UMLS:C0027960 - FACTA Search

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Query: UMLS:C0027960 (mole)
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Purified ribulose-bisphosphate carboxylase (EC 4.1.1.39) was strongly and equally inhibited either by ADP or GDP and to a lesser extent by IDP. AMP or ATP exerted little effect on activity. Inhibition by the nucleotide diphosphates was competitive with respect to RuBP and non-competitive with respect to "CO2" and Mg2+, respectively. Treatment of the enzyme with urea or guanidine-HCl resulted in rapid loss of activity that was not restored by dialysis even in the presence of Mg2+ and cysteine. Sodium dodecyl sulfate electrophoresis of 8.0 M urea treated enzyme revealed the presence of a fast-moving (small) sub-unit with molecular weight 14150 and a slower moving (large) sub-unit with molecular weight 68000. Examination of native enzyme by sodium dodecyl sulfate electrophoresis gave sub-units of 13700 and 55500 respectively. The amino acid content standardized to phenylalanine was essentially similar to that from other sources. Arrhenius plots showed a "break" at 29 degrees C with an Ea of 12.34 kcal per mole for the steeper part of the curve and a deltaH of 11.43 kcal per mole while for the less steep region, the Ea was 1.04 kcal per mole and the deltaH 1.92 kcal per mole.
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PMID:Physical properties and metabolite regulation of ribulose bisphosphate carboxylase from Thiobacillus A2. 127 53

The bifunctional reagent 1,4-dibromobutanedione (DBBD) reacts covalently with pyruvate kinase from rabbit muscle to cause inactivation of the enzyme at a rate that is linearly dependent on the reagent concentration, giving a second order rate constant of 444 min-1 M-1. The individual substrates phosphoenolpyruvate (with KCl), ADP, or ATP in the presence of divalent metal cation provide marked protection against inactivation suggesting that reaction occurs in the region of the active site. The limited incorporation of DBBD into pyruvate kinase was measured by reduction of the carbonyl groups of the enzyme-bound reagent using [3H]NaBH4. When pyruvate kinase was reacted with 120 microM DBBD at pH 7.0 for 50 min in the absence of protectants, 1.8 mol of tritium/mol of subunit was incorporated, whereas in the presence of phosphoenolpyruvate with KCl, only 1.0 mol of tritium was incorporated per mole of subunit. Modified peptides were isolated from tryptic digests of pyruvate kinase. Reaction of enzyme in the presence of substrate (showing no activity loss) yielded a single peptide, Asn-Ile-X1-Lys, where X1 corresponds to Cys164 of the known amino acid sequence of muscle pyruvate kinase. In the absence of protectants, reaction for 10 min (when the enzyme retained substantial activity) yielded Asn-Ile-X1-Lys as the major labeled peptide, whereas reaction for 50 min (when the enzyme was 88% inactivated) yielded predominantly Asn-Ile-X1-Lys cross-linked to X2-Asp-Glu-Asn-Ile-Leu-Trp-Leu-Asp-Tyr-Lys, where X2 corresponds to Cys151. Because activity loss correlates with the appearance of the cross-linked peptides but not with formation of Asn-Ile-X1-Lys, inactivation is likely caused by the reaction leading to the cross-link between Cys151 and Cys164. The distance between the alpha-carbons of these residues in the crystal structure is 15.5 A, whereas only 12.0 A can be spanned by the two side chains linked by a dioxobutyl group, suggesting either that pyruvate kinase undergoes a conformational change in forming the cross-link or that local rapid fluctuations in structure occur in solution to the extent of 3.5 A in this region of pyruvate kinase.
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PMID:Cysteinyl peptides labeled by dibromobutanedione in reaction with rabbit muscle pyruvate kinase. 130 66

