Use of tritiated 3-O-methyl-d-glucose for studies of membrane transport caveat

Tritiated 3-O-methyl-d-glucose has many useful attributes as a model substance for studies of the transport of glucose across cell membranes. However, preparations of high specific radioactivity can decompose within a few months, producing radioactive impurities that can cause a several-fold increase in the apparent rate of sugar transport. In our investigation radioactive contaminants entered frog skeletal muscle cells by free diffusion rather than by facilitated transport. Much of the contaminating radioactive material could be removed by evaporating the solvent and redissolving the sugar. Tritiated sugar samples that had a specific activity below 0.1 Ci/mmol remained stable and suitable for transport measurements after several years of storage at -20°C. In order to evaluate the suitability of a given tritiated preparation of sugar for transport measurements, it is recommended that its behavior be compared with that of a stable reference standard of low specific activity.     

灵芝不同菌株胞外多糖的单糖组成和抗氧化活性分析

灵芝多糖是药用真菌灵芝的主要活性成分之一。早期研究发现不同灵芝子实体多糖的单糖组成和活性存在差异,但不同灵芝菌株胞外多糖的单糖组成和活性是否有区别仍不清楚。本研究通过液体发酵获得灵芝菌株5.26和5.616的胞外多糖,使用DEAE-cellulose和Sephadex G-200柱色谱分离纯化得到了两种多糖(5.26-2-1和5.616-2-1),并对5.26-2-1,5.616-2-1的单糖组成和抗氧化活性进行了分析。结果表明,5.26-2-1主要由甘露糖、半乳糖醛酸、半乳糖和葡萄糖组成,而5.616-2-1主要由甘露糖、半乳糖和葡萄糖组成。5.26-2-1中葡萄糖的摩尔百分比为63.97%,显著高于5.616-2-1(29.3%),但半乳糖的摩尔百分比为9.34%,显著低于5.616-2-1 (42.78%)。当多糖质量浓度为2 mg/mL时,5.26-2-1的Fe²⁺螯合能力、对1,1-二苯基-2-三硝基苯肼(DPPH)和羟自由基(·OH)的最大清除率分别为71.9%、71.3%和60.8%,显著高于5.616-2-1的值(63.5%、60.4%和51.8%...     

Polysaccharide analysis using carbohydrate gel electrophoresis: a method to study plant cell wall polysaccharides and polysaccharide hydrolases.

A method to characterize plant cell wall polysaccharides is presented. The complexity of the polymer structures and the large number of different charged and uncharged monosaccharides that make up plant polysaccharides have previously made analysis technically demanding and laborious. Polysaccharide analysis using carbohydrate gel electrophoresis (PACE) relies on derivatization of reducing ends of sugars and oligosaccharides with a fluorophore, followed by electrophoresis under optimized conditions in polyacrylamide gels. We show that PACE is a sensitive and simple tool for studying the monosaccharide composition of polysaccharides and of cell wall preparations. In combination with specific hydrolases, it can be used to analyze the structure of polysaccharides. Moreover, the specificity and kinetics of the plant polysaccharide hydrolases themselves can be quickly and effectively studied. PACE can detect as little as 500 fmol of monosaccharides and 100 fmol of oligosaccharides, and it is fast and quantitative.     

Isolation and partial characterization of basic proteinases from stem bromelain

Crude bromelain extracts from pineapple stems (Ananas comosus) were fractionated by two-step FPLC-cation-exchange chromatography. At least eight basic proteolytically active components were detected. The two main components F4 and F5 together with the most active proteinase fraction F9 were characterized by SDS-PAGE, mass spectroscopy, multizonal cathodal electrophoresis, partial amino acid sequence, and monosaccharide composition analysis. F9 amounts to about 2% of the total protein and has a 15 times higher specific activity against the substratel-pyroglutamyl-l-phenylanalyl-l-leucine-p-nitroanilide (PFLNA) than the main component F4. The molecular masses of F4, F5, and F9 were determined to 24,397, 24,472, and 23,427, respectively, by mass spectroscopy. Partial N-terminal amino acid sequence analysis (20 amino acids) revealed that F9 differs from the determined sequence of F4 and F5 by an exchange at position 10 (tyrosineserine) and position 20 (asparagine glycine). F4 and F5 contained fucose, N-acetylglucosamine, xylose, and mannose in ratio of 1.02.01.02.0, but only 50% of the proteins seem to be glycosylated, whereas F9 was found to be unglycosylated. Polyclonal antibodies (IgG) against F9 detected F4 and F5 with tenfold reduced reactivity. ThepH optimum of F4 and F5 was betweenpH4.0 and 4.5 and for F9 close to neutralpH. The kinetic parameters for PFLNA hydrolysis were similar for F4 (K _m 2.30 mM,k _cat 0.87 sec^–1 and F5 (K _m 2.42 mM,k _cat 0.68 sec^–1), and differed greatly from F9 (K _m 0.40 mM,k _cat 3.94 sec^–1).Dedicated to H. Tschesche, Bielefeld, Germany, on behalf of his 60th anniversary.     

