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1.
Ribulose-5-phosphate kinase from maize (Zea mays) can exist in either a reduced, active form or an oxidized, inactive form. Reduced ribulose-5-phosphate kinase is rapidly and irreversibly inactivated by the dichlorotriazine dye Reactive Red 1 (Procion Red MX-2B), but the irreversible inactivation of the oxidized form of ribulose-5-phosphate kinase occurs at only 0.05% of this rate. The rate of inactivation of the reduced enzyme by Reactive Red 1 (apparent bimolecular rate constant 10(4)M-1 X s-1 at pH 7.4 and 25 degrees C) is several orders of magnitude greater than previous estimates of the rates of dye-mediated inactivation of other enzymes. The dye-dependent inactivation of the reduced enzyme is inhibited by Hg2+ or p-mercuribenzoate (thiol reagents that reversibly inhibit ribulose-5-phosphate kinase activity), or by ATP and ADP, the nucleotide substrates of the enzyme. Hydrolysed Reactive Red 1, which does not inactivate the enzyme, is a reversible inhibitor of ribulose-5-phosphate kinase. This inhibition is competitive with respect to ATP (Ki approximately 0.5 mM). The dye appears to act as an affinity label for the ATP/ADP-binding site by preferentially arylating a thiol residue generated during the reductive activation of the enzyme that is achieved by dithiothreitol or thioredoxin in vitro or during illumination of leaves.  相似文献   

2.
The interaction of yeast hexokinase with Procion Green H-4G.   总被引:4,自引:3,他引:1       下载免费PDF全文
1. A number of reactive triazine dyes specifically and irreversibly inactive yeast hexokinase at pH 8.5 and 33 degrees C. Under these conditions, the enzyme is readily inactivated by 100 microM-Procion Green H-4G, Blue H-B, Turquoise H-7G and Turquoise H-A, is less readily inactivated by Procion Brown H-2G. Green HE-4BD, Red HE-3B and Yellow H-5G and is not inactivated at all by Procion Yellow H-A. 2. The inactivation of hexokinase by Procion Green H-4G is competitively inhibited by the adenine nucleotides ATP and ADP and the sugar substrates D-glucose, D-mannose and D-fructose but not by nonsubstrates such as D-arabinose and D-galactose. 3. Quantitatively inhibited hexokinase contains approx. 1 mol of dye per mol of monomer of mol.wt. 51000. The inhibition is irreversible and activity cannot be recovered on incubation with high concentration (20 mM) of ATP or D-glucose. 4. Mg2+ protects the enzyme against inactivation by Procion Green H-4G but enhances the rate of inactivation by all the other Procion dyes tested. In the presence of 10 mM-Mg2+ the apparent dissociation constant between enzyme and dye is reduced from 199.0 microM to 41.6 microM. Binding of the dye to hexokinase is accompanied by characteristic spectral changes in the range 560-700 nm. 5. Mg2+ promotes binding of yeast hexokinase to agarose-immobilized Procion Green H-4G but not to the other dyes tested. Elution could be effected by omission of Mg2+ from the column irrigants or by inclusion of MgATP or D-glucose, but not by D-galactose. These effects can be exploited to purify hexokinase from crude yeast extracts. 6. The specific active-site-directed binding of triazine dyes to yeast hexokinase is interpreted in terms of the crystallographic structure of the hexokinase monomer.  相似文献   