The interactions between the pyrophosphate (PPi) binding sites and the nucleotide binding sites on mitochondrial F1-ATPase have been investigated, using F1 preparations containing different numbers of catalytic and noncatalytic nucleotide-binding sites occupied by ligands. In all cases, the total number of moles of bound nucleotides and PPi per mole of F1 was less than or equal to six. F1 preparations containing either three or two filled noncatalytic sites and no filled catalytic sites (referred as F1[3,0] and F1[2,0]) were found to bind 3 mol of PPi/mol of F1. Tight binding of ADP-fluoroberyllate complexes to two of the catalytic sites of F1 converted the three heterogeneous PPi-binding sites into three homogeneous binding sites, each exhibiting the same affinity for PPi. The addition of PPi at saturating concentrations to F1 containing GDP bound to two catalytic sites (F1[2,2]) resulted in the release of 1 mol of GDP. Furthermore, the addition of PPi to F1 filled with ADP-fluoroberyllate at the catalytic sites resulted in the release of 1 mol of tightly bound ADP/mol of F1. Taken together, these results indicate that PPi binds to specific sites that interact with both the catalytic and the noncatalytic nucleotide-binding sites of F1.
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PMID:Does pyrophosphate bind to the catalytic sites of mitochondrial F1-ATPase? 131 Dec 4

The correspondence between K+ uptake in platelets to their responsiveness was studied using 86Rb+ as an analogue of K+. An average 86Rb+ uptake rate of 0.73 (+/- 0.140) x 10(-15) mole Rb+/min-plt (n = 20) was observed. By the use of K(+)-influx inhibitors, we were able to distinguish three distinct 86Rb+ uptake pathways: an ouabain-sensitive (61% +/- 2% inhibitable) pump and two equivalent channels, only one of which is sensitive to furosemide. Other platelet parameters were also examined in conjunction with K(+)-uptake. Platelets incubated with ouabain exhibited an overall rise in their cell volume (MPV) with incubation time (delta MPV = 7.4 x 10(-17) L/min-1 plt-1). Concomitantly, over 24 hours, a steady decrease in platelet number was recorded by blood cell coulter, which correlated inversely with the counts of particles, which by their size resemble white blood cells (r = 0.89). On a cellular level, incubation with ouabain induced greater expression of surface fibrinogen-receptor (GPIIb), increased binding of FITC-labelled fibrinogen, and increased responsiveness to ADP. Our observations suggest the following sequence of events: Ouabain turns off the Na+/K(+)-ATPase pump, which leads to water accumulation in platelets and concomitant increased MPV. Greater expression of fibrinogen receptors on the distended platelet surface corresponds to spontaneous microaggregate formation as well as greater responsiveness to agonists. Our model links volume regulation, the expression of fibrinogen receptors, and the sensitivity of platelets to agonists to the activity of the Na+/K(+)-ATPase pump.
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PMID:Model for the regulation of platelet volume and responsiveness by the trans-membrane Na+/K(+)-pump. 131 20

We have used frequency- and time-resolved electron paramagnetic resonance (EPR) to study the effects of substrate on the nanosecond conformational dynamics of the Ca-ATPase of sarcoplasmic reticulum, as detected by an iodoacetamide spin label (IASL) attached covalently to the enzyme. We confirm previous results [Coan, C. (1983) Biochemistry 22, 5826] showing that this probe is less rotationally mobile following the addition of nucleotides (ADP, AMPPNP, ATP) and that the shape of the spectrum suggests the presence of two components. We used two approaches to enhance EPR resolution in order to resolve the spectral components and their corresponding conformational states. First, to improve resolution in the frequency (spectral) domain, we used perdeuterated IASL, which results in narrower line widths. Digital spectral analysis resolves the EPR spectrum into two components, one that is indistinguishable from the spectrum observed in the absence of ligands and another that indicates more restricted probe motions, suggesting a distinct conformation of the labeled protein. Additions of substrate ligands appear to change only the mole fractions of the two components. The mole fraction of the restricted component (fR) was 0 in the absence of ligands, but increased to about 0.5 in the presence of saturating concentrations of AMPPNP and Ca2+. In general, ATP and its analogs increase fR, with larger effects observed in the presence of Ca. However, calcium has no effect by itself (fR = 0). Both monovanadate and decavanadate increase fR, but the formation of a covalent phosphoenzyme from inorganic phosphate (E2-P) had no effect (fR = 0).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Resolved conformational states of spin-labeled Ca-ATPase during the enzymatic cycle. 132 12

