Post-column Derivatization Method Research Articles

Simplified post-column derivatization method for ion chromatography of linear polyphosphates

Until now, chromatographic methods for linear polyphosphate analyses using molybdate or molybdovanadate reagent and colorimetric detection have been based on a two-step derivatization procedure. In this paper, a simplified derivatization method incorporating hydrolysis and colour-forming reaction into a one-step procedure is proposed. The column effluent is mixed with sulphuric acid-molybdovanadate reagent and held at 97-100°C for a precisely calculated time. The chromatographic/derivatization method developed makes it possible to utilize the gradient elution mode, carry out qualitative and quantitative analyses of complex polyphosphate mixtures containing more then 20 homologues, and characterize them by determination of the average chain-length.

Postcolumn derivatization method for determination of reducing and phosphorylated sugars in chicken by high performance liquid chromatography.

A postcolumn derivatization method is described for determination of reducing sugars and phosphorylated reducing sugars from chicken meat and other foods using high-performance liquid chromatography (HPLC). Reducing sugars are extracted with ethanol/water, separated on a Kromasil amine-bonded column by isocratic analysis using acetonitrile/water as the mobile phase, and, after postcolumn reaction with tetrazolium blue, are determined by the resulting absorbance at 550 nm. Phosphorylated sugars are first dephosphorylated using alkaline phosphatase and then determined by the same method.

Post-column oxidative derivatization for the liquid chromatographic determination of phenothiazines

A first post-column chemical derivatization method for the liquid chromatographic determination of phenothiazines is presented. Peroxyacetic acid is introduced as a derivatizing agent for phenothiazines, yielding the colored radical cations or fluorescent sulfoxides, depending on reaction conditions. Both reaction products were successfully employed for the detection of the phenothiazines after their liquid chromatographic separation. The fluorescence spectroscopic detection of the sulfoxides proved to be the more robust and sensitive method. Limits of detection ranged from 4 nM for triflupromazine and trimeprazine to 300 nM for phenothiazine for the fluorescence spectroscopic detection of the sulfoxide and from 0.3 microM for phenothiazine and triflupromazine to 2 microM for trifluperazine for the UV-Vis spectroscopic detection of the radical cation. The calibration functions for the fluorimetric sulfoxide determination ranged from two to more than three decades, starting at the limit of quantification.

The development of reference materials for paralytic shellfish poisoning toxins in lyophilized mussel. I: Interlaboratory studies of methods of analysis

This paper describes the first part of a project undertaken to develop mussel reference materials for Paralytic Shellfish Poisoning (PSP) toxins. Two interlaboratory studies were undertaken to investigate the performance of the analytical methodology for several PSP toxins, in particular saxitoxin (STX) and decarbamoyl-saxitoxin (dc-STX) in lyophilized mussels, and to set criteria for the acceptance of results to be applied during the second part of the project: the certification exercise. In the first study, 18 laboratories were asked to measure STX and dc-STX in rehydrated lyophilized mussel material and to identify as many other PSP toxins as possible with a method of their choice. In the second interlaboratory study, 15 laboratories were additionally asked to determine quantitatively STX and dc-STX in rehydrated lyophilized mussel and in a saxitoxin-enriched mussel material. The first study revealed that three out of four postcolumn derivatization methods and one pre-column derivatization method sufficed in principle to determine STX and dc-STX. Most participants (13 of 18) obtained acceptable calibration curves and recoveries. Saxitoxin was hardly detected in the rehydrated lyophilized mussels and results obtained for dc-STX yielded a CV of 58% at a mass fraction of 1.86 mg/kg. Most participants (14 out of 18) identified gonyautoxin-5 (GTX-5) in a hydrolysed extract provided. The first study led to provisional criteria for linearity, recovery and separation. The second study revealed that 6 out of 15 laboratories were able to meet these criteria. Results obtained for dc-STX yielded a CV of 19% at a mass fraction of 3.49mg/kg. Results obtained for STX in the saxitoxin-enriched material yielded a CV of 19% at a mass fraction of 0.34mg/kg. Saxitoxin could not be detected in the PSP-positive material. Hydrolysis was useful to confirm the identity of GTX5 and provided indicative information about C1 and C2 toxins in the PSP-positive material. The methods used in the second interlaboratory study showed sufficiently consistent analysis results to undertake a certification exercise to assign certified values for STX and dc-STX in lyophilized mussel.

