Oxidative biotransformation of thioanisole by Rhodococcus rhodochrous IEGM 66 cells

Comparative study of sulfoxidation activity of free and immobilized Rhodococcus rhodochrous IEGM 66 cells was performed. Free Rhodococcus cells (in the presence of 0.1 vol % n-hexadecane) displayed maximal oxidative activity towards thioanisole (0.5 g/l), a prochiral organic sulfide, added after 48-h cultivation of bacterial cells. Higher sulfide concentrations inhibited sulfoxidation activity of Rhodococcus. Use of immobilized cells allowed the 2-day preparatory stage to be omitted and a complete thioanisole bioconversion to be achieved in 24 h in the case that biocatalyst and 0.5 g/l thioanisole were added simultaneously. The biocatalyst immobilized on gel provides for complete thioanisole transformation into (S)-thioanisole sulfoxide (optical purity of 82.1%) at high (1.0-1.5 g/l) concentrations of sulfide substrate.     

Oxazolones as substrates in active site titrations of hydrolases

Active site titrations provide essential information for studies of enzymes, e.g., functional purity and half-site reactivity. The use of a hitherto overlooked class of hydrolase substrates, the oxazolones, for an easy synthesis of reagents possessing desirable properties, e.g., specificity, solubility, and optical parameters, is described. The operational normality may be determined in aqueous media or organic solvents, e.g., dimethyl sulfoxide, which stabilize the enzymes for extended periods at room temperature. Absorbance or fluorescence measurements may be used for detection. The lower limit permitting analyses in this series was found to be 60 pmol of enzyme.     

Separation and purification of xylose oligomers using centrifugal partition chromatography

Xylose oligomers, which have a prebiotic effect, have been used as additives to human and animal food. These oligomers are also the primary intermediate in hemicellulose degradation during the pretreatment of biomass. Centrifugal partition chromatography (CPC) was used in this study to separate and purify xylan-derived oligomers from birchwood xylan. The xylan was partially hydrolyzed to achieve varying degrees of polymerization at 130°C using 0.98% aqueous sulfuric acid for 20 min with a 2.5% solid loading. The CPC solvent system consisting of dimethyl sulfoxide (DMSO), tetrahydrofuran (THF), and water in a 1:6:3 volumetric ratio was used because of its ability to dissolve xylose oligomers of different degrees of polymerization. The CPC was operated in the ascending mode with the water- and DMSO-rich bottom phase acting as the stationary phase, while the THF-rich top phase was the eluent. This paper delineates a method for the production and purification of xylose monomer and xylose oligomers (up to xylopentaose) using CPC. The amount and purity of compounds collected from the CPC fractionation based on 1 g of birchwood xylan were 25.26 mg of xylose at 91.86% purity, 10.71 mg of xylobiose at 85.07% purity, 4.15 mg of xylotriose at 54.71% purity, 5.03 mg of xylotetraose at 38.33% purity and 3.31 mg of xylopentaose at 30.43% purity.     

美观马先蒿根营养成分分析

对秦岭太白山野生植物美观马先蒿根中的氨基酸、蛋白质、还原性糖、总糖及微量元素进行了测试分析。结果表明 :美观马先蒿根中总氨基酸含量为 8 12 5 %、蛋白质含量为 0 5 4%、还原性糖含量为 6 0 7%、总糖含量为 12 70 %以及含有人体必需的微量元素 7种 ,而致癌可疑元素Pb、Cd低于国际控制标准 ,为开发利用这一资源提供营养学依据。     

Isolation and cryopreservation of human peripheral blood monocytes

A modification of the Freundlich and Avdalovic method (J. Immunol. Methods 62, 31 (1983] is reported. Buffy coats, separated and pooled together, are used for isolation of monocytes (70% yield, 100% purity). Cell density of working suspension is increased up to 0.65 X 10(9) cells/75 cm2 surface by multiplication of the active fibronectin sites. For the purpose, cryoprecipitate is used instead of plasma for coating the glass-gelatin surface. Monocytes, isolated by that procedure, could be successfully cryopreserved with dimethyl sulfoxide cryoprotective solution.     

