Optimum conditions of autoclaving for hydrolysis of proteins and urinary peptides of prolyl and hydroxyprolyl residues and HPLC analysis

A method for urinary peptide(s) and protein hydrolysis, involving autoclaving at 15psi (121 degrees C) for 60min, is described. Using three candidate proteins (bovine serum albumin, casein and gelatin) and urine specimens, the effect of autoclaving with respect to the optimum time required for hydrolysis under both acidic (6N HCl) and alkaline (6N KOH) conditions was studied. Recoveries of total amino acids from proteins and urine hydrolysate(s) suggest that complete hydrolysis of proteins and urinary peptides could be achieved by autoclaving for 30-60min instead of 16h of incubation at 110 degrees C. Further, stability of some of the individual amino acids was also studied. The observed differential stability of amino acids under acidic and alkaline conditions, as demonstrated in this study by HPLC analysis, makes it imperative to choose the appropriate hydrolytic condition while studying the composition of any given amino acids in urinary peptide(s)/protein hydrolysates. Further, the finding that both Pro and Hyp were stable under alkaline conditions of hydrolysis by autoclaving renders this method suitable for assaying these two amino acids from urine hydrolysates, hence its utility in the study of urinary peptide derived Hyp and Pro in bone/cartilage disorders.     

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.     

Reversed-phase high-performance liquid chromatography separation of dimethylaminoazobenzene sulfonyl- and dimethylaminoazobenzene thiohydantoin-amino acid derivatives for amino acid analysis and microsequencing studies at the picomole level

A simple and fast reversed-phase high-performance liquid chromatographic method has been developed for the complete separation of 35 dimethylaminoazobenzene sulfonyl (DABS)-amino acids and by-products. This method allows simultaneous determination of primary and secondary amino acids which can be present in protein and peptide hydrolysates and also detects the presence of cysteic acid, S-sulfocysteine, hydroxyproline, taurine, norleucine, cystine, and delta-hydroxylysine. The precolumn derivatization of amino acids with dimethylaminoazobenzene sulfonyl chloride (DABS-Cl) is simple and quick (10 min at 70 degrees C) and allows the complete reaction of primary and secondary amino acids. The separation of the compounds under investigation is achieved in 25 min using a reversed-phase 3-microns Supelcosil LC-18 column at room temperature. The versatility of the proposed method is documented by amino acid determination on protein samples obtained using different hydrolysis techniques (HCl, methane-sulfonic acid, and NaOH), with attention given to the detection of tryptophan in protein samples with high sugar concentration. Furthermore, we have reported the experimental conditions necessary to apply this method to the amino acid analysis of very low amount of proteins (1 to 5 micrograms) electroeluted from a stained band after sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The stability of DABS-derivatives, the short time of analysis, the high reproducibility and sensitivity of the system, and the complete resolution of all compounds of interest make this method suitable for routine analysis. Furthermore, we have also developed a fast reversed-phase high-performance liquid chromatographic method for the complete separation of dimethylaminoazobenzene thiohydantoin (DABTH)-amino acids. The separation of the compounds under investigation is obtained, at room temperature, in less than 18 min using a reversed-phase Supelcosil LC-18 DB column, 3-micron particles, and also allows the complete separation of DABTH-Ile, DABTH-Leu, and DABTH-Norleu. The short time of analysis, together with the high reproducibility of the system and its sensitivity at picomole levels, make this method very suitable for the identification of DABTH-amino acids released during microsequencing studies of proteins and peptides with the dimethylaminoazobenzene isothiocyanate reagent. In addition, we have shown that it is possible to obtain complete separation of DABTH-amino acids also under isocratic conditions.(ABSTRACT TRUNCATED AT 400 WORDS)     

Characterization of protein tyrosine kinase activity in murine Leydig tumor cells

