Measurement of Oligosaccharides Derived from Tamarind Xyloglucan by Competitive ELISA Assay

Xyloglucan oligosaccharides, which were derived from tamarind xyloglucan by cellulase digestion, were measured by a competitive ELISA method using antibodies raised against a complex of BSA and xyloglucan nonasaccharide. By this method, tamarind xyloglucan oligosaccharides could be measured in the range of 0.1 to 40 nmol/well.     

A Novel Cell-Penetrating Peptide Derived from Human Eosinophil Cationic Protein

Cell-penetrating peptides (CPPs) are short peptides which can carry various types of molecules into cells; however, although most CPPs rapidly penetrate cells in vitro, their in vivo tissue-targeting specificities are low. Herein, we describe cell-binding, internalization, and targeting characteristics of a newly identified 10-residue CPP, denoted ECP^32–41, derived from the core heparin-binding motif of human eosinophil cationic protein (ECP). Besides traditional emphasis on positively charged residues, the presence of cysteine and tryptophan residues was demonstrated to be essential for internalization. ECP^32–41 entered Beas-2B and wild-type CHO-K1 cells, but not CHO cells lacking of cell-surface glycosaminoglycans (GAGs), indicating that binding of ECP^32–41 to cell-surface GAGs was required for internalization. When cells were cultured with GAGs or pre-treated with GAG-digesting enzymes, significant decreases in ECP^32–41 internalization were observed, suggesting that cell-surface GAGs, especially heparan sulfate proteoglycans were necessary for ECP^32–41 attachment and penetration. Furthermore, treatment with pharmacological agents identified two forms of energy-dependent endocytosis, lipid-raft endocytosis and macropinocytosis, as the major ECP^32–41 internalization routes. ECP^32–41 was demonstrated to transport various cargoes including fluorescent chemical, fluorescent protein, and peptidomimetic drug into cultured Beas-2B cells in vitro, and targeted broncho-epithelial and intestinal villi tissues in vivo. Hence this CPP has the potential to serve as a novel vehicle for intracellular delivery of biomolecules or medicines, especially for the treatment of pulmonary or gastrointestinal diseases.     

The Ability of Bifidobacteria To Degrade Arabinoxylan Oligosaccharide Constituents and Derived Oligosaccharides Is Strain Dependent

Arabinoxylan oligosaccharides (AXOS) are prebiotic carbohydrates with promising health-promoting properties that stimulate the activity of specific colon bacteria, in particular bifidobacteria. However, the mechanisms by which bifidobacterial strains break down these compounds in the colon is still unknown. This study investigates AXOS consumption of a large number of bifidobacterial strains (36), belonging to 11 different species, systematically. To determine their degradation mechanisms, all strains were grown on a mixture of arabinose and xylose, xylo-oligosaccharides, and complex AXOS molecules as the sole added energy sources. Based on principal component and cluster analyses of their different arabinose substituent and/or xylose backbone consumption patterns, five clusters that were species independent could be distinguished among the bifidobacterial strains tested. In parallel, the strains were screened for the presence of genes encoding several putative AXOS-degrading enzymes, but no clear-cut correlation could be made with the different degradation mechanisms. The intra- and interspecies differences in the consumption patterns of AXOS indicate that bifidobacterial strains could avoid competition among each other or even could cooperate jointly to degrade these complex prebiotics. The knowledge gained on the AXOS degradation mechanisms in bifidobacteria can be of importance in the rational design of prebiotics with tailor-made composition and thus increased specificity in the colon.     

Structures of Oligosaccharides Derived from <Emphasis Type="Italic">Cladosiphon okamuranus</Emphasis> Fucoidan by Digestion with Marine Bacterial Enzymes

A fucoidan-utilizing marine bacterium, Fucophilus fucoidanolyticus, was cultivated in medium containing fucoidan from Cladosiphon okamuranus. The C. okamuranus fucoidan was digested into oligosaccharides with the intracellular enzymes of F. fucoidanolyticus, and their structures were determined by nuclear magnetic resonance analyses. Some of their structures are represented by one general structural formula, (-3L-Fucp1-3L-Fucp(4-O-sulfate)1-3L-Fucp(4-O-sulfate)1-3(D-GlcpUA1-2)L-Fucp1)_m-3L-Fucp1-3L-Fucp(4-O-sulfate)1-3L-Fucp(4-O-sulfate) 1-3L-Fucp (m = 0, 1, 2, or 3). We concluded that all oligosaccharides obtained were derived from a sulfated-fucose-containing polysaccharide of C. okamuranus, which has a repeating unit of (-3L-Fucp1-3L-Fucp(4-O-sulfate)1-3L-Fucp(4-O-sulfate)1-3(D-GlcpUA1-2)L-Fucp1-).     