Biosynthesis of high specific activity35S-glutathione

The biosynthesis of high specific activity 35S-glutathione was carried out using a diploid strain of baker's yeast—“Saccharomyces cerevisiae”. Yeast cells were grown in a synthetic medium in which sodium 35S-sulphate was supplemented as sole sulphur source. During growth, a major fraction of the radioactivity was incorporated into the protein as 35S-methionine and 35S-cysteine. After the growth of yeast, the cell wall was broken using a cell disrupter and the free 35S-glutathione present was separated from protein and other sulphur containing compounds by chromatographic procedures. The specific activity of the 35S-glutathione was determined by hydrolysing into its constituent amino acids and quantifying them using an amino acid analyser employing a post-column orthophthaldehyde derivatization method, followed by radioactivity assay of 35S-cysteine. The overall radiochemical yield of 35S-glutathione was 5%. The radiochemical purity of the product was found to be greater than 95% and its specific activity, greater than 1000 Ci/mmol when sodium 35S-sulphate having a specific activity of 1200 Ci/mmol was used as the starting material Copyright © 2000 John Wiley & Sons, Ltd.

The first evidence of paralytic shellfish toxins in the freshwater cyanobacterium Cylindrospermopsis raciborskii, isolated from Brazil

The blooms of toxic cyanobacteria (blue-green algae) are causing problems in many countries. During a screening of toxic freshwater cyanobacteria in Brazil, three strains isolated from the State of Sao Paulo were found toxic by the mouse bioassay. They all were identified as Cylindrospermopsis raciborskii by a close morphological examination. Extracts of cultured cells caused acute death to mice when injected intraperitoneally after developing neurotoxic symptoms which resembled to those caused by paralytic shellfish toxins. The analysis of the sample by HPLC-FLD postcolumn derivatization method for paralytic shellfish toxins resulted in the detection of several saxitoxin analogs. To avoid being misled by false peaks, the sample was reanalyzed after purification and also under the different postcolumn derivatizing conditions. Finally, the newly developed LC-MS method for paralytic shellfish toxins was applied to unambiguously identify the toxins. One isolate produced neosaxitoxin predominantly with saxitoxin as a minor component. The other two showed identical toxin profiles containing saxitoxin and gonyautoxins 2/3 isomers in the ratio of 1:9. This is the first evidence of paralytic shellfish toxins in this species and also the occurrence of the toxin producing cyanobacterium in South American countries.

High-performance liquid chromatographic separation of kyotorphin, a basic Tyr-Arg dipeptide, in rat brain tissue and quantification using fluorimetric detection.

Two HPLC procedures based on sample derivatization at the N-terminal Tyr moiety with agents yielding fluorescent derivatives were applied to the selective and sensitive detection as well as quantification of the basic kyotorphin, Tyr-Arg dipeptide, in rat brain tissue. The first one is a post-column fluorescence derivatization method, whereby the peptides extracted from the brain tissue are separated on an octadecylsilyl-silica gel column, followed by on-line fluorescence derivatization for detection. The other one is a pre-column derivatization method, where the extracted peptides are first reacted with fluorogenic agents at the N-terminal Tyr moiety to their corresponding fluorescent derivatives, subsequently separated on an octadecyl-poly(vinyl alcohol) copolymer gel column, and signal responses are measured fluorimetrically. Both methods permitted the quantification of the synthetic kyotorphin added to the rat brain tissues. The concentration range of kyotorphin-like biogenic peptide was 60-100 pmol/g in the cortex, striatum and hypothalamus tissues.

Protein Cross-linking by the Maillard Reaction: ISOLATION, CHARACTERIZATION, AND IN VIVO DETECTION OF A LYSINE-LYSINE CROSS-LINK DERIVED FROM METHYLGLYOXAL

The Maillard reaction, initiated by nonenzymatic glycosylation of amino groups on proteins by reducing sugars, has been studied for its potential role in aging and the complications of diabetes. One of the major consequences of the advanced Maillard reaction in proteins is the formation of covalently cross-linked aggregates. The chemical nature of the cross-linking structures is largely unknown. Recently, methylglyoxal has been shown to be a potential glycating agent in vivo and suggested to be a common intermediate in the Maillard reaction involving glucose. Methylglyoxal can form enzymatically or nonenzymatically from glycolytic intermediates and by retro-aldol cleavage of sugars. Its elevation in tissues in diabetes and its high potency to glycate and cross-link proteins led us to investigate the chemical nature of its advanced Maillard products. Using an approach in which a synthetic model peptide was reacted with methylglyoxal, we isolated and purified a cross-linked peptide dimer. Characterization of this dimer revealed that the peptides are linked through epsilon amino groups of lysine residues. The actual cross-link was shown to be a methylimidazolium, formed from the reaction of two lysines and two methylglyoxal molecules. We have named this cross-link imidazolysine. Imidazolysine was detected in proteins by high performance liquid chromatography using a postcolumn derivatization method. Proteins incubated with methylglyoxal showed a time-dependent formation of imidazolysine. Quantification of imidazolysine in human serum proteins revealed a significant increase (p < 0.05) in diabetic samples (mean +/- S.D., 313.8 +/- 52.7 pmol/mg protein) when compared with normal samples (261.3 +/- 50.4). These values correlated with glycohemoglobin (p < 0.05). These results provide chemical evidence for protein cross-linking by dicarbonyl compounds in vivo.

