Liquid Chromatographic-Fluorescence Determination of Ammonia from Nitrogenase Reactions: A 2-Min Assay

The analytical potential of the reaction of ammonia with o-phthalaldehyde mercaptoethanol reagent at pH 7 (an atypical fluorescence) has already been demonstrated. This, coupled with additional findings reported here, has led to an ammonia determination well suited to nitrogenase studies. As a result, large numbers of samples can be rapidly analyzed by high-pressure liquid chromatrography methods under mild conditions and without prior microdiffusion. Neither sodium dithionite (or other components of the usual nitrogenase assay), nor alternative substrates (cyanide, azide, methyl isonitrile), nor their products (methylamine, dimethylamine, hydrazine) interfere. High-pressure liquid chromatography showed that the fluorescent “product” of the o-phthalaldehyde mercaptoethanol reagent-ammonia reaction was, in fact, more than just a single compound. Despite this, once the proper solvent composition was found, high-pressure liquid chromatography with a small inexpensive C₁₈ “guard” column proved quite fast and reproducible for this measurement. Fluorescence response to ammonia was linear to at least 40 nmol/ml. A previous problem, long-term stability of the fluorescence, was solved by running the reactions in the dark. Background ammonia in the buffer could be substantially reduced by an analogous o-phthalaldehyde mercaptoethanol reagent reaction, using t-butyl mercaptan, and solvent extraction.     

Fluorometric quantitation of amino sugars in the picomole range.

A fluorometric method has been developed for the convenient and quantitative assay of amino sugars over the concentration range of 10 nm to 6 mm. Linear results are obtained for reaction mixtures containing 6 pmol to 60 nmol hexosamine. The procedure involves the condensation of amino sugars with the fluorogenic reagent o-phthalaldehyde, at alkaline pH in the presence of 2-mercaptoethanol. Relative fluorescence intensities are then determined using excitation and emission wavelengths of 340 and 455 nm, respectively. The presence of 2-mercaptoethanol in reaction mixtures not only enhanced sensitivity of the assay, but also defined the excitation/emission spectra. Under the conditions described, amino acids were also found to react with o-phthalaldehyde, yielding fluorescence intensities similar to those of amino sugars. These results suggest the applicability of fluorescence techniques in automated amino sugar analyses, as well as the potential interference of other compounds containing primary amines.     

A manual subtractive end-group determination of oligopeptides using fluorescamine or o-phthalaldehyde

A new method for the end-group determination of peptides using the fluorogenic reagents fluorescamine or o-phthalaldehyde is described. The method is based on the property that the derivatives of the N-terminal amino group of peptides formed in solution after reaction with either reagent are resistant to acid hydrolysis. The N-terminal amino acid can be determined by simply comparing the amino acid analysis of the original peptide with the fluorescent derivative of the peptide. In general, the decrease of the N-terminal residue in the reacted peptides in 80–90% with fluorescamine and more than 90% with o-phthalaldehyde. Any N-terminal amino acid, with the exception of proline, can thus be determined.     

An automated assay for brain serotonin

This communication describes an automated assay for brain serotonin. The assay is an adaptation of a commonly used manual assay which utilizes the reaction of o-phthalaldehyde with serotonin to develop fluorescence (2). In the automated assay the samples to be analyzed were mixed with 7.5 N HCl and o-phthalaldehyde in the presence of reduced glutathione, heated at 80°C, cooled and their fluorescence recorded. Linearity with respect to serotonin was demonstrated from 0 to at least 5 μM, and the lower limit of sensitivity was 0.7 ng serotonin (0.4 ml of 0.01 μM). The % error (standard deviation times 100 divided by the mean) was always 2% or less. The specificity was studied, and the assay was applied to the measurement of rat brain serotonin levels by demonstrating an increase in brain serotonin levels after pargyline treatment and a decrease after reserpine treatment.     

