EC:3.5.1.1 - FACTA Search

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Query: EC:3.5.1.1 (asparaginase)
2,695 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Site-specific mutagenesis was used to replace the three histidine residues of Escherichia coli asparaginase II (EcA2) with other amino acids. The following enzyme variants were studied: [H87A]EcA2, [H87L]EcA2, [H87K]EcA2, [H183L]EcA2 and [H197L]EcA2. None of the mutations substantially affected the Km for L-aspartic acid beta-hydroxamate or impaired aspartate binding. The relative activities towards L-Asn, L-Gln, and l-aspartic acid beta-hydroxamate were reduced to the same extent, with residual activities exceeding 10% of the wild-type values. These data do not support a number of previous reports suggesting that histidine residues are essential for catalysis. Spectroscopic characterization of the modified enzymes allowed the unequivocal assignment of the histidine resonances in 1H-NMR spectra of asparaginase II. A histidine signal previously shown to disappear upon aspartate binding is due to His183, not to the highly conserved His87. The fact that [H183L]EcA2 has normal activity but greatly reduced stability in the presence of urea suggests that His183 is important for the stabilization of the native asparaginase tetramer. 1H-NMR and fluorescence spectroscopy indicate that His87 is located in the interior of the protein, possibly adjacent to the active site.
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PMID:Site-specific mutagenesis of Escherichia coli asparaginase II. None of the three histidine residues is required for catalysis. 152 38

Human glycoasparaginase (N4-(beta-N-acetyl-D-glucosaminyl)-L-asparaginase, EC 3.5.1.26) hydrolyzes a series of compounds that contain L-asparagine residue with free alpha-amino and alpha-carboxyl groups. Substrates include high mannose and complex type glycoasparagines as well as those that lack the di-N-acetylchitobiose moiety, L-aspartic acid beta-methyl ester and L-aspartic acid beta-hydroxamate. The enzyme is inactive toward L-asparagine and L-glutamine and glycoasparagines containing substituted alpha-amino and/or alpha-carboxyl groups. In the presence of the acyl acceptor hydroxylamine, glycoasparaginase catalyzes the synthesis of L-aspartic acid beta-hydroxamate from aspartyl-glucosamine, L-aspartic acid beta-methyl ester, and L-aspartic acid. 13C NMR studies using 18O-labeled L-aspartic acid demonstrate that glycoasparaginase catalyzes an oxygen exchange between water and the carboxyl group at C-4 of L-aspartic acid. These results indicate that glycoasparaginase reacts as an exo-hydrolase toward the L-asparagine moiety of the substrates and the free alpha-amino and alpha-carboxyl groups are required for the enzyme reaction. The results are consistent with an L-asparaginase-like reaction pathway which involves a beta-aspartyl enzyme intermediate. Since glycoasparaginase is active toward a series of structurally different glycoasparagines, we suggest the revised systematic name of N4-(beta-glycosyl)-L-asparaginase for the enzyme.
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PMID:Substrate specificity and reaction mechanism of human glycoasparaginase. The N-glycosidic linkage of various glycoasparagines is cleaved through a reaction mechanism similar to L-asparaginase. 155 92

The ph optimum of purified staphylococcal L-asparaginase (EC 3.5.1.1) was found to be between 8.6 and 8.8. The temperature optimum was 30 degrees-32 degrees C and the highest reaction rate occurred at 30 degrees C. The KM of the enzyme calculated from Lineweaver-Burk plot was 3.71 x 10(-2) M. Besides L-asparaginase, the substrate specificity of enzyme was restricted to N-alpha-acetyl-L-asparagine. D-asparagine, L-aspartic acid and D-glutamic acid were competitive inhibitors. Hg2+ and Cu2+ cations strongly inhibited the enzyme while Na+ and K+ cations strongly stimulated activity. Two SH-groups could be detected after enzyme denaturation with guanidine.
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PMID:Staphylococcal L-asparaginase: enzyme kinetics. 172 15

