Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:1.2.1.13 (glyceraldehyde-3-phosphate dehydrogenase)
 6,511 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Enzymes of the reductive pentose phosphate cycle including ribulose-diphosphate carboxylase, ribulose-5-phosphate kinase, ribose-5-phosphate isomerase, aldolase, glyceraldehyde-3-phosphate dehydrogenase and alkaline fructose-1,6-diphos-phatase were shown to be present in autotrophically grown Rhodospirillum rubrum. Enzyme levels were measured in this organism grown photo- and dark heterotrophically as well. Several, but not all, of these enzymes appeared to be under metabolic control, mediated by exogenous carbon and nitrogen compounds. Light had no effect on the presence or levels of any of these enzymes in this photosynthetic bacterium. The enzymes of the tricarboxylic acid cycle and enolase were shown to be present in R. rubrum cultured aerobically, autotrophically, or photoheterotrophically, both in cultures evolving hydrogen and under conditions where hydrogen evolution is not observed. Light had no clearly demonstrable effect on the presence or levels of any of these enzymes.
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PMID:Photosynthesis in Rhodospirillum rubrum. 3. Metabolic control of reductive pentose phosphate and tricarboxylic acid cycle enzymes. 604 59

With respect to both permeability and inactivation of membranous GAPDH, ghosts were more susceptible than erythrocytes to free radicals produced in the gamma-irradiation of aqueous solutions. The rate of increase in the permeability of irradiated ghosts was immeasurably greater than that of irradiated erythrocytes, while the rate of inactivation of GAPDH was 21-fold greater. The sensitivity of ghosts to radiation damage was affected strongly by the presence of oxygen during irradiation. In the presence of air, the rates of increase of permeability and inactivation of GAPDH were 2.8- and 1.5-fold of those in the presence of N2. The use of buffer saturated with oxygen accelerated the aerobic rates of increase of permeability and inactivation of GAPDH by 60- and 2.7-fold. These results indicate that inactivation of GAPDH is somewhat sensitive to oxygen, particularly at high concentration of oxygen. Nevertheless, in air or under nitrogen, the rate of enzymic inactivation was almost an order of magnitude greater than that of increase of permeability, indicating that the former is much more sensitive to irradiation. The major mechanism of the oxygen effect observed is the ability of oxygen to increase the branching of the free radical chain reactions which propagate damage after initiation within the membrane.
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PMID:Actions of gamma-radiation on resealed erythrocyte ghosts. A comparison with intact erythrocytes and a study of the effects of oxygen. 697 50

Sixteen young adults were investigated before, immediately after and 24 h after swimming 5,200 +/- 618 m in 90 min. Mean pulse rate at the end of exercise was 151.3 min-1; skin and rectal temperature both slightly increased. Except for a marked leukocytosis, no changes were observed in other blood parameters (hematocrit, hemoglobin, erythrocytes). Serum enzyme activities showed (except for triosephosphate dehydrogenase) marked increases which in the case of creatine kinase and of malate dehydrogenase did not return to preexercise level on the next day. No hypoglycemia occurred in any of the subjects. Blood lactate increased to 4.2 mmol/l at the 15th min of exercise and at the end was still slightly above the resting value. Free fatty acids, free glycerol, 3-hydroxybutyrate, serum urea and uric acid rose markedly after swimming, whereas alpha-amino nitrogen, triglycerides, and serum magnesium significantly decreased. The electrical excitability of the two investigated muscles (M. vastus med. quadr. and M. deltoides) showed opposite changes, which was ascribed to their different involvement during swimming.
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PMID:Metabolic changes in man during long-distance swimming. 738 11

The promoter region of the glyceraldehyde-3-phosphate dehydrogenase gene (gpd) was used to drive expression of mnp1, the gene encoding Mn peroxidase isozyme 1, in primary metabolic cultures of Phanerochaete chrysosporium. A 1,100-bp fragment of the P. chrysosporium gpd promoter region was fused upstream of the mnp1 gene to construct plasmid pAGM1, which contained the Schizophyllum commune ade5 gene as a selectable marker. pAGM1 was used to transform a P. chrysosporium ade1 auxotroph to prototrophy. Ade+ transformants were screened for peroxidase activity on a solid medium containing high carbon and high nitrogen (2% glucose and 24 mM NH4 tartrate) and o-anisidine as the peroxidase substrate. Several transformants that expressed high peroxidase activities were purified and analyzed further in liquid cultures. Recombinant Mn peroxidase (rMnP) was expressed and secreted by transformant cultures on day 2 under primary metabolic growth conditions (high carbon and high nitrogen), whereas endogenous wild-type mnp genes were not expressed under these conditions. Expression of rMnP was not influenced by the level of Mn in the culture medium, as previously observed for the wild-type Mn peroxidase (wtMnP). The amount of active rMnP expressed and secreted in this system was comparable to the amount of enzyme expressed by the wild-type strain under ligninolytic conditions. rMnP was purified to homogeneity by using DEAE-Sepharose chromatography, Blue Agarose chromatography, and Mono Q column chromatography. The M(r) and absorption spectrum of rMnP were essentially identical to the M(r) and absorption spectrum of wtMnP, indicating that heme insertion, folding, and secretion were normal.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Homologous expression of recombinant manganese peroxidase in Phanerochaete chrysosporium. 781 Oct 70

