A microassay for the determination of monoamine oxidase activity using electron capture gas chromatography

A sensitive and specific assay for determining monoamine oxidase (MAO) activity in serum and platelets is described. The procedure employs m-iodobenzylamine as substrate. The product, m-iodobenzaldehyde, is separated on an OV-17 column and measured by electron capture. Gas chromatography offers the advantage of analytical specificity without the need for additional procedural steps to eliminate potential interferences. Electron capture detection of the iodinated aldehyde is sufficiently sensitive to allow routine analysis on platelet samples of less than 15 μg of protein and serum aliquots of 50 μl or less. Analysis of approximately 80 samples per day may be accomplished by a single worker by employing an automatic sampling system for gas chromatographic injection. This fact, in addition to the small sample size, makes the method particularly suitable for the determination of large numbers of clinical samples.     

Processing of N-linked oligosaccharides in soybean cultured cells

Evidence, based on both in vivo and in vitro studies with suspension-cultured soybean cells, is presented to demonstrate the processing of the oligosaccharide chain of plant N-linked glycoproteins. Following a 1-h incubation of soybean cells with [2-3H]mannose, the predominant glycopeptide obtained by pronase digestion of the membrane fraction was a Man7- or Man8GlcNAc2-Asn (GlcNAc, N-acetylglucosamine). However, the major oligosaccharide isolated from the lipid-linked oligosaccharides of these cells was a Glc2- or Glc3Man9GlcNAc2. Soybean cells were incubated with [2-3H]mannose and the incorporation of mannose into Pronase-released glycopeptides was followed during a 2-h chase. During the first 10 min of labeling, the radioactivity was mostly in a large-sized glycopeptide that appeared to be a Glc1Man9GlcNAc2-peptide. During the next 60 to 90 min of chase, this radioactivity was shifted to smaller and smaller-sized glycopeptides indicating that removal of sugars (i.e., processing) had occurred. Both glucosidase and mannosidase activity was detected in membrane preparations of soybean cells. Nine different glycopeptides were isolated from Pronase digests of soybean cell membrane fractions. These glycopeptides were purified by repeated gel filtration on columns of Bio-Gel P-4. Partial characterization of these glycopeptides by endoglucosaminidase H and alpha-mannosidase digestion, and by analysis of the products, suggested the following glycopeptides: Glc1Man9GlcNAc2-Asn, Man8GlcNAc2-Asn, Man7GlcNAc2-Asn, Man6GlcNAc2-Asn, and Man5GlcNAc2-Asn.     

An improved procedure for the methylation analysis of oligosaccharides and polysaccharides

An improved procedure for the methylation analysis of oligosaccharides and polysaccharides is described. Steps in the procedure were examined and optimised for quantitative recovery and speed. Methylation was shown to be complete by using [14C]methyl iodide. All operations were performed in the same tube and the need to concentrate solutions containing acetylated alditols of methylated sugars was eliminated, thus minimising losses due to volatilization. The method is convenient, gives high recoveries of acetylated alditols of methylated sugars, and allows analysis of the glycosyl linkages of oligo- or poly-saccharides to be completed within a working day. A wide range of oligo- and poly-saccharides were methylated by this procedure.     

Proton-nuclear magnetic resonance study of peracetylated derivatives of ten oligosaccharides isolated from human milk