Fluorimetric urease inhibition assay on a multilayer microfluidic chip with immunoaffinity immobilized enzyme reactors

We fabricated a three-layer polydimethylsiloxane (PDMS)-based microfluidic chip for realizing urease inhibition assay with sensitive fluorescence detection. Procedures such as sample prehandling, enzyme reaction, reagent mixing, fluorescence derivatization, and detection can be readily carried out. Urease reactors were prepared by adsorption of rabbit immunoglobulin G (IgG) and immunoreaction with urease-conjugated goat anti-rabbit IgG. Acetohydroxamic acid (AHA) as a competitive inhibitor of urease was tested on the chip. Microfluidically generated gradient concentrations of AHA with substrate (urea) were loaded into urease reactors. After incubation, the produced ammonia was transported out of reactors and then reacted with o-phthalaldehyde (OPA) to generate fluorescent products. Urease inhibition was indicated by a decrease in fluorescence signal detected by microplate reader. The IC₅₀ value of AHA was determined and showed good agreement with that obtained in microplate. The presented device combines several steps of the analytical process with advantages of low reagent consumption, reduced analysis time, and ease of manipulation. This microfluidic approach can be extended to the screening of inhibitory compounds in drug discovery.     

The use of the o-phthalaldehyde reaction as a sensitive assay for protein and to determine protein in bacterial cells and dental plaque

Alkaline hydrolysis of protein followed by reaction with o-phthalaldehyde has permitted the determination of less than 10 ng of protein fluorometrically. When intact proteins were analyzed with o-phthalaldehyde the reaction was less sensitive. This reaction has been applied to analysis of the protein content of dental plaque and bacterial cells.     

Automated fluorometric amino acid analysis: the determination of proline and hydroxyproline.

A fluorometric method for the automated determination of the imino acids proline and hydroxyproline has been developed. The assay is based on the postcolumn reaction of the imino acids with alkaline sodium hypochlorite, which yields oxidation products amenable to detection with fluorogenic amine reagents. The method is simple and can be adapted readily to high-sensitivity amino acid analyzers which use o-phthalaldehyde for detection. As little as 10 pmol proline and 20 pmol hydroxyproline can be determined accurately. Thus the full array of natural imino and amino acids can now be determined on a high-sensitivity amino acid analyzer using o-phthalaldehyde.     

An improved method for the determination of γ-carboxyglutamic acid in proteins,bone, and urine

A method of high-performance liquid chromatographic separation of the fluorescence derivative of γ-carboxyglutamic acid (Gla) is presented. Alkaline hydrolysates of protein samples were reacted with o-phthalaldehyde in the presence of ethanethiol for 2 min, and the fluorescence derivative of γ-carboxyglutamic acid was resolved from the other amino acids by a short column packed with silica-based anion exchanger under isocratic conditions. By this method, as low as 200 fmol of γ-carboxyglutamic acid can be quantitatively analyzed within 10 min. The method presented here shortened the analysis time for Gla and was at least 10 times more sensitive than the method we described previously (Anal. Biochem.117, 259–265, 1981). The application of this method to the formic acid-soluble or insoluble γ-carboxyglutamic acid-containing proteins in chicken bone and the concomitant increase of γ-carboxyglutamic acid content in chicken bone with age are reported.     

High-sensitivity amino acid analysis: methodology for the determination of amino acid compositions with less than 100 picomoles of peptides

Highly sensitive methodology is described for the determination of amino acid compositions of picomole quantities of peptides using an automated fluorescence amino acid analyzer with o-phthalaldehyde as the detection agent. All commonly occurring amino acids, including cystine, proline, and tryptophan, can be quantitated. High sensitivity is primarily achieved by using simple procedures which effectively and reliably reduce the level of interfering contamination present in buffers and reagents or introduced during sample handling. Accurate and reproducible amino acid compositions are obtained with 50 pmol or less peptide.     

Determination of gentamicin in bovine milk using liquid chromatography with post-column derivatization and fluorescence detection

A method capable of separating and quantifying the three major and one minor components of gentamicin in milk has been developed. The method is capable of detecting 15 ng/ml gentamicin, based on a total of the four components. Milk samples are centrifuged at 4°C, the fat layer removed, and the samples deproteinated with 30% trichloracetic acid. After a second centrifugation, the supernatant is passed through a C₁₈ solid-phase extraction column. The column is washed with water, water-methanol (50:50) and methanol. Ammonium hydroxide (16%) in methanol is used to elute the gentamicin. The eluent is evaporated to near dryness and taken up with water. An aliquot of the sample is then mixed with an ion-pairing reagent for chromatography. Separation is achieved using pentanesulfonic acid in a water-methanol mobile phase on a C₁₈ reversed-phase column. The o-phthalaldehyde fluorescence derivatives of gentamicin are formed post-column and are detected with excitation at 340 nm and emission at 430 nm. The percent recovery of gentamicin averaged 72, 78 and 88% from milk samples fortified at 15, 30 and 60 ng/ml, respectively.     

