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1.
Methods are described for the fluorometric determination of plasma adenosine concentrations, using HPLC. Plasma obtained from blood of dogs treated with erythro-(2-hydroxy-3-nonyl)adenine hydrochloride and dipyridamole was deproteinized with perchloric acid and the neutralized sample was put sequentially onto a SepPak C18 and boronic acid affinity column. Subsequently, adenosine in the final elution was converted to 1,N6-ethenoadenosine and was quantitated by HPLC with a fluorescence detector. The percentage recovery of adenosine added to the deproteinized plasma was nearly 100%. In the adenosine deaminase treated plasma, the increase in adenosine concentration of even 4 nM can be accurately determined. The control renal venous plasma concentrations of adenosine in anesthetized dogs were 19.9 +/- 1.9 nM, a significantly higher value than the corresponding arterial concentrations (12.7 +/- 1.1 nM), thereby suggesting the renal release of adenosine. This release was markedly enhanced following the removal of the renal arterial occlusion. Thus, taken together with the in vivo results, the present method is sensitive, hence most useful for the determination of plasma adenosine concentrations.  相似文献   

2.
A sensitive method was developed for the simultaneous determination of six adenyl purines in human plasma by high-performance liquid chromatography. The adenyl purines (adenine, adenosine, AMP, ADP, ATP and cyclic AMP) were derivatized using 2-chloroacetaldehyde for fluorescence detection, and the reaction and separation conditions were reinvestigated to improve sensitivity for small volume sample analysis. Each derivatized purine was separated on a Capcell Pack SG120A™ column with mobile phase consisting of 0.05 M citric acid–0.1 M dipotassium hydrogen phosphate (pH 4.0)–methanol (97+3). The detection limits were 100–1000 fmol/ml by fluorescence detection, some 500 times better than previous reports. The proposed method was applied to determine adenyl purines in human plasma. The purine levels were as follows: ATP (9.2–22.2 pmol/ml), ADP (5.5–22.2 pmol/ml), AMP (0.8–3.2 pmol/ml). Other purines, adenine, adenosine, cAMP were lower than 0.1 pmol/ml.  相似文献   

3.
The synthesis of fluorescent derivatives of nucleosides and nucleotides, by reaction with isatoic anhydride in aqueous solution at mild pH and temperature, yielding their 3'-O-anthraniloyl derivatives, is here described. The N-methylanthraniloyl derivatives were also synthesized by reaction with N-methylisatoic anhydride. Upon excitation at 330-350 nm these derivatives exhibited maximum fluorescence emission at 430-445 nm in aqueous solution with quantum yields of 0.12-0.24. Their fluorescence was sensitive to the polarity of the solvent; in N,N-dimethylformamide the quantum yields were 0.83-0.93. The major differences between the two fluorophores were the longer wavelength of the emission maximum of the N-methylanthraniloyl group and its greater quantum yield in water. All anthraniloyl derivatives, as well as the N-methylanthraniloyl ones, had virtually identical fluorescent properties, regardless of their base structures. The ATP derivatives showed considerable substrate activity as a replacement of ATP with adenylate kinase, guanylate kinase, glutamine synthetase, myosin ATPase and sodium-potassium transport ATPase. The ADP derivatives were good substrates for creatine kinase and glutamine synthetase (gamma-glutamyl transfer activity). The GMP and adenosine derivatives were substrates for guanylate kinase and adenosine deaminase, respectively. All derivatives had only slightly altered Km values for these enzymes. While more fluorescent in water, the N-methylanthraniloyl derivatives were found to show relatively low substrate activities against some of these enzymes. The results indicate that these ribose-modified nucleosides and nucleotides can be versatile fluorescent substrate analogs for various enzymes.  相似文献   