The activity of protein tyrosine kinase (EC 2.7.1.37) was characterized from Leydig tumor cells (M5480A) using the synthetic peptide NH2-Glu-Asp-Ala-Glu-Tyr-Ala-Ala-Arg-Arg-Arg-Gly-COOH as a substrate. Relatively high tyrosine-specific protein kinase activity (about 135 pmol/mg protein per min) was detected in a particulate fraction (30 000 X g pellet) and was found to be linear as a function of time and protein concentration. The enzymic activity in the particulate fraction was stimulated 1.4-fold by 0.02% Nonidet P-40 as judged by 32PO4 incorporated into the peptide. Phosphorylation of endogenous proteins in M5480A particulate fractions with [gamma-32P]ATP resulted in several alkali-resistant radiolabeled bands in polyacrylamide gels in the presence of sodium dodecyl sulfate. Included in this group was a major radiolabeled doublet with an apparent molecular-weight in the range of 50 000-54 000. Phosphoamino acid analysis of hydrolysates of these eluted proteins indicated the presence of phosphotyrosine. Several alkali-resistant radio-labeled bands, including a major doublet with an apparent molecular-weight of 32 000, were also detected after culturing M5480A cells in the presence of 32PO4. These studies demonstrate the presence of high levels of protein tyrosine kinase activity in Leydig tumor cells and of endogenous protein substrates for this enzyme activity.     

Enzyme preparations for research on protein hydrolysates and amino acid mixtures not containing peptides

Some properties and the hydrolysing ability of two novel enzyme preparations, a proteolytic preparation "C" from Acremonium chrysogenum (Cephalosporium acremonium) and a peptidase preparation (the producer from the family Pseudomanadaceae), are described. The preparations can be used for obtaining protein hydrolysates with different ratios of free amino acids and peptides. The protein hydrolysis with the preparation "C" enables one to obtain hydrolysates containing 13-18% of free amino acids. The further treatment of the hydrolysates with the peptidase preparation results either in complete hydrolysis of the remained peptide fractions or in obtainment of solutions containing from 60 to 85% of free amino acids and low-molecular weight peptides.     

Rapid robust separation of hydroxyproline and proline.

The presence of hydroxyproline, and the determination of the ratio of the secondary amino acids proline to hydroxyproline, in amino acid hydrolysates specifically identifies collagen and collagen peptides. o-Phthalaldehyde, and then 9-fluorenylmethyl chloroformate, were used to carry out sequential prederivatization of amino acid hydrolysates in an in-line high-performance liquid chromatography sample loop. After derivatization, reversed-phase high-performance liquid chromatography with a C-18 ODS Hypersil cartridge column was used to resolve the hydroxyproline and proline from all primary amino acids, with resolution and detection of hydroxyproline and proline within 2.0 and 2.8 min, respectively, at concentrations in the range of picomoles per microliter of derivatized amino acid. The assay has a turnaround time of 10.75 min.     

Design of new immobilized-stabilized carboxypeptidase a derivative for production of aromatic free hydrolysates of proteins

This paper presents stable carboxypeptidase A (CPA)-glyoxyl derivatives, to be used in the controlled hydrolysis of proteins. They were produced after immobilizing-stabilizing CPA on cross-linked 6% agarose beads, activated with low and high concentrations of aldehyde groups, and different immobilization times. The CPA-glyoxyl derivatives were compared to other agarose derivatives, prepared using glutaraldehyde as activation reactant. The most stabilized CPA-glyoxyl derivative was produced using 48 h of immobilization time and high activation grade of the support. This derivative was approximately 260-fold more stable than the soluble enzyme and presented approximately 42% of the activity of the soluble enzyme for the hydrolysis of long-chain peptides (e.g., cheese whey proteins previously hydrolyzed with immobilized trypsin and chymotrypsin) and of the small substrate N-benzoylglycyl-l-phenylalanine (hippuryl-l-Phe). These results were much better than those achieved using the conventional support, glutaraldehyde-agarose. Amino acid analysis of the products of the acid hydrolysis of CPA (both soluble and immobilized) showed that approximately four lysine residues were linked on the glyoxyl agarose beads, suggesting the existence of an intense multipoint covalent attachment between the enzyme and the support. The maximum temperature of hydrolysis was increased from 50 degrees C (soluble enzyme) to 70 degrees C (most stable CPA-glyoxyl derivative). The most stable CPA-glyoxyl derivative could be efficiently used in the hydrolysis of long-chain peptides at high temperature (e.g., 60 degrees C), being able to release 2-fold more aromatic amino acids (Tyr, Phe, and Trp) than the soluble enzyme, under the same operational conditions. This new CPA derivative greatly increased the feasibility of using this protease in the production of protein hydrolysates that must be free of aromatic amino acids.     

