噬功能、血清溶血素形成及淋巴细胞转化率的影响。结果表明,在10mgkg剂量下,灰树花多糖D组分及硫酸化灰树花多糖D组分具有免疫增强作用,并且在合适的取代度下硫酸化灰树花多糖D组分比灰树花多糖D组分表现了更强的免疫调节作用。     

灰树花多糖对果蝇繁殖力及抗氧化作用的影响

实验采用超声辅助水提法提取灰树花多糖,以黑腹果蝇为实验对象,探究含0.2%,0.8%和1.6%浓度的灰树花多糖的培养基对果蝇繁殖力、体内脂褐素(LF)和过氧化氢酶(CAT)活性的影响。与对照组相比,各浓度组的灰树花多糖均能明显增强果蝇繁殖力,且对果蝇后代的雌雄比例产生一定影响;同时使果蝇体内LF含量明显下降,CAT活性显著升高。各浓度组间差异显著,尤以1.6%效果最佳。结果表明,灰树花多糖具有促进果蝇繁殖力和抗氧化的良好功效。     

Relationship between heat treatment on structural properties and antitumor activity of the cold-water soluble polysaccharides from Grifola frondosa

Glycoconjugate Journal - Grifola frondosa is a basidiomycete fungus with potential biomedical applications owing to the presence of bioactive polysaccharides. The activities of polysaccharides are...     

灰树花多糖药理研究进展

真菌多糖的药理作用已得到广泛的研究与关注。作为一种独特的生物反应调节剂,灰树花多糖具有极大的开发利用前景。本文综述了国内外灰树花多糖药理研究的进展情况。     

微波辅助提取灰树花多糖工艺研究

采用提取时间、微波功率、液料比的单因素试验和正交试验法优化微波辅助提取灰树花多糖条件.结果表明,以净多糖得率为指标,影响微波辅助提取灰树花多糖的主次因素为:提取时间＞微波功率＞液料比,并且提取时间和微波功率的影响达到了极显著水平.灰树花多糖最佳提取工艺条件为:提取时间为10 min,微波功率为80%(全功率为800 W),液料比为25∶1.创立了一种用苯酚-硫酸法测定多糖时排除蛋白质干扰的方法.     

Physical characteristics and antioxidant effect of polysaccharides extracted by boiling water and enzymolysis from Grifola frondosa

Grifola frondosa has been widely consumed in China and other Asian countries. Recent studies on G. frondosa have focused on the activities of polysaccharides extracted by water, and the activities of polysaccharides extracted by enzymolysis have not been studied. In this work, the relationship between the physical properties and antioxidant activity of polysaccharides extracted from G. frondosa by boiling water and enzymolysis was studied. Five polysaccharide extracts from the fruit body of G. frondosa were prepared by different extracting methods including boiling water, single enzyme enzymolysis with three different single enzymes (cellulose, pectinase, and pancreatin), and combined enzyme enzymolysis (cellulose:pectinase:pancreatin; 2:2:1). Characteristics such as the viscosity, Mw, polysaccharide content, protein content, infrared spectra, and antioxidant activities of the extracts were evaluated. The highest antioxidant activity was exhibited by the extracts prepared by combined enzyme extraction. The correlation analysis between antioxidant activity and polysaccharide content, protein content, Mw or viscosity indicated that the Mw had a more important role in antioxidant activity. Overall, the results indicate that the combined enzyme polysaccharide extracts can be developed as a new potential natural antioxidant.     

灰树花总DNA的制备及基因组文库的构建A

灰树花是一种珍贵的药用真菌,因为多糖含量较高,较难获得高质量的总DNA,本文提出了一种制备高质量灰树花总DNA及构建灰树花基因组文库的方法。该方法制备的灰树花总DNA,经Sau3AI酶切后,用于构建基因组文库,可得到2×105个转化子/50mg,平均插入片段为14kb。本研究为下一步克隆灰树花中的基因以及进行其他分子生物学研究奠定了基础。Abstract： Grifola frondosa, is a valuable medicinal fungus. High quality total genomic DNA is difficult to prepare due to its high polysaccharide content. A method for the preparation of Grifola frondosa total genomic DNA and construction of Grifola frondosa, genomic library is described. Genomic DNA prepared by this method is digested by Sau3A I restriction enzyme. Constructed genomic library give a titer of 2×105 transformants/50mg , with a average insert size of 14kb. This has paved way for the cloning of other Grifola frondosa genes and molecular biology studies.     

Suppression of D-galactosamine-induced liver injury by mushrooms in rats

Six species of edible mushroom were found to suppress D-galactosamine-induced enhancement of plasma alanine and aspartate aminotransferase activities when powdered mushrooms were added to the diet (5%) and fed to rats for 2 wk. Grifola frondosa exhibited the most potent effect in a dose-dependent manner. A significant effect was observed only from the water-soluble low-molecular-weight fraction of G. frondosa. The results indicate that several mushrooms possess a protective effect against liver injury induced by D-galactosamine.     

灰树花孔菌固体发酵基质抗氧化活性成分研究

选用燕麦、大豆、玉米、麸皮、大米、荞麦6种培养基质对灰树花孔菌进行固体发酵及抗氧化活性研究。结果表明：灰树花孔菌最佳抗氧化发酵基质为燕麦大豆培养基（燕麦16.25%,大豆83.75%）,最佳发酵时间为8d。灰树花孔菌燕麦大豆发酵基质抗氧化活性成分种类丰富,含量高。其中总黄酮物质40.86μg/g,总三萜5.94mg/g,多酚8.51mg/g,还原糖13.10mg/g,花色苷70.23μg/g,维生素C 24.57mg/g,维生素E 0.33mg/g,谷光甘肽（GSH）0.84g/g,SOD酶活性299.74U/g。     

Solid-state cultivation of Grifola frondosa (Dicks: Fr) S.F. Gray biomass and immunostimulatory effects of fungal intra- and extracellular beta-polysaccharides

Grifola frondosa strain GF3, was cultivated on solid-state substrate consisting of milled whole corn plant (Zea mays) and olive press cake supplemented with mineral additives and olive oil. Maintenance of the moisture content in the solid substrate is of crucial importance. Moistures higher than 70% promote growth of G. frondosa mycelium and polysaccharide production. Four fractions of pure extracellular beta-D-glucans with total mass 127.2mg and four fractions of intracellular polysaccharides with total mass 47.2mg were isolated. Polysaccharides were further separated by ion-exchange, gel and affinity chromatography. Isolated polysaccharide fractions from fungal mycelium proved to induce moderate amounts of TNF-alpha in PBMC cells in vitro. The extent of TNF-alpha induction was up to 322pgmL(-1) at a polysaccharide concentration of 200microgmL(-1) for the intracellular fraction. The TNF-alpha inducing activity is comparable to romurtide, which has been used as a supporting therapy in cancer patients treated with radiotherapy and/or chemotherapy.     

灰树花提取物清除氧自由基的研究

采用化学发光法比较了灰树花各提取物对超氧阴离子自由基、羟基自由基的清除效果。研究结果表明,灰树花子实体和菌丝体的提取物对羟基自由基均有很好的清除作用,灰树花菌丝体水提物(GFME)、灰树花子实体水提物(GFE)、灰树花子实体水提多糖(GFP)、灰树花子实体碱提多糖(GFAP)清除羟基自由基的IC50均小于1.0 mg/mL,其他提取物清除羟基自由基的IC50也均小于3.0 mg/mL。而对超氧阴离子自由基仅GFME、GFMP、GFE有清除作用,其他的提取物清除作用很弱。