4.
A rapid, sensitive and reproducible reversed-phase HPLC assay was developed for the determination of amprolium (APL) in chicken plasma. Protein in plasma sample was precipitated with 0.33 M perchloric acid and supernatant solution was injected into the HPLC system. Following the chromatographic separation of APL and the beclotiamine (I.S.) on a C18 column, the derivatives of APL and I.S. were formed by post-column reaction and detected by fluorescence detection (excitation at 400 nm, emission at 460 nm). The method showed excellent precision, accuracy and speed with a detection limit of 2 ng/ml. The intra- and inter-assay variance of this method were less than 11.2%. This method has been successfully applied to plasma determinations after oral administration of APL to chicken.  相似文献   

5.
Adenosine, adenine, cyclic adenosine monophosphate (AMP), AMP, nicotinamide adenine dinucleotide, adenosine diphosphate, and adenosine triphosphate (ATP) were recovered quantitatively from aqueous portions of lipid extracts of microfouling, detrital, and sedimentary microbial communities. These could be detected quantitatively in the picomolar range by forming their 1-N6-etheno derivatives and analyzing by high-pressure liquid chromatography with fluorescence detection. Lipid extraction and subsequent analysis allowed the simultaneous measurement of the microbial community structure, total microbial biomass with the quantitative recovery of the adenine-containing cellular components, which were protected from enzymatic destruction. This extraction and fluorescent derivatization method showed equivalency with the luciferin-luciferase method for bacterial ATP measurements. Quick-freezing samples in the field with dry ice-acetone preserved the ATP and energy charge (a ratio of adenosine nucleotides) for analysis at remote laboratories. The metabolic lability of ATP in estuarine detrital and microfouling communities, as well as bacterial monocultures of constant biomass, showed ATP to be a precarious measure of biomass under some conditions. Combinations of adenosine and adenine nucleotides gave better correlations with microbial biomass measured as extractable lipid phosphate in the detrital and microfouling microbial communities than did ATP alone. Stresses such as anoxia or filtration are reflected in the rapid accumulation of intracellular adenosine and the excretion of adenosine and AMP into the surrounding milieu. Increases in AMP and adenosine may prove to be more sensitive indicators of metabolic status than the energy charge.  相似文献   

6.
1. The formation of a stable fluorescent product between chloroacetaldehyde and adenine or its derivatives provides the basis of a rapid simple assay for total adenine compounds in blood platelets and in plasma. The assay will measure down to 200pmol of adenine nucleotides. An evaluation of the method established the optimum conditions for the production of maximum fluorescence. 2. Values obtained for total adenine compounds in platelets were 12.9nmol/10(8) cells in man and 7.8nmol/10(8) cells in rat. These closely agree with previous values for total platelet adenine nucleotides found by using a firefly luciferase assay, or a recycled NAD-linked photometric assay. This supports the concept that the chloroacetaldehyde reaction measures total adenine nucleotides in platelets. 3. Platelet aggregation induced by collagen was studied photometrically in 0.1ml volumes of citrated platelet-rich plasma, and total adenine nucleotides were assayed in platelets and plasma before and after aggregation. During aggregation 58% of adenine nucleotides were released from human platelets, and 36% from rat platelets. 4. The chloroacetaldehyde assay is no substitute for more sophisticated procedures, but is a simple sensitive means of monitoring the release of adenine nucleotides from blood platelets and is particularly valuable when small plasma samples must be used.  相似文献   

7.
The acid-insoluble product isolated from well-oxygenated Langendorff rat heart after perfusion with [14C]adenosine was purified by phenol extraction and subjected to specific phosphorolysis by pure polynucleotide phosphorylase. TLC analysis of the reaction mixture showed that ADP was the only radioactive product, proving that the original substance was a polyribonucleotide. Studies of the time course of labelling and of the distribution of the acid-insoluble product between the mitochondrial and nuclear fractions showed that both are labelled even after 1 min at 25 °C, but at short times and low temperature more radioactivity is found in the mitochondria. The kinetics of adenosine incorporation resemble those expected for the labelling of hnRNA and mRNA. Isolated, respiring mitochondria incorporate adenosine and adenine nucleotides into acid insoluble form by a process dependent on oxidative phosphorylation and the adenine nucleotide translocase that is specific for adenine derivatives. The results are discussed in terms of the hypothesis that the polyribonucleotide might be a storage form of adenine nucleotides: it is concluded that the bulk of the labelled product is unlikely to play a major role in energy metabolism.  相似文献   