Proton-nuclear magnetic resonance (NMR) spectra of peracetylated derivatives of ten structurally related oligosaccharides isolated from human milk were measured for solutions in CDCl3 at 360 MHz. The following oligosaccharides were investigated: Gal beta 1 leads to 4Glc-ol (1), GlcNAc beta 1 leads to 3Gal beta 1 leads to 4Glc-ol (2), Gal beta 1 leads to 4GlcNAc beta 1 leads to 3Gal beta 1 leads to 4Glc-ol (3), Gal beta 1 leads to 3GlcNAc beta 1 leads to 3Gal beta 1 leads to 4Glc-ol (4), Gal beta 1 leads to 3GlcNAc(4 comes from 1Fuc alpha) beta 1 leads to 3Gal beta 1 leads to 4Glc-ol (5), Fuc alpha 1 leads to 2Gal beta 1 leads to 3GlcNAc beta 1 leads to 3Gal beta 1 leads to 4Glc-ol (6), Fuc alpha 1 leads to 2Gal beta 1 leads to 3GlcNAc(4 comes from 1Fuc alpha)beta 1 leads to 3Gal beta 1 leads to 4Glc-ol (7), Fuc alpha 1 leads to 2Gal beta 1 leads to 4Glc-ol(3 comes from 1Fuc alpha) (8), and a 1:3 mixture of Fuc alpha 1 leads to 2Gal beta 1 leads to 4Glc-ol (9) and Gal beta 1 leads to 4Glc-ol(3 comes from 1Fuc alpha) (10). Owing to the strong downfield shifts of the resonances of protons linked to acetoxylated carbons, the problems of signal overlap are less severe and the spin systems of all constituent sugar residues can be assigned fully. The sites of glycosidic linkage can be recognized by the high-field position of the signals of protons linked to those sites; for example, type 1 (Gal beta 1 leads to 3GlcNAc) and type 2(Gal beta 1 leads to 4GlcNAc) saccharide chains can be distinguished. The sequence can be established by observing a nuclear Overhauser effect involving the anomomeric and the aglyconic proton.     

Fucose containing oligosaccharides from human milk: I. Separation and identification of new constituents

Neutral oligosaccharides isolated from pooled human milk were subjected to fractionation on high-performance thin-layer chromatography (HPTLC) plates, Iatrobeads, and reverse-phase chromatography after borohydride reduction and peracetylation. By the combined HPLC and HPTLC separation a mixture of pooled human milk oligosaccharides was separated into 101 fractions. These fractions were characterized by field desorption or fast atom bombardment (FAB)-mass spectrometry. Each of the carbohydrate constituents, the peracetylated glucitol, the galactose, the glucosamine, and the fucose contribute specific mass increments to the molecular weight of the oligosaccharide. Therefore, the exact carbohydrate composition can be calculated from the molecular weight determined by mass spectrometry. Among the fractions obtained one trifucosyl-lacto-N-tetraose, five monofucosyl-, eleven difucosyl-, and nine trifucosyl-lacto-N-hexaoses, one monofucosyl-, eight difucosyl-, seven trifucosyl-, four tetrafucosyl-, and two pentafucosyl-lacto-N-octaoses, one trifucosyl-, and two difucosyl-lacto-N-decaoses could be identified. FAB spectra furnished additional data on structural features of the isolated oligosaccharides.     

The conformational analysis of oligosaccharides by H-NMR and HSEA calculation

The application of 1H-nuclear Overhauser enhancement, 1H-spin-lattice-relaxation-time and 1H-chemical shift measurements for the assessment of the conformational preferences of oligosaccharides are briefly reviewed. It is demonstrated that additivity rules, for the correlation of the chemical shifts of similar hydrogen atoms in different oligosaccharides, can be useful in the conformational analysis of oligosaccharides when the differential chemical shifts are greater than 0.1 ppm. These often can be attributed to specific interunit deshielding of a hydrogen atom by an oxygen atom with which it is in strong nonbonded interaction. HSEA calculations are used to demonstrate that differential chemical shifts of less than 0.1 ppm can have origins that are not significant to the overall conformational preferences of the oligosaccharides which are being compared. Both shielding and deshielding effects can arise from a change in the orientation of a substituent group as the result of the introduction of a sugar on a neighboring unit. It is demonstrated that substituent groups, such as hydroxymethyl and acetamido groups, on occasions, should be treated in HSEA calculations as freely rotating about their linkage to a pyranose ring.     

