An ion-exchange chromatography procedure for the isolation and concentration of basic amino acids and polyamines from complex biological samples prior to high-performance liquid chromatography.

The original objective of this study was to develop a selective and sensitive method for the analysis and quantification of basic amino acids from biological samples via reversed-phase high-performance liquid chromatography. Using various previously described techniques for the separation of amino acids, we were unsuccessful in measuring levels of histidine, arginine, ornithine, and lysine in biological samples due to the presence of interfering compounds. A "cleanup" procedure for the isolation of the basic amino acids using a weakly acidic cation exchange resin, Biorex-70 (Bio-Rad), is described in detail. Upon separation from the bulk of the neutral and acidic amino acids, the basic amino acids were subjected to precolumn fluorescence derivatization using 9-fluorenylmethyl chloroformate (FMOC) and the fluorescent derivatives were separated by RP-HPLC. The advantages of this method over previously described amino acid analysis techniques are (i) isolation and stable recovery (greater than 95%) of the desired basic amino acids, (ii) sensitivity of detection (low pmol range), (iii) complete resolution of derivatized amino acids via HPLC, (iv) limited amount of sample required for analysis, and (v) samples readily concentrated by lyophilization or rotoevaporating. This ion-exchange cleanup procedure was also adapted for the analysis of polyamines in concentrated culture media samples and proved additionally advantageous by eliminating the use of costly C-18 extraction columns required by previously described techniques.     

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.     

Amino acid analysis by dinitrophenylation and reverse-phase high-pressure liquid chromatography

The determination of amino acids has been achieved by reverse-phase high-pressure liquid chromatography of their dinitrophenyl derivatives. The methods developed permit the quantitation of all amino acids commonly encountered in a protein hydrolysate and the effect of various parameters on this separation was systematically evaluated. The procedure eliminates the need for specialized postcolumn equipment as employed in conventional amino acid analysis and can be obtained by a simple gradient high-pressure chromatograph. The sensitivity obtained is comparable to that available by methods in common usage, being able to determine amino acids quantitatively in the low picomole range.     

Analysis of adipimidate-crosslinked lysine

The chromatographic conditions for separation of N,N′-bislysyl(?-N)adipamidine and N-lysyl(?-N)adipamidinic acid, which were the products of acid hydrolysis of proteins treated with adipimidate esters, from other amino acids on an amino acid analyzer were established including their ninhydrin color values. Kinetics of decomposition of these lysine derivatives under the conditions of total acid hydrolysis of protein are also reported.     

Analysis of all protein amino acids as their tert.-butyldimethylsilyl derivatives by gas-liquid chromatography

A gas chromatographic method for the separation and quantitation of the 20 protein amino acids is described using N-methyl-N(tert.-butyldimethylsilyl)trifluoroacetamide, with 1% tert.-butyldimethylchlorosilane as catalyst, to prepare the tert.-butyldimethylsilyl amino acid derivatives. Alkylsilylation of amino acids proceeds at 140 degrees C in 20 min. The derivatives formed in the one-step reaction are used directly for gas-liquid chromatographic analysis, using a flame-ionization detector, without prior isolation or purification. Complete separation and quantitation of all protein amino acids are readily achieved using a 15-m DB-5 capillary column. Strict linearity extends from less than 15 to about 100 ng for all amino acids except Arg, which has a linear range from 50 to 300 ng. The limits of detection, however, range from one to several hundred nanograms. The method was used to analyze the free amino acid pool in carnation petals.     

Capillary gas chromatographic determination of proteins and biological amino acids as N(O)-tert.-butyldimethylsilyl derivatives

Forty-seven biological amino acids containing all 22 protein amino acids were derivatized to N(O)-tert.-Butyldimethylsilyl (tBDMSi) derivatives by a single-step reaction with N-methyl-N-(tert.-butyldimethylsilyl)trifluoroacetamide and successfully separated on an HP-1 capillary column. The relative standard deviations of the relative molar responses of most amino acids were <5%. Cystine seems to be partially converted into cysteine during derivatization. An increase in carrier gas flow-rate towards the end of the analysis by inlet pressure programming with electron pressure control avoided the peak broadening and adsorption of the derivatives with high boiling points on the column and especially increased sensitivity of cystine to 5 pmol. Glutamine was converted almost completely into pyroglutamic acid during prolonged storage of a standard solution prepared in 0.01 M HCl but not during derivatization. These results compared with those for the phenylthiocarbamyl derivatives analysed by HPLC and the analytical results reported in the literature on soybean hydrolysate showed good agreement except for cysteine. The results for the amino acid composition of bovine serum albumin also showed good agreement with results in the literature except for cysteine. In human urine, seventeen free amino acids were detected as tBDMSi derivatives.     