3.
A Hampton  L A Slotin 《Biochemistry》1975,14(25):5438-5444
N6-O- and p-fluorobenzoyladenosine 5'-triphosphates (IIIc and IIc, respectively) have been synthesized as potential adenosine 5'-triphosphate (ATP) site-directed reagents for enzymes. IIc and IIIc were substrates of yeast hexokinase; neither they nor the corresponding ADP derivatives inactivated yeast hexokinase or rabbit pyruvate kinase. IIc rapidly inactivated rabbit and carp muscle adenylate kinases; the effect is probably ATP site directed because N6-benzoyl-ATP did not inactivate and was a substrate (Vmax = 28 and 10%, respectively, that of ATP), and because of ATP retarded the inactivation. The inactivations followed pseudo-firsr-order kinetics; in the presence of 2.64 mM ATP at 0 degrees the half-life of the rabbit kinase was 210 min with 50 muM IIc and the half-life of the carp kinase was 130 min with 100 muM IIc. Adenylate kinase of pig muscle was inactivated by IIc in a manner similar to the rabbit and carp enzymes except that the rate of inactivation exhibited an inflexion. IIIc inactivated rabbit, pig, and carp adenylate kinases by pseudo-first-order kinetics; the rate constants for inactivation at 0 degrees were 9.1 X 10(-3), 1.3 X 10(-3), and 1.9 X 10(-3) min-1 and the apparent dissociation constants (K) of the IIIc-enzyme complexes were 710, 970, and 720 muM, respectively. From the substrate properties of IIIc alone and in admixture with ATP its dissociation constants (Ki) from the ATP sites of the enzymes were found to be 500, 700, and 845 muM, respectively. The similarity between the K and Ki values, together with marked retardation of the inactivations by ATP, indicates that IIIc is an ATP-site-directed reagent for the three adenylate kinases.  相似文献   

4.
Glutamine synthetase of plants is the physiological target of tabtoxinine-beta-lactam, a toxin produced by several disease-causing pathovars of Pseudomonas syringae. This toxin, a unique amino acid, is an active site-directed, irreversible inhibitor of glutamine synthetase from pea. ATP is required for inactivation. Neither ADP, AMP, nor adenosine 5'-(beta,gamma-methylene)triphosphate (AMP-PCP) supports inactivation. Adenyl-5'-yl imidophosphate (AMP-PNP) is slowly hydrolyzed by glutamine synthetase to produce adenyl-5'-yl phosphoramidate (AMP-PN) and inorganic phosphate as identified by 31P NMR spectroscopic analysis. AMP-PNP also supports a slow inactivation of glutamine synthetase by tabtoxinine-beta-lactam. These data are consistent with gamma-phosphate transfer being involved in the inactivation. Completely inactivated glutamine synthetase has 0.9 mumol of toxin bound/mumol of subunit. One mumol of ATP is bound per mumol of subunit of glutamine synthetase in the absence of either the toxin or another active site-directed inhibitor, methionine sulfoximine; whereas, a 2nd mumol of either [alpha- or gamma-32P]ATP is bound per mumol of subunit when glutamine synthetase is incubated in the presence of either toxin or methionine sulfoximine until all enzyme activity is lost. These data suggest that the gamma-phosphate hydrolyzed from ATP during inactivation remains with the enzyme-inhibitor complex, as well as the ADP. The open chain form, tabtoxinine, was neither a reversible nor an irreversible inhibitor of glutamine synthetase, suggesting that the beta-lactam ring is necessary for inhibition. The inactivation of glutamine synthetase with tabtoxinine-beta-lactam is pseudo-first-order when done in buffer containing 15% (v/v) ethylene glycol. The rate constant for this reaction is 3 X 10(-2) S-1, and the Ki for the toxin is 1 mM. Removal of the ethylene glycol from the buffer allows the reaction to proceed in a non-first-order manner with the apparent rate constant decreasing with time. As the enzyme is inactivated in these conditions, the binding affinity for the toxin appears to decrease, while the Km observed for glutamate does not change.  相似文献   

5.
Incubation of anticapsin with the purified glucosamine synthetase (2-amino-2-deoxy-D-glucose-6-phosphate ketol-isomerase, amino transferring, EC 5.3.1.19) from Escherichia coli, Pseudomonas aeruginosa, Arthrobacter aurescens and Bacillus thuringiensis led to the formation of an inactive enzyme irreversibly modified. The inactivation reaction followed pseudo-first-order kinetics. The rate of the inactivation reaction at various concentrations of anticapsin exhibited saturation kinetics, implying that anticapsin binds reversibly to the enzyme prior to inactivation. The determined Kinact is in the range of 10(-5) M (B. thuringiensis) and 10(-6) M (E. coli, P. aeruginosa, A. aurescens ). The addition of glutamine protected the amidotransferase from inactivation by anticapsin . The anticapsin was demonstrated to be a mixed type or competitive inhibitor with respect to glutamine with a Ki value of 10(-6) to 10(-7) M. Reaction of anticapsin with the enzyme exhibits the characteristics of affinity labelling of the glutamine binding site. Chemical modification of the enzyme thiol group with various reagents, 5,5'-dithiobis-(2-nitrobenzoic) acid, 6,6'- dithiodinicotinic acid, 1,1'- dithiodiformamidine , N-ethylmaleimide and iodoacetamide, resulted in an inactive enzyme.  相似文献   