Crystallographic determination of the mode of binding of oligosaccharides to T4 bacteriophage lysozyme: Implications for the mechanism of catalysis

Phage lysozyme has catalytic activity similar to that of hen egg white lysozyme, but the amino acid sequences of the two enzymes are completely different.The binding to phage lysozyme of several saccharides including N-acetylglucosamine (GlcNAc), N-acetylmuramic acid (MurNAc) and (GlcNAc)₃ have been determined crystallographically and shown to occupy the pronounced active site cleft. GlcNAc binds at a single location analogous to the C site of hen egg white lysozyme. MurNAc binds at the same site. (GlcNAc)₃ clearly occupies sites B and C, but the binding in site A is ill-defined.Model building suggests that, with the enzyme in the conformation seen in the crystal structure, a saccharide in the normal chair configuration cannot be placed in site D without incurring unacceptable steric interference between sugar and protein. However, as with hen egg white lysozyme, the bad contacts can be avoided by assuming the saccharide to be in the sofa conformation. Also Asp20 in T4 lysozyme is located 3 Å from carbon C₍₁₎ of saccharide D, and is in a position to stabilize the developing positive charge on a carbonium ion intermediate. Prior genetic evidence had indicated that Asp20 is critically important for catalysis. This suggests that in phage lysozyme catalysis is promoted by a combination of steric and electronic effects, acting in concert, The enzyme shape favors the binding in site D of a saccharide with the geometry of the transition state, while Asp20 stabilizes the positive charge on the oxocarbonium ion of this intermediate. Tn phage lysozyme, the identity of the proton donor is uncertain. In contrast to hen egg white lysozyme, where Glu35 is 3 Å from the glycosidic DOE bond, and is in a non-polar environment, phage lysozyme has an ion pair, Glull … Arg145, 5 Å away from the glycosidic oxygen. Possibly Glull undergoes a conformational adjustment in the presence of bound substrate, and acts as the proton donor. Alternatively, the proton might come from a bound water molecule.     

Detergent effects upon the isozymes of cytoplasmic glycerol 3-phosphate dehydrogenase

Aminolevulinic acid (ALA) synthase activity was measured in fat body mitochondria from adult male Blaberus discoidalis cockroaches. The enzyme reached its maximum activity at 4 to 6 days of adult age and then dropped to a minimal level which was maintained throughout the remainder of the study period. ALA synthase activity was doubled by allylisopropylacetamide and showed a half-life of about 6 h at 25 °C. Enzyme activity was depressed by long-term allatectomy. However, juvenile hormone administration in vivo did not significantly stimulate the enzyme relative to appropriate controls, and endocrine regulation of fat body ALA synthase remains inconclusive. Hemin inhibited ALA synthase activity, suggesting that fat body heme synthesis could be regulated by end-product inhibition.     

Three-dimensional structure of a cell wall glycoprotein

Electron microscopy and computer image analysis have been used to determine the three-dimensional structure of the crystalline glycoprotein cell wall layer of the alga Lobomonas piriformis. Images of negatively stained specimens, tilted through a range of angles up to 70 °, were combined to give a map of the molecular envelope to a resolution of 2.0 nm. The cell wall layer consists of crystalline plates the centres and edges of which display distinctly different but isomorphous structures. A comparison of three-dimensional reconstructions of the two areas shows the difference probably to be due to a conformational change of one of the glycoprotein subunits. The structure consists of two sets of dimers composed of rod-shaped subunits which lie with their long axes approximately in the plane of the crystal. The centre-edge transition may have significance in the pathway of accretion of new subunits during cell wall growth.     

Studies of the antigenic properties of the catalytic and glycoprotein subunits of Na+,K+-ATPase

Antibodies were raised against isolated, delipidated catalytic [alpha] and glycoprotein [beta] subunits of the Na+,K+-dependent ATPase purified from lamb kidney medulla. The specificity of each antiserum was confirmed by agar double-diffusion precipitation, immunoelectrophoresis, and polyacrylamide gel electrophoresis. A solid phase adsorption assay was also employed to determine antibody binding titers and to further test the specificity of these antisera. Antibodies raised to the alpha subunit had a strong reactivity and similar titer values for both the holoenzyme and the alpha subunit and a low-affinity cross-reactivity with the beta subunit. In contrast, beta-subunit-directed antibodies had little reactivity or binding with the holoenzyme and a low-affinity cross-reactivity with the alpha subunit. Competition binding studies revealed that about 80% of the alpha-subunit-specific antibodies bound to the holoenzyme, indicating that similar sets of antigenic sites are exposed in the lipid-embedded holoenzyme complex and in the isolated alpha subunit. Competition binding studies also suggest that the subunit cross-reactivities of the antisera may not result from simple contamination of the respective antigens, but that there may be partial homologies of some antigenic sites. In addition, the beta-directed antibodies had no effect on Na+,K+-ATPase activity, while the alpha-directed antibodies were effective inhibitors of activity. This indicates that at least some functionally important antigenic sites of the alpha subunit may be unaltered by its isolation and delipidation.     

