Simultaneous Separation and Determination of Benzoic Acid Compounds in the Plant Medicine by High Performance Capillary Electrophoresis

A simple and inexpensive high performance capillary electrophoresis (HPCE) was applied to separate five benzoic acid compounds simultaneously. The investigation was carried out by micellar electrokinetic capillary chromatography (MECC). To avoid a time‐consuming and tedious procedure, orthogonal experimental design OA₉ (3⁴) for separation experiments was applied to find the optimal conditions in terms of the resolution and analytical time. The best conditions for separation were obtained using a 20 mM borax and 30 mM sodium dodecyl sulfate (SDS) buffer (pH 9.8) containing 2 mM β‐CD and 4% methanol (v/v). Online UV detection was performed at 250 nm. A voltage of 16 kV was applied and the temperature was controlled at 25 °C. Injection was performed for 5 s. The method was validated for the quantification of benzoic acid, salicylic acid and ortho‐aminobenzoic acid in Radix Isatidis, a traditional plant medicine with removal of endotoxin. The separation and determination were satisfactory and quick.     

Separation and Determination of Stereoisomeric Impurity of Folinic Acid Diastereomers by CE with Vancomycin as a Selector

A highly sensitive and rapid method was developed that involves capillary electrophoresis for separation and determination of the stereoisomeric impurity of folinic acid diastereomers. In this method, vancomycin was used as the chiral selector, and a solution of poly(dimethylacrylamide) (PDMA) was prepared for dynamic coating of the capillary wall to minimize the adsorption of vancomycin. This method was optimized for six factors including concentrations of the organic modifier and vancomycin, pH and concentration of the background electrolyte, column temperature, and separation voltage. The following conditions were established: 100 mM Tris-phosphate buffer (pH 6.0) containing 1.0 mM vancomycin and 5 % acetonitrile at 30 °C, and −15 kV applied voltage on the PDMA dynamically coated capillary. Preliminary validation was performed with the determination of limit of quantification and detection, accuracy, precision, and linearity. Under our optimized method, the folinic acid diastereomers were baseline-separated within 7.5 min, and a (6S,2′S)-calcium folinate sample with 0.08 % stereoisomeric impurity was determined.

     

Analysis of amino acid neurotransmitters by capillary electrophoresis and laser-induced fluorescence using a new fluorescein-derived label

A capillary electrophoresis laser-induced fluorescence detection method (CE-LIF) was developed for the separation of eight neurotransmitters tagged on their amino function with 6-oxy-(N-succinimidyl acetate)-9-(2′-methoxycarbonyl) fluorescein (SAMF), a new fluorescent reagent synthesized in our lab. Derivatization was performed in boric acid buffer (pH = 7.75) at 37 °C over 15 min. The pH-independent fluorescence of SAMF (pH 4–9) permits background buffers over a wide range of pH. It was demonstrated that an acidic running buffer offers a better resolution compared to basic medium in terms of resolution and peak shapes. Employing Cu²⁺ as the additive, the molecules were baseline-separated using a running buffer consisting of 40 mM sodium acetate and 2 mM Cu²⁺ (pH 6.0). The detection limits ranged from 1 to 2 × 10⁻¹⁰ M. The method has been validated for the characterization of lymphocyte samples. The results obtained illustrate the advantages of combining SAMF derivatization with CE-LIF for determining neurotransmitters.     

Living Polymerization of α‐Amino Acid N‐Carboxyanhydrides (NCA) upon Decreasing the Reaction Temperature

Summary : The n‐hexylamine‐initiated polymerization of N_ε‐trifluoroacetyl‐L ‐lysine N‐carboxyanhydride in N,N‐dimethyformamide was studied by nonaqueous capillary electrophoresis. A polypeptide with a broad molecular weight distribution was obtained and side reactions were clearly identified for polymerization at room temperature. The possibility of living polymerization at 0 °C was demonstrated.

