枸杞多糖与黄芪多糖抑菌活性的研究*

目的:研究黄芪多糖和枸杞多糖的抑菌活性并探讨不同pH值对其抑菌活性的影响。方法:采用滤纸片扩散法,分析不同浓度黄芪多糖和枸杞多糖在不同pH值下对几种常见细茵和霉菌(大肠杆菌、沙门氏菌、金黄色葡萄球菌、黑曲霉、产黄青霉)的抑制效果。结果:对于细菌,枸杞多糖8mg/mL时出现抑菌圈,而黄芪多糖0.02 mg/mL时效果最佳;对于霉菌,随着枸杞多糖浓度的增大,抑菌圈的直径增大,而黄芪多糖0.02 mg/mL时效果最佳;当枸杞多糖和黄芪多糖在pH6的条件下,二者抑菌活性均最强。结论:枸杞多糖和黄芪多糖对细菌、霉菌都有一定的抑制效果,pH值可影响枸杞多糖和黄芪多糖的抑菌效果。     

Molecular origin of two polysaccharides of Campylobacter jejuni 81116

The nature of the polysaccharide molecules of the human enteric pathogen Campylobacter jejuni has been the subject of debate. Previously, C. jejuni 81116 was shown to contain two different polysaccharides, one acidic (polysaccharide A) and the other neutral (polysaccharide B), occurring in a 3 : 1 ratio, respectively. The aim of this study was to determine the molecular origin of these polysaccharides. Using a combination of centrifugation, gel permeation chromatography, chemical assays, and (1)H-NMR analysis, polysaccharide B was shown to be derived from lipopolysaccharide and polysaccharide A from capsular polysaccharide. Thus, C. jejuni 81116 produces both lipopolysaccharide-like molecules and capsular polysaccharide.     

金顶侧耳胞内多糖生物活性研究

对金顶侧耳Pleurotus citrinopileatus胞内多糖的热水浸提工艺进行研究,并研究了该多糖的抑菌活性以及对超氧阴离子自由基和亚硝基的清除作用。结果表明,金顶侧耳胞内多糖的最佳提取工艺为:提取温度60℃,液料比100:1,时间4h,此条件下多糖提取率可达17.65%。该多糖对埃希氏大肠杆菌和金黄色葡萄球菌均有抑制作用且对超氧阴离子自由基和亚硝基有较强的清除作用,说明该多糖具有明显的生物活性。     

A群脑膜炎球菌荚膜多糖纯化工艺的优化

目的对A群脑膜炎球菌荚膜多糖纯化工艺的关键步骤进行分步研究,优化每一步工艺参数。方法优化十六烷基三甲基溴化铵的加入浓度、复合多糖的解离浓度和解离时间、不同厂家的苯酚、超滤和透析等工艺过程对荚膜多糖的影响。结果十六烷基三甲基溴化铵质量体积终浓度0.10%(w/v)沉淀效果更好,纯化获得的荚膜多糖产量更高相对分子质量更大。复合多糖解离浓度越高,纯化获得的荚膜多糖相对分子质量越小。延长复合多糖解离时间有利于提高荚膜多糖产量。不同厂家的苯酚、超滤和透析等工艺对荚膜多糖的产量和分子大小没有影响。结论现行A群脑膜炎球菌荚膜多糖纯化工艺复杂,优化后的工艺提高了荚膜多糖产量,缩短了工艺用时,增加了工艺稳定性。     

不同南瓜多糖体外清除羟基自由基作用的研究

采用热水浸提法和超声波辅助法提取南瓜粗多糖,用十六烷基三甲基溴化铵(CTAB)络合沉淀得AP1多糖;用邻二氮菲-金属铁离子-H2O2体系检测南瓜多糖对羟基自由基的清除作用。结果表明,南瓜多糖能有效清除羟基自由基,并随着浓度的增加清除作用加强,且热水提取的南瓜多糖对羟基自由基清除作用显著高于超声提取的南瓜多糖。该结果表明南瓜多糖具有抗氧化性,并且热水提取的南瓜多糖的清除羟基自由基最为显著。     

