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1.
A mathematical model is developed whereby the longitudinal magnetization of phosphocreatine (PC), ATP, Pi, and total phosphate (PT) can be calculated on the basis of assumed chemical rate constants (kappa i) and spin lattice relaxation times of the muscle PC in equilibrium ATP in equilibrium Pi exchange system. By means of this model, some unexplained 31P nuclear magnetic resonance (NMR) spectroscopy results from the literature (e.g., a decrease of PT in a closed system) could be explained simply on the basis of the physiological variability of kappa i. Moreover, appropriate model simulations indicate that 1) 31P-NMR spectra obtained with short relaxation delays may be influenced to various extents by the metabolic and physicochemical status of the muscle; 2) the assessment of kappa i by standard NMR spectroscopy techniques may be extremely critical; 3) delta PC/delta Pi, as obtained from conventional 31P-NMR spectra, may represent a sensible index of kappa 2 (the pseudo first-order chemical exchange rate constant of the adenosinetriphosphatase reaction); 4) delta PC/delta Pi changes as detected from sequential (short relaxation delays) 31P-NMR spectra obtained in humans during metabolic transients (e.g., during transition from rest to work and vice versa) may represent an index of transient changes of kappa 2.  相似文献   

2.
HL-60细胞是目前研究诱导分化药物的常用细胞株,应用核磁共振~(31)P谱,观察HL-60细胞经分化诱导剂全反式维甲酸和新维甲类化合物SLM9123作用前后的代谢改变,发现分化后的细胞对ATP能量的需求明显增高,膜磷脂的合成前体──磷酸单酯也有明显增加,另外还发现分化后的细胞内pH值有从偏碱性转为偏酸性的趋势,文中对这些改变的可能机制作了探讨。  相似文献   

3.
Absolute 31P-NMR measurements of ATP, ADP and 2,3-diphosphoglycerate (2,3-DPG) in oxygenated and partly deoxygenated human erythrocytes, compared to measurements by standard assays after acid extraction, show that ATP is only 65% NMR visible, ADP measured by NMR is unexpectedly 400% higher than the enzymatic measurement and 2,3-DPG is fully NMR visible, regardless of the degree of oxygenation. These results show that binding to hemoglobin is unlikely to cause the decreased visibility of ATP in human erythrocytes as deoxyhemoglobin binds the phosphorylated metabolites more tightly than oxyhemoglobin. The high ADP visibility is unexplained. The levels of free Mg2+ [( Mg2+]free) in human erythrocytes are 225 mumol/l at an oxygen saturation of 98.6% and instead of the expected increase, the level decreased to 196 mumol/l at an oxygen saturation of 38.1% based on the separation between the alpha- and beta-ATP peaks. [Mg2+]free in the erythrocytes decreased to 104 mumol/l at a high 2,3-DPG concentration of 25.4 mmol/l red blood cells (RBC) and a normal ATP concentration of 2.05 mmol/l RBC. By increasing the ATP concentration to 3.57 mmol/l RBC, and with a high 2,3-DPG concentration of 24.7 mmol/l RBC, the 31P-NMR measured [Mg2+]free decreased to 61 mumol/l. These results indicate, that the 31P-NMR determined [Mg2+]free in human erythrocytes, based solely on the separation of the alpha- and beta-ATP peaks, does not give a true measure of intracellular free Mg2+ changes with different oxygen saturation levels. Furthermore the measurement is influenced by the concentration of the Mg2+ binding metabolites ATP and 2,3-DPG. Failure to take these factors into account when interpreting 31P-NMR data from human erythrocytes may explain some discrepancies in the literature regarding [Mg2+]free.  相似文献   

4.
(1) High-resolution 31P-NMR was used to study the environment of the phosphoserine residues of the phosphoproteins, alpha s1-casein B, beta-casein A2 and beta-casein C. For reference purposes 31P-NMR spectra of phosvitin and ovalbumin were also collected. (2) 31P resonances were assigned to specific phosphoserine residues as a result of comparisons of the high-resolution 31P-NMR spectra for alpha s1- and beta-caseins and for peptide fragments of these proteins obtained by cyanogen bromide and trypsin cleavage. (3) Measurements of the enhancement of the relaxation rate for water protons (1H) on addition of Mn2+ to alpha s1-casein B and to a fragment alpha s1-CN3, obtained by cyanogen bromide cleavage, gave approximate pK values for the binding groups and suggest the possibility of a conformational change induced by varying the concentration of divalent cation.  相似文献   

