Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.4.1.2 (glutamate dehydrogenase)
 4,380 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Primary roots of soybean [Glycine max (L.), cv Harosoy 63] seedlings were inoculated with zoospores from either race 1 (incompatible, host resistant) or race 3 (compatible, host susceptible) of Phytophthora megasperma f. sp. glycinea (Pmg) and the activities of phenylalanine ammonia-lyase (PAL), chalcone synthase (CHS), isoflavone synthase, and dihydroxypterocarpan 6a-hydroxylase related to phytoalexin (glyceollin) biosynthesis, and of glucose-6-phosphate dehydrogenase (Glc-6-PDH) and glutamate dehydrogenase (Glu-DH) were determined at various times after inoculation. About 2-4 h after inoculation with race 1, the activities of PAL, CHS, and pterocarpan 6a-hydroxylase were higher than after inoculation with race 3 and increased considerably thereafter. In contrast, activities of these enzymes in the compatible interaction were equal to or only slightly higher than in the controls over the entire infection period investigated (2-8 h). Isoflavone synthase did not increase until 7 h after inoculation with race 1. There were no significant differences in activities for Glc-6-PDH and Glu-DH between inoculated roots and controls. The results show that infection of soybean roots with zoospores of Pmg race 1 causes a race:cultivar-specific early induction of enzymes involved in glyceollin synthesis, whereas such an induction does not occur with zoospores of race 3. These findings are in agreement with the race:cultivar-specific accumulation of glyceollin in soybean roots reported previously [M. G. Hahn, A. Bonhoff, and H. Grisebach (1985) Plant Physiol. 77, 591-601].
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PMID:Race:cultivar-specific induction of enzymes related to phytoalexin biosynthesis in soybean roots following infection with Phytophthora megasperma f. sp. glycinea. 396 19

Coenzymic activities of the following NADP derivatives were investigated: 2'-O-(2-carboxyethyl)phosphono-NAD (I), N6-(2-carboxyethyl)-NADP (II), 2'-O-(2-carboxyethyl)phosphono-N6-(2-carboxyethyl)-NAD (III), 2'-O-[N-(2-aminoethyl)carbamoylethyl]phosphono-NAD (IV), N6-[N-(2-aminoethyl)carbamoylethyl]-NADP (Va), 2',3'-cyclic NADP, and 3'-NADP. Derivatives I and IV show the effects of modification at the 2'-phosphate group, and derivatives II and Va show those at the 6-amino group of NADP. As for enzymes, alcohol, isocitrate, 6-phosphogluconate, glucose, glucose-6-phosphate, and glutamate dehydrogenases were used. These enzymes were grouped on the basis of the ratio of the activities for NAD and NADP into NADP-specific enzymes (ratio less than 0.01), NAD(P)-specific enzymes (0.01 less than ratio less than 100), and NAD-specific enzymes (ratio greater than 100). For NADP-specific enzymes, modifications at the 2'-phosphate group of NADP caused great loss of cofactor activity. The relative cofactor activities (NADP = 100%) of derivatives I and IV for these enzymes were 0.5-20 and 0.01-0.5%, respectively. On the other hand, NAD(P)-specific enzymes showed several types of responses to the NADP derivatives. The relative cofactor activities of I and IV for Leuconostoc mesenteroides and Bacillus stearothermophilus glucose-6-phosphate dehydrogenases and beef liver glutamate dehydrogenase were 60-200%; whereas, for B. megaterium glucose dehydrogenase and L. mesenteroides alcohol dehydrogenase, the values were 0.8-8%. For NAD-specific enzymes, these values were 20-50%. The relative cofactor activities of 2',3'-cyclic NADP and 3'-NADP were very low (less than 0.2%) except for beef liver glutamate dehydrogenase, B. stearothermophilus glucose-6-phosphate dehydrogenase, and horse liver alcohol dehydrogenase. Kinetic studies showed that the losses of the cofactor activity of NADP by these modifications were mainly due to the increase of the Km value. The mechanisms of coenzyme specificity of dehydrogenases are discussed. Unlike the 2'-phosphate group, the 6-amino group is common to NAD and NADP, and the effects of modification at the 6-amino group were independent of the coenzyme specificity of enzymes used for the assay. Derivatives II and Va had high relative cofactor activities (65-130%) for most of the enzymes except for isocitrate and glucose dehydrogenases (less than 1%) and L. mesenteroides alcohol dehydrogenase (20-60%). The cofactor activity of derivative III was generally lower than those of I and II.
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PMID:Coenzymic activity of NADP derivatives alkylated at 2'-phosphate and 6-amino groups. 397 81