Determination of methylated basic, 5-hydroxylysine, elastin crosslinks, other amino acids, and the amino sugars in proteins and tissues

Analytical single-column chromatographic methods have been developed for determining all methylated basic amino acids, isodesmosine, desmosine, the amino sugars glucosamine and galactosamine, the diastereoisomers of 5-hydroxylysine, and related compounds at picomole levels in protein and tissue hydrolysates. Complete resolution of all these unique basic amino acids as discrete peaks was achieved in 5.4 on a 50 X 0.28-cm microcolumn of Dionex type DC-4A spherical resin (9.0 +/- 0.5 micron) using updated instrumentation commonly available for amino acid analysis. The column was operated at 5.65 ml/h with two 0.35 M sodium citrate buffers (pH 5.700 and 4.501), at two temperatures (31.5 and 73 degrees C). Excellent resolution of all omega-N-methylarginines and related compounds was also achieved in 3 h using a 17.5 X 0.28-cm microcolumn of Dionex DC-5A resin (sized to 6.0 +/- 0.5 microns), two citrate buffers (0.21 M Na+, pH 5.125; 0.35 M Na+, pH 5.700), a buffer flow rate of 5.75 ml/h, and a temperature of 52 degrees C. Complete separation of all other amino acids found in protein or tissue hydrolysates including S-carboxymethyl cysteine, 4-hydroxyproline, methionine S,S-dioxide, and the amino sugars was also carried out in 95 min using a 23.5 X 0.28-cm microcolumn of Dionex DC-5A resin. The use of purified microcolumn buffers gave smooth baselines without interference from artifacts or minor hydrolysate components. The major advantages of these methods are: first, their high resolving power; second, their high sensitivity which is comparable and in some aspects superior to the newer instruments; and third, their high reproducibility (100 +/- 2.5%) and low operating costs. These methods should be especially valuable for determining myosin, actin, and elastin in tissue hydrolysates from the amounts of N tau-methylhistidine, desmosine, or isodesmosine present, respectively, and for studying protein methylation, hydroxylation, cross-linking formation, and the turnover rates of contractile and connective tissue proteins in biological systems.     

脑蛋白粉的制备及其酶解方法的研究

研究了以鲜猪脑制备蛋白粉并进行酶水解的方法 ;脑蛋白粉质量、不同酶和加酶方法对水解结果的影响 ;分析了水解液中游离氨基酸和低分子肽谱 ,并与国内外类似研究进行了比较。结果表明 :丙酮、乙醚沉淀制得的脑蛋白粉含氮 9.0 %～ 1 1 .5% ,脂肪 2 .5%～ 4 .0 % ,适于酶解 ;水解液含有 1 6种游离氨基酸 ,总量达 3 2 .4 4mg/ml和 4个分子量小于 1万的肽。提出精制脑蛋白粉进行水解、减压浓缩、超滤是提高水解液有效成分的技术措施。     

Induction kinetics of the L-arabinose operon of Escherichia coli

After addition of l-arabinose to growing Escherichia coli, the l-ribulokinase (EC 2.7.1.16) and l-arabinose isomerase (EC 5.3.1.4) first appear at about 0.7 and 1.4 min, respectively. These times are consistent with the distances of the genes from the ribonucleic acid polymerase initiation site in the operon. The kinetics of appearance of these enzymes as well as those of beta-galactosidase (EC 3.2.1.23) in the same strain are consistent with a peptide elongation rate of no less than 14 amino acids per second. A measurement of the average peptide elongation rate made by measuring the kinetics of radioactive amino acid appearance in completed polypeptides yielded a rate of about 12 amino acids per s. Convenient assays of the arabinose isomerase and ribulokinase are also given.     

Peptide and amino acid composition of different protein bases for culture media

The enzymatic hydrolysates under study, obtained from different raw materials, have been shown to contain a great variety of peptides with different molecular weight. The highest content of fractions with a molecular weight of 2000 D has been observed in enzymatic meat and casein hydrolysates manufactures in the GDR. Low-molecular fractions (100-200 D) prevail in amino peptide. A great variety of peptides with different molecular weight is observed in Hottinger's meat hydrolysate and in blood clot hydrolysate obtained from the blood of laboratory animals. All peptide fractions have been shown to contain a wide spectrum of free amino acids. These data on the peptide and amino acid composition of different protein bases facilitate their rational use of microbiological culture media.     