Ten years ago, the term "oxidative stress" (sigma -O2) was created to define oxidative damage inflicted to the organism. This definition brings together processes involving reactive oxygen species production and action such as free radical production during univalent reduction of oxygen within mitochondria, activation of NADPH-dependent oxidase system on the membrane surface of neutrophils, flavoprotein-catalyzed redox cycling of xenobiotics and exposure to chemical and physical agents in the environment. Since the discovery of the nitric oxide biosynthetic pathway, the deleterious effects of uncontrolled nitric oxide generation are generally classified as oxidative stress. Indeed, products of the reaction of NO and superoxide lead to oxidants such as peroxinitrite, nitrogen dioxide and hydroxyl radical, which are involved in mechanisms of cell-mediated immune reactions and defence of the intracellular environment against microbiol invasion. However NO can also regulate many biological reactions and signal transduction pathways that lead to a variety of physiological responses such as blood pressure, neurotransmission, platelet aggregation, endothelin generation or smooth muscle cell proliferation. Then the uncontrolled NO production can lead to a variety of physiological and pathophysiological responses similar to a Nitric Oxide Stress: activation of guanylate cyclase and production of cGMP: overstimulation of the inducible L-arginine to L-citrulline and NO pathway by bactericidal endotoxins and cytokines has been shown to promote undesired increases in vasodilatation, which may account for hypotension in septic shock and cytokine therapy. stimulation of auto-ADP-ribosylation and modification of SH-groups of glyceraldehyde-3-phosphate dehydrogenase in a cGMP-independent mechanism: by this way, NO in excess can strongly inhibits this important glycolytic enzyme and reduce the cellular energy production. inhibition of ribonucleotide reductase: extensive inhibition of this key enzyme in DNA synthesis in the presence of large amounts of NO could lead to important antiproliferative effects; inhibition of cytochrome P450-dependent metabolism: in Kupffer cells and hepatocytes, LPS-induced overproduction of NO has been shown to inhibit cytochrome P450-dependent metabolism and to mediate the suppression of hepatic metabolism. Moreover, NO synthetized in the peripheral nervous system is known to mediate nonadrenergic noncholinergic (NANC) neurotransmission. Overstimulation of NO synthases might therefore contribute to pathophysiological states such as: gastrointestinal motility, reflux oesophagitis, asthma, adult respiratory distress syndrome (ARDS) and chronic pulmonary artery hypertension. To these NO-mediated biological functions, one could add the biological effects of NO-derivatives such as N-nitrosocompounds, which act as carcinogenic agents, or C-nitrosocompound which were recently used as "zinc-ejecting" agents to inhibit HIV-1 infectivity of human T-lymphocytes.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:[Does nitric oxide stress exist?]. 852 Oct 87

Reverse transcription polymerase chain reaction (RT-PCR) was performed to evaluate the sequential alteration of proto-oncogene mRNA expression in liver, spleen, kidney and brain of mice after whole body irradiation (WBI). The mRNAs investigated in this study were Fas, c-fos, c-myc. bcl-2, and p53, and glyceraldehyde-3-phosphate dehydrogenase mRNA was employed as internal control. C3H/He mice aged 9-10 weeks were exposed to WBI of 7 Gy using a cobalt-60 teletherapy unit, without anesthesia, and sacrificed before and 0.1, 0.5, 1, 2, 3, 6, 12, 24, 48 and 96 h after irradiation. Their liver, spleen, kidney and brain were taken and immediately stored in liquid nitrogen until ready for RT-PCR. Each specimen was homogenized to extract RNA for conventional RT-PCR. The liver of mice administered 7 Gy of WBI revealed no significant changes in the expression of each of the mRNAs examined. In the spleen, c-fos mRNA expression decreased at 2 h following irradiation, and increased remarkably thereafter. In the kidney, no significant change in the expression of each mRNA was shown. In the brain c-fos mRNA expression decreased 1-24 h after irradiation, and showed a recovery thereafter. The remarkable differences in the sequential changes of c-fos mRNA expression following irradiation between each organ revealed by the present experiment may be an important aid in determining the tissue-specific radiosensitivity to ionizing radiation. Further investigations are, however, needed to clarify the signal transduction mechanisms which are mediated by the expression of these proto-oncogenes in each tissue following irradiation.
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PMID:Sequential alteration of proto-oncogene expression in liver, spleen, kidney and brain of mice subjected to whole body irradiation. 878 77

