Liquid chromatography and postcolumn indirect detection of glyphosate.

Glyphosate [N-(phosphonomethyl)glycine] and its metabolite aminomethylphosphonic acid (AMPA) were separated and detected by a postcolumn indirect detection strategy. Separation can be done on a cation-exchange column, where glyphosate elutes before AMPA, or on an anion-exchange column, where the elution order is reversed. Detection was achieved by using a fluorescent Al(3+)-morin postcolumn reagent. When the postcolumn reagent combines with the column effluent in a mixing tee, the fluorescence decreases in the presence of both analytes. Variables affecting the postcolumn indirect fluorescence detection were established and optimized; the major factors were postcolumn pH and volume and temperature of the postcolumn reaction coil. Detection limits, defined as three times the background noise, for glyphosate and AMPA separated on an anion-exchange column were 14 and 40 ng, respectively.     

Postcolumn reactor using a laser-drilled capillary for light-emitting diode-induced fluorescence detection in CE

This study investigated a novel postcolumn reactor for fluorescence detection in CE. A laser-drilled capillary, with an aperture made by laser ablation, was used for mixing derivatization reagents with the analytes separated by CZE. The derivatization reagents, o-phthaldialdehyde (OPA), and 2-mercaptoethanol, were introduced into the capillary through the aperture and reacted with the analytes after CZE separation. High voltages were applied to both the inlet reservoir and the reservoir filled with the derivatization reagents. Thus, the flow rate of the derivatization reagents was controlled by the electric potential that was applied to the reservoir of the derivatization reagents. A UV light-emitting diode was used as an excitation light source for the fluorescence detection of OPA derivatives. A commercially available tee connector was compared with the laser-drilled capillary. The results implied that the dead volume of the laser-drilled capillary was less than that of the tee connector, since the laser-drilled capillary suppressed band broadening more efficiently. The LODs for amino acids were determined to be approximately 5 microM. The method was applied to the determination of amino acids in a Japanese beverage.     

Determination of etoposide phosphate intermediates by gradient liquid chromatography using postcolumn derivatization with cuprammonium hydroxide

Allyl 4,6-O-ethylidene-beta-D-glucopyranoside is an intermediate used in the synthesis of etoposide phosphate, a water-soluble derivative of the antineoplastic drug etoposide. In this paper, a method for the determination of allyl 4,6-O-ethylidene-beta-D-glucopyranoside and related glucopyranosides is described. Samples are analyzed by gradient high-performance liquid chromatography using postcolumn derivatization with cuprammonium hydroxide. The method is used to monitor the ethylidenation reaction of allyl beta-D-glucopyranoside with acetal to form allyl 4,6-O-ethylidene-beta-D-glucopyranoside. Samples are chromatographed on an octadecyl-bonded phase column with aqueous acetonitrile. Triethylamine is added to the mobile phase to accelerate mutarotation and suppress anomeric separations. The column effluent is mixed via a postcolumn tee with cuprammonium hydroxide and monitored with ultraviolet detection at 310 nm.     

Postcolumn derivatization of amino acids using reaction flow chromatography columns with fluorescence detection: A fast new approach to selective derivatization techniques

Reaction flow (RF) chromatography with fluorescamine reagent and fluorescence detection (FLD) was used for the analysis of amino acids. The performance of RF chromatography was tested against several optimized conventional postcolumn derivatization (PCD) methods. RF columns achieved greater sensitivity compared to conventional PCD methods, without the need for reaction loops, which resulted in more efficient separations. The RF-PCD method also achieved limits of detection (LOD) from the low picomole to subnanomole range. The calibration data of the RF-PCD technique yielded R²?≥?0.99 and % relative standard deviation in peak areas ranging from 0.34% to 5%. Through reaction flow chromatography, multiplexed detection was also achieved allowing the monitoring and analysis of derivatized and nonderivatized flow streams simultaneously.     