Colorimetric assay of chitosan in presence of proteins and polyelectrolytes by using o-phthalaldehyde

A novel approach of colorimetric quantification of chitosan based on the derivatization reaction of its primary amino groups with o-phthalaldehyde and a thiol – N-acetyl-l-cysteine has been developed. The reaction of equal volumes of sample solution and the reagent solution was allowed to proceed for 1 h, and then the absorbance values were measured at 340 nm against the reference solution. The procedure conditions have been optimized for chitosan assay in the presence of polyanionic electrolyte dextran sulphate (pH 8.9, the reagent solution: 4.0 mM o-phthalaldehyde, 2.6 mM N-acetyl-l-cysteine, 0.25 M NaCl). The method has proven to be convenient and reliable for quantitative determination of either the concentrations of chitosans of various molecular weights or their degree of deacetylation. The different reactivity of chitosans and proteins can be used in order to determine chitosan in presence of the protein. This approach ensured accurate assay within the chitosan concentrations ranging from 0.01 to 0.15 mg/ml and could be applied for quantitative analysis of chitosan in protein-loaded microparticles.     

A study of the methods available for the cytochemical localization of histamine by fluorescence induced with o-phthalaldehyde or acetaldehyde

Synopsis Methods for the histochemical localization of histamine were investigated, tissues and models being exposed to vapours ofo-phthalaldehyde, acetaldehyde, or glutaraldehyde and afterwards examined by fluorescence microscopy. Acetaldehyde and glutaraldehyde induce fluorescence in histamine models, but the method is not sufficiently sensitive for use in tissues. A modification of theo-phthalaldehyde method, giving improved reliability, is described in detail and some results in rat and dog stomach are presented.     

Biological and biomedical applications of isoelectric focusing : edited by N. Catsimpoolas and J. Drysdale, Plenum Press, New York, XV + 351 pp., Price US$ 39.00, ISBN 0-306-34603-6

An accurate, improved cation-exchange chromatographic method using o-phthalaldehyde and ultraviolet detection at 280 nm for the determination of free polyamines (putrescine, spermidine, spermine) has been developed. Different samples, such as the 105,000 g supernatant of reticulocyte or heart muscle, and KCl ribosomal wash containing initiation factors, can be analysed. The minor modification of reagents results in a good precision and sensitivity, which is demonstrated by a relative standard deviation of 5–9% and recoveries of 98%. This technique is of particular interest because it allows polyamine determination in biological samples with high concentrations of salt.     

A simple quantitative method for the determination of 3-fluorotyrosine substitution in proteins

A rapid quantitative method is described for determining 3-fluorotyrosine incorporation into proteins. Derivatives of tyrosine and 3-fluorotyrosine with o-phthalaldehyde are well separated from one another by a reverse-phase high-performance liquid chromatography system used for routine analyses of o-phthalaldehyde-amino acid derivatives. Since both amino acids are well resolved from all other derivatized amino acids, the method is useful for amino acid analyses of proteins. Determination of the fluorotyrosine content of proteins by this method involves a single separation step, is reproducible, and requires no corrections for stability or yield. Further, the o-phthalaldehyde derivatives of 5-fluorotryptophan, 2-fluorophenylalanine, 3-fluorophenylalanine, and 4-fluorophenylalanine can also be resolved. The method may be generally applicable to fluorinated aromatic amino acid-labeled proteins that are studied structurally and dynamically by nuclear magnetic resonance.     

Chromatographic analysis of amino acids and primary amines with o-phthalaldehyde detection

The applicability of the o-phthalaldehyde reaction with fluorometric detection to the simultaneous chromatographic analysis of amines and nonprotein amino acids is demonstrated. The majority of the compounds tested could be quantitatively determined with high sensitivity. The method is particularly well suited for the analysis of β-amino acids. Amino compounds lacking an α-hydrogen atom are detected with lower sensitivity, due to a lower relative fluorescence. Secondary amino compounds are undetectable with this system.     

