Synthesis of 1-Deoxy-L-rhamnojirimycin and Its Inhibitory Action against α-L-Rhamnosidase

To enhance the storage stability of essential oils such as d-limonene, a mixed powder of β-cyclodextrin and maltodextrin was used to encapsulate the liquid flavor in a powder state. In this study, powdery encapsulation of d-limonene was done by direct kneading of d-limonene with the mixed powder at low water content, using a twin screw kneader. The retention of d-limonene in the periodically sampled powder reached a maximum when the mass ratio of β-cyclodextrin to maltodextrin in the mixed powder equaled unity and the initial molar ratio of d-limonene to β-cyclodextrin was larger than unity. From X-ray diffraction of the powder, it could be guessed that the maximum retention of d-limonene might come from the adsorption of d-limonene upon maltodextrin. The equilibrium retention of d-limonene in the dry powder depended not only upon the mass ratio of β-cyclodextrin to maltodextrin in the mixed powder, but upon the initial moisture content in the powder. The equilibrium retention could be estimated well by a simple calculation.     

Studies of the effect of organic solvents on the stability of β-glucosidase fromFusarium oxysporum

Summary The effect of organic solvents on the stability of -glucosidase in a powder form, isolated fromFusarium oxysporum, has been studied using several organic solvents of different degree of hydrophobicity. It was found that -glucosidase remains quite stable after a prolonged incubation in the presence of most of the organic solvents used, even at temperatures as high as 70°C. Only dimethyformamide (DMF) and tetrahydrofuran (THF) reduce considerably the enzyme activity in a short preincubation period. Studies on the effect of the pH of the buffer used prior to lyophilization, as well as of exogenous added water to the incubation mixture, on enzyme stability show that it is more stable in pH 5.0 and in the lowest water content. In addition it was found that the presence of glucose in the lyophilization procedure gives a significant protection to the enzyme when it is incubated for 30 h in pentanol and n-hexane.     

Reversed-phase ion-pair liquid chromatographic procedure for the simultaneous analysis of S-adenosylmethionine, its metabolites and the natural polyamines

A method using reversed-phase ion-pair liquid chromatography with dual detection was developed for the simultaneous determination of the S-adenosylmethionine (SAM) analogues and the natural polyamines. The separation is obtained with a gradient elution and by adjusting the concentration of octanesulfonic acid used as ion-pairing agent, the ionic strength of the eluent, the pH and the acetonitrile content of the eluents. The SAM analogues are analyzed by UV detection at 254 nm and the polyamines by fluorescence detection after post-column derivatization with o-phthalaldehyde. The method allows the determination of the SAM analogues and the polyamines in one single run by direct injection of tissue extracts. The procedure is applied to the study in rats and in hepatoma tissue culture cells of the biochemical effects of α-difluoromethylornithine, a potent enzyme-activated irreversible inhibitor of ornithine decarboxylase.     

Characterization of a stress-induced,developmentally regulated gene family from soybean

We describe a family of stress-induced, developmentally regulated soybean genes for which cDNAs have been obtained from two different cultivars (Glycine max cv. Mandarin and Glycine max cv. Williams). The mRNAs corresponding to these cDNAs, called SAM22 and H4, respectively, accumulate predominantly in the roots of soybean seedlings but are present at high levels in the roots and leaves of mature plants. SAM22 accumulation is especially dramatic in senescent leaves. In addition, SAM22 accumulation can be induced in young leaves by wounding or by transpiration-mediated uptake of salicylic acid, methyl viologen, fungal elicitor, hydrogen peroxide or sodium phosphate (pH 6.9). Taken together, these data indicate that the genes corresponding to SAM22 and H4 are induced by various stresses and developmental cues. Southern blot analysis indicates that multiple copies of sequences related to SAM22 exist in the soybean genome. We also show that the nucleotide sequences of the cDNAs corresponding to SAM22 and H4 are 86% identical at the nucleotide level to each other and 70% identical at the amino acid level to the disease resistance response proteins of Pisum sativum.     