Synthesis of living polypeptides by primary amine initiated polymerization of NCA at low temperatures.     

Chiral capillary electrophoresis with cationic pyrrolidinium‐β‐cyclodextrin derivatives as chiral selectors

New single‐isomer, cationic β‐cyclodextrins, including mono‐6‐deoxy‐6‐pyrrolidine‐β‐cyclodextrin chloride (pyCDCl), mono‐6‐deoxy‐6‐(N‐methyl‐pyrrolidine)‐β‐cyclodextrin chloride (N‐CH₃‐pyCDCl), mono‐6‐deoxy‐6‐(N‐(2‐hydroxyethyl)‐pyrrolidine)‐β‐cyclodextrin chloride (N‐EtOH‐pyCDCl), mono‐6‐deoxy‐6‐(2‐hydroxymethyl‐pyrrolidine)‐β‐cyclodextrin chloride (2‐MeOH‐pyCDCl) were synthesized and used as chiral selectors in capillary electrophoresis for the enantioseparation of carboxylic and hydroxycarboxylic acids and dansyl amino acids. The unsubstituted pyCDCl exhibited the greatest resolving ability. Most analytes were resolved over a wide range of pH from 6.0 to 9.0 with this chiral selector. In general, increasing pH led to a decrease in resolution. The effective mobilities of all the analytes were found to decrease with increasing CD concentration. The optimal concentration for most carboxylic acids and dansyl amino acid was in the range 5–7.5 mM and >15 mM for hydroxycarboxylic acids. ¹H NMR experiments provided direct evidence of inclusion in the CD cavity.     

Conformations of cationized linear oligosaccharides revealed by FTMS combined with in‐ESI H/D exchange

Previously (Kostyukevich et al. Anal Chem 2014, 86, 2595), we have reported that oligosaccharides anions are produced in the electrospray in two different conformations, which differ by the rate of gas phase hydrogen/deuterium (H/D) exchange reaction. In the present paper, we apply the in‐electrospray ionization (ESI) source H/D exchange approach for the investigation of the oligosaccharides cations formed by attaching of metal ions (Na, K) to the molecule. It was observed that the formation of different conformers can be manipulated by varying the temperature of the desolvating capillary of the ESI interphase. Separation of the conformers was performed using gas phase H/D approach. Because the conformers have different rates of the H/D exchange reaction, the deuterium distribution spectrum becomes bimodal. It was found that the conformation corresponding to the slow H/D exchange rate dominates in the spectrum when the capillary temperature is low (~200 °C), and the conformation corresponding to the fast H/D exchange rate dominates at high (~400 °C) temperatures. In the intermediate temperature region, two conformers are present simultaneously. It was also observed that large oligosaccharide requires higher temperature for the formation of another conformer. It was found that the presence of the conformers considerably depends on the solvent used for ESI and the pH. We have compared these results with the previously performed in‐ESI source H/D exchange experiments with peptides and proteins. Copyright © 2015 John Wiley & Sons, Ltd.     

Direct Determination of Barbiturates in Urine by Capillary Electrophoresis Using a Capillary Coated Dynamically with Polycationic Polymers

A new, simple and rapid capillary electrophoresis method, using hexadimethrine bromide (HDB) as electro-osmotic flow modifier, has been developed for the identification and determination of nine barbiturates, barbital acid, barbital, phenobarbital, pentobarbital, amobarbital, thiobarbituric acid, butobarbital, N-methyl-5-phenyl-ethyl barbital acid and 5-cyclohexenyl-5-ethyl barbital acid in urine with UV detection at 200 nm. The applied voltage was ?25 kV and the capillary temperature was kept constant at 25 °C. The effects of buffer pH, the concentration of HDB and the concentration of α-cyclodextrin were studied systematically. Optimum separation was achieved with 20 mM borate buffer at pH 10.00 containing 0.04% (w/v) HDB and 2.06 mM α-cyclodextrin. Regression equations revealed good linear relationship between the peak area of each compound and its concentration. The correlation coefficients were from 0.9990 to 0.9997. The relative standard deviations of migration times and peak areas were <3.84 and 5.45% (intra-day). The nine barbiturates in urine were successfully determined within 7 min, without a prior preparation step and the method is useful for the investigation of intoxication.     