6.
Alkylation of guanosine 5'-monophosphate (GMP) synthetase with the glutamine analogs L-2-amino-4-oxo-5-chloropentanoic acid (chloroketon) and 6-diazo-5-oxonorleucine (DON) inactivated glutamine- and NH3-dependent GMP synthetase. Inactivation exhibited second order kinetics. Complete inactivation was accompanied by covalent attachment of 0.4 to 0.5 equivalent of chloroketon/subunit. Alkylation of GMP synthetase with iodacetamide selectively inactivated glutamine-dependent activity. The NH3-dependent activity was relatively unaffected. Approximately 1 equivalent of carboxamidomethyl group was incorporated per subunit. Carboxymethylcysteine was the only modified amino acid hydrolysis. Prior treatment with chloroketone decreased the capacity for alkylation by iodacetamide, suggesting that both reagents alkylate the same residue. GMP synthetase exhibits glutaminase activity when ATP is replaced by adenosine plus PPi. Iodoacetamide inactivates glutaminase concomitant with glutamine-dependent GMP synthetase. Analysis of pH versus velocity and Km data indicates that the amide of glutamine remains enzyme bound and does not mix with exogenous NH3 in the synthesis of GMP.  相似文献   

7.
Inhibition studies of crystallized rat liver argininosuccinate synthetase [EC 6.3.4.5] are described. 1. L-Argininosuccinate, L-histidine, and L-tryptophan inhibited the enzyme activity at saturating amounts of the substrates. 2. L-Norvaline, L-argininosuccinate, L-arginine, L-isoleucine, and L-valine competitively inhibited the enzyme activity at a low concentration of L-citrulline, with Ki values of 1.3 x 10(4) M, 2.5 X 10(-4) M, 6.7 X 10(-4) M, 6.3 X 10(-4) M, and 6.0 x 10(-4) M, respectively. 3. L-Argininosuccinate and L-arginine competitively inhibited the enzyme activity at a low concentration of L-aspartate, with Ki values of 9.5 x 10(-4) M and 1.2 x 10(-3) M, respectively. 4. The modes of inhibition by L-histidine were mixed-noncompetitive, uncompetitive, and noncompetitive types with respect to L-citrulline, L-aspartate, and ATP, respectively. 5. When the enzyme was preincubated with L-citrulline, the enzyme activity was slightly increased in the presence of a low concentration of L-histidine in the assay mixture. 6. The conformation of the enzyme was markedly changed by the addition of L-histidine as judged from the CD spectrum. This change was partially reversed by incubation with L-citrulline.  相似文献   

8.
The interaction between tryptophanyl-tRNA synthetase (EC 6.1.1.2) from beef pancreas and the ATP analogs containing alkylating or phosphorylating groups in the polyphosphate moiety of ATP was studied as an approach to investigate the structure of the enzyme active center. Some of the compounds under study were shown to irreversibly inhibit the enzyme activity; the presence of ATP in the most cases protects the enzyme against inactivation. The kinetic constants Ki and k2 of interaction of the irreversible inhibitors with the enzyme were determined. It was found that the Ki values for a number of irreversible competitive inhibitors are by 1-2 orders of magnitude less than the Km value for ATP; the k2 values were found equal to 0.02-0.04 min-1. this suggests that the compounds may be used as affinity reagents, the most efficient ones being adenosine 5'-(beta-chloroethyl phosphate) and mixed AMP-mesithylene carbonic acid anhydride. The absence of a protective effect of ATP in the case of adenosine 5'-(beta-bromoethane phosphonate) and non-competitive type of reversible inhibition inhibition of the enzyme by adenosine 5'-chloromethane phosphonate indicate that the molecule of tryptophanyl-tRNA synthetase contains sites interacting with adenine nucleotides, other than the ATP binding sites of the active center.  相似文献   