Ion Chromatographic Separation of Rare-Earth Elements Using a Nitrilotriacetate-Type Chelating Resin as the Stationary Phase

The chromatographic retention behavior of rare-earth elements (REEs) on a chelating resin having a nitrilotriacetate group (NTA gel) was evaluated. The capacity factors for a series of REEs on the NTA gel were in fairly good agreement (R(2) = 0.978) with the stability constants of the corresponding NTA complexes. The NTA gel was applied to the column stationary phase for the ion chromatographic separation of REE. A favorable separation of a series of REEs was achieved within 15 min using a gradient elution of nitric acid. The separated REE ions were detected using the postcolumn derivatization method with chlorophosphonazo III as a colorization reagent. The present chromatographic system, interfaced with inductively coupled plasma mass spectrometry, was applied for the simultaneous determination of 14 REEs.

Determination of 5-hydroxytryptophol in urine by high-performance liquid chromatography: Application of a new post-column derivatization method with fluorometric detection

The aim of the present study was to develop a high-performance liquid chromatographic (HPLC) method for determination of the serotonin metabolite 5-hydroxytryptophol (5HTOL) in human urine. 5HTOL was liberated from its conjugated form by enzymatic hydrolysis and isolated by a sample clean-up procedure on a small Sephadex G-10 column. The eluate was injected onto an isocratically eluted C18 reversed-phase column and 5HTOL was converted into a fluorescent oxazole derivative by on-line post-column reaction with benzylamine in the presence of potassium hexacyanoferrate(III). The limit of detection was about 10 nM and the intra-assay coefficients of variation were below 4% with urine samples and standard solutions. The results indicate that the method can be used as a screening method to discriminate between normal and elevated levels of total (free + conjugated) 5HTOL in urine.

Urinary excretion of NG-dimethylarginines in multiple sclerosis patients: preliminary observations

The concentrations of NG,N'G-dimethylarginine [Me2(sym)Arg] and NG,NG-dimethylarginine [Me2(asym)Arg] were determined in the urine samples from multiple sclerosis (MS) and control subjects, using a highly sensitive HPLC post-column o-phthaldialdehyde derivatization method. The presence of approximately equal amounts of both dimethylarginine isomers, of Arg concentration nearly half of Me2Arg, and of the undetectable amount of NG-monomethylarginine were the characteristic urinary excretion pattern in all human samples studied. The urinary excretion of Me2(asym)Arg and Me2(sym)Arg from MS (n = 9) and control (n = 7) were analyzed: the mean values from the samples were approximately 20% (for all MS) and 33% (for chronic-progressive MS) lower than those from the control for both dimethylarginine-derivatives when compared to the respective compounds. Although there were contrasting trends between controls and MS patients in the relationship of urinary NG-dimethylarginines and myelin basic protein like material (MBPLM), the correlations were not significant. Differences in the ratios of the concentrations of the two dimethyl derivatives, Me2(sym)Arg/Me2(asym)Arg, were not significantly different between MS and control groups. These findings warrant further investigation of possible links between urinary excretion of NG-dimethylarginine and MBPLM in MS. The possible significance of myelin metabolism in relation to urinary NG-dimethylarginines in MS is discussed.

Evaluation of a Complexation Solid-Phase Extraction Method for Eliminating Interferences Caused by Metal Ions in the Determination of Fluoride Ion in Water.

Although ion chromatography is known as a good separation method for inorganic ions, some interference arises from co-eluting substances, such as borate, silicate, formate and acetate, in the determination of fluoride ion . For eliminating these interferences, postcolumn derivatization methods with lanthanum-ALC (Alizarin complexone), 8-hydroxyquinoline sulfonate and Xylenol Orange have been reported.

Fluorogenic reactions for biomedical chromatography.