桦褐孔菌子实体多糖提取研究

目的:为了获得桦褐孔菌多糖最大量的多糖收率,研究了影响多糖提取的最佳条件.方法:对影响桦褐孔菌胞内水溶性多糖提取效果的6个因素进行了单一因素影响实验,并对多糖提取影响因子的3个因素进行正交试验,对多糖提取工艺参数进行了优化.结果:正交试验确定桦褐孔菌子实体多糖的最佳提取条件是:料水比为1∶40,温度80℃,提取1.5h,多糖收率达2.53％.结论:确立了桦褐孔菌子实体多糖提取工艺,建立了一套简便、高效的桦褐孔菌胞内多糖的提取方法.     

Further Studies of the Polysaccharide of Klebsiella pneumoniae Possessing Strong Adjuvanticity: I. Production of the Adjuvant Polysaccharide by Noncapsulated Mutant

In culture fluid, Klebsiella pneumoniae type 1 Kasuya strain produces polysaccharide exhibiting a strong adjuvant effect. The active substance responsible for the strong adjuvant effect of the polysaccharide is not its acidic polysaccharide fraction (the type-specific capsular antigen) but the neutral polysaccharide fraction. In the present study, a mutant which did not produce the type-specific capsular polysaccharide was isolated from ultraviolet-irradiated cells of K. pneumoniae type 1 Kasuya strain which had been labeled with leucine-requiring marker by selecting unagglutinable cells with the antiserum to the type-specific capsular polysaccharide. Serological tests showed that the type-specific acidic capsular polysaccharide was present neither on the cells surface nor in the culture fluid of the mutant. Electron microscopically, the mutant did not possess any capsular material. On the other hand, nearly an equal amount of neutral polysaccharide antigen was produced in culture fluids of the noncapsulated mutant and the parent strain. The neutral polysaccharide antigen produced by the noncapsulated mutant exhibited the same degree of strong adjuvant effect on antibody response to bovine gammaglobulin in mice as that produced by the parent strain. The relationship between the neutral polysaccharide antigen in culture fluid and the O antigen of K. pneumoniae was discussed.     

病原细菌多糖疫苗和多糖结合疫苗研究进展

在许多病原细菌中,荚膜多糖和O抗原多糖能够刺激机体产生保护性抗体,因此利用病原细菌的多糖制成的疫苗能有效预防传染病,同时避免了病原细菌耐药性的出现。此类疫苗包括多糖疫苗和多糖结合疫苗。细菌体内糖基化的发现,使得利用生物法生产多糖结合疫苗成了多糖结合疫苗生产的热门方向。我们简要综述了多糖疫苗和多糖结合疫苗在研究和应用方面的主要进展。     

甘草腺体结构及对渗透胁迫的调节作用

甘草叶片上的腺体是其特殊的耐旱形态学结构,通过腺体分泌多糖调节叶肉细胞渗透势是其耐旱的重要生理特征。甘草叶片处于两面对称叶尚未展开期,部分腺体头部已分泌积累呈球状的多糖液,约占总腺体数的13.0%;部分腺体开始分泌多糖液,约占总腺体数的11.6%;75.3%的腺体尚未开始分泌多糖液,表明该期的腺体已有部分开始参与渗透调节。甘草发育成熟的功能叶上的所有腺体头部都分泌有呈球状的多糖液,表明该期所有的腺体都通过向外分泌多糖参与渗透调节。15%PEG+Hoagland培养的渗透胁迫比Hoagland培养的非渗透胁迫,叶内多糖增加了59.8%(P<0.01)。甘草通过腺体向腺体外分泌多糖液的作用,维持叶肉细胞适合的渗透势是甘草一种主动调节过程和方式。     

Isolation of a coaggregation-inhibiting cell wall polysaccharide from Streptococcus sanguis H1.