Purification of rat liver asparagine synthetase by affinity chromatography on reactive blue 2-agarose

Studies on analysis of free animo acids using a support-coated, open-tube capillary column, and electron-capture detection or selective ion monitoring have been performed on samples from biological microenvironments. For most amino acids the detection limit was found to be less than 1 pg. The preparation of the support-coated open-tube capillary column is described as well as the gas-chromatographic conditions for direct injection and temperature-programmed separation of the N-heptafluorobutyryl iso butyl ester derivatives. Electron-capture detection and selected ion monitoring are compared with respect to linearity and sensitivity and the bases for the greater sensitivity of electron-capture detection compared with flame-ionization detection using halogenated derivatives is discussed. Applications of the gas-chromatographic method for analysis of free amino acids in environments deliberately chosen very small are demonstrated.     

Measurement of branched chain amino acids in blood plasma by high performance liquid chromatography

A simple and rapid high performance liquid chromatographic technique is described for the separation and quantitation of plasma branched chain amino acids. After addition of a norleucine internal standard, plasma samples are acidified with acetic acid, and amino acids are separated from proteins and other plasma components by passage of the acidified plasma through an ion exchange resin. The ammonium hydroxide eluate from the resin is dried, phenylisothiocyanate derivatives are prepared, and the amino acids are separated on a Waters reverse-phase "Pico-Tag" column with an ultraviolet detector set at 254 nm. In addition to the branched chain amino acids (leucine, valine, and isoleucine), aspartate, glutamate, serine, threonine, alanine, and methionine are quantitated with high precision and accuracy, as verified by quantitative recovery and comparison with an automatic amino acid analyzer. The advantages of the method are its simplicity, speed, stability of derivatives, high reproducibility, low per-sample cost, and the use of a simple fixed-wavelength ultraviolet detector.     

Mass spectra of alpha-amino acid oxazolidinones

2-Bis-(chlorodifluoromethyl)-4-substituted-1,3-oxazolidin-5-ones, a new type of alpha-amino acid derivative for gas chromatographic separation, have been studied by low resolution mass spectrometry. These derivatives are obtained by reacting alpha-amino acids with dichlorotetrafluoroacetone. Their structure has been established or confirmed for most protein amino acids and several non-protein alpha-amino acids. The mechanisms responsible for the mass spectral pattern have been rationalized. An interesting feature of this derivatization procedure is that it distinguishes aspartic and glutamic acid from the respective amides. The structure of asparagine and glutamine derivatives has been established. A survey of oxazolidinone mass spectra has provided a list of diagnostically useful ions. Each amino acid can be identified by one or two of its most abundant fragments.     

Amino acid analysis by reverse-phase high-performance liquid chromatography: precolumn derivatization with phenylisothiocyanate

Methods for the quantitative derivatization of amino acids with phenylisothiocyanate and for the separation and quantitation of the resulting phenylthiocarbamyl derivatives by reverse-phase high-performance liquid chromatography are described. Phenylthiocarbamylation of amino acids proceeds smoothly in 5 to 10 min at room temperature. Coupling solvents, reagent, and some byproducts are removed by rotary evaporation under high vacuum, and the phenylthiocarbamyl derivatives are dissolved in 0.05 M ammonium acetate, pH 6.8, for injection onto the octyl or octadecylsilyl reverse-phase column. Columns are equilibrated with the same solvent and the effluent stream is monitored continuously at 254 nm for detection of the amino acid derivatives. Elution of all of the phenylthiocarbamyl amino acids is achieved in about 30 min utilizing gradients of increasing concentrations of ammonium acetate and acetonitrile or methanol. This approach to amino acid analysis offers select advantages, both with respect to methods which employ reverse-phase separation of prederivatized samples and to the classical ion-exchange procedure. All amino acids, including proline, are converted quantitatively to phenylthiocarbamyl compounds and these are stable enough to eliminate any need for in-line derivatization. Furthermore, results comparable in sensitivity and precision to those obtained by state-of-the-art ion-exchange analyzers may be generated with equipment that need not be dedicated to a single application.     