5.
In vivo 31P-NMR was used to measure the effects of the anti-tumor drug adriamycin on the energy metabolism of rat heart. The exclusive acquisition of NMR signal from cardiac muscle was assured by positioning a solenoidal radio-frequency NMR coil around the heart. Appropriate control experiments verified that 31P-NMR spectra solely originated from this organ. Acute effects occurring shortly after adriamycin administration are expressed in 31P spectra as a dose-dependent decline in the cardiac levels of phosphocreatine, after which stabilization at a new steady-state level occurs. These acute effects of a single dose are complete in 30-60 min and no significant further changes take place within 150 min after drug introduction. Longer-term effects of single high doses and of multiple lower doses were measured up to a week after the initiation of treatment. It seemed that at a total dose of 20 mg/kg, drug-induced interference with cardiac energy metabolism was more pronounced than at the same dose in the acute phase. These 31P-NMR data demonstrate that adriamycin treatment is accompanied by a decrease of the cardiac phosphocreatine/ATP ratio which might be an expression of the well-established cardiotoxicity of the drug.  相似文献   

6.
The subcellular compartmentalization of adenosine 5'-triphosphate (ATP) in isolated perfused rat heart and its relation to energy depletion in ischemia were examined by 31P nuclear magnetic resonance (31P-NMR) spectroscopy and chemical analyses. The signal intensities of the beta-phosphate of ATP and creatine phosphate in the 31P-NMR were standardized by the intracellular volume ratio measured with 23Na-NMR to determine the actual content of each. During aerobic perfusion the ATP content determined by NMR (13.7 +/- 2.2 mumol/g dry weight) was significantly lower than that found by chemical analysis (22.4 +/- 0.7 mumol/g dry weight), while the creatine phosphate contents determined by the two methods were the same. During ischemia at 33 degrees C, the signal of the beta-phosphate of ATP in the 31P-NMR spectrum decreased progressively, disappearing completely after 16 min. But at this time 5.7 +/- 1.7 mumol/g dry weight of myocardial ATP was still detected by chemical analysis. These results indicated that there were two different compartments of intracellular ATP in the heart, only one of which is detectable by 31P-NMR spectroscopy, and that during ischemia the ATP that is detectable, which seems to be the free ATP in the cytosol, decreased more rapidly than the ATP in the other compartment.  相似文献   

7.
We employed surface probe-localized 31P-NMR spectroscopy to examine in situ the impact of short-term emergence (hypoxia) and resubmergence on phosphate metabolites and intracellular pH (pHi) in intact mussels. The use of intact organisms ensured that all intrinsic responses remained active while monitoring of individuals minimized uncertainties resulting from stochastic behavior and other individual differences. The use of a photoetched, balanced-match foil probe combined with 1H-NMR images allowed 31P-NMR spectra to be acquired from the posterior adductor muscle with good signal-to-noise. Upon emergence, all mussels exhibited an increase in [Pi], a decline in [phosphoarginine] and pHi, and very little changes in [ATP] with time. The complementary behavior of [phosphoarginine] and [Pi] indicated a precursor-product relationship involved in the maintenance of [ATP] but the similarity between [phosphoarginine] and pHi time-courses cannot be so readily explained. Irregularity in the time-courses of some parameters could have reflected stochastic gaping activity. Resubmergence responses exhibited a reversal of the emergence responses, except that the pHi eventually became supraalkaline with irregular fluctuations. This might be related to the 'oxygen debt' phenomenon and increased oxidative phosphorylation.  相似文献   

8.
We have examined newts by 19F-NMR using the anesthetic halothane as a probe and in another set of experiments taken 31P-NMR spectra under similar conditions. The spectra were recorded from the animal's tail. The water soluble 31P-NMR signals point to little difference between anesthetized and unanesthetized newts except for the potential disappearance of two pools of inorganic phosphate in the anesthetized animals. The 19F spectra show two anesthetic populations in the tail which the phosphorus spectra suggest arise from populations of halothane in muscle and in lipid.  相似文献   