豆皮水溶性多糖组分SHP-3的物化性质研究(英文)

对豆皮采用热水浸提得到豆皮水溶性多糖,通过DEAE-cellulose离子交换柱洗脱,得到3个组分。本文主要研究了采用0.3 M NaOH溶液洗脱纯化得到的组分SHP-3的物化性质。对SHP-3进行凝胶渗透色谱、气相色谱分析、紫外光谱及高碘酸氧化-Smith降解分析,结果表明:SHP-3的分子量为45554,其糖醛酸含量为26.71%(wt.%),单糖组成摩尔比为Rah:Fuc:Ara:Xyl:Man:Gal:Glu=3.55:0.44:11.58:1:7.45:5.12:1.12,紫外光谱在260～280 nm没有吸收峰,表明没有蛋白质或核酸等物质;高碘酸氧化-Smith降解结果表明SHP-3的连接结构以为(1→4)糖苷键为主,其摩尔比例占68.9%,(1→2)糖苷键占11.4%,(1→6)糖苷键占19.7%。     

Composition and immunochemical characteristics of exopolysaccharides from the rhizobacterium <Emphasis Type="Italic">Paenibacillus polymyxa</Emphasis> 1465

Exopolysaccharides (EPS) synthesized by Paenibacillus polymyxa 1465 in the course of batch cultivation were proven to contain neutral and acidic fractions. EPS are heterogeneous polysaccharides, represented by a complex of macromolecules with molecular mass of 7 × 10⁴ to 2 × 10⁶ Da. The acidic component was shown to be predominant in EPS preparations isolated from bacteria cultivated on glucose, which corresponds to a higher viscosity of EPS water solutions. The exoglycans were shown to contain glucose, mannose, galactose, and uronic acids. Polyclonal rabbit antibodies against the isolated P. polymyxa 1465 EPS preparations were used in a comparative immunodiffusion analysis of a number of P. polymyxa strains.     

烤烟根系分泌物中单糖的组分含量及其相关分析

以4个不同烤烟品种为研究材料,采用盆栽试验,运用高效毛细管区带电泳法测定各品种根际土、非根际土、根系及叶片中的单糖组分及含量,并分析其相关关系,探究根系分泌物中糖类的分泌特性。结果表明：在各样品中,共检出木糖、葡萄糖、半乳糖、核糖、阿拉伯糖和鼠李糖6种糖;不同品种根际土、非根际土、根系及叶片中检出的糖组分及含量均存在差异;同一品种中,叶片最高,根系次之,根际土和非根际土最低;相关性分析表明,木糖、阿拉伯糖、葡萄糖、鼠李糖和半乳糖总量在根际土、非根际土、叶片和根系间呈正相关关系,各单糖组分间均呈正相关关系,部分组分呈显著或极显著相关关系。研究表明,不同烤烟品种根系分泌这些单糖存在品种差异,且根系分泌单糖可能是一个沿浓度梯度的扩散过程。     

海藻多糖的单糖组成对体外抗氧化活性的影响

比较广西北部湾石莼(Ulva lactuca L.)、海带(Laminaria japonica)、裙带菜(Undaria pinnatifida Surin-gar)、紫菜(Porphyra)的单糖组成及抗氧化活性的差异,揭示多糖结构与其体外抗氧化活性的关系。利用PMP柱前衍生化HPLC分析海藻多糖的单糖组成,采用羟自由基清除试验、超氧阴离子自由基清除试验及DPPH自由基清除试验指征其体外抗氧化活性,结果表明,4种海藻多糖的单糖组成在主成分空间分布离散,石莼及紫菜主要由葡萄糖组成,海带主要由甘露糖组成,裙带菜则主要由半乳糖组成;其体外抗氧化活性存在显著差异,裙带菜多糖对DPPH的清除能力(半抑制浓度IC₅₀值为0. 56±0. 02 mg/mL)显著高于其他3种海藻多糖;石莼、裙带菜与海带对羟自由基均有较强的清除活性,而紫菜多糖对羟自由基的清除能力较差(IC₅₀值为26. 59±0. 98mg/mL);石莼与裙带菜对超氧阴离子的清除活性较强,显著高于海带与紫菜,其中石莼显著高于裙带菜,IC₅₀值分别为1. 61±0. 17、2. 73±0. 06 mg/mL。相关性分析及冗余分析结果表明,对抗氧化活性影响较为显著的因子为葡萄糖(Glc)、核糖(Rib)、木糖(Xyl)(P <0. 01)。     

鸡腿蘑胞外多糖的形貌结构及分子量动态变化与抗氧化的相关性研究

对鸡腿蘑多糖的结构进行检测,并在此基础上探讨结构与活性的关系,对深度发掘鸡腿蘑多糖的功效具有重要意义.制备发酵时间为72 h、96 h和120 h的鸡腿蘑胞外粗多糖,采用PMP柱前衍生化-HPLC法分析其单糖组成,结果表明发酵72 h、96 h和120 h胞外多糖均由D-甘露糖、L-鼠李糖、D-葡萄糖、D-半乳糖、D-...     

Monosaccharide/proton symporter AtSTP1 plays a major role in uptake and response of Arabidopsis seeds and seedlings to sugars

The aim of this study was to investigate the in vivo properties and function of the high-affinity monosaccharide/proton symporter AtSTP1 of Arabidopsis. We isolated an Atstp1 knock-out mutant and found that this plant grows and develops normally. The AtSTP1 gene is expressed in germinating seeds and seedlings, with AtSTP1 activity found mainly in the seedling root. The rate of uptake of [(14)C]-3-O-methylglucose and [(14)C]-D-glucose is 60% less in Atstp1 seedlings than in the wild type, showing that AtSTP1 is the major monosaccharide transporter in Arabidopsis seedlings. Transport of D-galactose and D-mannose is also up to 60% less in Atstp1 seedlings compared to wild type, but transport of D-fructose, L-arabinose and sucrose is not reduced. Germination of Atstp1 seed shows reduced sensitivity to D-mannose, demonstrating that AtSTP1 is active before germination. Atstp1 seedlings grow effectively on concentrations of D-galactose that inhibit wild-type growth, even at up to 100 mM D-galactose, indicating that active transport by AtSTP1 plays a major role at very high concentrations of exogenous sugar. These findings provide insight into the physiological function of AtSTP1 and clearly establish its importance in the uptake of extracellular sugars by the embryo and in seedlings.