9.
Glucokinase from Bacillus stearothermophilus was irreversibly inactivated by the reactive dichlorotriazinyl dye Procion Blue MX-3G at pH 8.0. The enzyme was protected from inactivation by the substrate MgATP. Kinetic data implied that the dye occupied the MgATP-binding site. The apparent Km values for MgATP and D-glucose were found to be 70 microM and 210 microM respectively, and the Kd of the pure reactive dye was 16 microM; 1 mol of the pure reactive dye bound to 1 mol of glucokinase subunit. The dye was shown to have potential as an affinity probe for glucokinase. Glycerokinase from the same bacterium was inactivated by Procion Blue MX-3G at high concentrations (5 mM), but only after a period of increased enzyme activity. Kinetic data indicated that the dye preferentially attacked the glycerol-binding site. The apparent Km values for MgATP and glycerol were found to be 38 microM and 13 microM respectively, and 4 mol of reactive dye could be bound to 1 mol of glycerokinase subunit. This was surprising in view of the MgATP-dependent elution of glycerokinase from immobilized Procion Blue MX-3G.  相似文献   

10.
Glutaminol adenylate 5 is a competitive inhibitor of glutaminyl-tRNA synthetase with respect to glutamine (Ki = 280 nM) and to ATP (Ki = 860 nM). The corresponding methyl phosphate ester 4 is a weaker inhibitor (Ki approximately 10 microM) with respect to glutamine.  相似文献   

11.
Thymidilate synthetase (methylenetetrahydrofolate:dUMP C-methyltransferase) in crude extract from Diplococcus pneumoniae exhibits a partial but variable requirement for Mg-2+ depending upon the buffer. Optimum Mg-2+ concentration is between 0.014 and 0.02 M. The optimum pH for activity in a variety of buffers occurred as a broad peak between 7.0 and 7.7. In Tris/acetate buffer, but not in potassium phosphate buffer, the pH optimum was different in the presence and absence of Mg-2+. Methylation of uridylate, cytidylate and deoxycytidylate could not be demonstrated over a pH range of 5.0-8.0. The enzyme exhibited an apparent Km for deoxyuridylate of 3.08 - 10-5 M and an apparent Km for L-(+)(minus)-5,10-methylene tetrahydrofolate of 2.66 - 10-4 M. During molecular-sieve chromatography and sucrose density-gradient centrifugation, the enzyme was detectable only as a single catalytically active form of Mr 34 000-38 000. 2,4-Diamino quinazoline antifolates were better competitive inhibitors (Ki = 3-8 -10-6 M) of thymidylate synthetase than 2,4-diamino pteridines (Ki = 3- 10-5 M). 2-Amino-4-hydroxy-quinazolines were the best inhibitors (Ki = 1.3-2.9 - 10-6 M). All of the 2,4-diamino quinazolines and pteridines inhibited dihydrofolate reductase from D. pneumoniae in a nearly stoichiometric fashion (Ki = less than 10-10 M). The 2-amino-4-hydroxy-quinazolines were poor inhibitors of this enzyme (Ki = 10=5 M).  相似文献   

12.
Although glutamine synthetase from Escherichia coli is composed of 12 identical subunits, there is no evidence that homologous subunit interactions occur in fully unadenylylated or fully adenylylated enzyme. Meister and co-workers (Manning, J. M., Moore, S., Rowe, W. B., and Meister, A. (1969) Biochemistry 8, 2681-2685) have shown that L-methionine-S-sulfoximine, one of the four diastereomers of methionine sulfoximine, preferentially inhibits glutamine synthetase irreversibly in the presence of ATP, due to the formation of tightly bound products, ADP, and methionine sulfoximine phosphate. Using highly purified unadenylylated glutamine synthetase and the two resolved diastereomers of L-methionine-S,R-sulfoximine, we have studied both the kinetics of glutamine synthetase inactivation in the presence of excess methionine sulfoximine and ATP, and the binding of methionine sulfoximine to the enzyme. The results reveal that (a) the apparent first order rate constant of irreversible inactivation by the S isomer decreases progressively from the expected first order rate, indicating that an inactivated subunit retards the reactivity of its neighboring subunits toward methionine sulfoximine and ATP; (b) the R isomer does not inactivate glutamine synthetase irreversibly in the presence of ATP; however, the R isomer is capable of protecting the enzyme temporarily from the irreversible inhibition by the S isomer; and (c) the binding of the S isomer monitored by changes in protein fluorescence exhibits an apparent negative cooperative binding isotherm, whereas the R isomer yields an apparent positive cooperative pattern.  相似文献   