Quantitative gas chromatographic analysis of amino acids on a short glass capillary column

A study of the quantitative gas chromatographic analysis of protein amino acids as their N-heptafluorobutyric amino acid n-propyl esters on a glass capillary column has been made. The analysis is completed within 35 min with good separation of the common protein amino acids in a single-column run.Hydrolyzed peptides have been analyzed. The analyses were performed with a precision varying between 1 and 6% (mean relative standard deviation) depending on the number of amino acid residues in the peptide. The amount taken for analysis was 20–300 μg. The results agree with the known sequences of the peptides and with the analyses by ion-exchange chromatography except for cysteine. This amino acid can be analyzed after modification as S-methylated cysteine.     

A simple and accurate HPLC method for fecal bile acid profile in healthy and cirrhotic subjects: validation by GC-MS and LC-MS

We have developed a simple and accurate HPLC method for measurement of fecal bile acids using phenacyl derivatives of unconjugated bile acids, and applied it to the measurement of fecal bile acids in cirrhotic patients. The HPLC method has the following steps: 1) lyophilization of the stool sample; 2) reconstitution in buffer and enzymatic deconjugation using cholylglycine hydrolase/sulfatase; 3) incubation with 0.1 N NaOH in 50% isopropanol at 60°C to hydrolyze esterified bile acids; 4) extraction of bile acids from particulate material using 0.1 N NaOH; 5) isolation of deconjugated bile acids by solid phase extraction; 6) formation of phenacyl esters by derivatization using phenacyl bromide; and 7) HPLC separation measuring eluted peaks at 254 nm. The method was validated by showing that results obtained by HPLC agreed with those obtained by LC-MS/MS and GC-MS. We then applied the method to measuring total fecal bile acid (concentration) and bile acid profile in samples from 38 patients with cirrhosis (17 early, 21 advanced) and 10 healthy subjects. Bile acid concentrations were significantly lower in patients with advanced cirrhosis, suggesting impaired bile acid synthesis.     

The effect of altered ergosterol content on the transport of various amino acids in Candida albicans

Candida albicans cells have low levels of ergosterol when grown in ascorbic acid-supplemented media. When cells are grown in hydroquinone-supplemented media, the ergosterol levels became higher as compared to normal cells. The uptake of lysine, glycine, glutamic acid, proline, methionine and serine is reduced in hydroquinone-supplemented cells. In contrast to hydroquinone-supplemented cells, the rate and level of accumulation of these amino acids are higher in ascorbic acid-supplemented cells. Nystatin-resistant isolates of C. albicans with low ergosterol contents also exhibit an increased rate and level of accumulation of these amino acids. The uptake of phenylalanine and leucine remained unaffected by such a change in ergosterol levels brought about by different supplementation of the media. The results demonstrate a correlation between ergosterol levels and amino acids uptake. Contrary to various reports, the rate of K⁺ efflux does not seem to correlate with the amino acid uptake in C. albicans cells.     

Effects of in vivo administration of kainic acid on the extracellular amino acid pool in the rabbit hippocampus

The effect of local administration of kainic acid in the rabbit hippocampus was studied; the hippocampus was perfused continuously in the freely moving animal with an implanted 0.3-mm dialysis fiber. The pattern of endogenous amino acids in the perfusate, reflecting extracellular amino acids, was monitored with liquid chromatography separation and fluorimetric detection of amino acid derivatives. Kainic acid was included in the perfusion medium for up to 70 min at 0.1-1.0 mM and, with time, induced epileptiform activity. Endogenous glutamic acid, taurine, and phosphoethanolamine levels were increased selectively at the lower perfusion concentrations of kainic acid. Long perfusion periods with higher concentrations increased the levels of virtually all amino acids. Perfusion of the hippocampus with depolarizing concentrations of potassium gave an amino acid response partly similar to that seen with kainic acid treatment. However, one notable difference between the two responses was that the extracellular concentration of glutamine, although not influenced by kainic acid, was significantly decreased after high potassium concentrations. These results confirm previous notions that kainic acid has a primarily excitatory effect, one manifestation of this effect being the release of glutamic acid.     

Separation and enantiomer determination ofOPA-derivatised amino acids by using capillary zone electrophoresis

Summary Amino acids react with OPA and chiral mercaptans to give diastereomeric isoindole derivatives. The resolution of these diastereomers was investigated by micellar electrokinetic chromatography (MECC) and free solution capillary electrophoresis. MECC with SDS as micellar phase allows to separate the amino acid derivatives and to resolve the diastereomers. The separation is influenced by the amount of detergent and the organic modifier added. Capillary zone electrophoresis offers a valuable alternative to the traditional methods for amino acid analysis and enantiomer determination.     