Fraction collection in micropreparative capillary zone electrophoresis and capillary isoelectric focusing

A new fraction collection system for capillary zone electrophoresis (CZE) and capillary isolelectric focusing (CIEF) is described. Exact timing of the collector steps was based on determining the velocity of each individual zone measured between two detection points close to the end of the capillary. Determination of the zone velocity shortly before collection overcame the need for constant analyte velocity throughout the column. Consequently, sample stacking in CZE with large injection volumes as well as zone focusing in CIEF could be utilized with high collection accuracy. Capillaries of 200 microm inner diameter (ID) were employed in CZE and 100 microm ID in CIEF for the micropreparative mode. A sheath flow fraction collector was used to maintain permanent electric current during the collection. The bulk liquid flow due to siphoning, as well as the backflow arising from the sheath flow droplet pressure, were suppressed by closing the separation system at the inlet with a semipermeable membrane. In the CZE mode, the performance of the fraction collector is demonstrated by isolation of individual peaks from a fluorescently derivatized oligosaccharide ladder. In the CIEF mode, collection of several proteins from a mixture of standards is shown, followed by subsequent analysis of each protein fraction by matrix-assisted laser desorption/ionization time-of-flight mass spectrometry (MALDI-TOF-MS).     

A continuous-flow,microfluidic fraction collection device

A microfluidic device is presented that performs electrophoretic separation coupled with fraction collection. Effluent from the 3.5 cm separation channel was focused via two sheath flow channels into one of seven collection channels. By holding the collection channels at ground potential and varying the voltage ratio at the two sheath flow channels, the separation effluent was directed to either specific collection channels, or could be swept past all channels in a defined time period. As the sum of the voltages applied to the two sheath flow channels was constant, the electric field remained at 275 V/cm during the separation regardless of the collection channel used. The constant potential in the separation channel allowed uninterrupted separation for late-migrating peaks while early-migrating peaks were being collected. To minimize the potential for carryover between fractions, the device geometry was optimized using a three-level factorial model. The optimum conditions were a 22.5° angle between the sheath flow channels and the separation channel, and a 350 μm length of channel between the separation outlet and the fraction channels. Using these optimized dimensions, the device performance was evaluated by separation and fraction collection of a fluorescently labeled amino acid mixture. The ability to fraction collect on a microfluidic platform will be especially useful during automated or continuous operation of these devices or to collect precious samples.     

还原性负离子的间接荧光检测离子色谱法

采用４个铈柱后反应和３价铈荧光检测的离子色谱法分离维生素Ｃ,亚硝酸根,硫代硫酸根,亚硫酸根,草酸根和碘离子６种还原性负离子,同时也给出了使用这种方法的一些最佳条件。     

Homogeneous fluorescent derivatization of large proteins

A method of homogeneously derivatizing large proteins for highly sensitive analysis is described. Homogeneity of the derivative was realized by tagging all the free amino groups of proteins. With this method, alpha-chymotrypsinogen A, ovalbumin and bovine serum albumin were derivatized with 6-aminoquinolyl-N-hydroxysuccinimidyl carbamate (AQC). Prior to the derivatization, all the proteins were reduced and alkylated. After reacting the resulting unfolded proteins with excessive amounts of AQC, the samples were analyzed with matrix assisted laser desorption ionization-time of flight-mass spectrometry (MALDI-TOF-MS) to determine the derivatization degree. The results indicated that all three proteins had been, or had almost been, fully derivatized. HPLC and CE were used for characterizing these protein derivatives. Under the optimized fluorescence detection conditions, the detectability of the tagged proteins was 2400-6200 times better than that detected at UV 280 nm, 170-300 times better than detected at UV 214 nm, and 150-420 times better than measured with their native fluorescence.     

Indirect fluorimetric detection of proteins via postcolumn mixing with fluorescence probe in size-exclusion chromatography

Summary Proteins were visualized by postcolumn mixing with 2-p-toluidinyl-6-naphthalene sulfonate or 1-anilino-8-naphthalene sulfonate in size-exclusion chromatography. The indirect detection is based on fluorescence enhancement of the fluorescence probe owing to hydrophobic interaction with proteins. Bovine serum albumin gave the highest signal intensity among the proteins examined.     