Determination of a novel indolylpiperazine anti-migraine agent in rat, monkey, mouse and rabbit plasma by high-performance liquid chromatography with electrochemical detection

A specific, accurate, precise and reproducible assay for the quantitation of a novel indolylpiperazine anti-migraine agent (I) in plasma from various animal species is described. The method involves addition of internal standard (I.S.) and 1.0 M sodium carbonate to the plasma sample, vortex-mixing and extraction with ethylene dichloride. The organic layer is then back-extracted in a buffer consisting of 0.1 M tetramethylammonium hydroxide (TMAH), pH 3.0 and 0.1 M (NH₄)₂HPO₄, pH 3.0, in water. The aqueous layer is injected on to a Zorbax cyano analytical column with a mobile phase consisting of acetonitrile, methanol and water (15:5:80, v/v/v) with 0.01 M TMAH, pH 3.0 and 0.01 M (NH₄)₂HPO₄, pH 3.0. The eluate is monitored by electrochemical detection at 0.9 V (guard cell), 0.5 V (detector 1) and 0.8 V (detector 2). The retention times of I and I.S. were 7 and 10 min, respectively. In drug-free control plasma, there were no interfering peaks seen at the retention times of I or I.S. The standard curve was linear over the concentration range of 5–500 ng/ml in rat, monkey, mouse and rabbit plasma. The lower limit of quantitation in all four matrices was 5.0 ng/ml. Within- and between-assay variability of quality control samples was less than 9% relative standard deviation and the predicted concentration of the quality control samples deviated by less than 15% from the nominal concentration. The stability of I was established for up to 36 h in the autosampler tray, up to 10 months in plasma at −20°C and up to 2 h in plasma at room temperature. The assay is validated for determination of I in plasma.     

Formulation,Characterization, and Clinical Evaluation of Microemulsion Containing Clotrimazole for Topical Delivery

The objective of the present study was to formulate and evaluate microemulsion systems for topical delivery of clotrimazole (CTM). The solubility of CTM in various oils was determined to select the oil phase of the microemulsion systems. Pseudoternary phase diagrams were constructed to identify the area of microemulsion existence. Five CTM microemulsion formulations (M1–M5) were prepared and evaluated for their thermodynamic stability, pH, refractive index, droplet size, viscosity, and in vitro release across cellulose membrane. Among the prepared microemulsion formulations, M3 (lemon oil/Tween 80/n-butanol/water) and M4 (isopropyl myristate/Tween 80/n-butanol/water) microemulsion systems were found to be promising according to their physical properties and CTM cumulative percentage release. Gel form of M3 and M4 were prepared using 1% Carbopol 940 as the hydrogel matrix. Both formulations were evaluated in the liquid and gel forms for drug retention in the skin in comparison to the marketed CTM topical cream and their stability examined after storage at 40°C for 6 months. Microemulsion formulations achieved significantly higher skin retention for CTM over the CTM cream. Stability studies showed that M4 preparations were more stable than M3. The in vitro anti-fungal activity of M4 against Candida albicans was higher than that of the conventional cream. Moreover, clinical evaluation proved the efficacy and tolerability of this preparation in the treatment of various topical fungal infections.     

Effects of pH and Light on the Storage Stability of the Purple Pigment,Hordeumin, from Uncooked Barley Bran Fermented Broth

The pigment retention rate of hordeumin was higher than that of two standard anthocyanidins, cyanidin and delphinidin, when hordeumin and anthocyanidins were dissolved in Walpole buffer (pH 1.0) and stored. Moreover, when pigment solutions were stored at 15°C under light irradiation, the pigment retention rate of the hordeumin solution became higher than those of standard anthocyanidins (2 to 10 times) as the storage period increased. Comparing various pH buffers (MacIlvaine buffer, pH 2.2 to 7.0), the pigment retention rate of hordeumin at pH 5.0 was highest. Furthermore, the half-life of hordeumin at pH 5.0 was increased from 9 days to 17.5 days when nitrogen gas was bubbled into the hordeumin solution. We considered that the storage stability of hordeumin is higher than standard anthocyanidins because hordeumin is a complex with anthocyanin, tannin, and protein.     