9.
Recently,the effect of ligand receptor interaction on the membrane structure of liposomes has been studied extensively,However,little is known about how it exists on biological membranes,In this paper,the effect of Concanavalin A(ConA) receptorinteratcion on the structure of cell membranes was studied by Circular DIchrosim(CD) and 31P Nuclear Magnetic Resonance(NMR).CD results of both the purified macrophage membranes and human erythrocyte hgosts(EG) showed that the conformation of membrane proteins changed after ConA binding.For further research,31P-NMR was used to detect the orgainzation of phosp[holipid molecules on macrophage membranes.After ConA binding,the tendercy to form non bilayer structure increased with the amount of ConA.The changes of 31P-NMR spectra of living macrophages might be partly due to the above stated reason too.In addition,ConA-receptor interaction also induced similar results of 31P-NMR spectra in EG.In contrast,wheat germ agglutinin (WGA),another kind of lectin,rarely showed the same influence.  相似文献   

10.
31P-NMR has been used extensively for the study of cytosolic small molecule phosphates in vivo and phospholipid structures in vitro. We present in this paper a series of studies of the brain by 31P-NMR, both in vivo and in extracts, showing the information that can be derived about phospholipids. 31P-NMR spectra of mouse brain at 73 mHz are characterised by almost a complete absence of the large phosphodiester peak in comparison to equivalent spectra at 32 mHz. Proton decoupled spectra in vivo, and spectra of extracts, show that the phosphodiester peak observed in 32 mHz spectra in vivo is mainly due to phospholipid bilayers. Homogenates of quaking and control mouse brains, and of bovine grey matter, show another narrower phosphodiester peak possibly from small phospholipid vesicles. This peak is increased in intensity in the affected mice. These experiments demonstrate the presence of three major components contributing to the phosphodiester resonance: bilayer phospholipids, more mobile phospholipids, and the freely soluble cytosolic molecules glycerophosphocholine and glycerophosphoethanolamine. These NMR methods for non-invasive investigation of phospholipid structures in the brain might be extended to studies of patients with membrane involved diseases such as multiple sclerosis.  相似文献   

11.
Racemic 1-O-(epsilon-aminohexanoyl)-2,3-diphosphoglycerol (ADPG) was synthesized. The pH dependence of the 31P-NMR spectra was studied for the ADPG cyclohexylammonium salt. ADPG binding to hemoglobin and its functional activity as a regulator of human hemoglobin reversible oxygenation were assayed.  相似文献   

12.
Magic angle spinning 31P-NMR (MAS 31P-NMR) spectra of bovine rod outer segments, unphosphorylated and phosphorylated, were obtained. In the phosphorylated samples the spectra showed new resonances not assignable to phospholipids. These signals were present only when stimulation of receptor phosphorylation occurred. These resonances were not due to exogenous, soluble phosphorus-containing compounds. Limited proteolysis to remove the carboxyl-terminal region of the photoreceptor that contains the phosphorylation sites removed these resonances. The chemical shifts were in the usual range for serine phosphate and threonine phosphate. The pKa obtained from a pH titration of the 31P chemical shift was typical of serine phosphate. Therefore, these 31P-NMR resonances were assigned to the phosphorylation sites on membrane proteins in the rod outer segment disk membranes. Static 31P-NMR measurements revealed that at least some of these sites gave rise to relatively narrow resonances, indicative of considerable motional freedom of the carboxyl-terminal segment of the photoreceptor when phosphorylated. These data indicate that it is possible to study phosphorylation sites on membrane proteins using MAS 31P-NMR, and that using in vivo 31P 'spin labelling' one can study directly and selectively regions of receptors crucial to receptor function.  相似文献   

13.
The 31P nuclear magnetic resonance spectrum of cultured human Y-79 retinoblastoma cells was obtained at 121 MHz on intact cells trapped in agarose threads. The spectrum was dominated by monoester peaks, which varied in relative concentration from preparation to preparation. Resonances from phosphocreatine, phosphodiesters and diphosphodiesters also exhibited variability relative to ATP. The main monoester was identified as phosphorylcholine by 31P-NMR of perchloric acid extracts. It was determined that the changes in monoester concentration correlated with feeding pattern. Phosphorus spectra of cells 1, 2 and 3 days post feeding showed a 40% decrease in the relative concentration of phosphorylcholine concentration over the 3 day period. Phosphocreatine, phosphodiesters and diphosphodiesters increased relative to ATP during the same period. Growth curve experiments and oxygen consumption measurements indicated that the decrease in phosphorylcholine correlated with a decrease in cellular growth and oxygen consumption. We conclude that monoester concentration may be a useful indicator of nutritional status in these cells and possibly in intact tumors.  相似文献   