The preparation of R(--) beta-aminoisobutyric acid using Saccharomyces cerevisiae: an unexpected result

R(?)-β-aminoisobutyric acid was prepared by the action of Saccharomyces cerevisiae on the racemic acid. The analysis was followed by ninhydrin and gas chromatographic methods for separating diastereoisomers. It was found that the elution pattern of the diastereoisomers is reversed compared to the normal protein amino acids, i.e., the SR derivatives elute before the RR derivatives.     

Amino acids and growth substances in barley root excretions (Hordeum distichon L.) and their biological effect

The biological effect of barley root excretions was studied during a 4 to 10 days cultivation period. The effect of root excretions changes according to the cultivation period of barley. It was ascertained by means of a bioassay that growth was either conclusively stimulated or the root excretions did not affect growth of the roots and of the upper part ofNasturtium. No significant inhibitory effect was observed. The effect of the single amino acids and of their mixtures found in the root excretions of barley was quite different. The following amino acids were determined by paper chromatography in root excretions: alanine, asparagine, phenylalanine, glycine, leucine, lysine, serine, tyrosine, glutamic acid and valine plus methionine. During cultivation their total quantity increased from 5·48. 10^?5 up to 1·13. 10^?3 mg per plant. Most of the 20 amino acids observed, displayed in theNasturtium test at a concentration from 0·1 to 1,000 mg/l an inhibitory effect onNasturtium growth. The effect of amino acid mixtures, corresponding qualitatively and quantitatively to the free amino acids in barley root excretions was dependent on their concentration. Growth regulators of the auxin type were found in culture solutions by chromatographic separation and with bioassay. As it may be seen from the results obtained, there are besides amino acids and indole derivatives other non-identified compounds involved in the effect of barley root excretions.     

Analysis of (3-phenyl,2-thio)hydantoin amino acids by high-performance liquid chromatography: Comparison of three programs with particular reference to the glutamic and aspartic derivatives

(3-Phenyl,2-thio)hydantoin-amino acids are readily separated and quantitated by high-performance liquid chromatography (hplc). Three reversed-phase column procedures were investigated. We found the aspartic and glutamic acid derivatives difficult to separate and quantitate by any of the three until we determined the effects on hplc of several injection solvents and the pH of the elutrient buffers. We found 90% acetic acid or acetonitrile: 90% formic acid (8:2, v:v) satisfactory as injection solvents. Each of the three hplc programs also required pH changes for optimal separation of the aspartic and glutamic acid derivatives from the other (3-phenyl,2-thio)hydantoin-amino acids; none of these had retention times that varied with pH in the ranges investigated. Using the three modified systems, the retention times of 19 commonly found (3-phenyl,2-thio)hydantoin-amino acids were compared. In addition, the N-terminal residues of two model human plasma proteins were chromatographed, fibrinogen and plasminogen. In all of these, the aspartic and glutamic acid derivatives were clearly separable without diminishing resolution of the other amino acids.     

Amino acid transport and metabolism in nitrogen-starved cells of Saccharomyces cerevisiae.

Nitrogen-starved yeast derepress a general amino acid permease which transports basic and hydrophobic amino acids. Although both groups of amino acids are metabolized, the derivatives of the basic amino acids are retained by the cells, whereas those of the hydrophobic amino acids are released as acidic and neutral deaminated derivatives. The release of the deaminated derivatives of the hydrophobic amino acids only occurs in the presence of glucose, which presumably produces amino acceptors. The accumulation of intracellular amino acids results in trans-inhibition of the uptake of exogenous amino acids whether the intracellular amino acid is a basic amino acid or the product of intracellular transamination from a hydrophobic amino acid. Variation of permease and transaminase activity was measured during growth under repressed (ammonia-grown) and derepressed (proline-grown) conditions. Maximum levels for both activities occurs at the mid-exponential phase.     

The interaction of amino acids with o-phthaldialdehyde: A kinetic study and spectrophotometric assay of the reaction product

A detailed study has been made of the kinetics of interaction between amino acids and esters of amino acids and o-phthaldialdehyde in the presence of mercaptoethanol. The reaction products have been characterized. A spectrophotometric method for quantitative analysis of all amino acids, except proline and hydroxyproline, has been developed. The possibility of determination of amino acid esters in mixtures containing free amino acids has been demonstrated. It is noted that determination of glycine and histidine with the help of o-phthaldialdehyde has certain specificities associated with faster, compared to other amino acids, degradation of their derivatives. Optimal conditions for quantitative analysis of amino acids in solutions of higher than 10^?5m concentration are recommended. The reproducibility of the determination was ±2%.