13.
gamma-Glutamylcysteine synthetase is inactivated by incubation with low concentrations of L-2-amino-4-oxo-5-chloropentanoate. Very low concentrations of magnesium ions or certain other divalent cations are required for inactivation. L-Glutamate, but not D-glutamate or L-glutamine, protected against inactivation and the protective effect of L-glutamate was increased in the presence of ATP or ADP. L-alpha-Aminobutyrate increased the rate of inactivation by the chloroketone. When the chloroketone was added to the dipeptide synthesis system, inhibition was competitive with L-glutamate. Iodoacetamide also inhibited the enzyme; however, this reagent is much less effective than the chloroketone and inhibition by iodoacetamide is less effectively prevented by L-glutamate. Studies with 14C-labeled chloroketone showed that this reagent binds stoichiometrically to the enzyme, and that it binds exclusively to its heavy subunit.  相似文献   

14.
Bovine cardiac myosin ATPase activity was rapidly inactivated by the purine disulfide analog of ATP,6,6'-dithiobis(inosinyl imidodiphosphate). Kinetic investigations showed that this analog acted as a site-specific reagent at 0 degrees with a Ki of 130 muM and a half-life of 8.2 min at saturating inhibitor concentrations. Concentrations (50 to 500 muM) of ATP, adenyl-5'-yl imidodiphosphate (AMP-PNP), or ADP that saturated the active site caused an enhancement in the rate of inactivation, indicating the purine disulfide analog was not reacting at the active site. Under these conditions saturation kinetic data were still observed with Ki values remaining unchanged (120 muM) but with the half-life of inactivation decreasing to 6.0 min (ATP) and 4.6 min (AMP-PNP) at saturating inhibitor concentrations. At concentrations greater than 0.5 mM ATP, AMP-PNP, or ADP there was a decrease in the rate of inactivation, implying protection by these nucleotides. However, saturation kinetics of inactivation could no longer be demonstrated, implying a change in the mechanism of inactivation. A comparison of the inactivation of the Mg2+, Ca2+, and EDTA-ATPase activities of cardiac myosin after modification by the purine disulfide analog showed that the Mg2+- and Ca2+ATPase activities plateaued at approximately 60% and 40%, respectively, while the EDTA-ATPase activity continued to decrease to below 10%. This evidence supports the suggestion that the purine disulfide analog was not reacting at the active site. Equilibrium dialysis experiments were used to measure the binding of [8-3H]AMP-PNP to native cardiac myosin, the thiopurine nucleotide-modified myosin, and the derivative formed by displacing the thiopurine nucleotide by cyanide (thiocyanato-myosin). Native myosin bound a total of 2.1 mol of AMP-PNP with a binding constant of 6.0 X 10(6) M-1. There was a 15 to 40% decrease in the number of AMP-PNP binding sites in the enzyme derivatives, but the active sites appeared not to be blocked since the association constants remained essentially unchanged (KA=3.9 X 10(6) M-1 for thiopurine nucleotide-myosin and 12.0 X 10(6) M-1 for thiocyanato-myosin). The kinetic studies and the binding experiments indicate that the purine disulfide analog reacts at a specific site other than the active site but do not offer support to earlier suggestions from skeletal myosin studies that this site is a possible ATP control site.  相似文献   