Conformational studies of poly(L-tyrosine). A helix–coil transition in dimethyl sulfoxide–dichloroacetic acid mixtures

Poly(L -tyrosine) is a random coil in dimethyl sulfoxide. Upon addition of dichloroacetic acid, poly(L -tyrosine) undergoes a conformational transition centered at about 10% dichloroacetic acid. The transition is nearly complete at 20% dichloroacetic acid. Further addition of dichloroacetic acid leads to precipitation of poly(L -tyrosine). We have characterized this transition by optical rotation, viscosity, circular dichroism, and infrared. The optical rotation at 350 nm and the intrinsic viscosity increase sharply to values that are consistent with a transition to the α-helix conformation. The circular dichroism of poly(L -tyrosine) in dimethyl sulfoxide and in dimethyl sulfoxide/dichloroacetic acid (80:20 v/v) agrees with previous reports for random-coil and α-helix conformations, respectively. The infrared spectrum of poly(L -tyrosine) in dimethyl sulfoxide/dichloroacetic acid (80:20 v/v) shows no evidence of β-structure. We conclude that the transition on going from dimethyl sulfoxide to 20% dichloroacetic acid in dimethyl sulfoxide is a coil → α-helix transition. The amide-I band of poly(L -tyrosine) in dimethyl sulfoxide/dichloroacetic acid (80:20) is found to be at 1662 cm^?1. It has been suggested that this high frequency may be indicative of a left-handed α-helix. However, this high amide-I frequency is consistent with conformational energy calculations of Scheraga and co-workers. The mechanism of the dichloroacetic acid-induced transition to an α-helix is discussed. Dichloroacetic acid and dimethyl sulfoxide interact strongly and the transition presumably involves a marked decrease in the ability of dimethyl sulfoxide to solvate the peptide backbone and aromatic side chains upon complex formation with dichloroacetic acid.     

pH-Uncontrolled lactic acid fermentation with activated carbon as an adsorbent

In this paper, we presented a novel process involving activated carbon (AC) as an adsorbent for lactic acid fermentation, separation and oligomerization. It was found that pH has a significant effect on the adsorption of lactic acid on AC. The use of AC for in situ removal of lactic acid successfully decreased the inhibitory effect of lactic acid, resulting in significant increases in both productivity and yield. Acetone was used to desorb lactic acid and it was confirmed that the acetone treatment did not decrease the optical purity of the lactic acid, i.e., the optical purity was as high as 99.5% after desorption. Due to the presence of little materials influencing lactic acid oligomerization, oligomers with an optical purity of above 96% and a weight-average molecular weight (M(w)) of 2400 were obtained in the oligomerization process.     

Oxidative biotransformation of thioanisole by <Emphasis Type="Italic">Rhodococcus rhodochrous</Emphasis> IEGM 66 cells

Comparative study of sulfoxidation activity of free and immobilized Rhodococcus rhodochrous IEGM 66 cells was performed. Free Rhodococcus cells (in the presence of 0.1 vol % n-hexadecane) displayed maximal oxidative activity towards thioanisole (0.5 g/l), a prochiral organic sulfide, added after 48-h cultivation of bacterial cells. Higher sulfide concentrations inhibited sulfoxidation activity of Rhodococcus. Use of immobilized cells allowed the 2-day preparatory stage to be omitted and a complete thioanisole bioconversion to be achieved in 24 h in the case that biocatalyst and 0.5 g/l thioanisole were added simultaneously. The biocatalyst immobilized on gel provides for complete thioanisole transformation into (S)-thioanisole sulfoxide (optical purity of 82.1%) at high (1.0–1.5 g/l) concentrations of sulfide substrate.     