14.
The 31P-NMR lines of the beta-phosphate groups in Mg2+.ATP and in metalfree ATP can be observed separately up to 280 K at 8.5 T and up to 285 K at 11.7 T. At 274 K and 8.5 T the beta-phosphorous resonances are in slow exchange at pH values above pH 5, the gamma-phosphorous resonances are in slow exchange only near pH 6, but in fast exchange at low and high pH-values. The fast exchange condition holds for the alpha-phosphorous resonances over the entire pH-range. For Ca2+.ATP and metalfree ATP always fast exchange prevails down to the freezing point of water even at 11.7 T. Based on the separate observation of the 31P-NMR signals of Mg2+.ATP and uncomplexed ATP new experiments are proposed and possible sources of error in 'in vivo' NMR studies are discussed.  相似文献   

15.
Polyphosphate kinase (PPK), which can regenerate ATP from ADP, was utilized in the mevalonate-dependent enzymatic synthesis of amorphadiene. The activity of PPK, cloned from Escherichia coli, was determined by (31)P-NMR. The yield from the PPK-catalyzed synthesis was 25%, 2.5 times higher than that without PPK. The (31)P-NMR analysis of the final reaction mixture indicated no accumulation of intermediates.  相似文献   

16.
The 31P nuclear magnetic resonance spectrum of cultured human Y-79 retinoblastoma cells was obtained at 121 MHz on intact cells trapped in agarose threads. The spectrum was dominated by monoester peaks, which varied in relative concentration from preparation to preparation. Resonances from phosphocreatine, phosphodiesters and diphosphodiesters also exhibited variability relative to ATP. The main monoester was identified as phosphorylcholine by 31P-NMR of perchloric acid extracts. It was determined that the changes in monoester concentration correlated with feeding pattern. Phosphorus spectra of cells 1,2 and 3 days post feeding showed a 40% decrese in the relative concentration of phosphorylcholine concentration over the 3 day period. Phosphocreatine, phosphodiesters and diphosphodiesters increased relative to ATP during the same period. Growth curve experiments and oxygen consumption measurements indicated that the decrease in phosphorylcholine correlated with a decrease in cellular growth and oxygen consumption. We conclude that monoester concentration may be a useful indicator of nutritional status in these cells and possibly in intact tumors.  相似文献   

17.
31P-NMR spectroscopy has been used to study the energy metabolism and the NMR visibility of ATP and intracellular Pi of the C6 glioma cell line and rat astrocyte grown on microcarrier beads with the following results. 1. In vivo NMR spectra of C6 glioma cells and rat astrocytes indicate that these cells were able to maintain their level of ATP resonances during a long anoxic period (more than an hour). Both cell types were sensitive to ischemia which induced a loss of ATP resonances within 40 min. Glucose starvation induced by 40% decrease in ATP resonances correlated to a 50% increase in the intensity of the Pi signal. These changes corresponded to a new steady state which could be reversed by reperfusing the cells with a glucose-containing medium. 2. In contrast to in vivo data, 31P-NMR analyses of perchloric acid extracts of cells incubated in a glucose-free medium showed that their ATP and Pi contents were unchanged during starvation. The changes of NMR visibility of the metabolites in living C6 cells were correlated to modifications of their macroscopic longitudinal relaxation times, evolving from 0.30 +/- 0.08 s and 6.6 +/- 1.5 s in the presence of glucose to 0.68 +/- 0.26 s and 3.2 +/- 0.9 s in the absence of glucose for ATP and Pi, respectively. The changes of the NMR detectability of ATP and Pi indicate that changes in their microenvironment occur during glucose starvation, suggesting the existence of different pools of these metabolites within the cells. 3. Under various experimental conditions, i.e. anoxia, ischemia and glucose starvation, rat astrocytes in primary culture showed a very similar behavior to that of C6 cells, suggesting a similar adaptability to the nature of the energy supply for both the normal and the malignant cell.  相似文献   