8.
Adenine nucleotides of guinea-pig neocortical tissues were labelled by incubation with [(14)C]adenine and excess of adenine was then removed by superfusion with precursor-free medium. Adenine derivatives released from the tissue during continued superfusion, including a period of electrical stimulation of the tissue, were collected by adsorption and examined after elution and concentration. The stimulation greatly increased the (14)C output, and material collected during and just after stimulation had a u.v. spectrum which indicated adenosine to be a major component. The additional presence of inosine and hypoxanthine was shown by chromatography and adenosine was identified also by using adenosine deaminase. Total adenine derivatives released from the tissue during a 10min period of stimulation were obtained as hypoxanthine, after deamination and hydrolysis of adenosine and inosine, and amounted to 159nmol/g of tissue. This corresponded to the release of approx. 7pmol/g of tissue per applied stimulus. The hypoxanthine sample derived from superfusate hypoxanthine, inosine and adenosine was of similar specific radioactivity to the sample of inosine separated chromatographically, and each was of higher specific radioactivity than the adenine nucleotides obtained by cold-acid extraction of the tissue.  相似文献   

9.
A sensitive and specific assay for measurement of adenine nucleotides and adenosine by paired-ion high-performance liquid chromatography is described. The 1,N6-ethenoderivatives of ATP (epsilon-ATP), ADP (epsilon-ADP), AMP (epsilon-AMP), and adenosine (epsilon-Ado), formed by reaction with chloroacetaldehyde at 37 degrees C, were separated under isocratic conditions in 20 min. These compounds are strongly fluorescent at an emission wavelength of 280 nm, rendering a lowest detection limit of 2-5 pmol per injection. The detector responded linearly over the measured ranges (5-100 pmol for epsilon-Ado and 5-4000 pmol for nucleotides). Specificity was confirmed enzymatically. alpha, beta-Methyleneadenosine 5'-diphosphate could be used as an internal standard for measurement of the nucleotides. Significant amounts of NADH appeared as a separate peak in hypoxic tissue. Recoveries from snap-frozen kidney were 88, 92, 76, and 63% for AMP, ADP, ATP, and adenosine, with SD for recovery of 1.0, 10.5, 8.3, and 5.6%, respectively. This method was successfully used to measure adenine nucleotides and adenosine in oxygenated and hypoxic perfused rat kidneys.  相似文献   

10.
The Sonogashira reaction was used for modifications of borated green fluorescence protein chromophore derivatives, 4-(2-(difluoroboryl)benzylidene)-1H-imidazol-5(4H)-ones, for the development of new fluorescent dyes. The derivatives bearing an acetylene fragment and a difluoroboryl group were obtained in high yields. The modification resulted in a significant bathochromic shift of the absorption and emission maxima and is a promising method for the development of new fluorescent dyes.  相似文献   

11.
It is known that one of the reasons leading to the development of neuroligical disorders, such as Parkinson’s disease, is the damage of the mitochondrial NADH dehydrogenase. We suggest that it happens when NADH dehydrogenase loses connection with its coenzyme flavine mononucleotide (FMN) in the active center. This process is blocked by the enzyme substrate NADH or by the reaction product NAD. In this work we have developed a method based on fluorescence spectroscopy to monitor the stability of FMN in isolated rat liver mitochondria. It was observed that this process is strongly blocked by adenine analogs ATP, ADP, and AMP. Adenine, adenosine, NADPH, nicotine amide, and nicotine acid did not prevent the FMN loss. The obtained data could be used as a basis for construction of synthetic analogues of adenosine phosphates for the treatment of mitochondrial diseases.  相似文献   

