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Enzyme
Compound
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Target Concepts:
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Query: EC:6.3.5.5 (
CPS
)
1,262
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In the course of studies on
glutamine-dependent carbamyl phosphate synthetase
from Aerobacter aerogenes, we purified another protein which was found to be glutamate synthase (EC 2.6.1.53). The enzyme, obtained in apparently homogeneous form (monomer molecular weight about 227,000; s(20,omega) = 17.6 S), was found to be a typical glutamine amidotransferase in that it exhibits glutaminase activity and can utilize ammonia in place of glutamine as a nitrogen donor. The enzyme also catalyzes at low rates the oxidative deamination of glutamate in the presence of TPN, and it exhibits TPNH oxidase activity. The enzyme is similar to the glutamate synthase found in Escherichia coli in that it is an
iron
-sulfide flavoprotein. Treatment of the enzyme with sodium dodecyl sulfate or potassium thiocyanate dissociates it into nonidentical subunits exhibiting molecular weights of about 175,000 and 51,500. The glutamine-dependent activity of the enzyme is inhibited by L-2-amino-4-oxo-5-chloropentanoic acid, but this chloroketone analog of glutamine does not affect the ammonia-dependent glutamate synthase activity. Studies with [(14)C]chloroketone show that the reagent binds to the heavy subunit only. Inhibition by the chloroketone and its binding to the heavy subunit are markedly reduced in the presence of L-glutamine. Sedimentation velocity studies carried out in potassium thiocyanate indicate that
iron
-sulfide and flavin sites are also located on the heavy subunit. While these studies show that glutamate synthase resembles other glutamine amidotransferases in certain of its catalytic properties, the findings indicate that the light subunit of this enzyme, in contrast to that of several other glutamine amidotransferases, does not function to bind glutamine. It is of interest that the enzyme exhibits an unusually high affinity for ammonia as compared to a number of other glutamine amidotransferases. Glutamate synthase is inhibited (competitively with respect to glutamine) by low concentrations of methionine sulfone, methionine sulfoximine, and methionine sulfoxide.
...
PMID:Glutamine-binding subunit of glutamate synthase and partial reactions catalyzed by this glutamine amidotransferase. 453 Oct 4
In this report, 141 patients with gastric cancer were studied histochemically. Tissue CEA was stained by the CEA-PAP method and the gastric cancer was classified into CEA-producing (96 cases, 68.1%) and CEA non-producing gastric cancer (45 cases, 31.9%). Histologically, CEA-producing gastric cancer was well differentiated adenocarcinoma and CEA non-producing gastric cancer was chiefly undifferentiated carcinoma. PAS, pH 2.5 Alcian-blue, High
Iron
Diamine, Alkaline-PAS, and Concanavalin A paradoxical stain were applied to specimens from each type of gastric carcinoma. Mucosubstances of CEA-producing gastric cancer were positive for A-B, HID, AL-PAS and
CPS
III-1; those of CEA non-producing gastric cancer were positive for PAS and
CPS
III-s, but negative for A-B, HID and A1-PAS. These results suggest that CEA-producing gastric cancer arises from intestinal metaplasia of gastric mucosa and that CEA non-producing gastric cancer arises from the gastric mucosa itself.
...
PMID:[Mucohistochemical studies of CEA producing and non-producing stomach cancers]. 619 17
Disulfide S-monoxide (DSMO) and disulfide S-dioxide (DSDO) have been proposed as proximal mediators for the oxidant-mediated modification of proteins. These disulfide S-oxides (DSOs) derived from glutathione (GSH) and captopril (CPSH) were synthesized by
iron
- or methyltrioxorhenium (VII)-catalyzed oxidation of the thiols with H2O2. Treatment of mouse hippocampal extracts with [35S]GS-DSOs revealed that a large number of proteins were susceptible to thionylation; however, only a limited number of the them were detectable by the commonly used antibody against GS-associated proteins. Using protein kinase C (PKC) as a model, we found that DSOs derived from different thiols modified this kinase with different efficacy and specificity; for example, the inhibitory potency of the kinase was glutathione disulfide S-dioxide (GS-DSDO) (IC50, approximately 30 microM) > captopril disulfide S-dioxide (CPS-DSDO) (IC50, approximately 450 microM) > glutathione disulfide S-monoxide (GS-DSMO) and captopril disulfide S-monoxide (CPS-DSMO). The stoichiometries of thionylation of PKC beta mediated by [35S]GS-DSMO and [35S]GS-DSDO were approximately 1 and 5 mol/mol, respectively, and at least four glutathionylation sites were identified in the GS-DSDO-treated kinase. Modification of PKC by GS-DSDO and
CPS
-DSDO rendered the kinase very susceptible to limited proteolysis; the former preferentially caused the degradation of the catalytic and the latter the regulatory domain of the kinase. Furthermore,
CPS
-DSDO-mediated modification of PKC increased the autonomous kinase activity; this was not the case for GS-DSDO-mediated modification. Since DSOs of different oxidative states as well as those derived from different thiols exert different effects on a target protein, these molecules could cause distinct cellular responses if derived from endogenous cellular reactions or even if they arise from exogenous sources.