Chiral separation of newly synthesized arylpropionic acids by capillary electrophoresis using cyclodextrins or a glycopeptide antibiotic as chiral selectors

Summary The chiral separation of two newly synthesized arylpropionic acids of pharmaceutical interest, namely 2-[(5′-benzoil-2′-hydroxy)phenyl]-propionic acid (DF-1738y) and 2-[(4′-benzoiloxy-2′-hydroxy)phenyl]-propionic acid (DF-1770y), was performed by Capillary Zone Electrophoresis (CZE) using either cyclodextrins or antibiotics as chiral selectors in coated capillary. In order to optimize the separation, the effect on the migration time and resolution of type and concentration of the chiral selector, the buffer pH and the capillary temperature were studied. Several cyclodextrins, namely the charged 6^A-monomethylamino-β-cyclodextrin (MeNH-β-CD) and the neutral methyl-β-cyclodextrins (M-β-CD) and heptakis-2,3,6-tri-O-methyl-β-cyclodextrin (TM-β-CD), were tested for the enantiomeric separation of aryl propionic acids (APAs) compounds. Of these TM-β-CD provided the highest enantiomeric resolution at pH 5, however only DF-1738y optical isomers were baseline resolved. Using background electrolytes (BGEs) at higher pHs (pH=6–7) supported with the above listed CDs, an enantioresolution increase was recognized only for compound DF-1738y. In contrast DF-1770y exhibited the highest resolution at the lowest pH value studied (pH 4). The macrocyclic antibiotic vancomycin was therefore added to the BGE and tested as chiral selector using the partial filling counter current mode in order to obtain a sensitive analysis, high resolution and reduced antibiotic adsorption on the capillary wall. 5 mM vancomycin dissolved in the BGE at pH 5 and 25°C provided relatively high enantiomeric resolution (R _DF-1738y=3.4,R _DF-1770y=2.22) of both compounds.     

Ligand-exchange chromatography of amino acid enantiomers and its application to the biotransformation of DL-aspartic acid byPseudomonas dacunhae

Summary The separation of the D and L enantiomers of eighteen essential α amino acids has been investigated by ligand-exchange chromatography (LEC). The effect of column temperature on the retention times and resolution of individual amino acid enantiomers has been studied by varying the temperature from 25 to 50 °C for a mobile phase containing Cu²⁺ ions. By use of a temperature of 50 °C and Zn²⁺ in the mobile phase, eight of the eighteen amino acid enantiomers can be resolved sufficiently well for practical application. Only phenylalamine, tyrosine, and tryptophan can be separated by use of Ni²⁺ as complexation metal at 50 °C. LEC has been used to monitor the decarboxylation of racemic DL-aspartic acid byPseudomonas dacunhae. Analysis of DL amino acid enantiomers in different media was performed at column temperatures of 30 and 50°C by addition of 0.125 mM Cu²⁺ to the aqueous mobile phase. It was found that the analytical performance is most dependent on the identity of the metal used for complexation; the concentration of the metal was of secondary importance and the column temperature less important still.     