Efficient production of S-adenosyl-l-methionine from dl-methionine in metabolic engineered Saccharomyces cerevisiae

S-Adenosyl-l -methionine (SAM) is an important small molecule compound widely used in treating various diseases. Although l -methionine is generally used, the low-cost dl -methionine is more suitable as the substrate for industrial production of SAM. However, d -methionine is inefficient for SAM formation due to the substrate-specificity of SAM synthetase. In order to increase the utilization efficiency of dl -methionine, intracellular conversion of d -methionine to l -methionine was investigated in the type strain Saccharomyces cerevisiae BY4741 and an industrial strain S. cerevisiae HDL. Firstly, via disruption of HPA3 encoding d -amino acid-N-acetyltransferase, d -methionine was accumulated in vivo and no N-acetyl-d -methionine production was observed. Further, codon-optimized d -amino acid oxidase (DAAO) gene from Trigonopsis variabilis (Genbank MK280686) and l -phenylalanine dehydrogenase gene (l -PheDH) from Rhodococcus jostii (Genbank MK280687) were introduced to convert d -methionine to l -methionine, SAM concentration and content was increased by 110% and 72.1% in BY4741 (plasmid borne) and increased by 38.2% and 34.1% in HDL (genome integrated), by feeding 0.5 g/L d -methionine. Using the recently developed CRISPR tools, the DAAO and l -PheDH expression cassettes were integrated into the HPA3 and SAH1 loci while SAM2 expression was integrated into the SPE2 and GLC3 loci of HDL, and the resultant strain HDL-R2 accumulated 289% and 192% more SAM concentration and content, respectively, by feeding 0.5 g/L dl -methionine. Further, in a 10 L fed-batch fermentation process, 10.3 g/L SAM were accumulated with the SAM content of 242 mg/g dry cell weight by feeding 16 g/L dl -methionine. The strategies used here provided a promising approach to enhance SAM production using low-cost dl -methionine.     

Role of HemF and HemN in the heme biosynthesis of Vibrio vulnificus under S‐adenosylmethionine‐limiting conditions

Vibrio vulnificus contains two coproporphyrinogen III oxidases (CPOs): O₂‐dependent HemF and O₂‐independent HemN. The growth of the hemF mutant HF1 was similar to wild‐type cells at pH 7.5 under 2% O₂ conditions where HemN was active and had a half‐life of 64 min. However, HF1 did not grow when the medium pH decreased to pH 5.0, where oxidative stress affects endogenous S‐adenosylmethionine (SAM) levels. The growth of HF1 was restored not only by elevating the expression of MnSOD but also through the exogenous addition of SAM. For HF1 to grow under these SAM‐limiting conditions, a mutation arose in hemN, encoding HemN_Y74F. Refolding of the denatured enzymes in vitro revealed that the apparent binding affinity of HemN_Y74F for the cofactor SAM1, which coordinates the 4Fe‐4S cluster, was approximately sixfold higher than that of HemN. The K_m of HemN_Y74F for the co‐substrate SAM2, which provides radicals for CPO reactions, was threefold lower than that of HemN. Thus, affinities for both SAM1 and SAM2 were higher with the Y74F mutation. Taken together, when SAM is limiting, HemN is apparently nonfunctional, and heme synthesis is continued by HemF.     

BEHAVIOUR OF HORSERADISH PEROXIDASE IN AOT REVERSED MICELLES

The activity and stability of horseradish peroxidase (HRP) solubilised in AOT reversed micelles in isooctane and decalin was studied using guaiacol (2-methoxyphenol) as the electron donor.