Dye-linked D-proline dehydrogenase from hyperthermophilic archaeon Pyrobaculum islandicum is a novel FAD-dependent amino acid dehydrogenase

The activity of dye-linked d-proline dehydrogenase was found in the crude extract of a hyperthermophilic archaeon, Pyrobaculum islandicum JCM 9189. The dye-linked d-proline dehydrogenase was a membrane associated enzyme and was solubilized from the membrane fractions by treatment with Tween 20. The solubilized enzyme was purified 34-fold in the presence of 0.1% Tween 20 by four sequential chromatographies. The enzyme has a molecular mass of about 145 kDa and consisted of homotetrameric subunits with a molecular mass of about 42 kDa. The N-terminal amino acid sequence of the subunit was MKVAIVGGGIIGLFTAYHLRQQGADVVI. The enzyme retained its full activity both after incubation at 80 degrees C for 10 min and after incubation in the range of pH 4.0-10.0 at 50 degrees C for 10 min. The enzyme-catalyzed dehydrogenation of several d-amino acids was carried out using 2,6-dichloroindophenol as an electron acceptor, and d-proline was the most preferred substrate among the d-amino acids. The Michaelis constants for d-proline and 2,6-dichloroindophenol were determined to be 4.2 and 0.14 mm, respectively. Delta(1)-Pyrroline-2-carboxylate was identified as the reaction product from d-proline by thin layer chromatography. The prosthetic group of the enzyme was identified to be FAD by high-performance liquid chromatography. The gene encoding the enzyme was cloned and expressed in Escherichia coli. The nucleotide sequence of the dye-linked d-proline dehydrogenase gene was determined and encoded a peptide of 363 amino acids with a calculated molecular weight of 40,341. The amino acid sequence of the Pb. islandicum enzyme showed the highest similarity (38%) with that of the probable oxidoreductase in Sulfolobus solfataricus, but low similarity with those of d-alanine dehydrogenases from the mesophiles so far reported. This shows that the membrane-bound d-proline dehydrogenase from Pb. islandicum is a novel FAD-dependent amino acid dehydrogenase.     

Antioxidant Peptides from the Protein Hydrolysates of <Emphasis Type="Italic">Conus betulinus</Emphasis>

The current study aims at the isolation and characterization of the peptides, believed to have antioxidant activity, from Conus betulinus by using different types of enzymes. The body and viscera of C. betulinus were treated with three enzymes viz. trypsin, pepsin and papain to obtain peptide hydrolysates. The activities of the hydrolysates were analyzed by DPPH and hydroxyl radical assay by using electron spin resonance (ESR) device. Active hydrolysates were purified using ion exchange chromatography followed by gel filtration chromatography. The activity of the separated fractions was analyzed by ESR; in which the result showed that trypsin hydrolysate of body (28.48 and 76.00%) and viscera (38.45 and 83.00%) respectively have high activity than the other hydrolysates. The HPLC result of purified fraction showed, presence of active amino acids viz., metheonine, cystine, histidine etc. This purified peptide has more antioxidant activity that could reduce the excess free radicals in body in order to prevent free radical induced diseases.     

Molecular characterization and expression of type-I interferon gene in Labeo rohita

Genes coding for type-I interferon (I-IFN) has been cloned from Labeo rohita, a commercially important and widely cultured fish in India and South East Asia. In the present study, full-length gene of I-IFN was amplified and sequenced. The sequence analysis revealed that I-IFN consists of 1,786 bp genomic sequence with four introns and five exons and an ORF of 546 bp encoding for a putative protein of 181 amino acids. The mature protein has a molecular weight of 18.97 kDa and consists of 158 amino acids and a signal peptide of 23 amino acids at the N terminus. The sequence carries I-IFN signature motif, one glycosylation site, two conserved cystine amino acids and other conserved amino acids. The sequence showed highest similarity to that of Cyprinus carpio (84 %). In silico analysis of the rohu I-IFN protein was done using various bioinformatic tools. The constitutive expression of I-IFN gene was found to be more in spleen compared to gill and kidney in real time PCR assay. Expression of I-IFN increased about 20-fold in cultured kidney cell 2 h after induction with poly I:C and showed maximum expression at 8 h post-induction.     

Extraction of protein and amino acids from deoiled rice bran by subcritical water hydrolysis

This study investigated the production of value-added protein and amino acids from deoiled rice bran by hydrolysis in subcritical water (SW) in the temperature range between 100 and 220 degrees C for 0-30 min. The results suggested that SW could effectively be used to hydrolyze deoiled rice bran to produce useful protein and amino acids. The amount of protein and amino acids produced are higher than those obtained by conventional alkali hydrolysis. The yields generally increased with increased temperature and hydrolysis time. However, thermal degradation of the product was observed when hydrolysis was carried out at higher temperature for extended period of time. The highest yield of protein and amino acids were 219 +/- 26 and 8.0 +/- 1.6 mg/g of dry bran, and were obtained at 200 degrees C at hydrolysis time of 30 min. Moreover, the product obtained at 200 degrees C after 30 min of hydrolysis exhibited high antioxidant activity and was shown to be suitable for use as culture medium for yeast growth.     