A number of fluorogenic reactions, which have been used for HPLC detection systems by means of pre- and/or postcolumn derivatization, are surveyed with respect to both sensitivity and selectivity for the determination of biomedically important substances. For the derivatization of the substances, two types of fluorogenic reactions, fluorescence-generating and fluorescence-tagging, have been studied. The former are usable in most instances for both pre- and postcolumn derivatization methods, and the latter only for precolumn derivatization methods. HPLC methods utilizing the fluorogenic reactions allow analytes to be detected at picomole-subfemtomole levels. In the fluorescence-generating reactions, several fluorogenic reagents possessing two or more reactive sites in the molecule, which show molecular recognition for a variety of analytes, permit facile and reproducible detection in HPLC because there are fewer interferences from biological matrices.

Derivatization reactions applicable to pesticide determination by high-performance liquid chromatography.

The literature dealing with HPLC analytical methods for pesticides employing derivatization reactions is reviewed. Included are methods for insecticides, acaricides, nematicides, antimicrobials, herbicides and a rodenticide. Derivatization reactions are employed mainly for the purpose of increasing sensitivity or selectivity for the UV or, more frequently, fluorescence detectors. Of the pre-column and post-column derivatization methods reviewed, post-column methods are the more commonly used.

Determination of cisplatin and cis-diammineaquachloroplatinum(II) ion by liquid chromatography using post-column derivatization with diethyldithiocarbamate

A post-column derivatization method has been developed for the determination of cisplatin and its monohydrated form. Cisplatin was isolated on a strong anion-exchange column, while a strong cation-exchange column was used for the monohydrated complex. Diethyldithiocarbamate was used as reagent and the influence of temperature, pH and methanol content on the yield of derivative was investigated. The reaction was quantitative using a packed-bed reactor with a surrounding temperature of 115 degrees C and a mobile phase consisting of 0.125 M succinic acid-sodium hydroxide buffer pH 5.2 and methanol (2:3, v/v). The resulting complex, Pt(DDTC)2, was monitored photometrically at 344 nm. The precision of the determination was 11.5% (C.V.) at an injected amount of 20 ng (n = 12) for monoaqua and 8.0% (C.V.) at 9 ng (n = 10) for cisplatin. The method was used to evaluate the plasma concentration of cisplatin and its monohydrated form in a patient.

Neurotransmitters in the nervous system of Macoma balthica (Bivalvia)

The distribution of histamine-, octopamine-, gamma-aminobutyric acid- (GABA) and taurine-like immunoreactivity in the bivalve mollusc Macoma balthica was studied immunocytochemically with antisera produced in rabbits. Histamine levels in the ganglia and whole animals were also measured by high-performance liquid chromatography using a postcolumn derivatization method. Immunoreactivity for these substances, except for taurine, is found in the central nervous system of this species. The most extensive neuronal system is revealed with the antiserum against histamine. All the main ganglia contain histamine-immunoreactive cell bodies, and a dense network of nerve fibers is seen in the ganglia and nerve roots. Histamine-immunoreactive nerve fibers project to the mantle edge, lips and oesophagus. The basal part of the inhalant siphon is rich in histamine-immunoreactive fibers. Unlike histamine, octopamine- and GABA-like immunoreactivities are restricted to the central nervous system. Taurine-like immunoreactivity is not found in the nervous system of this species. In the nervous system, histamine-immunoreactive cell bodies and fibers are more numerous than those that are octopamine- and GABA-immunoreactive. The distribution of these substances in the ganglia is different. GABA-immunoreactive cells are typically smaller than most of the histamine- and octapamine-immunoreactive cells. Most GABA- and octopamine-immunoreactive cells and fibers are located in the pedal ganglion. Histamine is distributed more evenly in the ganglia and nerve roots. The biochemical measurements of histamine correlate well with the immunohistochemical findings and confirm the predominant location of the amine in the nervous tissue. These results suggest that histamine is more widespread than some other putative transmitters, and support the concept that histamine may have an important role in many physiological processes in molluscs.

High-performance liquid chromatography of histamine and 1-methylhistamine with on-column fluroescence derivatization

An on-column fluorometric derivatization method was developed for the determination of histamine and 1-methylhistamine (HMs) by high-performance liquid chromatography. The system for the derivatization consisted only of a commercially available single-plunger pump and a reversed-phase C18 column supported on synthetic polymer with a mobile phase of acetonitrile and alkaline borate buffer solution containing o-phthalaldehyde as a derivatization reagent. It required no additional reaction system as for a post-column derivatization method. Injected HMs might be derivatized to a fluorophore on the inlet site of the high-performance liquid chromatographic column, followed by chromatography on the same column. Optimization of the on-column reaction conditions resulted in a simple and sensitive analytical method for the determination of HMs with excellent reproducibility and linearity of 0.05-5 micrograms/ml of both HMs. Application of this method to the determination of HMs in food samples resulted in a limit of quantification of 0.05 mg/100 g and in a greater than 95% overall mean recovery at a fortification of 0.1 mg/g of both HMs. This method was furthermore applicable to the determination of histamine released from rat peritoneal mast cells.