Structural analysis of the reaction products of chitosan with o-, m- and p-phthalaldehydes

Chitosan, a $\text{(I}\text{a}\text{?}\text{4)-}\text{linked}$ 2-amino-2-deoxy-β-d-glucan, was allowed to react with o-, m- and p-phthalaldehydes in aqueous acetic acid-methanol at room temperature to give the corresponding Schiff's base derivative (d.s. ～ 1.0/hexosaminyl residue) in a gel form. The dry product was isolated in yields of 90–97%, and the fine structure was analysed. Both the crosslinking and N-formylbenzylidene structures were present in an almost equal molar ratio in the reaction product of chitosan with p-phthalaldehyde and at a molar ratio of 0.1:0.9 in the reaction product of chitosan with m-phthalaldehyde. However, both structures were absent in the reaction product of chitosan with o-phthalaldehyde, and an intramolecular cyclic structure was present.     

S1 nuclease: Immunoaffinity purification and evidence for the proximity of cysteine 25 to the substrate binding site

A simple procedure, involving heat treatment, gel filtration on Sephadex G-100 followed by chromatography on anti-S1 nuclease antibodies bound to Sepharose, was developed for purification of S1 nuclease to homogeneity with an overall yield of 72%. S1 nuclease was rapidly inactivated, at pH 6.0 and 37°C, in presence of o-phthalaldehyde. Kinetic analysis of o-phthalaldehyde mediated inactivation showed that the reaction followed pseudo-first-order kinetics and the loss of enzyme activity was due to the formation of a single isoindole derivative per molecule of the enzyme. Absorbance and fluorescence spectrophotometric data also gave similar results. The isoindole derivative formation, as a result of o-phthalaldehyde treatment is known to occur through crosslinking of the thiol group of cysteine and the ε-amino group of lysine, situated in close proximity in the native enzyme. Since, modification of only available cysteine residue (Cys 25) did not affect the catalytic activity of the enzyme, the o-phthalaldehyde mediated inactivation of S1 nuclease is due to the modification of lysine. Substrates of S1 nuclease, namely ssDNA, RNA and 3′ AMP, could protect the enzyme against o-phthalaldehyde mediated inactivation. Moreover, the modified enzyme (having very little catalytic activity) showed a significant decrease in its ability to bind 5′ AMP, a competitive inhibitor of S1 nuclease, suggesting that the modification has occurred at the substrate binding site. The above results point towards the presence of cysteine 25 in close proximity to the substrate binding site.     

Quantitation of fumonisins in corn by HPLC with o-phthalaldehyde postcolumn derivatization and their identification by LC/MS

Fumonisins B₁(FB₁) and B₂(FB₂) were isocratically separated on a fluorocarbon column without using an ion pair reagent and nonvolatile buffer during the HPLC and were detected by an o-phthalaldehyde postcolumn derivatization system using a fluorescence detector. The minimum detectable concentrations of FB₁ and FB₂ in corn by this system were 0.01 μg/g and 0.01 μg/g, respectively. The separated fumonisins were further identified by a directly interfaced ion trap MS using electrospray ionization. FB₁ and FB₂ in naturally contaminated corn were identified in the selective ion monitoring mode at concentrations of 3.75μg/g and 1.44 μg/g, respectively. This revised version was published online in August 2006 with corrections to the Cover Date.     

Glutathione localization by a novel o-phthalaldehyde histofluorescence method

Summary Glutathione in tissues forms an intense fluorophore with a solution ofo-phthalaldehyde at room temperature. We have studied the loss of glutathione from tissue sections and find that it is not measurable from thick sections. The fluorescence spectra of the induced fluorophore between glutathione ando-phthalaldehyde are identical in model and tissue sections, while depletion of hepatic glutathione by diethyl maleate produces a comparable fall in fluorescence measured biochemically or histochemically. This simple method is specific as interfering substances, such as spermine and spermidine, produce very weak fluorescence under the conditions employed.     

Improved method for the measurement of large neutral amino acids in biological matrices

A high-performance liquid chromatographic method for measuring neutral amino acids in rat sera, brain tissues, and perfusates was developed by using o-phthalaldehyde sulfite as a pre-column derivatization reagent. With the present method, it was possible to separate the neutral amino acids within a single run in 25 min, while the acidic amino acids were eluted near or at the solvent front. The recovery was above 88.8% with a relative standard deviation (RSD) below 4.2%. The within- and between-day assay reproducibility for the determination of rat serum amino acids showed RSDs below 1.35 and 7.61%, respectively. In the present study, the neutral amino acids were assayed with high sensitivity, accuracy and good reproducibility in a relatively short time and on a small sample size.