Studies on steroids. CCLII. Separation and characterization of 3-oxobile acids in serum by high-performance liquid chromatography with fluorescence detection

The separation of unconjugated and glycine- and taurine-conjugated bile acids with a C-3 oxo group has been carried out by high-performance liquid chromatography on a reversed-phase column. The chromatographic behaviour of these 3-oxobile acids was dependent on the number and positions of hydroxyl groups and the structure of the side-chain. The newly developed method has been applied to the characterization of 3-oxobile acids in biological fluids. The bile acid fraction was obtained from a serum specimen by passing it through a Sep-Pak C18 cartridge. 3-Oxobile acids were derivatized quantitatively to fluorescent oximes through the oxo group by treatment with O-(2-anthrylmethyl)hydroxylamine. The derivatives were separated into the unconjugated and glycine- and taurine-conjugated fractions by ion-exchange chromatography on a lipophilic gel, piperidinohydroxypropyl Sephadex LH-20. Subsequent resolution of each fraction into individual 3-oxobile acids was achieved by chromatography on a Nova-Pak Phenyl column using 3% methanol in 0.3% potassium phosphate buffer (pH 7.0)-acetonitrile (8:5, v/v) as the mobile phase. The derivatized 3-oxobile acids were monitored by fluorescence detection (excitation wavelength 260 nm and emission wavelength 405 nm), the limit of detection being 20 fmol. Glycine- and taurine-conjugated 7 alpha,12 alpha-dihydroxy- and 7 alpha-hydroxy-3-oxo-5 beta-cholanoic acids in human serum were unambiguously idenitified on the basis of their chromatographic behaviour using mobile phases of different pH values.     

Identification of some polycyclic nitrogen-containing compounds in coal-derived oil

A systematic method for the identification of aza-arenes in coal-derived oil was developed. The basic nitrogen-containing substances were extracted with 6 M hydrochloric acid and fractionated sequentially by using gel chromatography and thin-layer chromatography (TLC) on an alumina plate. The aza-arenes in these fractions were separated by using glass capillary gas chromatography. Individual compounds in the column effluent were trapped in a system consisting of a valve for flow switching and a trapping tube made from a glass capillary. The fluorescence spectra of nanogram to subnanogram amounts of trapped compounds were measured. Some attempts were made to identify components based on their TLC RF values and their fluorescence spectra, in addition to their mass spectra.     

High-performance liquid chromatographic determination of peptides in biological fluids by automated pre-column fluorescence derivatization with fluorescamine

Peptides containing a free alpha- or epsilon-amino group react with fluorescamine under mild alkaline conditions to generate a highly fluorescent but unstable reaction product and, consequently, practical high-performance liquid chromatographic (HPLC) approaches to analysis have typically involved the use of postcolumn derivatization. An automated precolumn approach is reported in which peptides are reacted with fluorescamine just prior to HPLC analysis by a commercially available autoinjector with derivatization capabilities. The autoinjector added base and fluorescamine reagent solutions to a sample vial containing peptide analytes, and the derivatization reaction was allowed to proceed for 5 min at room temperature prior to injection into the HPLC system. The derivatized peptides were analyzed by reversed-phase HPLC with fluorescence detection (excitation at 390 nm; emission 470-nm cut-off filter) on an octylsilica column. Optimization of the precolumn reaction conditions and the use of narrower HPLC columns (2 mm I.D.) resulted in a typical on-column detection limit of 30-50 fmol of peptide, which was substantially lower than that in previously reported post-column methods. This approach was applied to the HPLC of several naturally occurring and synthetic peptides containing alpha- and epsilon-amino groups. In combination with solid-phase extraction, prior to automated precolumn fluorescence derivatization and chromatographic analysis, the methodology was used for the determination of a synthetic growth hormone-releasing peptide in plasma samples.     