Optimized hydrolysis and analysis of Radix Asparagi polysaccharide monosaccharide composition by capillary zone electrophoresis

Using orthogonal design, optimized conditions for the hydrolysis of the polysaccharide from Radix Asparagi were determined, as well as its monosaccharide composition. Optimized hydrolysis conditions were a temperature of 100°C in 1.5 M sulfuric acid solution for 5 h. The resulting monosaccharides were derivatized with 1‐phenyl‐3‐methyl‐5‐pyrazolone, then separated by capillary zone electrophoresis in 40 mM sodium tetraborate buffer (pH 10.1), and detected by ultraviolet absorption at 245 nm. Results indicate that the polysaccharide from Radix Asparagi is composed of xylose, arabinose, glucose, rhamnose, mannose, galactose, glucuronic acid, and galacturonic acid, which differs from published findings. Moreover, xylose, glucuronic acid, and galacturonic acid have not been previously reported in Radix Asparagi polysaccharide. This method is simple, fast, and yields a highly efficient separation. As well, these findings can be applied to quality control of Radix Asparagi and for in‐depth study of the biological activity of Radix Asparagi polysaccharide.     

A further study on the chiral separation power of a soluble neutral β-cyclodextrin polymer

Enantiomeric separation of some basic compounds, namely selegiline, amphetamine, and clenbuterol, was studied by capillary electrophoresis using an uncharged β-cyclodextrin polymer added to the background electrolyte at pH 2.5. Both complexation and resolution were influenced by the concentration of the chiral polymer confirming our previous results obtained in our earlier work for a wide number of pharmaceutical compounds. In this further study, we examined the influence of different organic additives to the background electrolyte on the enantioselectivity of the chiral selector, also using an extended number of analytes. In most cases, the use of an organic additive resulted in a decrease of resolution. However opposite to that, in some cases, e.g. ephedrine, the organic solvent proved to be essential to achieve enantiomeric resolution. Furthermore the influence of the capillary temperature on the resolution of the analytes was evaluated. Increase of temperature had a deleterious effect on the resolution of the enantiomers. For ephedrine, however, relatively high temperature (50 °C) proved to be advantageous, for the resolution of the optical isomers.     

Separation and determination of flavone and xanthone glycosides in Tibetan folk medicinal species Swertia mussotii and S. franchetiana by capillary electrophoresis

The contents of five pharmacologically active flavone and xanthone glycosides, namely, swertianolin, swertisin, isoorientin, mangiferin, and 7-O-[α-L-rhamnopyranosyl-(1 → 2)-β-D-xylopyranosyl]-1,8-dihydroxy-3-methoxyxanthone, extracted from Tibetan folk medicinal species Swertia mussotii and S. franchetiana were determined by capillary electrophoresis with diode-array detection. The separation of five components has been optimized with a capillary column with a total length of 48.5 cm and effective length of 40 cm (50 μm i.d). The influence of the running buffer, the sodium dodecyl sulfonate (SDS) concentration, organic modifier, etc. on the resolution was evaluated. The background electrolyte contained 30 mM borate buffer, 28 mM SDS, 1.0% (v/v) acetonitrile, and was adjusted to pH 9.0 with 0.1 M NaOH. A good baseline resolution was obtained for the separation of five components within 5 min with the working voltage of 24 kV and a column temperature of 25°C. The established method was rapid and reproducible for the separation and determination of five flavone and xanthone glycosides from the extracts of S. mussotii and franchetiana plant samples. The text was submitted by the authors in English.     

Simultaneous Determination of Four Major Iridoid Glycosides in Scrophularia ningpoensis by CE

A simple, accurate and reproducible capillary electrophoresis method with UV detection has been developed for the simultaneous determination of four iridoid glycosides, 6-O-methyl-catalpol, aucubin, harpagide, and harpagoside, in Scrophularia ningpoensis (Xuan-shen). The running buffer was 100 mM borate (pH 9.3) containing 20% methanol. Applied voltage was 20 kV and temperature was 25 °C. Diphylloside A was used as an internal standard (IS) and detection was at 200 nm. The effects on separation of buffer pH, buffer concentration, and organic modifiers were investigated. The extracts of S. ningpoensis were well separated within 45 min.