Preparation of Radioactive Starch, Glucose and Fructose from C14O2

Radioactive starch, glucose and fructose have been preparedfrom tobacco leaves after assimilation of C¹⁴O₂. The apparatusused for photosynthesis consisted of a shallow Perspex leafchamber connected to a closed gas system, in which C¹⁴O₂ wasgenerated from BaC¹⁴O₂. Six leaves, area 14 to 18 sq. dm. whenexposed to bright sunlight with an initial CO₂ concentrationof 8 to 10 per cent., assimilated 3.35 g. of C¹⁴O₂ in 8 to 10hours. At least 80 per cent. of the C¹⁴O₂ supplied appearedin the leaves as starch and sugar and over 80 per cent. of theradioactivity was accounted for in these carbohydrates. Thespecific activity per m. atom of carbon of the isolated productswas 85 to 90 per cent. of that of the C¹⁴O₂. Small amounts ofradioactive carbon were also incorporated in the leaf proteinand in the celluose, hemicellulose and polyuronides.     

Preparative High Performance Chromatography of a Major Browning Compound Derived from Lysine and Glucose

ABSTRACT

A major browning compound derived from lysine and glucose was purified by high performance chromatography on a RP8 column after several extractions in methanol plus acetonitrile. This compound was separated by a main contaminant corresponding to unreacted lysine by extracting the aminoacid after its derivatization with ninhydrin.     

Comparison of Immobilized and Free Amyloglucosidase Process in Glucose SyrupsProduction from White Sorghum Starch

Optimum conditions for glucose syrups production from white sorghum were studied through sequential liquefaction and saccharification processes. In the liquefaction process, a maximum dextrose equivalent (DE) of 10.98 % was achieved using 30 % (w/v) of starch and Termamyl ɑ-amylase from Bacillus licheniformis. Saccharification was performed by free and immobilized amyloglucosidase from Rhizopus mold at 1 % (w/v). DE values of 88.32 % and 79.95 % were obtained from 30 % (w/v) of starch with, respectively, free and immobilized enzyme. The immobilized Amyloglucosidase in calcium alginate beads showed reusable capacity for up to 6 cycles with 46 % of the original activity retained. The kinetic behaviour of immobilized and free enzyme gives K_m value of 22.13 and 16.55 mg mL⁻¹ and V_max of 0.69 and 1.61 mg mL⁻¹ min⁻¹, respectively. The hydrolysis yield using immobilized amyloglucosidase were lower than that of the free one. However, it is relevant to reuse enzyme without losing activity in order to trim down the overall costs of enzymatic bioprocesses as starch transformation into required products in industrial manufacturing. Hydrolysis of sorghum starch using immobilized amyloglucosidase represents a promising alternative towards the development of the glucose syrups production process and its utilization in various industries.     

系列海洋特征性寡糖抗紫外辐射构效关系研究

本文通过测定在紫外光胁迫下系列海洋特征性寡糖——褐藻寡糖、岩藻寡糖和壳寡糖分别对革兰氏阴性、阳性菌的抗辐射保护作用,并结合特征性寡糖的紫外吸收光谱及清除自由基能力初步探讨海洋活性寡糖抗紫外辐射作用机理及同分子量级海洋寡糖链间构效关系。结果表明三种活性寡糖均具有抗紫外线辐射作用,其效果与寡糖浓度呈正相关。三种海洋寡糖,抗辐射效果依次为褐藻寡糖>壳寡糖>岩藻糖。通过构效关系研究表明,抗辐射过程中特征性糖链的双键紫外吸收作用在细菌抗辐射保护过程中起主导作用,而特征性糖链的清除自由基能力具有辅助作用。     

甘露寡糖及壳聚糖对四氧嘧啶致糖尿病小鼠血糖血脂的影响

目的研究甘露寡糖和壳聚糖对四氧嘧啶致实验性糖尿病小鼠血糖、血脂的影响。方法随机选取70只健康小鼠,10只为正常对照组,其余由腹腔注射四氧嘧啶(150mg/kg),建立糖尿病模型,用快速血糖仪测血糖值,血糖值>11.1mmol/L的小鼠则为造模成功小鼠,将造模成功的小鼠随机分成5组,每组各12只。分别为模型对照组,高剂量、低剂量甘露寡糖处理组,高剂量、低剂量壳聚糖处理组。高低剂量分别以400mg/kg和200mg/kg糖溶液进行灌胃,空白组和模型组灌予等体积的生理盐水。12d后测定小鼠血清中血糖(GLU)、总胆固醇(CHO)、高密度脂蛋白胆固醇(HDL-C)和甘油三酯(TG)的浓度。结果甘露寡糖和壳聚糖使糖尿病小鼠的血糖与模型对照组相比有显著的降低,CHO和TG的浓度也显著降低,HDL-C显著升高;且高剂量的甘露寡糖和壳聚糖的降血糖、血脂效果优于低剂量。     