Electrophoretic behavior of individual nuclear species as determined by capillary electrophoresis with laser-induced fluorescence detection

We determined the feasibility of using capillary electrophoresis with postcolumn laser-induced fluorescence (CE-LIF) detection to characterize electrophoretic properties of isolated cell nuclei and impurities present in nuclear fractions. These fractions were isolated from NS-1 mouse hybridoma cells, stained with hexidium iodide, a DNA intercalating dye, and analyzed by CE-LIF detection. The corresponding electropherograms display two features: (i) broad peaks (6-90 s wide) caused by the cell culturing media and by free-DNA intercalated with hexidium iodide, and (ii) a large number of narrow peaks (180 ms wide), resulting from DNA associated with individual intact or disrupted nuclei. We confirmed that the narrow peaks were not caused by contaminating mitochondria. The overall electrophoretic mobility range of disrupted nuclei is 0 to -5 x 10(-4)cm(2)/Vs, while intact nuclei seem to have mobilities in the -1.5 to -3.5 x 10(-4)cm(2)/Vs range. Furthermore, the highly sensitive CE-LIF method reveals a high abundance of disrupted nuclei that cannot be directly observed by confocal microscopy.     

Preparation of a butyl–silica hybrid monolithic column with a “one-pot” process for bioseparation by capillary liquid chromatography

A butyl–silica hybrid monolithic column for bioseparation by capillary liquid chromatography (cLC) was prepared with butyl methacrylate and alkoxysilanes through a “one-pot” process. The effects of polycondensation temperature, volume percentage of N,N′-dimethylformamide, and content of cetyltrimethylammonium bromide and butyl methacrylate on the morphologies of the hybrid monolithic columns prepared were investigated in detail. Baseline separations of proteins and small peptides on the hybrid monolithic column were achieved by cLC with gradient elution. In addition, the resulting hybrid column was also applied for analysis of tryptic digests of bovine serum albumin by cLC coupled with tandem mass spectrometry. The results demonstrate its potential application in separation of complex biological samples.     

Postcolumn derivatization of proteins in capillary sieving electrophoresis/laser‐induced fluorescence detection

The separation methods for proteins with high resolution and sensitivity are absolutely important in the field of biological sciences. Capillary sieving electrophoresis (CSE) is an excellent separation technique for DNA and proteins with high resolution, while LIF permits the most sensitive detection in CSE. Therefore, proteins have to be labeled with fluorescent or fluorogenic reagent to produce fluorescent derivatives. Both precolumn and oncolumn derivatization have been employed for the labeling of proteins in CSE. However, there is no report on the postcolumn derivatization due to the limitation in the use of a standard migration buffer, despite it being a promising method for sensitive detection of proteins. Here, we show a novel postcolumn derivatization method for protein separation by CSE, using a tertiary amine as a buffer component in the running buffer. Tris, which is commonly used as a base in CSE separation buffers, was substituted by tertiary amines, 2‐(diethylamino)ethanol and triethanolamine. A buffer solution containing 2‐(diethylamino)ethanol or triethanolamine can be used for the CSE separation followed by the postcolumn derivatization of proteins, since both reagents are unreactive toward a fluorogenic labeling reagent, naphthalene‐2,3‐dicarbaldehyde. Thus, LIF detection using the postcolumn derivatization permits significant reduction in the LOD (by a factor of 2.4–28) of proteins, compared with conventional absorbance detection.     

Indirect fluorescence detection of amino sugars with the use of copper complexes of tryptophan and its analogues following high-performance liquid chromatographic separation

A simple, indirect fluorescence detection method has been developed for detecting specific mono-amino sugars (D-glucosamine, D-galactosamine, D-mannosamine) following chromatographic separation. The eluting amino sugars release L-tryptophan (L-Trp) from a copper-tryptophan complex which is introduced postcolumn. Analyte detection is based on measuring the increase in L-Trp fluorescence, which is quenched when complexed with copper. Two tryptophan analogues, 5-hydroxy-L-tryptophan (5-HTP) and DL-5-methoxytryptophan (5-MTP), were also evaluated as postcolumn reagents. 5-MTP was found to be a suitable alternative to L-Trp for the detection of these mono-amino sugars. Detection limits for D-glucosamine, D-galactosamine, and D-mannosamine are in the range of 0.15-0.30 nmol injected.     

Simultaneous analysis of monosaccharides and oligosaccharides by high-performance liquid chromatography with postcolumn fluorescence derivatization

To develop a fluorimetric HPLC technique for the simultaneous microanalysis of reducing mono- and oligosaccharides, the technique of linear gradient elution was introduced into the postcolumn fluorimetric detemination system of reducing saccharides with benzamidine. Fluorescence measurement was performed at 288 nm for excitation and 470 nm for emission and an optimization study for this postcolumn fluorescence derivatization carried out. Under optimum conditions, the detection limits of D-glucose and maltohexaose were 1.78 and 2.59 pmol, respectively. The present method was successfully applied to saccharide analysis and should prove useful for automated simultaneous microanalysis of reducing mono- and oligosaccharides in foods.     