Coaggregation between Streptococcus sanguis H1 and Capnocytophaga ochracea ATCC 33596 cells is mediated by a carbohydrate receptor on the former and an adhesin on the latter. Two methods were used to release the carbohydrate receptor from the gram-positive streptococcus, autoclaving and mutanolysin treatment. The polysaccharide released from the streptococcal cell wall by either treatment was purified by ion-exchange chromatography; this polysaccharide inhibited coaggregation when preincubated with the gram-negative capnocytophaga partner. After hydrolysis of the polysaccharide by hydrofluoric acid (HF), the major oligosaccharide of the polysaccharide was purified by high-performance liquid chromatography. By analysis of the HF hydrolysis of the polysaccharide and the purified oligosaccharide, this major oligosaccharide appeared to be the repeating unit of the polysaccharide, with minor components resulting from internal hydrolysis of the major oligosaccharide. Gas chromatography results showed that the oligomer was a hexasaccharide, consisting of rhamnose, galactose, and glucose, in the ratio of 2:3:1, respectively. By weight, the purified hexasaccharide was a fourfold-more-potent inhibitor of coaggregation than the native polysaccharide. Resistance to hydrolysis by sulfuric acid alone and susceptibility to hydrolysis by HF suggested that oligosaccharide chains of the polysaccharide are linked by phosphodiester bonds. Studies with a coaggregation-defective mutant of S. sanguis H1 revealed that the cell walls of the mutant contained neither the polysaccharide nor the hexasaccharide repeating unit. The purification of both a polysaccharide and its constituent hexasaccharide repeating unit, which both inhibited coaggregation, and the absence of this polysaccharide or hexasaccharide on a coaggregation-defective mutant strongly suggest that the hexasaccharide derived from the polysaccharide functions as the receptor for the adhesin from C. ochracea ATCC 33596.     

两种不同方法制备的黑木耳多糖性质比较

本研究以黑木耳子实体为材料,对比了壳聚糖絮凝法制备的絮凝多糖HJD-1和传统水提醇沉法制备的醇沉多糖HJD-2的表观结构、α-葡萄糖甘酶抑制活性以及体外抑制肿瘤细胞增殖的活性。结果表明：（1）壳聚糖絮凝法制备粗多糖得率均值为4.76%,是醇沉法的2.17倍;醇沉法制备多糖的损失率为33.87%,是絮凝法的1.36倍;（2）絮凝多糖HJD-1和醇沉多糖HJD-2的表观评估及复溶性结果分析显示：絮凝多糖HJD-1为亮白色透明晶体,色泽均匀,颗粒规整;醇沉多糖HJD-2为棕褐色,颗粒状,有砂质感,前者相较后者的复溶性更好;（3）对α-葡萄糖甘酶抑制活性以及体外抗肿瘤能力结果分析表明：在相同浓度下,壳聚糖絮凝法制备黑木耳多糖对α-葡萄糖苷酶活性的抑制效果优于醇提法;絮凝多糖HJD-1对HepG2细胞的增殖抑制作用强于醇沉多糖HJD-2。     

Utilization of Waste Products of Dehydrated Onion Industry for Production of Fodder Yeast

An organism producing extracellular polysaccharide was isolated from soil and identified as Aeromonas hydrophila (Chester) Stanier. The effects of medium components and cultural conditions on production of the polysaccharide were studied. The optimal concentrations of carbon and nitrogen sources were 5% and 0.3%, respectively, for production of the polysaccharide. The optimal initial pH was 7~9. The maximum polysaccharide yield was obtained at 4~8 days of fermentation. From sucrose and raffinose as carbon source, the organism produced levan and acidic polysac-charide in the ratio of 7:3 and 4:6, respectively. From glucose, galactose, fructose, mannose, maltose and lactose, mainly acidic polysaccharide was produced. The acidic polysaccharide was found to contain galactose, mannose and glucuronic acid in a ratio of 5:4:2. The acidic polysaccharides obtained from sucrose and lactose seemed to be the same polysaccharide.     