...
PMID:Modification of protein by disulfide S-monoxide and disulfide S-dioxide: distinctive effects on PKC. 1724 96
This study aimed to identify estivation-specific gene clusters through the determination of differential gene expressions in the liver of Protopterus annectens after 6 days of estivation in a mucus cocoon in air (normoxia) using suppression subtractive hybridization polymerase chain reaction. Our results demonstrated that 6 days of estivation in normoxia led to up-regulation of mRNA expressions of several genes related to urea synthesis, including
carbamoyl phosphate synthetase
(Cps), argininosuccinate synthetase and glutamine synthetase. They indicate that increased urea synthesis, despite being energy-intensive, is an important adaptive response of estivation. They also offer indirect support to the proposition that urea synthesis in this lungfish involved a Cps that uses glutamine as a substrate. In addition, up- or down-regulation of several gene clusters occurred in the liver of P. annectens after 6 days of estivation in normoxia. These estivation-specific genes were involved in the prevention of clot formation, activation of the lectin pathway for complement activation, conservation of minerals (e.g.
iron
and copper) and increased production of hemoglobin beta. Since there were up- and down-regulation of mRNA expressions of genes related to ribosomal proteins and translational elongation factors, there could be simultaneous increases in protein degradation and protein synthesis during the first 6 days (the induction phase) of estivation, confirming the importance of reconstruction of protein structures in preparation for the maintenance phase of estivation.
...
PMID:Differential gene expression in the liver of the African lungfish, Protopterus annectens, after 6 days of estivation in air. 2191 14
The African lungfish, Protopterus annectens, can undergo aestivation during drought. Aestivation has three phases: induction, maintenance and arousal. The objective of this study was to examine the differential gene expression in the liver of P. annectens after 6 months (the maintenance phase) of aestivation as compared with the freshwater control, or after 1 day of arousal from 6 months aestivation as compared with 6 months of aestivation using suppression subtractive hybridization. During the maintenance phase of aestivation, the mRNA expression of argininosuccinate synthetase 1 and
carbamoyl phosphate synthetase
III were up-regulated, indicating an increase in the ornithine-urea cycle capacity to detoxify ammonia to urea. There was also an increase in the expression of betaine homocysteine-S-transferase 1 which could reduce and prevent the accumulation of hepatic homocysteine. On the other hand, the down-regulation of superoxide dismutase 1 expression could signify a decrease in ROS production during the maintenance phase of aestivation. In addition, the maintenance phase was marked by decreases in expressions of genes related to blood coagulation, complement fixation and
iron
and copper metabolism, which could be strategies used to prevent thrombosis and to conserve energy. Unlike the maintenance phase of aestivation, there were increases in expressions of genes related to nitrogen, carbohydrate and lipid metabolism and fatty acid transport after 1 day of arousal from 6 months aestivation. There were also up-regulation in expressions of genes that were involved in the electron transport system and ATP synthesis, indicating a greater demand for metabolic energy during arousal. Overall, our results signify the importance of sustaining a low rate of waste production and conservation of energy store during the maintenance phase, and the dependence on internal energy store for repair and structural modification during the arousal phase, of aestivation in the liver of P. annectens.
...
PMID:Differential gene expression in the liver of the African lungfish, Protopterus annectens, after 6 months of aestivation in air or 1 day of arousal from 6 months of aestivation. 2582 22