15.
S-Adenosylmethionine synthetase from Escherichia coli is rapidly inactivated by N-ethylmaleimide. In the presence of excess N-ethylmaleimide inactivation follows pseudo first-order kinetics, and loss of enzyme activity correlates with the incorporation of 2 eq of N-[ethyl-2-3H]maleimide/subunit. Preincubation of the enzyme with methionine and the ATP analog adenylylimidodiphosphate reduced the rate of N-ethylmaleimide incorporation more than 30-fold. Two N-[ethyl-2-3H]maleimide-labeled tryptic peptides were purified from the modified enzyme by reverse phase high performance liquid chromatography. The modified residues were identified as cysteine 90 and cysteine 240 by comparison of the amino acid compositions of these peptides with the protein sequence. These are the first residues to be implicated in the activity and/or structure of the enzyme. N-Ethylmaleimide-modified S-adenosylmethionine synthetase exists mainly as a dimer in conditions where the native enzyme is a tetramer. Accumulation of the dimer parallels the loss of the enzyme activity. When an enzyme sample was partially inactivated, separation of tetrameric and dimeric enzyme forms by gel filtration revealed that the residual enzyme activity was solely present in the tetramer and N-[ethyl-2-3H] maleimide was present predominantly in the dimer. Gel filtration studies of the tetramer-dimer equilibrium for the native enzyme indicated that the dissociation constant between the tetramer and dimers is less than 6 x 10(-11) M. Similar studies for the N-ethylmaleimide-modified protein indicated that the dissociation constant of the tetramer is approximately 4 x 10(-4) M. Upon modification the strength of dimer-dimer interactions is diminished by at least 9 kcal/mol.  相似文献   

16.
1. Pig heart pyruvate dehydrogenase complex is inactivated by phosphorylation (MgATP2-) of an alpha-chain of the decarboxylase component. Three serine residues may be phosphorylated, one of which (site 1) is the major inactivating site. 2. The relative rates of phosphorylation are site 1 greater than 2 greater than site 3. 3. The kinetics of the inactivating phosphorylation were investigated by measuring inactivation of the complex with MgATP2-. The apparent Km for the Mg complex of ATP was 25.5 microM; ADP was a competitive inhibitor (Ki 69.8 microM) and sodium pyruvate an uncompetitive inhibitor (Ki 2.8 microM). Inactivation was accelerated by increasing concentration ratios of NADH/NAD+ and of acetyl-CoA/CoA. 4. The kinetics of additional phosphorylations (predominantly site 2 under these conditions) were investigated by measurement of 32P incorporation into non-radioactive pyruvate dehydrogenase phosphate containing 3-6% of active complex, and assumed from parrallel experiments with 32P labelling to contain 91% of protein-bound phosphate in site 1 and 9% in site 2. 5. The apparent Km for the Mg complex of ATP was 10.1 microM; ADP was a competitive inhibitor (Ki 31.5 microM) and sodium pyruvate an uncompetitive inhibitor (Ki 1.1 mM). 6. Incorporation was accelerated by increasing concentration ratios of NADH/NAD+ and of acetyl-CoA/CoA, although it was less marked at the highest ratios.  相似文献   

17.
We have investigated the inhibition of Escherichia coli glutamine synthetase (GS) with alpha- and gamma-substituted analogues of phosphinothricin [L-2-amino-4-(hydroxymethylphosphinyl)butanoic acid (PPT)], a naturally occurring inhibitor of GS. These compounds display inhibition of bacterial GS that is competitive vs L-glutamate, with Ki values in the low micromolar range. At concentrations greater than Ki the phosphinothricins caused time-dependent loss of enzyme activity, while dilution after enzyme inactivation resulted in recovery of enzyme activity. ATP was required for inactivation; the nonhydrolyzable ATP analogue AMP-PCP failed to support inhibition of GS by the phosphinothricins. The binding of these inhibitors to the enzyme was also characterized by measurement of changes in protein fluorescence, which provided similar inactivation rate constants k1 and k2 for the entire series of compounds. Rate constants koff for recovery were also determined by fluorescence measurement and were comparable for both PPT and the gamma-hydroxylated analogue GHPPT and significantly greater for the alpha- and gamma-alkyl-substituted compounds. Electron paramagnetic resonance spectra provided information on the interaction of the phosphinothricins with the manganese form of the enzyme in the absence of ATP, and significant binding was observed for PPT and GHPPT. 31P NMR experiments confirmed that enzyme inactivation is accompanied by hydrolysis of ATP, although phosphorylated phosphinothricins could not be detected in solution. The kinetic behavior of these compounds is consistent with a mechanism involving inhibitor phosphorylation, followed by release from the active site and simultaneous hydrolysis to form Pi and free inhibitor.  相似文献   