18.
The objective of our study was to investigate the self-association and DNA-binding properties of the DNA topoisomerases I (Topo I) and II (Topo II) dual inhibitor: 6-[[2-(dimethylamino)ethyl]amino]-3-hydroxy-7H-indeno[2,1-c]quinoline-7-one dihydrochloride (TAS-103), by means of 1H-NMR and 31P-NMR spectroscopy, structure computation techniques, thermal melting study, and UV-Visible spectroscopy. In aqueous solution, all chemical shifts of TAS-103 underwent upfield shifts depending with an increase in concentration. The two-dimensional (2D)-NMR spectra and structure computations indicated that TAS-103 self-associated through pi-pi stacking and hydrophobic interactions of the aromatic chromophores. Thermal melting indicated that the binding of TAS-103 to DNA with a potency equal to that of ethidium bromide (EtBr). The UV-Visible spectra of TAS-103 titrated by several DNA exhibited hypochromic and hypsochromic effects. The 31P-NMR spectrum of the 6:1 TAS-103/d(CGCGAATTCGCG)(2) complex showed two broadening signals. 2D-NMR spectra of the 1:1 TAS-103/d(CGCGAATTCGCG)(2) complex indicated that the chemical shift differences of the DNA are very small. However, those of the terminal region are relatively large. The chemical shift differences of TAS-103 showed that the proton resonances except H2 underwent downfield shifts. From these observations, we conclude that TAS-103 binds to DNA by two modes. The major binding mode is on the surface (outside binding) and the minor binding mode by intercalation.  相似文献   

19.
Kinetic analysis of the protonation of a surface group of a macromolecule   总被引:1,自引:0,他引:1  
High-field 31P-NMR studies of whole cells of Streptococcus faecalis have shown that delta pH can be formed by ATP hydrolysis and also by lactate transport. We have used 31P-NMR to measure the pH dependence of the variable stoichiometry of the proton/lactate carrier. At low external pH (pH approximately equal to 6.5) the influx stoichiometry was 1.1 H+/lactate, while at high pH (7.5) the ratio was almost 2; the apparent midpoint pH of this variable stoichiometry is 7. delta psi measurements support the electrogenic nature of lactate transport at high pH; the variable rate of membrane depolarization caused by lactate transport also had a midpoint near pH 7.0. The data is consistent with a symmetrical carrier operating with variable stoichiometry as proposed by Michels et al.  相似文献   

20.
31P-NMR and UV spectroscopies were used to study the interactions between cationic amphiphile-containing lipid bilayers and either a phosphorothioate oligonucleotide (OligoS) (n=21) or polyadenylic acid (PolyA) (n approximately 18,000). Multilamellar vesicles (MLVs) were composed of 1-palmitoyl-2-oleoyl-sn-glycero-3-phosphocholine (POPC) or 1,2-dioleoyl-sn-glycero-3-phosphoethanolamine (DOPE) in binary mixture with either of the cationic lipids, N-[1-(2, 3-dioleoyloxy)propyl]-N',N',N'-trimethylammonium chloride (DOTAP) or cetyltrimethylammonium bromide (CTAB). A UV-difference assay showed that OligoS binding ceased above a 1:1 anion/cation ratio, while PolyA binding continued until a 2:1 ratio was reached, indicating a 'flat' conformation for bound OligoS, but not necessarily for PolyA. Cross-polarization (31)P-NMR of the nucleotide chains bound to 100% DOTAP MLVs produced spectra virtually identical to those of dry powders of OligoS or PolyA, indicating effective immobilization of the surface-bound nucleotide chains. Hahn echo (31)P-NMR showed that MLVs composed of binary mixtures of POPC with DOTAP or CTAB retained a lamellar bilayer architecture upon adding nucleotide chains. At less than stoichiometric anion/cation ratios little or no signal attributable to free nucleotide chains was visible. A narrow signal at the chemical shift expected for phosphorothiodiesters or phosphodiesters became visible at greater levels of added OligoS or PolyA, respectively, indicating the presence of mobile nucleotide chains. Salt addition caused complete desorption of the nucleotide chains. When POPC was replaced with DOPE, binding of OligoS or PolyA produced non-bilayer lipid phases in the presence of DOTAP, but not in the presence of CTAB.  相似文献   

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