A trial to determine D-amino acids in tissue proteins of mice

Summary Eleven neutral amino acids and two acidic amino acids in tissue proteins of mouse kidney, liver and brain were analyzed for the presence of D-enantiomers. The proteins were hydrolyzed with HCl for 6 h. Of the thirteen amino acids investigated, the presence of D-enantiomers of serine, alanine, proline, aspartate and glutamate (including asparagine and glutamine) was shown in the hydrolysates. However, the level of D-enantiomers were not significantly higher than that of 6-h hydrolysate of serum albumin examined as a control protein. Serum albumin was shown to contain no D-amino acid residues.     

Influence of coronary artery diameter on eNOS protein content

The purpose of this study was to test the hypothesis that the content of endothelial nitric oxide synthase (eNOS) protein (eNOS protein/g total artery protein) increases with decreasing artery diameter in the coronary arterial tree. Content of eNOS protein was determined in porcine coronary arteries with immunoblot analysis. Arteries were isolated in six size categories from each heart: large arteries [301- to 2,500-microm internal diameter (ID)], small arteries (201- to 300-microm ID), resistance arteries (151- to 200-microm ID), large arterioles (101- to 150-microm ID), intermediate arterioles (51- to 100-microm ID), and small arterioles(<50-microm ID). To obtain sufficient protein for analysis from small- and intermediate-sized arterioles, five to seven arterioles 1-2 mm in length were pooled into one sample for each animal. Results establish that the number of smooth muscle cells per endothelial cell decreases from a number of 10 to 15 in large coronary arteries to 1 in the smallest arterioles. Immunohistochemistry revealed that eNOS is located only in endothelial cells in all sizes of coronary artery and in coronary capillaries. Contrary to our hypothesis, eNOS protein content did not increase with decreasing size of coronary artery. Indeed, the smallest coronary arterioles had less eNOS protein per gram of total protein than the large coronary arteries. These results indicate that eNOS protein content is greater in the endothelial cells of conduit arteries, resistance arteries, and large arterioles than in small coronary arterioles.     

Substrate specificity of the oncoprotein v-Fps: site-specific mutagenesis of the putative P+1 pocket

Based on the X-ray structure of the insulin receptor kinase [Hubbard, S. R. (1997) EMBO J. 16, 5572-5581], Arg-1130 in the oncoprotein v-Fps, a nonreceptor tyrosine protein kinase, is predicted to interact with the P+1 glutamate in substrate peptides. To determine whether this residue is an important recognition element in v-Fps, Arg-1130 was substituted with leucine (R1130L) and glutamic acid (R1130E). The ability of these mutants to phosphorylate the peptide EAEIYXAIE, where X is glutamic acid, alanine, or lysine, was assessed. A comparison of the rates of peptide phosphorylation under limiting substrate concentrations (i.e., k(cat)/K(m) conditions) indicates that substrate specificity is altered by the electrostatic environment of the P+1 pocket. When the pocket displays a positive charge (Arg-1130; wild type), no charge (R1130L), or a negative charge (R1130E), v-Fps prefers to phosphorylate the glutamate peptide over the lysine peptide by a 200:1, 9:1, or 1:1 margin. While k(cat)/K(m) for the glutamate peptide is 50-fold higher for wild type compared to R1130E, k(cat)/K(m) for the lysine peptide is 3-fold higher for R1130E compared to wild type, a 150-fold change in relative substrate specificity. Analysis of the individual steps in the kinetic mechanism using viscosometric techniques indicates that the wild-type enzyme binds the glutamate peptide 3-fold better than the alanine peptide and, at least, 10-fold better than the lysine peptide. For R1130L, this margin range is reduced substantially, and for R1130E, no binding preference is observed. Nonetheless, the lysine peptide binds, at least, 4-fold better to R1130E than to wild type, and the glutamate peptide binds 3-fold poorer to R1130E than to wild type. The mutants lower the phosphoryl transfer rate by 4-30-fold for the three peptides, suggesting that Arg-1130 helps to position the tyrosine for optimum catalysis. The data indicate that a single mutation in v-Fps can alter significantly the relative substrate specificity by about 2 orders of magnitude with, at least, 50% of this effect occurring through relative changes in peptide binding affinity.