Deamidation and succinimide formation by γ- N-methylasparagine: Potential pitfalls of amino acid analysis

The biological function of the post-translationally methylated amino acid gamma-N-methylasparagine (gamma-NMA) in proteins is unknown. We are examining the premise that amide methylation protects against deamidation. The free amino acids Asn, gamma-NMA, Gln, and delta-N-methylglutamine (delta-NMG) were incubated at elevated temperature and a variety of pH conditions to assay for deamidation. Gln disappears 12- to 14-fold more rapidly than delta-NMG, and Asn hydrolyzes to Asp and NH3 as expected. However, the gamma-NMA deamidation rate is severely overestimated by simply measuring the disappearance of starting material because gamma-NMA undergoes a cyclization reaction in preference to deamidation. At pH 1 the predominant gamma-NMA reaction is formation of stable 3-amino-N-methylsuccinimide (NMS) and this occurs greater than 10-fold faster than Asn deamidation. At pH 4.0, 7.4, and 9.0 NMS is readily formed but it is unstable and partitions between the parent compound, gamma-NMA, and a second species, alpha-N-methylasparagine. At pH 7.4 and 9.0 gamma-NMA disappears 4-fold slower than Asn but the methyl amide hydrolysis rate is diminished by as much as 13-fold. The Asn incubations over the pH range 1-9 yield scant evidence of a succinimide intermediate. It is concluded that the amide methylation provides a unique reaction pathway and stabilization for the N-methylsuccinimide species. Amino acid analysis by o-phthalaldehyde postcolumn reaction fails to detect isoasparagine, alpha-N-methylasparagine, and NMS. Amino acid analysis by precolumn derivatization with phenyl isothiocyanate destroys NMS and therefore cannot quantitate this compound. The ninhydrin postcolumn derivatization method is able to detect and quantitate all of these amino acid species.

Simultaneous Determination of Catecholamine-Related Compounds by High Performance Liquid Chromatography with Postcolumn Chemical Oxidation Followed by a Fluorescence Reaction

A simple separation method involving isocratic elution and a selective postcolumn derivatization method involving chemical oxidation followed by a fluorescence reaction are described regarding a simultaneous high performance liquid chromatographic determination of catecholamines (three species) and their precursor (one species) and metabolites (nine species, all in the free form). These compounds, isoproterenol and 3,4-dihydroxyphenylpropanoic acid, are separated by ion-pair reversed-phase chromatography using a mixture of citrate buffer (pH 2,5) containing sodium octanesulfonate and methanol; they are then oxidized with periodate to the corresponding o-quinones, which are converted into fluorescent derivatives by reactions with meso-1,2 Hliphenylethylenediamine. The detection limits (S/N=3, on column) vary from 15 to 570 fmol, depending on the compounds.

A Hydroxyproline‐Containing Protein from Shark Brain That Is Related to Myelin Basic Protein

Myelin basic protein (MBP) from shark (Chondricthyes) consists of a simpler mixture of charge isomers than human MBP. About two-thirds of the total amount applied to a CM-52 cellulose cation-exchange column was recovered in the unbound fraction of the column; the remaining one-third bound to column and was eluted as a single OD280 peak. This bound material did not sow the usual pattern of charge microheterogeneity found with human or bovine MBP. The unbound fraction was composed of a high molecular weight protein (55-60 kDa), which constituted most of this protein fraction and a low molecular weight protein (approximately 18 kDa). The amino acid composition of our unbound fraction was similar to that reported earlier. The Glx (glutamic acid + glutamine) was increased about threefold whereas the Arg content was only about 25% of that of the 18.5 kDa variant of bovine or human origin. The presence of hydroxyproline (1.2 residues/100) in this protein was noteworthy, identification of which was achieved by amino acid analysis in two different systems and by mass spectrometry. In the precolumn derivatization method, hydroxyproline eluted at 2.7 min; in the postcolumn derivatization method it eluted at 12.2 min. Identification of hydroxyproline was completed by fast atom bombardment-mass spectral analysis. The effect of hydroxyproline on the secondary structure of this protein is being studied. Verification that this high molecular weight protein contained MBP sequences within its primary structure was confirmed by immunological methods.(ABSTRACT TRUNCATED AT 250 WORDS)