The combined effects of amino acid antagonists with proven or potential inhibitory activities on aminoacyl-tRNA synthetases were investigated on the murine leukemic cell line P388 D1. As the best result a summation of the antiproliferative effects was observed. Combinations with established cytostatic agents like platinum complexes or other antitumor compounds also yielded partly additive effects. In experiments performed with asparaginase L-aspartic acid-beta-hydroxamate gave synergistic growth inhibition of P388 D1 cells in vitro, which was reflected by additive effects against murine leukemia P388 in vivo.
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PMID:Investigations on the antiproliferative effects of amino acid antagonists targeting for aminoacyl-tRNA synthetases. Part III--Combination experiments. 185 50

L-Asparaginase of T. pyriformis is a membrane-bound enzyme with an active site situated on the outside surface of the membrane. When radioactive L-asparagine was incubated with T. pyriformis cells in the L-asparaginase assay medium, the hydrolysis was 240 higher than the uptake of this amino acid. In a similar experiment performed in salt medium (Wagner's solution), the hydrolysis was linearly increased and reached after one hour of incubation a value of 60 nmol/10(6) cells, while the uptake after 20 min of incubation reached a plateau with a value of 15 nmol/10(6) cells. The uptake of L-leucine under these conditions was 44 nmol/10(6) cells/hr, while no measurable transport of aspartic acid was observed. That L-aspartic acid is not migrated into T. pyriformis cells is in agreement with the finding that no efflux of this amino acid takes place as well. The uptake of L-asparagine is pH and K+ dependent, whereas Na+ ions strongly inhibit this uptake. The Km and Vmax values of L-asparagine uptake is 1.43 mM and 0.7 nmol/min, respectively. The half life of L-asparagine "protein transport system" was 40 min, a value which is very close to the half life of the membrane-bound L-asparaginase of this microorganism. Ouabain and vanadate inhibit the uptake of L-asparagine by more than 80%, while ouabain or vanadate inhibit in vivo 5% or 95% the activity of L-asparaginase, respectively. This indicates the lack of interrelationship between the L-asparagine "protein transport system" and the L-asparaginase protein molecule.
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PMID:Transport of L-asparagine in Tetrahymena pyriformis ecto-L-asparaginase is not related to L-asparagine-protein transport system. 193 Feb 47

The inhibition by opiates and the sudden normalization by opioid antagonists of the brain L-asparaginase activity (BAA) have previously been reported to be the main factors in the development of physical dependence and the manifestation of precipitated abstinence syndrome, respectively. As a result, L-asparaginase inhibitors D-aspartic acid and prolyl-leucyl-glycinamide (PLG) were separately given to mice and rats either just after morphine (M)-containing pellet implantation or 15 min before naloxone (NL)-precipitated abstinence syndrome. The animals treated in this manner were used to assess the intensity of the physical dependence and to determine the BAA. D-ASP or PLG administration following pellet implantation significantly increased all of the observed signs such as flying, jumping, wet dog shake and writhing. When D-ASP or PLG were given 15 min before precipitated abstinence they significantly decreased the number of the signs. The determination of the BAA showed significant decreases or increases more or less parallel to the severity of the physical dependence on M. The intensification of physical dependence by D-ASP or PLG given just after the pellet implantation was attributed to their additional inhibitory effect to that of M on the BAA at the beginning of the physical dependence development. The attenuating effect of BAA inhibitors D-ASP or PLG administered before precipitated abstinence was explained with the prevention of the increase in the BAA.
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PMID:Intensification and attenuation of morphine dependence by D-aspartic acid and PLG. 196 65