The N-1 position of the adenine ring of NADP was selectively alkylated by the reaction of 2',3'-cyclic NADP with 3-propiolactone to yield 2',3'-cyclic 1-(2-carboxyethyl)-NADP (I). Derivative I was converted to a mixture of the isomers of N6-(2-carboxyethyl)-NADP with their phosphate groups at the 2' or 3' position (IIa and IIb) by chemical reduction, alkaline rearrangement and chemical reoxidation. Carbodiimide coupling of the mixture of IIa and IIb to alpha, omega-diaminopoly(ethylene glycol) gave the 2', 3'-cyclic derivative of poly(ethylene glycol)-bound NADP (III), which was enzymically hydrolyzed to yield poly(ethylene glycol)-bound NADP (PEG-NADP). PEG-NADP has good cofactor activity (16-100% of that of NADP) for NADP-specific and NAD(P)-specific dehydrogenases except isocitrate and glucose dehydrogenases. For NAD-specific enzymes, PEG-NADP has higher cofactor activity than NADP: for horse liver alcohol dehydrogenase, the cofactor activity of PEG-NADP is 40 times that of NADP and 14% of that of NAD. Kinetic studies show that for most of enzymes tested, Km values for PEG-NADP are larger than those for NADP and V values for PEG-NADP are similar to those for NADP. PEG-NADP proved to be applicable in a continuous enzyme reactor, in which reactions of glutamate dehydrogenase and glucose-6-phosphate dehydrogenase were coupled by the recycling of PEG-NADP.
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PMID:Synthesis of poly(ethylene glycol)-bound NADP by selective modification at the 6-amino group of NADP. 402 32

Octanoic acid inhibits, in vitro, the bacterial enzymes glucose-6-phosphate dehydrogenase, phosphofructokinase, pyruvate kinase, fumarase, lactate dehydrogenase, and the malic enzyme of Arthrobacter crystallopoietes. The free fatty acid appears to act as an inhibitor of lipogenesis, although it does not affect the rate of gluconeogenesis. To demonstrate that this inhibition may be of physiological significance in vivo, those enzymes not involved in lipogenesis, such as fructose-1, 6-diphosphatase, phosphoglucomutase, phosphohexoisomerase, aconitase, nicotinamide adenine dinucleotide phosphate (NADP) isocitrate dehydrogenase, NADP glutamate dehydrogenase, malate dehydrogenase, and isocitrate lyase, were assayed and found not to be inhibited by the free fatty acid.
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PMID:Selective inhibition of bacterial enzymes by free fatty acids. 430 71

A morphological mutant (col-2) of Neurospora, which is partially deficient in glucose-6-phosphate dehydrogenase (G-6-PD) activity and has lower levels of reduced nicotinamide adenine dinucleotide phosphate (NADPH), accumulated three-fold more triglycerides during log-phase growth than the wild-type strain. Increased lipid deposition was not found in other strains that included slow-growing morphological mutants, NADPH-deficient strains, G-6-PD-deficient mutants, wild-type revertants from col-2, and a cel, col-2 double mutant. The cel, col-2 strain was supplemented with an exogenous source of fatty acids because it cannot synthesize these lipid moieties. The observed normal lipid content of this strain suggests that the lipid deposition in col-2 on glucose is due to an overstimulation of fatty acid synthesis and not a deficiency in fatty acid breakdown. The neutral lipid levels in both wild type and col-2 were decreased to identical levels when grown on glutamate as a carbon source. This effect was not due to changes in glutamic dehydrogenase levels. The omission of citrate from the glutamate medium reduced wild-type neutral lipid levels even further, but had no effect on col-2. The variations with time in the neutral lipid levels of col-2 upon changes in these carbon sources are presented, as well as a discussion of the possible types of regulatory effects unique to the col-2 mutation which might affect fatty acid synthesis.
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PMID:Effects of mutations and growth conditions on lipid synthesis in Neurospora crassa. 440 Mar 92

Oxygen and glucose consumption and lactate production of the peritoneal membrane and intra-abdominal adhesions were measured in rats after a single intra-peritoneal colloidal silica injection. Enzyme histochemical studies were made of lactate dehydrogenase, succinate dehydrogenase, NADH2-diaphorase, NADPH2-diaphorase, glucose-6-phosphate dehydrogenase, glutamate dehydrogenase, acid phosphatase, leucylaminopeptidase and alkaline phosphatase in the peritoneal membrane. Anaerobic glycolysis comprises 47% of the total glucose consumption in the the normal peritoneum. Glucose consumption and lactate production of the peritoneal membrane increased sharply in the early phase of silica-induced peritonitis and stayed at a high level for a week indicating an enhanced anerobic metabolism. Oxygen and aerobic glucose consumption increased more slowly than anaerobic glucose consumption and reached their maxima 1 week after silica injection, indicating that the rate of aerobic metabolism is also higher in chemical peritonitis than in the controls. On the other hand, glucose consumption and lactate production increased in a parallel fashion in adhesions and in the peritoneum in the early phase of peritonitis. However, the maximum and later levels were less in adhesions than in the peritoneum. In the enzyme histochemical study high activities of enzymes indicating anaerobic energy metabolism and metabolism via the pentose phosphate shunt were seen in cells of the peritoneal membrane during the early phase of peritonitis. No activity was identified in enzymes indicating aerobic energy metabolism and increased catabolism before the end of the first week.
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PMID:Energy metabolism of the peritoneal membrane in silica-induced peritonitis. A biochemical and enzyme histochemical study. 625 64