The amino acid composition of flavokinase has been determined to contain five arginyl and four lysyl residues per mole. Flavokinase is inactivated by arginine-specific reagents. The substrates riboflavin and especially ATP impede inactivation, whereas neither of the products, ADP or FMN, protect. Among lysine-modifying reagents, only 2,4,6-trinitrobenzene sulfonic acid caused inactivation of the enzyme, especially under conditions for denaturation. In this case it was noted that the activity was enhanced at the early stage of the reaction but this enhancement was repressed in the presence of ATP along with the significant protection of activity. Results with modification of arginyl residues and incorporation of 14C-phenylglyoxal suggest that one such residue is involved in the substrate-binding site. The involvement of lysyl residues in catalytic function remains unclear, but seems less critical.
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PMID:Modification of arginyl and lysyl residues of flavokinase from rat small intestine. 133 80

The binding of ATP radiolabeled in the adenine ring or in the gamma- or alpha-phosphate to F1-ATPase in complex with the endogenous inhibitor protein was measured in bovine heart submitochondrial particles by filtration in Sephadex centrifuge columns or by Millipore filtration techniques. These particles had 0.44 +/- 0.05 nmol of F1 mg-1 as determined by the method of Ferguson et al. [(1976) Biochem. J. 153, 347]. By incubation of the particles with 50 microM ATP, and low magnesium concentrations (less than 0.1 microM MgATP), it was possible to observe that 3.5 mol of [gamma-32P]ATP was tightly bound per mole of F1 before the completion of one catalytic cycle. With [gamma-32P]ITP, only one tight binding site was detected. Half-maximal binding of adenine nucleotides took place with about 10 microM. All the bound radioactive nucleotides were released from the enzyme after a chase with cold ATP or ADP; 1.5 sites exchanged with a rate constant of 2.8 s-1 and 2 with a rate constant of 0.45 s-1. Only one of the tightly bound adenine nucleotides was released by 1 mM ITP; the rate constant was 3.2 s-1. It was also observed that two of the bound [gamma-32P]ATP were slowly hydrolyzed after removal of medium ATP; when the same experiment was repeated with [alpha-32P]ATP, all the label remained bound to F1, suggesting that ADP remained bound after completion of ATP hydrolysis. Particles in which the natural ATPase inhibitor protein had been released bound tightly only one adenine nucleotide per enzyme.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Binding of adenine nucleotides to the F1-inhibitor protein complex of bovine heart submitochondrial particles. 161 Aug 24

The mechanism by which fluoride and aluminum or beryllium in combination with ADP inhibit beef heart mitochondrial F1-ATPase was investigated. The kinetics of inhibition depended on the nature of the anion present in the F1-ATPase assay medium. Inhibition required the presence of Mg2+ and developed more rapidly with sulfite and sulfate than with chloride, i.e., with anions which activate F1-ATPase activity. The ADP-fluorometal complexes were bound quasi-irreversibly to F1, and each mole of the inhibitory nucleotide-fluorometal complex was tightly associated with 1 mol of Mg2+. One mole of nucleotide-fluorometal complex was able to inhibit the activity of 1 mol of catalytic site in F1. Direct measurements of bound fluoride, aluminum, beryllium, and ADP indicated that the F1-bound ADP-fluorometal complexes are of the following types: ADP1A11F4, ADP1Be1F1, ADP1Be1F2, or ADP1Be1F3. Fluoroaluminates or fluoroberyllates are isomorphous to Pi, and the inhibitory nucleotide-fluorometal complexes mimicked transient intermediates of nucleotides that appeared in the course of ATP hydrolysis. On the other hand, each mole of fully inhibited F1, retained 2 mol of inhibitory complexes. The same stoichiometry was observed when ADP was replaced by GDP, a nucleotide which, unlike ADP, binds only to the catalytic sites of F1. These results are discussed in terms of a stochastic model in which the three cooperative catalytic sites of F1 function in interactive pairs.
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PMID:Fluoroaluminum and fluoroberyllium nucleoside diphosphate complexes as probes of the enzymatic mechanism of the mitochondrial F1-ATPase. 182 93