The activity of the enzyme in both reversed micellar systems increases with the water content until reaching a maximum value that remains fairly constant for water contents higher than 3.05% (v/v) in isooctane and 2.20% in decalin. The effect of pH on the activity profile was studied in the system AOT/isooctane. The enzyme is fully active at pH 7 and 8 for water contents higher than 3.05% (v/v) but it was completely deactivated at pH 9. The effect of surfactant concentration on HRP activity was also investigated. At low water contents a strong dependence was observed, whilst no further activity increase was observed for water content values higher than 2.7% (v/v).

The stability of HRP was found to be strongly dependent on the water content of the system with higher levels of stability obtained for higher values of water content. HRP stability is also affected by the presence of substrates. Whilst the stability increases markedly when the enzyme is incubated with guaiacol, it does not appear to be so strongly affected by the presence of hydrogen peroxide, at the concentrations studied.     

水分梯度下荒漠植物多样性与稳定性对土壤因子的响应

荒漠生态系统多样性的研究对维持荒漠区群落稳定性有着重要意义。以艾比湖流域荒漠植物群落为研究对象,基于野外样方调查数据及实验分析,探讨不同水分梯度下植物多样性与稳定性的变化规律及土壤因子对二者的影响。结果表明：（1）随土壤水分含量下降,Shannon-Wiener多样性指数（H）、Simpson多样性指数（D）、Pielou均匀度指数（J）、Margalef丰富度指数（R）和种群密度稳定性（ICV）指数均呈下降趋势,且当土壤含水量低于4.65%时,荒漠植物多样性与群落稳定性总体显著降低（P<0.05）;（2）不同水分梯度下影响艾比湖流域植物多样性的土壤因子具有差异性,高水梯度为硝态氮与有机质,中水梯度下影响植物多样性的因子为pH,低水梯度为全氮和有机质;（3）仅在环境适宜的情况下,土壤因子（土壤含盐量与有机质）才能对群落稳定性产生显著影响（P<0.01）;（4）三种梯度下,物种多样性均对群落稳定性有显著性影响（P<0.001）,植物多样性与群落稳定性存在正相关关系。     

Effects of pH and light on the storage stability of the purple pigment, hordeumin, from uncooked barley bran fermented broth

The pigment retention rate of hordeumin was higher than that of two standard anthocyanidins, cyanidin and delphinidin, when hordeumin and anthocyanidins were dissolved in Walpole buffer (pH 1.0) and stored. Moreover, when pigment solutions were stored at 15 degrees C under light irradiation, the pigment retention rate of the hordeumin solution became higher than those of standard anthocyanidins (2 to 10 times) as the storage period increased. Comparing various pH buffers (MacIlvaine buffer, pH 2.2 to 7.0), the pigment retention rate of hordeumin at pH 5.0 was highest. Furthermore, the half-life of hordeumin at pH 5.0 was increased from 9 days to 17.5 days when nitrogen gas was bubbled into the hordeumin solution. We considered that the storage stability of hordeumin is higher than standard anthocyanidins because hordeumin is a complex with anthocyanin, tannin, and protein.     

N-Methylation of quinolizidine alkaloids: an S-adenosyl-l-methionine: cytisine N-methyltransferase from Laburnum anagyroides plants and cell cultures of L. alpinum and Cytisus canariensis

An S-adenosyl-l-methionine (SAM): cytisine N-methyltransferase could be demonstrated in crude enzyme preparations from Laburnum anagyroides plants and cell cultures of L. alpinum and Cytisus canariensis. The transferase specifically catalyzes the transfer of a methyl group from SAM to cytisine. The apparent K_m values are 60 mol l^-1 for cytisine and 17 mol l^-1 for SAM. Other quinolizidine alkaloids, e.g. angustifoline and albine, are N-methylated by only 10–15%. The transferase shows a pH optimum at pH 8.5. It is activated by dithioerythritol and inhibited by thiol reagents and Fe²⁺ and Fe³⁺. The reaction product S-adenosylhomocysteine is a powerful inhibitor of the transferase reaction. Cell cultures of L. alpinum which have an active SAM: cytisine N-methyltransferase and which are able to N-methylate exogenous cytisine in vivo, do not accumulate cytisine or N-methylcytisine to a detectable degree.Abbreviations GLC gas-liquid chromatography - SAM S-adenosylmethionine - TLC thin-layer chromatography     