A high L-asparaginase (L-asparagine amidohydrolase: EC 3.5.1.1) activity was found under conditions of lysine overproduction in cultures of Corynebacterium glutamicum. L-Asparaginase was purified 98-fold by protamine sulphate precipitation. DEAE-Sephacel anion exchange, ammonium sulphate precipitation and Sephacryl S-200 gel filtration. The asparaginase protein was subjected to PAGE under non-denaturing conditions, identified by an in situ reaction and eluted from the gel in an active form. The estimated Mr from gel filtration and SDS-PAGE was 80,000. The L-asparaginase activity was inhibited by the L-asparagine analogue 5-diazo-4-oxo-L-norvaline. Neither D-asparagine nor L-glutamine was a substrate for the enzyme. L-Asparaginase was produced constitutively: its role may be that of an overflow enzyme, converting excess asparagine into aspartic acid, the direct precursor of lysine and threonine.
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PMID:Characterization and partial purification of L-asparaginase from Corynebacterium glutamicum. 239 90

Injections of polyethylene glycol (PEG)-L-asparaginase or L-asparaginase were given to two rabbits each at doses of 40 units/kg. Ten min following injection of either enzyme preparation, the plasma enzyme concentration was approximately 1 unit/ml. This level decreased steadily in the rabbits given L-asparaginase, with a t1/2 of approximately 20 hr. In contrast, the enzyme level in rabbits given PEG-L-asparaginase decreased much more slowly, with a t1/2 of approximately 144 hr. The slower disappearance rate of PEG-L-asparaginase resulted in greater values for the area under the concentration versus time curve and smaller values for total clearance. Immediately following the enzyme injections, no L-asparagine could be detected in the plasma, and a transient elevation of L-aspartic acid levels was noted. By 4 hr, the L-aspartic acid level in all of the rabbits returned to near normal. The L-asparagine, however, was not measurable as long as plasma enzyme was detectable. Levels of L-asparagine returned to normal 4 days after L-asparaginase administration, and 27 days elapsed before L-asparagine was detected in rabbits given PEG-L-asparaginase.
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PMID:Polyethylene glycol-L-asparaginase and L-asparaginase studies in rabbits. 289 51

The activities of the brain L-asparaginase and angiotensin converting enzyme (ACE), and the plasma cortisol level were found to be decreased in the rats implanted with morphine (M) containing pellets. Even though 10 mg/kg of naloxone (N) itself showed an inhibitory effect on ACE it abolished the inhibitions seen in the M dependent rats five min following subcutaneous injection. The chronic administration of L-aspartic acid (ASP) during the development of physical dependence or just before the N injection prevented the increase of the plasma cortisol caused by N. It is concluded that in addition to the inhibition of the brain L-asparaginase activity which was previously hypothesized to be the main reason of the development of physical dependence on opiates as a result of the related experimental and clinical data, the inhibition by M of the brain ACE activity may take part in the development of physical dependence. With regard to the plasma cortisol level, the concomitant administration of ASP with M blocks, to a great extent, the development of physical dependence on opiate. The single dose of ASP administration before N injection prevents the effect of N, the manifestation of abstinence syndrome.
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PMID:Brain asparaginase, ACE activity and plasma cortisol level in morphine dependent rats: effect of aspartic acid and naloxone. 302 85

L-Asparaginase activity reaches maximal values at the stationary phase of growth of Tetrahymena pyriformis and fluctuates upon the growth conditions and the composition of the medium. Most of the L-asparaginase activity (80%) is associated with the endoplasmic reticulum, and the remaining with the pellicles. Detergents either alone or in combination with NaCl up to 0.5 M concentration failed to solubilize L-asparaginase. Solubilization can be accomplished by means of either the chaotropic agents KSCN and NaClO4, or 0.1 M sodium phosphate buffer pH 8.0, following pretreatment of the particulates with 2% w/v Triton X100. L-Asparaginase has been purified to near homogeneity by hydrophobic and gel filtration chromatography. The native enzyme has a relative molecular weight of 230,000. It is a multiple subunit enzyme, with subunit size of 39,000. Its isoelectric point is at pH 6.8. It acts optimally at pH 8.6 with a Km of 2.2 mM. It does not hydrolyse L-glutamine and its reaction is inhibited competitively by D-aspartic acid and D-asparagine as well as by L-asparagine analogues with substituents at the beta position.
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PMID:Purification and properties of a membrane-bound L-asparaginase of Tetrahymena pyriformis. 313 90

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