DNA purification on a lab-on-valve system incorporating a renewable microcolumn with in situ monitoring by laser-induced fluorescence

Bead injection in a lab-on-valve (LOV) system was adopted for DNA purification via micro solid-phase extraction (SPE) with a renewable silica microcolumn packed in a channel of the LOV unit. The complex matrix components in human whole blood, including proteins, were well eliminated by choosing properly the sample loading and elution media. The DNA purification process was monitored on-line by using laser-induced fluorescence in a demountable side part of the LOV unit incorporating optical fibers. The practical applicability of the entire system was demonstrated by separation/purification of λ-DNA in a simulated matrix and human blood genetic DNA by performing SPE, in situ monitoring of the purified products, and postcolumn PCR amplification. When DNAs in a simulated matrix (10.0 ng μl⁻¹ λ-DNA, 50 ng μl⁻¹ bovine serum albumin, 1.0% Triton X-100) were processed in the present system and laser-induced fluorescence was monitored at 610 nm, an overall extraction/collection efficiency of 70% was achieved by employing identical sample loading and an elution flow rate of 0.5 μl s⁻¹, along with a precision of 3.8% relative standard deviation. DNA separation and purification from human whole-blood samples were performed under similar conditions. Figure Lab-on-valve mesofluidic system employed for DNA separation and purification integrating a demountable fluorescence flow cell for in-situ laser induced fluorescence detection     

Pulsed flow modulation comprehensive two-dimensional gas chromatography

Pulsed flow modulation (PFM) is based on higher flow rate time compression of the first GC column effluent, which prior to the injection into the second column is stored for a few seconds in a standard fused silica wide bore transfer line. We constructed the PFM device with two standard 1/16 in. brass compression fittings with the insertion of the two columns inside the wide bore 0.53 mm i.d. fused silica storage transfer line for the elimination of dead volumes. This simple arrangement provides a combination of flexibility in the length of the sample storage transfer line hence comprehensive two-dimensional gas chromatography (GC x GC) cycle time, inert sample path and full elimination of cooling gas consumption. A record short second column injection time of 20 ms is demonstrated. Practical injection times are the sample collection time (such as 4s) divided by the second to first column flow rate ratio (such as 20/0.7), which is typically around 150 ms. Due to the low cost of the device it can also be considered for use with non comprehensive time segmented GC x GC to remove a few accidental coelutions. PFM-GCxGC excels with high second column capacity due to the use of 0.32 mm i.d. columns with high flow rates as the second dimension GC x GC column. As a result, PFM-GCxGC can have up to two orders of magnitude higher second column sample capacity and linear dynamic range for improved reduction of adverse matrix interference effects due to column overloading.     

Postcolumn fluorescence as an alternative to evaporative light scattering detection for ceramide analysis with gradient elution in non-aqueous reversed-phase liquid chromatography

Ceramide analysis was developed with gradient elution in non-aqueous reversed-phase liquid chromatography with evaporative light scattering detection (ELSD) or postcolumn fluorescence detection. Fluorescence detection (excitation, 360 nm; emission, 425 nm) after postcolumn formation of mixed assemblies between eluted ceramides and 1,6-diphenyl-1,3,5-hexatriene was developed. In comparison with ELSD, fluorescence detection allows a better detection of the minor species ceramide from ceramide type III (commercial mixture of non-hydroxy fatty acid-sphingosine) and appears to be more sensitive for quantitation of ceramides at low concentrations. The fluorescence response is linear over a wide range of injected amount of ceramide III (expressed as stearoyl-phytosphingosine): 10 ng to 1000 ng. The response of ELSD is non linear but can be linearized in double logarithmic coordinates for calculations over a narrow range, e.g. between 10 to 350 ng ceramide III injected. The lower quantitation limits of these two detectors are similar: 5 ng ceramide III was injected.