     

Determination of β-(3,4-dihydroxyphenyl) lactic acid, protocatechuic acid and protocatechuic aldehyde in radixSalviae Miltiorrhizae by capillary electrophoresis

Summary The separation and determination of β-(3,4-dihydroxyphenyl) lactic acid, protocatechuic acid and protocatechuic aldehyde in RadixSlviae Miltiorrhizae injection were investigated by capillary zone electrophoresis. With boric acid (200 mmol L⁻¹) adjusted to pH 8.11 as a background electrolyte, 28 kV applied voltage and 30°C thermostating temperature, complete separation of β-(3,4-dihydroxyphenyl)lactic acid, protocatechuic acid and protocatechuic aldehyde was readily achieved within 9 min. Results indicate that capillary electrophoresis promises to be applicable to quality control of radixSalviae Miltiorrhiza injection.     

Determination of Four Phenolic Compounds in Scirpus yagara Ohwi by CE with Amperometric Detection

A method based on capillary electrophoresis with amperometric detection has been developed for the determination of trans-resveratrol, scirpusin A, scirpusin B, and p-hydroxycinnamic acid in the rhizomes of Scirpus yagara Ohwi. The effects of the acidity and the concentration of the running buffer, separation voltage, injection time, and detection potential were investigated to acquire the optimum conditions. The detection electrode was a 300 μm diameter carbon disc electrode at a detection potential of +0.90 V. The four analytes could be well separated within 12 min in a 40 cm length fused silica capillary at a separation voltage of 12 kV in a 50 mM borate buffer (pH 9.2). The relation between peak current and analyte concentration was linear over about three orders of magnitude with detection limits (S/N = 3) ranging from 32.2 to 63.4 μg L⁻¹ for the four analytes.

     

Capillary electrophoresis with capacitively coupled contactless conductivity detection method development and validation for the determination of azithromycin,clarithromycin, and clindamycin

A capillary electrophoresis with capacitively coupled contactless conductivity detection based method for the assay of azithromycin, clarithromycin and clindamycin was optimized and validated in this study. A buffer solution of 20 mM 2‐(N‐morpholino) ethane sulfonic acid, 40 mM l ‐histidine and 0.6 mM cetyltrimethylammonium bromide (pH 6.39) was used for the electrophoresis. An uncoated, bare‐fused silica capillary (total length 60 cm, effective length 32 cm, 75 μm id) was used at 25°C. The sample was injected hydrodynamically at 0.5 psi for 5 s. The electrophoresis was conducted at 30 kV in reverse polarity for 6 min with 3 and 2 min of in‐between sodium hydroxide (0.1 M) and background electrolyte rinsing, respectively. Ammonium acetate was used as internal standard. This simple and robust method showed reasonable limit of detection and limit of quantitation for azithromycin (0.0125/0.03 mg/mL), clarithromycin (0.017/0.03 mg/mL), and clindamycin (0.038/0.06 mg/mL), with good selectivity, precision both intraday (relative standard deviation ≤ 1.0%) and interday (relative standard deviation < 3.7%), linearity (R ² > 0.999) and recovery (99 – 101.7%). The method was successfully applied for the determination of azithromycin, clarithromycin and clindamycin in formulations.     

Analysis of Five Pharmacologically Active Compounds from Rhodiola for Natural Product Drug Discovery with Capillary Electrophoresis

A rapid capillary electrophoresis method for the separation of five natural pharmacologically active compounds from extracted Rhodiola, namely salidroside, tyrosol, rhodionin, gallic acid and ethyl gallate has been developed. The separation of five natural pharmacologically active compounds was carried out in a fused-silica capillary with 14 mM boric acid, 30 mM SDS and 2.5% acetonitrile, adjusted to pH 10.7 with NaOH. Applied potential was 21kV. The temperature of the capillary was maintained at 25 °C by the instrument thermostating system, with the correlation coefficients of 0.9805–0.9989 for migration time, and relative standards of < 3.52% for peak areas. The established method is rapid and reproducible for the separation of five natural pharmacologically compounds from extracts of Rhodiola with satisfactory results.     