The Oligosaccharides Produced from Sucrose by Dematium pullulans

A tetrasaccharide produced from sucrose by Dematium pullulans was obtained in a crystalline state, and its properties and physical constants were studied. By elementary analysis, molecular weight, tetrazolium test, the Raybin test, aldose value, paper chromatographic examination of partial acid hydrolyzate and enzymic hydrolyzate, periodate oxidation, and molar optical rotation, the crystalline compound was identified as β-fructofuranosyl-1-kestose trihydrate.     

Hexose Accumulation and Turgor-Sensitive Starch Synthesis in Discs Derived from Source versus Sink Potato Tubers

The net total uptake (sum of soluble and insoluble components)of the hexoses, D-glucose and D-fructose, into sink potato (Solanumtuberosum L.) storage parenchyma was biphasic with respect tosubstrate concentration. Analysis of radioactive products revealedthat the biphasic kinetics were composed of a linear, solublecomponent superimposed on saturating starch synthesis. In contrast,in source tuber tissue, there was negligible conversion of D-glucoseto starch and the shape of the kinetic was the result of a biphasicsoluble component. The uptake of D-fructose into source tissuewas linear with respect to substrate concentration. Uptake ofthe non-metabolizable glucose analogue, 3-oxymethyl-D-glucose(3-OMG), into both sink and source tissue, demonstrated biphasickinetics, indicating the presence of a carrier for glucose.The data demonstrate that in sink potato tubers, metabolismgreatly influences apparent uptake kinetics, the kinetics ofstarch synthesis masking the kinetics of hexose transport atthe plasmalemma. Uptake of L-glucose was linear with respectto substrate concentration, an observation consistent with thissugar not being recognized by a carrier. As in the case of sucrose, in sink tuber tissue the conversionof D-glucose and D-fructose to starch was sensitive to turgor,showing a marked optimum in external osmotica containing 300mol m^–3 mannitol. The mechanisms controlling turgor-sensitivestarch synthesis in the potato tuber would, therefore, appearto be common to all three sugars. Key words: Hexose (transport), partitioning, Solanum (source, sink tubers), starch synthesis     

葡寡糖对LPS诱导小鼠氧化应激与炎症反应调节作用的研究

本文研究了低、中、高三种不同聚合度葡寡糖(LGOS、MGOS、HGOS)对小鼠氧化应激与炎症反应的调节,并探讨其可能的作用机制。在采食正常日粮基础上,各组小鼠每日分别灌胃生理盐水、低聚果糖(FOS)、LGOS、MGOS、HGOS。21 d后,腹腔注射脂多糖(LPS)诱导小鼠建立氧化应激与炎症反应模型,分别测定LPS刺激后4 h和18 h时血清和肝脏中活性氧(reactive oxygen species,ROS)水平、总抗氧化能力(total antioxidant ca-pacity,T-AOC)、过氧化氢酶(catalase,CAT)、谷胱甘肽过氧化物酶(glutathione peroxidase,GSH-Px)活性、丙二醛(Malondialdehyde,MDA)含量、肝脏中一氧化氮(NO)含量、一氧化氮合酶(nitric oxide synthase,NOS)活性、血清中白细胞介素1(Interleukin-1,IL-1)和肿瘤坏死因子(tumor necrosis factor,TNF-a)含量。结果表明:三种聚合度葡寡糖均能显著降低LPS刺激小鼠血清、肝脏中ROS水平(P<0.05),降低肝脏中NO含量、T-NOS、iNOS活性、血清中炎性细胞因子(IL-1、TNF-a)含量(P<0.05),显著提高总抗氧化能力(T-AOC)和抗氧化酶(CAT、GSH-Px)活性(P<0.05)。葡寡糖具有保护机体免受氧化损伤,减缓炎症反应的作用,并随着平均聚合度(degree ofpolymerization,DP)的增加,其调节功能逐渐增强。     

Structures of the Oligosaccharides from the Enzymic Hydrolyzate of Rice-straw Arabinoxylan by a Xylanase of Aspergillus niger

A trisaccharide consisting of two d-xylose units and one l-arabinose unit, and a tetrasaccharide consisting of three d-xylose units and one l-arabinose unit were isolated from the hydrolyzate of rice-straw arabinoxylan by the xylanase I produced by Asp. niger.

The structures of the trisaccharide and the tetrasaccharide were determined to be 3¹-α-l-arabinofuranosylxylobiose ([α]_d^? 80°) and 3¹-α-l-arabinofuranosylxylotriose ([α]_d^? 84°), respectively, by chemical and enzymic methods.