The effects of gossypol, a polyphenolic compound isolated from the cotton plant upon six oxidoreductases from cultured epimastigotes of Typanosoma cruzi were studied. Gossypol was a powerful inhibitor of the alpha-hydroxyacid and malate dehydrogenases, NAD-linked enzymes, and of glutamate dehydrogenase, malic enzyme and glucose-6-phosphate dehydrogenase, NADP-dependent enzymes. The drug did not have an effect on succinate dehydrogenase, a flavoprotein. The Ki values with respect to substrate were 0.73, 0.3 and 3.5 microM for alpha-hydroxyacid, malate and glutamate dehydrogenases, respectively, and 1.1, 0.19 and 7.8 microM with respect to the coenzyme. Inhibition was noncompetitive with respect to substrate and uncompetitive in relation to the coenzyme.
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PMID:Inhibition by gossypol of oxidoreductases from Trypanosoma cruzi. 637 Feb 65

Interaction of the electrolytically prepared dimers of nicotinamide adenine nucleotide, (NAD)2, and nicotinamide adenine nucleotide phosphate, (NADP)2, with lactate, alcohol, glyceraldehyde 3-phosphate, alpha-glycerophosphate, glutamate and glucose-6-phosphate dehydrogenase has been studied using the quenching of protein fluorescence, kinetics of inhibition and the stopped-flow method. It has been shown that these enzymes are able to bind dimers preserving their coenzyme specificity. The most efficient binding of (NAD)2 has been observed in the case of glutamate and lactate (bovine heart) dehydrogenase, the dissociation constants being 6 and 8 microM, respectively. (NADP)2 affinity to glutamate and glucose-6-phosphate dehydrogenase is also fairly high. More detailed studies on the interactions of dimers with alcohol and glutamate dehydrogenase have shown that the binding to the coenzyme binding site is the prerequisite for the association. However, some additional stabilizing interactions with other enzyme groups are not excluded, though (NAD)2 does not bind to the known binding sites of these enzymes, such as the substrate pocket of alcohol dehydrogenase and the regulatory binding sites for ADP and GTP of glutamate dehydrogenase.
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PMID:Binding of NAD and NADP dimers to NAD- and NADP-dependent dehydrogenases. 637 55

In porcine interareolar placental epithelia, the following enzymes were demonstrated by histochemical methods after 30, 58, 80, 100, and 110 d of pregnancy, respectively: beta-N-acetylhexosaminidase, beta-galactosidase, beta-glucuronidase, alpha-mannosidase, acid phosphatase, alkaline phosphatase, nonspecific esterases, cytochrome oxidase, 5-nucleotidase, leucine aminopeptidase, adenosine triphosphatase, diaphorases (NADH, NADPH), glucose-6-phosphate dehydrogenase, 6-phosphogluconate dehydrogenase, succinate dehydrogenase, isocitrate dehydrogenase (NAD, NADP), beta-hydroxybutyrate dehydrogenase, glycero-3-phosphate dehydrogenase, NAD-glycero-3-phosphate dehydrogenase, glutamate dehydrogenase (NAD, NADP), lactate dehydrogenase. The results show that most of the enzyme activities remained almost unchanged during the period of investigation. Only G-6-PDH and 6-PGDH activities increased within the uterine epithelium and nonspecific esterase activity within uterine as well as chorionic epithelia during the 2nd half of pregnancy. Within chorionic and uterine epithelia, hydrolases but not dehydrogenases demonstrated a higher activity at the bases of chorionic villi as compared to the apices and flanks of the latter. The action and influence of the demonstrated enzymes on metabolism, energy transfer, secretory, and resorptive activities of chorionic and uterine epithelia are discussed.
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PMID:[Enzyme histochemical studies of the swine placenta. Histoptics of enzymes in interareolar placental epithelia]. 643 35

The total activity and isoenzyme spectra of lactate dehydrogenase (EC 1.1.1.27), malate dehydrogenase (EC 1.1.1.37), glutamate dehydrogenase (EC 1.4.1.2) and glucose-6-phosphate dehydrogenase (EC 1.1.1.49) were studied in the skin of sheep and their fetuses. There are 5 multiple molecular forms of LDG, 4--of GDG, 2--of MDG and 1--of G-6-PDG in the skin. It is established that the skin of adult sheep and fetus is similar as to the studied parameters.
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PMID:[Polymorphism of several dehydrogenases in the skin of sheep and their fetuses]. 671 69


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