Oxidation of tryptophan to oxindolylalanine by dimethyl sulfoxide-hydrochloric acid. Selective modification of tryptophan containing peptides

Tryptophan is readily oxidized to oxindolylalanine (2-hydroxytryptophan) in good yield on treatment in acetic acid solution with a mixture of dimethyl sulfoxide (DMSO) and concentrated aqueous HCl at room temperature. Other sulfoxides can be used in combination with HCl; for example, methionine sulfoxide reacts with an equimolar amount of tryptophan to give high yields of methionine and oxindolylalanine. Methionine and cysteine are quantitatively oxidized by DMSO/HCl to methionine sulfoxide and cystine, respectively. The tryptophan containing peptides LRF (luteinizing hormone-releasing factor), somatostatin, valine-gramicidin A and ACTH 1-24 were each treated with the DMSO/HCl reagent in acetic acid solution and the corresponding oxindolylalanine-derivatives isolated in over 90% yield after chromatography. The identity and purity of the derivatives were established on the basis of ultraviolet spectral characteristics and quantitative amino acid analysis of the oxindolylalanine content of acid hydrolyzates of the oxidized peptides with 3N-p-toluenesulfonic acid at 110 degrees for 24 h. The results indicate that modification of tryptophan peptides with DMSO/HCl provides a useful procedure, which seems superior to previously used reagents. In addition, the method could be well applied to other indoles of biological and pharmacological interest.     

Toxicity of solvents and surfactants to Amblyomma cajennense (Fabricius, 1787) (Acari: Ixodidae) and Dermacentor nitens (Neumann, 1897) (Acari: Ixodidae) larvae

The objective of this work was to verify the sensitivity of Amblyomma cajennense and Dermacentor nitens larvae to the solvents ethanol, methanol, acetone, xylol and dimethyl sulfoxide (DMSO) and the surfactant Tween 80. The first four solvents were tested at analytical purity while the DMSO and surfactant Tween 80 were tested at a concentration of 1%. The substances tested at analytical purity that caused high mortality were also tested at concentrations of 50%, 25% and 1%. The larval packet test was used, with 10 repetitions for each treatment. A control group was also formed with the same number of repetitions, in which the larvae were only exposed to distilled water. In the first experiment, only xylol was highly toxic at the concentrations tested, causing mortality above 90% for larvae of both species. In the second experiment, xylol at 1% and at 25% showed low toxicity to the A. cajennense and D. nitens larvae, respectively, since the percentage mortality was statistically similar to that of the control group (p>0.05).     

Membrane-integrated fermentation system for improving the optical purity of D-lactic acid produced during continuous fermentation

This report describes the production of highly optically pure D-lactic acid by the continuous fermentation of Sporolactobacillus laevolacticus and S. inulinus, using a membrane-integrated fermentation (MFR) system. The optical purity of D-lactic acid produced by the continuous fermentation system was greater than that produced by batch fermentation; the maximum value for the optical purity of D-lactic acid reached 99.8% enantiomeric excess by continuous fermentation when S. leavolacticus was used. The volumetric productivity of the optically pure D-lactic acid was about 12 g/L/h, this being approximately 11-fold higher than that obtained by batch fermentation. An enzymatic analysis indicated that both S. laevolacticus and S. inulinus could convert L-lactic acid to D-lactic acid by isomerization after the late-log phase. These results provide evidence for an effective bio-process to produce D-lactic acid of greater optical purity than has conventionally been achieved to date.     

Cyclic resolution of racemic ibuprofen via coupled efficient lipase and acid-base catalysis

Extracellular lipase LIP prepared in our lab from the yeast Yarrowia lipolytica was used for the resolution of racemic ibuprofen. The (S)-enantiomer was preferred by lipase LIP, and the unreacted (R)-enantiomer was extracted and racemized in basic solvent-water medium to be re-resolved. Solvent, content of solvent, base concentration, and temperature have a strong effect on racemization. The (S)-ester was separated and hydrolyzed to (S)-ibuprofen in acidic dimethyl sulfoxide-water mixture containing 70% dimethyl sulfoxide. The high purity (S)-ibuprofen (ee = 0.98) was obtained using lipase LIP to catalyze hydrolysis of (S)-ester in 0.1 M phosphate buffer (pH = 8).     