A time-resolved assay of dopamine β-hydroxylase activity utilizing high-pressure liquid chromatography

A time-resolved assay of dopamine β-hydroxylase (EC 1.14.17.1) activity utilizing high-pressure liquid chromatography is described. The conversion of tyramine to octopamine by the enzyme was used as a standard reaction. The analytical separation of the assay substrate and product employed a reversed-phase ion-pair chromatographic system, with ultraviolet absorbance detection of eluents at 280 nm. Aliquots of the assay solution were injected directly onto the high-pressure liquid chromatography column and were separated in 6 min total elapsed time, thus permitting time-resolved determination of the produet. Quantities of octopamine as small as 20 pmol could be measured. This facile method is more straightforward, convenient, and sensitive than previously published physical and spectroscopic methods of determining dopamine β-hydroxylase activity.     

Isolation of human urinary protease inhibitor by single-step affinity chromatography.

Human urinary protease inhibitor was isolated from freshly collected male urine by a single chromatographic step utilizing bovine α-chymotrypsin (EC 3.4.21.1) covalently bound to cross-linked agarose. The adsorbent was prepared by a new series of chemical reactions using trichloro-s-triazine as coupler. Study of chromatographic parameters, including pH, temperature, and ionic strength, led to a simplified elution system for removing contaminants. The antitryptic-antichymotryptic activity of the inhibitor appeared to be unaltered by chromatography.     

Binuclear schiff base complexes of nickel(II) or copper(II) linked by dithiols as a bridging group

Binuclear Schiff base complexes of nickel(II) or copper(II) were synthesized by bridging unsymmetrical Schiff base complexes of nickel(II) and copper(II) with 2,5-dimercapto-1,3,4-thiadiazole or 2-mercaptoethyl ether.Although the magnetic susceptibility and ESR measurements showed that copper(II)copper(II) interaction of the binuclear copper(II) complexes is very weak in the solid state, they catalyzed chemiluminescence of luminol by hydrogen peroxide in DMF solution, suggesting that small amounts of the complexes might be present in the form of the appropriate copper(II)copper(II) distance to activate hydrogen peroxide in solution.     

An investigation by ion-exchange chromatography of a chromium,amino acid and nicotinic acid mixture

The mixture of chromium, nicotinic acid and the amino acids glycine, glutamic acid and cysteine which stimulates the rate of CO₂ production in a yeast bioassay system was subjected to the separation scheme based on ion-exchange chromatography which has been used to separate the chromium- containing fractions in brewer's yeast, [S.J. Haylock, P.D. Buckley and L.F. Blackwell, J. Inorg. Biochem., 18, 195 (1983)]. Four chromium-containing fractions (C2 to C5) were obtained by salt gradients and two further fractions (G1 and G2) were obtained using a pH gradient. All were amino acid-containing complexes of chromium and all except C5 also contained nicotinic acid. However, none of the isolated chromium fractions showed any activity in a yeast bioassay. On the basis of previous work, the activity of the original mixture was attributed to the presence of an oxygen-coordinated trans chromium(III)-dinicotinate complex. Biologically- inactive chromium complexes such as Cr(glu)₂(H₂O)⁺₂ and Cr(gly)₂(H₂O)⁺₂ after elution by ammonium hydroxide from Dowex 50W-X12 cation- exchange columns, stimulated the rate of CO₂ production in the yeast bioassay. Elution with other bases, such as lithium hydroxide, potassium hydroxide and sodium hydroxide led to inactive fractions in all cases. A warning is therefore given that the use of ammonium hydroxide-elution of ion-exchange columns to isolate glucose tolerance factor fractions from biological samples (such as brewer's yeast) can lead to active fractions which do not relate to the native material.     