Synthesis, characterization and evaluation of thiolated tamarind seed polysaccharide as a mucoadhesive polymer

In the present study, thiol-functionalization of tamarind seed polysaccharide was carried out by esterification with thioglycolic acid. Thiol-functionalization was confirmed by SH stretch in Fourier-transformed infra-red spectra at 2586cm(-1). It was found to possess 104.5mM of thiol groups per gram. The results of differential scanning calorimetry and X-ray diffraction study indicate increase in crystallinity. Polymer compacts of thiolated tamarind seed polysaccharide required 6.85-fold greater force to detach from the mucin coated membrane than that of tamarind seed polysaccharide. Comparative evaluation of Carbopol-based metronidazole gels containing thiolated tamarind seed polysaccharide with gels containing tamarind seed polysaccharide for mucoadhesive strength using chicken ileum by modified balance method revealed higher mucoadhesion of gels containing thiolated tamarind seed polysaccharide. Further, the gels containing tamarind seed polysaccharide and thiolated tamarind seed polysaccharide released the drug by Fickian-diffusion following the first-order and Higuchi's-square root release kinetics, respectively.     

一种新的CTAB加入方法对A群脑膜炎球菌荚膜多糖分子大小的影响

目的探讨CTAB不同的加入方法对A群脑膜炎球菌荚膜多糖分子大小的影响。方法采用分次加入手动搅拌和持续加入机械快速搅拌两种CTAB加入方法,纯化获得荚膜多糖粗糖,分别编为B组和C组。将两组荚膜多糖粗糖分别纯化获得精糖,分别编为D组和E组。以Sepharose CL-4B凝胶层析纯化获得荚膜多糖并检测其KD值。结果 B组荚膜多糖粗糖的KD值介于0.34~0.35之间,C组荚膜多糖粗糖的KD值介于0.03~0.05,进一步用苯酚纯化获得精糖后KD值D组介于0.34~0.36之间,E组介于0.22~0.28之间。两组相比KD值显著降低。结论CTAB的加入过程对A群脑膜炎球菌荚膜多糖的分子大小有明显的影响,CTAB沉淀时进行快速而充分的搅拌,纯化获得的荚膜多糖相对分子质量更大。     

A novel type of endotoxin structure present in Bordetella pertussis. Isolation of two different polysaccharides bound to lipid A.

The endotoxin of Bordetella pertussis was cleaved by mild acidic hydrolysis to yield a polysaccharide (polysaccharide I, 15%), a glycolipid (63%) and lipid X (2%). Further treatment of the glycolipid with stronger acid released a second polysaccharide (polysaccharide II, 9%) and material similar to lipid A present in enterobacterial endotoxins. Both polysaccharides possess a single molecule of 3-deoxy-2-octulosonic acid as the reducing, terminal sugar. In polysaccharide II the octulosonic acid is phosphorylated in position 5 and presumably substituted in position 4; in polysaccharide I the octulosonic acid is not phosphorylated, but is substituted in position 5. Following treatment of the endotoxin with strong base, a fragment was isolated that contained bound, non-phosphorylated 3-deoxy-2-octulosonic acid, glucosamine phosphate and fatty acids. This indicated that polysaccharide I, like polysaccharide II, was bound to the lipid region of the endotoxin. The endotoxin structure thus defined is different from that proposed for the lipopolysaccharides of enterobacteria.     