12.
The adenine derivatives adenosine 5'-triphosphate (ATP), adenosine 5'-diphosphate (ADP), adenosine 5'-monophosphate (AMP) and adenosine (AD), in concentrations of 10(-3)M and 10(-4)M caused significant and dose-related modifications in the basal acid secretion from isolated whole rat stomach. The first three purine derivatives, ATP, ADP and AMP significantly increased the spontaneous acid secretion. On the other hand, AD caused a significant reduction in the basal acid secretion. When ATP, ADP, AMP and AD were assayed in the presence of the adrenergic and cholinergic blocking agents, ergotamine, 10(-6)M, propranolol, 5 X 10(-7)M and atropine, 10(-6)M, all these purine derivatives, including AD, caused a significant increase in the basal acid secretion.  相似文献   

13.
A simple, sensitive HPLC method using fluorescence detection was developed for determination of adenosine in fetal venous perfusates of dual-perfused cotyledons from human term placentas. Maternal and fetal circuits of in vitro placental cotyledons were perfused with physiological salt solution containing dextrose and dextran (Earle's medium). Conditions were established for optimal formation of fluorescent 1,N6-ethenoadenosine from adenosine and chloroacetaldehyde in Earle's medium and for optimal resolution of 1,N6-ethenoadenosine by reversed-phase HPLC of the reaction mixture. The yield of 1,N6-ethenoadenosine was enhanced by dilution and acidification of the sample matrix. Perfusate samples in autosampler vials were diluted 40% with water and reacted with chloroacetaldehyde for 40 min at 100 degrees C; replicate 100-microliters injections were made automatically from each reaction mixture for HPLC analysis with fluorescence detection on a column packed with 3 microns octadecylsilica (Hypersil). Calibration curves were prepared similarly from 4-100 nM adenosine in Earle's medium. Alternatively, perfusate samples were diluted twofold with dilute phosphoric acid to give a final pH of 5.4 before reaction with chloroacetaldehyde, and replicate 50-microliters injections were made automatically for HPLC; calibration curves were prepared from 2-400 nM adenosine in Earle's medium. 1,N6-Ethenoadenosine was well resolved from Earle's-derived artifactual peaks on chromatography with either a linear or a concave gradient of methanol in ammonium phosphate buffer. Total run times were 15 and 19 min, respectively. Sensitivity of measurement of adenosine was 2-4 nM. Derivatization of adenosine using the acidified reaction mixture gave a limit of detection of 100 fmol of adenosine per injection. Application of the method to analysis of adenosine in fetal venous perfusates of eight dual-perfused cotyledons, each from a different placenta, gave a range of 3.5-52 nM adenosine. Ischemia, imposed by cessation of maternal perfusion, caused a two- to sixfold increase in fetal venous perfusate adenosine concomitant with an increase in fetoplacental perfusion pressure; perfusion pressure and perfusate adenosine returned to baseline levels on reperfusion of the maternal circuit. This facile method of determination of perfusate adenosine should allow investigation of the role of placental adenosine release in regulation of fetoplacental vascular resistance and should be applicable to study of adenosine released by other isolated perfused organs.  相似文献   

14.
Quenching effects of purine and pyrimidine derivatives on the extra-weak chemiluminescence (CL) derived from the Maillard reaction of L-lysine with D-arabinose were investigated The pyrimidine derivatives 2′-deoxy cytidine, uridine, and uracil quenched the CL. Cytidine did not quench the CL. Purine derivatives, e.g. uric acid and 1-methyl adenosine were particularly effective in quenching the CL. 5-Methyl adenine and xanthine also quenched the CL, but adenosine had no effect. A comparison of the CL-quenching abilities of compounds that have common basic structure was made; those with ribose at the 5-position were the strongest quenchers. A linear relationship between CL-quenching activity and the HOMO energy of the pi orbital for the various compounds was shown.  相似文献   