Purification and covalent coupling of calf brain prolidase

We have investigated methods of stabilizing prolidase by chemical modification and covalent coupling to various supports, for use in protein hydrolysis and possible use in enzyme replacement therapy. Purified acetone powder of calf brain prolidase was further purified by gel filtration on Sephadex G-200 and chromatography on DEAE-Sephadex A25. Polyacrylamide gel electrophoresis showed that the number of bands was reduced from 11 to 2. Since yields were low, the purified (NH₄)₂SO₄ fraction was used in all experiments. Thiolation of the enzyme reduced the amount of protein coupled to AH-or CH-Sepharose 4B. Activities were highest when the protein was linked through its carboxyl groups. The coupled enzyme showed much greater thermal stability than its free counterpart. Of the bound preparations, the thiolated was less stable than the untreated. Untreated and thiolated enzymes bound to either matrix showed higher activity at low pH and less at high pH than the free material. Thiolation shifted the pH maximum from 6.8 to 7.5. The free thiolated enzyme and that bound to activated SH-Sepharose 4B showed greater thermal stability and a broader pH range of optimal activity than the bound untreated enzyme. These results show that prolidase can be immobilized by coupling to an insoluble matrix through various types of covalent bonds with retention of activity and increased stability.     

Biosorption of lead by cotton shells powder: Characterization and equilibrium modeling study

Lead (Pb) is a toxic heavy metal causing serious health risks to humans and animals. In the present study, cotton (Gossypium hirsutum L.) shells powder was used as adsorbent for the treatment of synthetic Pb-contaminated water. The batch scale biosorption capacity of cotton shells powder was evaluated to study the effects of Pb concentrations, adsorbent doses and contact time at constant pH (6) and temperature (25?°C). Results revealed that sorption of Pb increased (q?=?0.09–9.60?mg/g) with increasing Pb concentration (1–15?mg/L) and contact time (15–90?min) while decreasing adsorbent dose (1–0.1?g/100?mL). The maximum Pb removal (90%) was achieved at Pb concentration (1?mg/L), contact time (90?min) and adsorbent dose (1?g/100?mL). Freundlich isotherm model proved best fit for Pb sorption (R²?=?0.99). The cotton shells powder has microporous structure confirmed by SEM, and has BET surface area (45 m²/g) and pore size (2.3 µm). These surface moieties along with various functional groups (C-H, C-O, C=O, O-H, S=O) confirmed by FTIR analysis might involve in Pb removal by complexation and ion exchange mechanisms. The cotton shells powder biomass could be considered as promising adsorbent for the removal of Pb from contaminated water.     

Lead Retention by Soils at Field Moisture Contents

The majority of studies pertaining to lead retention by clays and soils have examined the mechanisms, kinetics, and adsorption isotherms using the batch experiment technique that employs solid: water extracts of 1:10 and 1:20. Field soil deposits generally have much lower gravimetric water content ranging between 9 and 45%. Given the wide disparity in the solids: water ratio employed in the batch experiment technique and that prevailing in field deposits, this paper examines the lead retention characteristics of soils at field moisture contents (6%, 13%, and 25%) using artificially lead-contaminated soil specimens. A residually derived (i.e., formed by in-situ weathering of parent rock) red soil was used to prepare the artificially contaminated soil specimens. The impact of variations in clay content on lead retention was examined by diluting the residual soil with various amounts (0 to 60%) of river sand. Soil specimens remolded at 6 and 13% moisture contents produced very stiff to hard soils on compaction, while specimens remolded at 25% moisture content existed in the slurry state. The soil specimens were contaminated with low (30 mg/kg) to high (2500 mg/kg) concentrations of lead ions by remolding them with 160 ppm to 10,000 ppm ionic lead solutions. Lead retention by soils at field moisture contents was determined by extracting the lead from the soil using a water leach test. Experimental results showed that the bulk (71 to 99%) of the added lead was retained by the soil in insoluble form at the field moisture content. Correlations between the amount of lead retained and soil/solution parameters indicated that the amounts of Pb retained at field moisture content is a function of the initial Pb addition, total sand content, effective clay porosity, and soil pH.     