The influence of the two antibiotics tetracycline hydrochloride (T) and penicillin G sodium (P) on PGI2 synthesis by the male rat thoracic aorta and day-20 pregnant rat myometrium was investigated in vitro using a rat platelet antiaggregatory bioassay method. Pretreatment of the tissues for 30 min at 37 degrees C with T (21-168 microM) or P (28-224 microM) significantly inhibited PGI2 synthesis in absence or presence of exogenous arachidonic acid (AA) (16.6 microM), (P less than 0.01, n = 5-6). Furthermore, pretreatment of rats with the two drugs (T 11 and P 175 mu mole kg-1 for 30 min) significantly antagonised AA (4 n mole kg-1)-induced hypotension in urethane-anaesthetised rats. They also (T 0.5-4 and P 1-6 microM) antagonised AA-induced aggregation in rabbit citrated platelet-rich plasma. T failed to affect ADP-induced aggregation to any significant level whereas P (3-6 microM) reduced ADP-induced aggregation. The drugs seemed to interfere with the action of the PG endoperoxide synthase (or PG cyclooxygenase) enzyme resulting in decreased formation of PGG2 and PGH2. Such an effect may have resulted from the induced formation of toxic [OH-] radicals and/or inhibition of O2 uptake by the tissues under the influence of the drugs. The demonstrated inherent property of these two antibiotics to inhibit the synthesis of the potent vasodilator, platelet antiaggregatory, anticonvulsant and inhibitor of gastric acid secretion--PGI2, may partly contribute towards better understanding of the biochemical mechanisms that underlie some of the previously known but poorly understood actions of these antibiotics. Furthermore, since good evidence exists for the involvement of excessive uterine prostaglandin synthesis in dysmenorrhoea and premature deliveries, it is suggested that the potential benefits of T or P in these two disorders be investigated.
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PMID:Influence of chemotherapeutic agents on prostacyclin synthesis. II. Effects of tetracycline and penicillin G on prostacyclin synthesis by the rat thoracic aorta and myometrial tissues. 194 60

We have previously reported for the first time the purification to homogeneity of the enzyme NMN adenylyltransferase (EC 2.7.7.1) from yeast and its major molecular and catalytic properties. The homogeneous enzyme was found to be a glycoprotein containing 2% carbohydrate and 1 mol of adenine residue and 2 mol of phosphate covalently bound per mole of protein. Such a stoichiometry, apparently consistent with that of ADP-ribose, prompted us to further investigate the possibility that NMN adenylyltransferase could be subjected to poly(ADP-ribosylation) in vitro in a reconstituted system. Poly(ADP-ribose) polymerase was purified to homogeneity from bull testis by means of a rapid procedure involving two batchwise steps on DNA-agarose and Reactive Blue 2 cross-linked agarose and a column affinity chromatography step on 3-aminobenzamide-Sepharose; the optimal conditions for the poly(ADP-ribosylation) of exogenous substrates were determined. When pure NMN adenylyltransferase was incubated in the presence of the homogeneous poly(ADP-ribose) polymerase, a marked inhibition of the polymerase was observed, both in the presence and in the absence of histones, while the activity of NMN adenylyltransferase was not affected. The inhibition could not be prevented by increasing the concentrations of either DNA or NAD. Mg2+ did not affect the activity or the inhibition. The significance of such a phenomenon is at present unknown, but it may be of biological relevance in view of the close topological and metabolic relationship between the two enzymes.
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PMID:Evidence for an inhibitory effect exerted by yeast NMN adenylyltransferase on poly(ADP-ribose) polymerase activity. 215 22

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