Synthesis of l-muscone by asymmetric methylation via enol esters

An effective synthetic route of l-muscone (1) by asymmetric methylation, followed by enolate-trapping to generate enol esters as intermediates, was described. Interestingly, the enol esters can be used as substrates for enzymatic optical resolution to improve optical purity. Additionally, several excellent new chiral ligands were discovered for asymmetric methylation of (E)-cyclopentadec-2-enone to produce l-muscone with high optical purity.     

Optimization of dilution rate, pH and oxygen supply on optical purity of 2, 3-butanediol produced by Paenibacillus polymyxa in chemostat culture

The optimum dilution rate for 2, 3-butanediol (BDL) production by Paenibacillus polymyxa was 0.2 h1 and the optical purity of BDL remained above 98 % at all dilution rates. With decreasing culture pH, ethanol and BDL production increased, whereas the optical purity of BDL decreased to 94 % at pH 5.7. In the chemostat culture at pH 6.3 and a 0.1 h1 dilution rate, the optimum air supply for BDL production was 200 ml min–1 in which the O2 uptake rate was 6.7 mmol l–1 h–1. Under this condition, the optical purity of BDL decreased to 93 %. © Rapid Science Ltd. 1998     

Enantioselective microbial reduction of 3,5-dioxo-6-(benzyloxy) hexanoic acid, ethyl ester

The key chiral intermediate 3,5-dihydroxy-6-(benzyloxy) hexanoic acid, ethyl ester 2a, was made by the stereoselective microbial reduction of 3,5-dioxo-6-(benzyloxy) hexanoic acid, ethyl ester 1. Among various microbial cultures evaluated, cell suspensions of Acinetobacter calcoaceticus SC 13876 reduced 1 to 2a. The reaction yield of 85% and optical purity of 97% was obtained using glycerol-grown cells. The substrate was used at 2 g l⁻¹ and cells were used at 20% (w/v, wet cells) concentrations. The optimum pH for the reduction of 1 to 2a was 5.5 and the optimum temperature was 32°C. Cell extracts of A. calcoaceticus SC 13876 in the presence of NAD⁺, glucose, and glucose dehydrogenase reduced 1 to the corresponding monohydroxy compounds 3 and 4 [3-hydroxy-5-oxo-6-(benzyloxy) hexanoic acid ethyl ester 3, and 5-hydroxy-3-oxo-6-(benzyloxy) hexanoic acid ethyl ester 4]. Both 3 and 4 were further reduced to 2a by cell extracts. Reaction yield of 92% and optical purity of 99% were obtained when the reaction was carried out in a 1-l batch using cell extracts. The substrate was used at 10 g l⁻¹. Product 2a was isolated from the reaction mixture in 72% overall yield. The GC and HPLC area % purity of the isolated product was 99% and the optical purity was 99.5%. The reductase which converted 1 to 2a was purified about 200-fold from cell extracts of A. calcoaceticus SC 13876. The purified enzyme gave a single protein band on SDS-PAGE corresponding to 35,000 daltons.     

Optical enrichment of dansyl-rac-amino acids by formation of crystalline inclusion complexes with cyclodextrins

Optical enrichment from racemic dansyl-leucine, dansyl-norleucine, and dansyl-phenylalanine with both beta- and gamma-cyclodextrins in water is reported. Initial crystallization yielded the dansyl-L-Leucine isomer complexed in excess with beta-cyclodextrin with an optical purity of 62-78% depending on experimental conditions. The optical purities obtained for L-norleucine and L-phenylalanine were 71 and 64%, respectively. The optical purity can be increased with continued recrystallization. The dansyl-D-leucine isomer was obtained in the mother liquor with an optical purity of 54-93% depending on experimental conditions. The optical purities obtained for D-norleucine and D-phenylalanine were 72 and 58%. The optical purity of the isomer depended on the molar ratio of host:guest and the pH value of the solution. Optimum enrichment of both enantiomers was achieved with host:guest ratios of 2:1 and 3:1. Although maximum crystalline yield of the dansyl-leucine/CD inclusion complex was obtained at a pH of 3.5, optical purity of both enantiomers was less than that obtained at other pHs. The influence of the molar ratio of host:guest and the pH value of the solution are discussed. This method is suitable for large-scale enantiomeric separations.     