15.
We developed sample preparation methods for the detection of various biogenic phenylethylamine derivatives such as 3,4-dihydroxyphenylalanine, and their cyclisation products with aldehydes, i.e., 1,2,3,4-tetrahydroisoquinoline derivatives in blood samples. 1,2,3,4-Tetrahydroisoquinolines are considered to play an essential role as neurotoxic compounds in the pathomechanism of Parkinson’s disease. We used reversed-phase high-performance liquid chromatography with ultraviolet and fluorescence detection for separation and identification. Ultrafiltration, protein precipitation and solid-phase extraction were investigated for purification of blood samples and enrichment of various compounds with a wide range of hydrophilicity and hydrophobicity. Protein precipitation by methanol and perchloric acid is a fast method to separate the analytes from the plasma matrix. A higher yield of the analytes is attained with prior addition of an alkylsulfonic acid giving a fine-grained precipitate. With the addition of ion pairing compounds into the sample it is possible to enrich not only lipophilic compounds such as norharman, tryptamine and melatonin, but also hydrophilic ones such as 3,4-dihydroxyphenylalanine by reversed-phase solid-phase extraction. Ultrafiltration is not useful as a screening method.  相似文献   

16.
Fluorescent 3'-O-acyl-substituted adenine nucleotide (dimethylamino)naphthoyl and trinitrophenyl groups were studied for binding to the ADP/ATP carrier in mitochondria and submitochondrial particles. The changes in fluorescence intensity and emission maximum are for the most part similar to those observed in nonaqueous solvents. The (dimethylamino)naphthoyl derivatives from a largely quenched aqueous state have a shortwave shift up to 85 nm and increase up to 90-fold (1,5 derivative), whereas the little quenched naphthoyl derivatives show a fluorescence decrease and the weakly fluorescent trinitrophenyl derivative shows only a small increase on binding. All derivatives are good inhibitors (K1 = 1-10 microM) of nucleotide transport. The fluorescence titrations have an apparent K1/2 = 2-7 microM. The fluorescence of the 1,5-DAN nucleotide is fully suppressed by bongkrekate but only partially suppressed by carboxyatractylate. The fluorescence response is much stronger in submitochondrial particles than in mitochondria. Both facts suggest fluorescent binding to the "m" state of the carrier site at the inner face of the membrane. 1,5-DAN-AMP shows a slightly more efficient binding than DAN-ADP or DAN-ATP.  相似文献   

17.
The release and metabolism of adenosine was examined using rat fat cells in which the nucleotide pool has been labeled by incubation with radioactive adenine. The accumulation of adenosine in the medium was near maximal at the start of the incubation and increased only slightly thereafter. Adenosine was rapidly deaminated to inosine and subsequently oxidized to uric acid. In the presence of allopurinol, and inhibitor of xanthine dehydrogenase, hypoxanthine accumulated in the medium as the end-product of adenosine catabolism. Adenosine accumulated in the medium only if fat cells were incubated in the presence of erythro-9-(2-hydroxy-3-nonyl)adenine, an inhibitor of adenosine deaminase. Even in the presence of this inhibitor there was no acceleration of adenosine release by norepinephrine in the presence of theophylline. However, there was an increase in labeled intracellular AMP accumulation by norepinephrine plus theophylline. The increase in labeled AMP correlated with the final free fatty acid to albumin ratio suggesting that the rise in AMP was related to an accumulation of intracellular free fatty acids. The addition of sodium oleate to the medium mimicked the effect of norepinephrine plus theophylline on the accumulation of labeled AMP. These results indicate that AMP rather than adenosine accumulates in isolated fat cells during incubation with lipolytic agents.  相似文献   

18.
A simple, rapid (2 hours), fluorescent test for the activity of blood adenosine deaminase (ADA) is described. The test which can be performed on both heparinized and dried blood, is based on the conversion of adenosine to inosine and ammonium in the presence of ADA. The enzyme activity is visually estimated by the oxidation of NADH (fluorescent) to NAD+ (non-fluorescent) in a coupled reaction with glutamate dehydrogenase. The disappearance of fluorescence indicates ADA activity in the sample. The advantages are discussed of the use of this test for the study of the autosomal recessive severe combined immunodeficiency.  相似文献   