According to the structures of two arabinose-xylose mixed oligosaccharides, it was shown that the rice-straw arabinoxylan is composed of chain of 1,4-linked βd-xylopyranose residues and some of xylose residues have side-chain of 1,3-linked α-l-arabinofuranose.     

Ribonuclease Activity of Cationic Structures Conjugated to Lipophilic Groups

Cationic compounds containing benzene ring substituted with the bis‐quaternary salt of diazabicyclo[2.2.2]octane (DABCO) bearing a polymethylene fragment at the bridge positions display ribonuclease activity. Efficacy of the catalysis is affected by geometry of the cationic structures and the size of the attached aliphatic fragment. The cleavage occurs primarily within CA sequences. The compounds do not possess tradition groups participating in the transesterification step of RNA cleavage reaction, therefore a speculative mechanism of cleavage could be inducing a conformational stress on the RNA sugar phosphate backbone providing fragility to phosphodiester bonds.     

Development of Organized Structures in Callus Derived from Explants of Cocos nucifera L.

Clonal propagation of the coconut palm was attempted using tissueculture. Callus initiated from slices of seedling stem and fromthe rachillae of young inflorescences was maintained on agarmedium containing 2,4-D at 10^–4 M. Reduction of the 2,4-Dconcentration over several sub-cultures resulted in the developmentof nodular structures that resemble some of the stages in thedevelopment of the zygotic embryo. Cocos nucifera L., coconut palm, callus, organogenesis, embryogenesis, clonal propagation     

The Pasting and Gel Textural Properties of Corn Starch in Glucose,Fructose and Maltose Syrup

The pasting and gel textural properties of corn starch in syrup at different concentrations were investigated by Rapid Visco Analyzer (RVA) and Texture profile analysis (TPA) tests. The results showed that the pasting temperatures of corn starch greatly increased, especially at higher sugar concentration. Increasing concentration of syrup caused an increase in peak, trough and final viscosity of corn starch. Peak viscosity and the disintegration rate of starch increased in the following order: fructose syrup> maltose syrup> glucose syrup. Increasing syrup concentration to 13%, 25% and 50% resulted in a lower retrogradation rate than the control. When the maltose syrup concentration increased to 50%, the retrogradation rate decreased to 14.30% from 33.38%. The highest hardness was observed when the syrup concentration was 25%. There was a particular low hardness when the concentration of syrup was 50%. The springiness of starch gels in syrup was similar at different concentrations.     

The Effect of Various Culture Media on the Formation of Embryo-like Structures in Cultures Derived from Explants Taken from Mature Larix decidua

The effect of various collection dates and nine different culture media on the formation of ‘embryo-like structures’ (ELS) in cultures derived from explants taken from a 42-year-old Larix decidua tree was studied. The best medium was AFC, a medium low in NH₄⁻, NO₃ ⁺, Mg²⁺ and SO₄²⁻ but high in PO₄³⁻ compared with the concentration of these elements in the other media. On AFC, ELS production reached a peak with collections made in late summer during the period when needle primordia are being initiated. For the other media, collection date had a lesser effect on ELS initiation.     

Cell-Penetrating Peptide Derived from Human Eosinophil Cationic Protein Inhibits Mite Allergen Der p 2 Induced Inflammasome Activation

Newly discovered cell penetration peptides derived from human eosinophil cationic proteins (CPPecp) have the characteristic of cell internalization, but the effect of CPPecp on immunomodulation has not been clarified. House dust mite (HDM) major allergen, Der p 2, can induce proinflammatory cytokine production which contributes to airway inflammation and allergic asthma. However, the mechanism of Der p 2 on NLRP3 inflammasome activation remains unclear. The aim of this study was to investigate the immunomodulatory effect of CPPecp on inhibition of Der p 2 induced inflammasome activation. We showed that proinflammatory cytokines IL-1β, IL-6 and IL-8 were significantly upregulated in peripheral blood mononuclear cells (PBMCs) derived from HDM allergic patients after Der p 2 stimulation. Expression of NLRP3, ASC, Caspase-1, IL-1β and Caspase-1 activity was upregulated in THP-1 cells after Der p 2 stimulation. Proinflammatory cytokine production, NLRP3 inflammasome activation and caspase-1 activity were downregulated in THP-1 cells and CD14+ cells co-cultured with Der p 2 and CPPecp. The immunomodulatory effect of CPPecp was through upregulation of IFN-α production but not induction of autophagy. These results suggested Der p 2 plays an important role in NLRP3 inflammasome activation and CPPecp has the potential to be a novel anti-inflammatory agent for allergic inflammation treatment in the future.