Simultaneous determination of guanine nucleotides in rat brain by high-performance liquid chromatography with dual-electrochemical detection

A new, sensitive, and specific assay method for guanine nucleotides using high-performance liquid chromatography with dual-electrochemical detection was developed. GTP, GDP, GMP, and cyclic GMP were separated with reversed-phase "ion-pair" chromatography and detected by a dual-electrochemical detector. Only guanine nucleotides among all purine and pyrimidine nucleotides responded to the electrochemical detector at 0.95 V. The peak heights for these guanine nucleotides were linear at concentrations between 0.5 pmol and 1 nmol. The regional distribution of these guanine nucleotides in the rat brain was studied by this new assay method.     

Scanning molecular sieve chromatography of interacting protein systems. Simulation of large zone behavior for self-associating solutes undergoing rapid chemical equilibration under kinetic control

Theoretical large zone reaction boundaries for molecular sieve chromatography have been simulated by computer for a self-associating solute undergoing rapid chemical equilibration under kinetic control. These patterns show that the kinetically-controlled reaction rate between the mobile and stationary phases is the principal determinant of the elution boundary profile in molecular sieve chromatography. The overall chemical reaction rate in the mobile phase was found to have a much greater role in a rapidly equilibrating system than did the effect of axial dispersion within the gel matrix.     

Determination of 4-hydroxyanisole in serum using liquid chromatography with electrochemical detection

4-Hydroxyanisole (p-methoxyphenol) has been used in the treatment of malignant melanomas. A simple, sensitive, and specific, method for its determination by liquid chromatography with electrochemical detection (LCEC) is described. Vanillin (4-hydroxy-3-methoxybenzaldehyde) was used as an internal standard.     

A rapid method for the determination of guanosine 5′-diphosphate-3′-diphosphate and guanosine 5′-triphosphate-3′-diphosphate by high-performance liquid chromatography

A method is described for the rapid analysis of the nucleotides, guanosine 5′-diphosphate-3′-diphosphate (ppGpp) and guanosine 5′-triphosphate-3′-diphosphate (pppGpp), by high-performance liquid chromatography. It has been found that the inclusion of magnesium acetate in the potassium phosphate buffer facilitates elution of these highly phosphorylated compounds from the Partisil strong anion-exchange resin and allows their determination under isocratic conditions. The application of this methodology to formic acid extracts of bacterial cells is demonstrated.     

Purification of spermidine synthase from rat ventral prostate by affinity chromatography on immobilized S-adenosyl(5′)-3-thiopropylamine

A novel affinity chromatographic adsorbent was developed for purification of spermidine synthase from rat prostate. The adsorbent (S-adenosyl(5′)-3-thiopropylamine-Sepharose) possesses a ligand structurally similar to S-adenosyl(5′)-3-methylthiopropylamine (decarboxy AdoMet), a substrate of spermidine synthase. The S-adenosyl(5′)-3-thiopropylamine-Sepharose was prepared by an alkylation on sulfur of S-adenosyl-3-thiopropylamine by bromoacetamidohexyl-Sepharose under mild acidic conditions. The enzyme has been purified to homogeneity in 40% yield by using DEAE-cellulose, affinity chromatography employing S-adenosyl(5′)-3-thiopropylamine-Sepharose, and gel filtration. The enzyme had a molecular weight of approximately 73,000 and was composed of two subunits of equal size. The specificity of the reaction was rather strict, but cadaverine could replace putrescine as the aminopropyl acceptor, and the rate was 1/20th of the rate for spermidine formation. Apparent K_m values for putrescine and decarboxy AdoMet were 0.1 mm and 1.1 μm, respectively. Inhibition by decarboxy AdoMet and 5′-deoxy-5′-methylthioadenosine was observed. The inhibition by 5′-deoxy-5′-methylthioadenosine was partially noncompetitive with respect to decarboxy AdoMet.