Preparation of thermally sensitive poly[N-isopropylacrylamide-co-(maleic acid)] hydrogel membrane by electrospinning using a green solvent

Poly[N-isopropylacrylamide-co-(maleic acid)], poly(NIPA-co-MA), was synthesized by radical polymerization in an aqueous solution composing of 35% mol N-isopropylacrylamide/maleic acid. Poly(NIPA-co-MA) hydrogel nanofibrous membrane was fabricated by electrospinning using ethanol as solvent. The electrospun nanofibers were cross-linked using diethylene glycol as cross-linker, followed by a heat-induced esterification reaction at 145°C. The average diameter of electrospun fibers was 117 ± 33 nm. The hydrogel membrane exhibited a temperature sensitive property. Its minimum and maximum water absorption ratios were 4 ± 0 g g^?1 at 50°C and 17 ± 4 g g^?1 at 34°C, respectively. An equilibrium swelling state of the electrospun membrane was reached within 5 min.     

Microalgae amino acid extraction and analysis at nanomolar level using electroporation and capillary electrophoresis with laser‐induced fluorescence detection

Amino acids play a key role in food analysis, clinical diagnostics, and biochemical research. Capillary electrophoresis with laser‐induced fluorescence detection was used for the analysis of several amino acids. Amino acid labeling with fluorescein isothiocyanate was conducted using microwave‐assisted derivatization at 80°C (680 W) during only 150 s. Good electrophoretic resolution was obtained using a background electrolyte composed of sodium tetraborate buffer (100 mM; pH 9.4) and β‐cyclodextrin (10 mM), and the limits of quantification were 3–30 nM. The developed capillary electrophoresis with laser‐induced fluorescence method was used to analyze amino acids in Dunaliella salina green algae grown under different conditions. A simple extraction technique based on electroporation of the cell membrane was introduced. A home‐made apparatus allowed the application of direct and alternating voltages across the electrochemical compartment containing a suspension of microalgae in distilled water at 2.5 g/L. A direct voltage of 12 V applied for 4 min gave the optimum extraction yield. Results were comparable to those obtained with accelerated‐solvent extraction. The efficiency of electroporation in destroying microalgae membranes was shown by examining the algae surface morphology using scanning electron microscopy. Stress conditions were found to induce the production of amino acids in Dunaliella salina cells.     

METAL ADHESIVE PROPERTIES OF POLYAMIDES HAVING 4,5-DI(1,4-PHENYLENE)-IMIDAZOLEDIYL STRUCTURE

Polyamides were synthesized by the direct polycondensation of aromatic diamines containing 4,5-imidazolediyl structure with aliphatic dicarboxylic acids, and the metal adhesive properties of these polymaides were studied. The inherent viscosity of the obtained polyamides was in the range of 0.28 to 0.71 dl g^?1. The decomposition temperatures (T _ds) of the obtained polyamides were above 400°C and their glass transition temperatures (T _gs) were from 168 to 198°C. These polyamides also showed good solubilities in polar solvents, such as N-methyl-2-pyrrolidone (NMP), N,N-dimethylacetamide (DMAc) and formic acid. A standard tensile test was performed in order to examine the adhesive property of these polyamides for stainless steel, and the obtained polyamides showed excellent tensile strengths, e.g. polyamide P1s derived from 4,5-di(4-aminophenyl)imidazole (DAPI) and sebasic acid had values of 212 kgf cm^?2 at 20°C, 183 kgf cm^?2 at 120°C, and 133 kgf cm^?2 at 180°C. A commercially available epoxy resin was also examined, and showed great tensile strength at 20°C. However, the strength of the epoxy resin was found to decrease with increasing temperature, whereas polyamide having 4,5-imidazolediyl structure retains its strength at temperatures of up to 180°C. In addition, the polyamide was also derived from 4,4″-diamino-o-terphenyl(DAOT) (rather than DAPI) and sebasic acid, and the properties of the polyamides derived, respectively from DAPI and DAOT were compared.