塔拉种子多糖脱蛋白的正交优化及其抗氧化性研究

以塔拉（Caesalpinia spinosa）种子为原料,研究了塔拉种子多糖的脱蛋白工艺及塔拉多糖的抗氧化性质。以多糖损失率和蛋白脱除率为评价指标,比较Sevage法、三氯乙酸法和木瓜蛋白酶法对塔拉多糖的脱蛋白效果。利用正交优化组合实验设计原理,采用四因素三水平的正交分析法,对木瓜蛋白酶法脱蛋白进行正交优化。结果表明：塔拉多糖最佳脱蛋白工艺条件为酶添加量0.15mL、酶解时间90min、酶解温度60℃、酶解pH=6,蛋白脱除率95.19%,多糖保留率75.02%。通过对塔拉多糖抗氧化性的研究,发现塔拉多糖总抗氧化性较好,对DPPH自由基有较强的清除作用。     

Component from the cell surface of the hydrocarbon-utilizing yeast Candida tropicalis with possible relation to hydrocarbon transport.

A polysaccharide-fatty acid complex was isolated from the cell surface of Candida tropicalis growing on alkanes. This complex was solubilized by Pronase treatment of whole cells. A decrease in alkane-binding affinity was observed after Pronase treatment, resulting in 10 to 12% of the yeast dry cell weight being released as polysaccharide. The isolated polysaccharide contained 2.5% fatty acids. C. tropicalis and Saccharomyces cerevisiae grown with glucose contained only traces of fatty acids in the corresponding polysaccharide fraction. The fatty acids were not removed from the polysaccharide moiety by gel filtration. Extraction of the polysaccharide with chloroform-methanol showed that fatty acids were covalently bound to the polysaccharide. The amphipathic nature of the isolated polysaccharide and the hydrocarbon-induced formation suggest a possible role in alkane metabolism.     

Formation of a soluble amylopectin-like polysaccharide in potato tubers

When potato sprouts or potato tuber slices were incubated with 0.1 m glucose 1-phosphate, a soluble amylopectin-like polysaccharide was excreted to the medium. This polysaccharide was found to be a very good primer for phosphorylase and a poor one for starch synthetase. Beside the formation of this extracellular polysaccharide, a more branched intracellular polysaccharide could be isolated. This polysaccharide was an excellent primer for starch synthetase. Fructose 6-phosphate, glucose 6-phosphate, fructose 1,6-diphosphate, glucose or sucrose could not substitute for glucose 1-phosphate. 2,4-Dinitrophenol or nitrogen did not affect the excretion of the polysaccharide. Some properties of these 2 polysaccharides are described.     

Structure of an extracellular cross-reactive polysaccharide from Pseudomonas aeruginosa immunotype 4

A neutral small molecular mass (approximately 6.5 kDa) polysaccharide comprising a pentasaccharide repeat unit was isolated from culture supernatants of Pseudomonas aeruginosa immunotype 4. The polysaccharide had a pentasaccharide repeating unit as follows (formula; see text) where Rha is rhamnose. The structure was determined using acid hydrolysis, solvolysis with anhydrous hydrogen fluoride, methylation analysis, and 1H and 13C nuclear magnetic resonance spectroscopy including nuclear Overhauser enhancement experiments. The polysaccharide bound antibody raised to the lipopolysaccharide of the seven P. aeruginosa Fisher-Devlin immunotype strains. Inhibition assays demonstrated the presence of a serologically similar polysaccharide in supernatants of these strains. Affinity-purified antibody to the polysaccharide bound to lipopolysaccharide and whole cells of the immunotype strains of P. aeruginosa in a Western immunoblot and colony blot assay, respectively. This polysaccharide seems to contain an antigenic determinant present in the core of the P. aeruginosa lipopolysaccharide or may represent another minor polysaccharide substituent on the lipopolysaccharide in addition to the O side chain.     

Distribution of Enzymes Forming Polysaccharide from Sucrose and the Composition of Extracellular Polysaccharide Synthesized by Streptococcus mutans

The distribution of polysaccharide-forming activity from sucrose was investigated in cultures of three strains of Streptococcus mutans by using an assay which conveniently determines total polysaccharide. The enzymatic activity for polysaccharide formation from sucrose is almost exclusively extracellular. The ratio of the fructan to glucan in the polysaccharide differs among the three strains investigated. The enzymatic activity for the formation of polysaccharide from sucrose has been shown to be bound to the cell-free polymer itself.