融合蛋白GGH粉针剂制备工艺研究

目的：建立高效液相色谱法测定融合蛋白GGH原料和注射用粉针剂含量的方法,筛选制备粉针剂的辅料和pH,进行6个月的长期稳定性试验。方法：高效液相色谱采用Waters DELTA PAK C18色谱柱,流动相为乙腈和水,梯度洗脱20min,检测波长280nm。根据粉针剂的外形、复溶性、稳定性和活性保留率筛选填充剂及pH。结果：GGH在0.2~1.6mg/ml范围内线性关系良好,可用此方法进行制剂的含量检测;选用4%的甘露醇作为填充剂并调节pH为5.5,可以制备性质较为稳定的GGH冻干粉针剂。结论：可采用含量和纯度检测结合外观性状观察法用于粉针剂的制备工艺筛选,为申报新药提供参考。     

Identification of metallothionein isoforms with capillary zone electrophoresis using a polyacrylamide-coated tube

Metallothionein (MT) isoforms from various liver tissues were separated with capillary zone electrophoresis (CZE) using a polyacrylamide-coated tube at neutral pH. The electrophoresis was performed on MT-1 and MT-2 purified from mouse, rat, rabbit and human livers. The retention times of mouse and rat MT-1 coincided, while the retention times of rabbit and human MT-1 were longer. The retention times of MT-2 purified from the four sources were the same. MT-1 and MT-2 separated more definitely with N-2-hydroxyethylpiperazine-N′-2-ethanesulfonic acid (HEPES)-Tris buffer (25 mM, pH 7.4) than with N-tris(hydroxymethyl)methyl-3-aminopropane sulfonic acid (TAPS)-Tris buffer (25 mM, pH 7.7) or with N-(2-acetamido)iminodiacetic acid (ADA)-Tris buffer (25 mM, pH 7.4). In addition, liver MT isoforms prepared from Zn- or Cd-administered mice could be separated.     

Assay for and enzymatic formation of an ethylene precursor, 1-aminocyclopropane-1-carboxylic acid

A simple and sensitive chemical assay was developed for 1-aminocyclopropane-1-carboxylic acid (ACC), a precursor of ethylene. The assay is based on the liberation of ethylene from ACC at pH 11.5 in the presence of pyridoxal phosphate, MnCl₂ and H₂O₂. This assay was used to detect ACC in extracts of tomato fruits (Lycopersicon esculentum Mill.) and to measure the activity of a soluble enzyme from tomato fruit that converted S-adenosylmethionine (SAM) to ACC. The enzyme had a K_m of 13 M for SAM, and conversion of SAM to ACC was competitively and reversibly inhibited by aminoethoxyvinylglycine (AVG), an analog of rhizobitoxine. The K_i value for AVG was 0.2 M. The level of the ACC-forming enzyme activity was positively correlated with the content of ACC and the rate of ethylene formation in wild-type tomatoes of different developmental stages. Mature fruits of the rin (non-ripening) mutant of tomato, which only produce low levels of ethylene, contained much lower levels of ACC and of the ACC-forming enzyme activity than wild-type tomato fruits of comparable age.Abbreviations ACC 1-aminocyclopropane-1-carboxylic acid - AVG ammoethoxyvinylglycine, the aminoethoxy analog of rhizobitoxine L-2-amino-4-(2-aminoethoxy)-trans-3-butenoic acid - SAM S-adenosyl-L-methionine Michigan Agricultural Experiment Station No. 8876