18.
8-Azido-ATP has been found to serve as a photoaffinity label for two distinct ATP sites on rat liver carbamoyl phosphate synthetase I and to allow preliminary localization of these sites. In the dark, 8-azido-ATP acted as a competitive inhibitor with respect to ATP. Ultraviolet irradiation of carbamoyl phosphate synthetase I in the presence of 8-azido-ATP led to an irreversible loss of activity. ATP specifically protected against this inactivation. The incorporation of 2 mol of 8-azido-ATP per mol of enzyme was required for complete inactivation. To localize the 8-azido-ATP-binding sites to discrete regions of carbamoyl phosphate synthetase I which appear to be structural domains, the enzyme was photolabeled with [gamma-32P]8-azido-ATP and subjected to limited proteolytic digestion. The resulting model for the functional roles of the domains is that there is one ATP site on each of the two large internal structural domains of the enzyme. Each of these domains was found to contain the consensus sequences A and B common to many other nucleotide-binding proteins (Walker, J.E., Saraste, M., Runswick, M. J., and Gay, N. J. (1982) EMBO J. 1, 945-951). In addition, there is extensive structural and possibly functional interaction of the smaller N-terminal domain with one of the internal ATP-binding domains, analogous to a subunit interaction observed with the evolutionarily related Escherichia coli carbamoyl phosphate synthetase.  相似文献   

19.
Escherichia coli succinyl-CoA synthetase (EC 6.2.1.5) was irreversibly inactivated on incubation with the adenine nucleotide analogue 5'-p-fluorosulphonylbenzoyladenosine (5'-FSBA). Optimal inactivation by 5'-FSBA took place in 40% (v/v) dimethylformamide. ATP and ADP protected the enzyme against inactivation by 5'-FSBA, whereas desulpho-CoA, an analogue of CoA, did not. Inactivation of succinyl-CoA synthetase by 5'-FSBA resulted in total loss of almost four thiol groups per alpha beta-dimer, of which two groups appeared to be essential for catalytic activity. 5'-FSBA at the first instance appeared to interact non-specifically with non-essential thiol groups, followed by a more specific reaction with essential thiol groups in the ATP(ADP)-binding region. Plots of the data according to the method of Tsou [(1962) Sci. Sin. 11, 1535-1558] revealed that, of the two slower-reacting thiol groups, only one was essential for catalytic activity. When succinyl-CoA synthetase that had been totally inactivated by 5'-FSBA was unfolded in acidic urea and then refolded in the presence of 100 mM-dithiothreitol, 85% of the activity, in comparison with the appropriate control, was restored. These data are interpreted to indicate that inactivation of succinyl-CoA synthetase by 5'-FSBA involves the formation of a disulphide bond between two cysteine residues. Disulphide bond formation likely proceeds via a thiosulphonate intermediate between 5'-p-sulphonylbenzoyladenosine and one of the reactive thiol groups of the enzyme.  相似文献   

20.
The interaction of Escherichia coli glutamine synthetase with the adenosine 5'-triphosphate analogue, 5'-p-fluorosulfonylbenzoyladenosine (5'-FSO2BzAdo), has been studied. This interaction results in the covalent attachment of the 5'-FSO2BzAdo to the enzyme with concomitant loss of catalytic activity. Although adenine nucleotides interact with glutamine synthetase at three distinct sites--a noncovalent AMP effector site, a regulatory site of covalent adenylylation, and the catalytic ATP/ADP binding site--our studies suggest that reaction with 5'-FSO2BzAdo occurs only at the active center. When glutamine synthetase was incubated with 5'-FSO2BzAdo, the decrease in catalytic activity obeyed pseudo-first order kinetics. The plot of the observed rate constant of inactivation versus the concentration of 5'-FSO2BzAdo was hyperbolic, consistent with reversible binding of the analogue to the enzyme prior to covalent attachment. Protection against inactivation was afforded by ATP and ADP; L-glutamate did not protect the enzyme against inactivation, but rather enhanced the rate of inactivation, consistent with the observations of others (Timmons, R. B., Rhee, S. G., Luterman, D. L., and Chock, P. B. (1974) Biochemistry 13, 4479-4485) that there is synergism in the binding of the two substrates to the enzyme. The incorporation of approximately 1.09 mol of the 5'-FSO2BzAdo/mol of glutamine synthetase subunit resulted in the total loss of enzymatic activity. The results suggest that 5'-FSO2BzAdo occupies the ATP binding site at the active center of glutamine synthetase and binds covalently to an amino acid residue nearby.  相似文献   

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