19.
Fluorescent proteins are now widely used in fluorescence microscopy as genetic tags to any protein of interest. Recently, a new fluorescent protein, Kaede, was introduced, which exhibits an irreversible color shift from green to red fluorescence after photoactivation with lambda = 350-410 nm and, thus, allows for specific cellular tracking of proteins before and after exposure to the illumination light. In this work, the dynamics of this photoconversion reaction of Kaede are studied by fluorescence techniques based on single-molecule spectroscopy. By fluorescence correlation spectroscopy, fast flickering dynamics of the chromophore group were revealed. Although these dynamics on a submillisecond timescale were found to be dependent on pH for the green fluorescent Kaede chromophore, the flickering timescale of the photoconverted red chromophore was constant over a large pH range but varied with intensity of the 488-nm excitation light. These findings suggest a comprehensive reorganization of the chromophore and its close environment caused by the photoconversion reaction. To study the photoconversion in more detail, we introduced a novel experimental arrangement to perform continuous flow experiments on a single-molecule scale in a microfluidic channel. Here, the reaction in the flowing sample was induced by the focused light of a diode laser (lambda = 405 nm). Original and photoconverted Kaede protein were differentiated by subsequent excitation at lambda = 488 nm. By variation of flow rate and intensity of the initiating laser we found a reaction rate of 38.6 s(-1) for the complete photoconversion, which is much slower than the internal dynamics of the chromophores. No fluorescent intermediate states could be revealed.  相似文献   

20.
1. From NMR, IR and visible absorption studies of 2'(or 3')-O-(2, 4, 6-trinitrophenyl)-adenosine 5'-triphosphate (TNP-ATP), 2'(or 3')-O-(2, 4, 6-trinitrophenyl) adenosine (TNP-Ad(, and 1-(2'-hydroxyethoxy)-2, 4, 6-trinitrobenzene (TNP-EG), it was concluded that there is an intramolecular interaction between the base and 2, 4, 6-trinitrophenyl (TNP) moieties in the TNP-ATP molecule. 2. A broad new absorption band was observed in the 530-630 nm region when excess indole was added to reaction mixtures containing TNP-ATP dissolved in 50% methanol or dimethyl sulfoxide. On addition of aromatic amino acid derivatives, methanol or dimethyl sulfoxide. On addition of aromatic amino acid derivatives, TNP-ATP and TNP-Ad underwent spectral shifts in the 400-550 nm region. The formation of a 1:1 complex apparently occurred between TNP-ATP and aromatic amino acid derivatives, and the complex with N-acetyltryptophan was stable in 50% methanol. The difference spectrum of TNP-EG vs. TNP-ATP closely resembled that induced by the addition of N-acetyltryptophan to the TNP-ATP solution. 3. The binding of 2'(or 3')-O-(2, 4, 6-trinitrophenyl)adenosine 5'-diphosphate (TNP-ADP) to heavy meromyosin (HMM) was studied by the rapid gel equilibrium method using Sephadex G-25. A dissociation constant of 1.4 muM and a maximum binding number of 1.8 were obtained in 0.15 M KCl, 10 mM MgCl2, and 50 mM Tris-HCl (pH 8.0) at 25 degrees. TNP-ADP bound to the enzyme caused a characteristic spectral shift in the visible region. This spectral shift was explained in terms of an interaction between tryptophanyl residues and the adenine base of TNP-ADP bound to the enzyme. TNP-ADP quenched the tryptophanyl fluorescence, but TNP-EG and TNP-Ad did not. In the presence of 6 M guanidine hydrochloride, TNP-ADP scarcely quenched the tryptophanyl fluorescence, its effect being comparable to that of TNP-Ad.  相似文献   

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