用木瓜蛋白酶及固定化木瓜蛋白酶拆分DL-苯丙氨酸

为了将手性化合物D-苯丙氨酸和L-苯丙氨酸进行分离,利用木瓜蛋白酶及固定化木瓜蛋白酶催化的方法对其拆分．试验结果表明,用DL-苯丙氨酸合成N-乙酰-DL-苯丙氨酸,得率为88.7％．木瓜蛋白酶、海藻酸钠 壳聚糖固定化木瓜蛋白酶(IPSAC)、尼龙布固定化木瓜蛋白酶(IPN)催化合成N-乙酰-L-苯丙氨酰苯胺时,对催化合成过程影响最大的因素分别是溶液中的离子强度、溶液中的离子强度、反应温度;溶液中的离子强度与pH对合成的影响较大．本试验得出分别用木瓜蛋白酶、IPSAC、IPN催化合成N-乙酰-L-苯丙氨酰苯胺的3个最佳方案;用此3个方案合成时,产率分别为61.2%、54.7%、36.3%．N-乙酰-L-苯丙氨酰苯胺水解生成L-苯丙氨酸,产率59.2%,光学纯度为96.6％．N-乙酰-D-苯丙氨酸水解生成D-苯丙氨酸,产率61.7%,光学纯度为95.7％．     

Mutagenicity of N-nitrosodiethanolamine in the Salmonella/microsome test

Mutagenicity of a commercially available N-nitrosodiethanolamine (NDELA) and purified NDELA was examined, using Salmonella typhimurium TA100 as a tester strain. Purified NDELA was positive in the presence of liver activation system from either rats or hamsters, but the mutagenicity was completely lost when dimethyl sulfoxide (DMSO) was used as a solvent. In contrast, the commercial NDELA which was chemically of 93.8% purity showed positive mutagenicity without metabolic activation, and the liver activation system and DMSO had no effect on the direct mutagenic activity. These results indicate that an apparent discrepancy among previous findings of several investigators with the mutagenic response of NDELA might be due to an impurity in NDELA samples and the solvent, DMSO.     

Anti-Prelog Reduction of Prochiral Carbonyl Compounds by Oenococcus oeni in a Biphasic System

An aqueous-organic biphasic system was established and used with whole cells of Oenococcus oeni to reduce 2-octanone to (R)-2-octanol. The conversion reached 99% when the Tris/borate buffer was increased from 50 mM to 300 mM in the aqueous phase. In addition, the conversion increased as the log P value of the organic solvent changed from 0.5 to 6.6. Under optimized conditions, the conversion of (R)-2-octanol reached 99% from 0.5 M 2-octanone with an optical purity of 99% e.e. The biphasic system allows the anti-Prelog reduction of aliphatic and aromatic ketones to furnish (R)-configurated alcohols in high optical purity as well.     

Enantiomeric oxidation of organic sulfides by the filamentous fungi Botrytis cinerea, Eutypa lata and Trichoderma viride

The biotransformations of a series of substituted sulfides were carried out with the filamentous fungi Botrytis cinerea, Eutypa lata and Trichoderma viride. Several products underwent microbial oxidation of sulfide to sulfoxide with medium to high enantiomeric purity. With regard to sulfoxide enantioselectivity, the (R)-enantiomer was favoured in biotransformations by T. viride and E. lata while the (S)-enantiomer was favoured in those by B. cinerea. A minor amount of sulfone product was also obtained.