Previous studies have demonstrated that glyceraldehyde-3-phosphate dehydrogenase (GAPDH) undergoes NAD(H) linkage to an active site thiol when it comes into contact with .NO-related oxidants. We found that a free-radical generator 2,2'-azobis-(2-amidinopropane) hydrochloride (AAPH), which does not release either .NO or .NO-related species, was indeed able to induce the NAD(H) linkage to GAPDH. We performed spin-trapping studies with purified apo-GAPDH to identify a putative thiol intermediate produced by AAPH as well as by .NO-related oxidants. As .NO sources we used .NO gas and two .NO-donors, S-nitroso-N-acetyl-D,L-penicillamine and 3-morpholinosydno-nimine hydrochloride (SIN-1). Because SIN-1 produces .NO and a superoxide radical simultaneously, we also tested the effects of peroxynitrite. All the .NO-related oxidants were able to induce the linkage of NAD(H) to GAPDH and the formation of a protein free-radical identified as a thiyl radical (inhibited by N-ethylmaleimide). .NO gas and the .NO-donors required molecular oxygen to induce the formation of the GAPDH thiyl radical, suggesting the possible involvement of higher nitrogen oxides. Thiyl radical formation was decreased by the reconstitution of GAPDH with NAD+. Apo-GAPDH was a strong scavenger of AAPH radicals, but its scavenging ability was decreased when its cysteine residues were alkylated or when it was reconstituted with NAD+. In addition, after treatment with AAPH, a thiyl radical of GAPDH was trapped at high enzyme concentrations. We suggest that the NAD(H) linkage to GAPDH is mediated by a thiyl radical intermediate not specific to .NO or .NO-related oxidants. The cysteine residue located at the active site of GAPDH (Cys-149) is oxidized by free radicals to a thiyl radical, which reacts with the neighbouring coenzyme to form Cys-NAD(H) linkages. Studies with the NAD+ molecule radio-labelled in the nicotinamide or adenine portion revealed that both portions of the NAD+ molecule are linked to GAPDH.
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PMID:Nitric oxide-dependent NAD linkage to glyceraldehyde-3-phosphate dehydrogenase: possible involvement of a cysteine thiyl radical intermediate. 891 69

Altered nitrogen metabolism is a feature of chronic renal failure (CRF). The present study examined changes in renal expression of mRNA for enzymes involved in ornithine and polyamine metabolism, i.e. ornithine aminotransferase (OAT), ornithine decarboxylase (ODC), and S-adenosylmethionine synthetase (S-ADMase), during the early phase of renal insufficiency in rats after 5/6 nephrectomy (Nx). Involvement of androgens, the most potent stimulators of renal ODC, in these changes, was also evaluated inasmuch as testoseronemia is known to be significantly decreased in male uremic subjects. The abundance of mRNA was evaluated by quantitative Northern analysis of total RNA extracted from the remnant kidney of male or female Nx rats. The level mRNA for ODC was depressed by 76, 83, and 79%, that for OAT by 60, 76 and 63%, and that for S-ADMase by 37, 58 and 30%, at, respectively, 2, 7 and 35 days after Nx, in both male and female rats. ODC but not OAT enzyme activity was decreased. The expression of glyceraldehyde-3-phosphate dehydrogenase was only slightly lowered and that of c-myc was unaltered. Renal polyamine content of the remnant kidney was unchanged. It is concluded that in CRF: (1) intrarenal ornithine metabolism and polyamine biosynthesis are greatly impaired; (2) decreased androgens are not involved in these changes; (3) increased ODC is not a prerequisite for kidney hypertrophy; (4) extrarenal polyamines accumulation into the remnant likely compensates for defective renal biosynthesis.
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PMID:Messenger RNA for enzymes of ornithine and polyamine metabolism are selectively underexpressed in kidney of 5/6 nephrectomized rats. 925 82

Multiparous Holstein cows were infected in two quarters by intramammary infusion with Streptococcus agalactiae and slaughtered approximately 36 h later. Mammary tissue was removed from the infected quarters, uninfected contralateral quarters, and from pair-slaughtered uninfected controls; the tissue was frozen in liquid nitrogen. The RNA was extracted, and Northern blot analysis was performed for a variety of growth factors, stress-induced genes, milk protein genes, and control genes. Infection increased levels of mRNA coding for heat shock proteins 89 alpha, 89 beta, 70, 60, and 27. Simultaneously, concentrations of alpha-lactalbumin and casein mRNA decreased; alpha-lactalbumin mRNA showed a greater decline. The mRNA for several growth factors, including acidic fibroblast growth factor, basic fibroblast growth factor, epidermal growth factor, transforming growth factor-alpha, IGF-I, and IGF-II, were also increased as was the apoptosis marker, testosterone-repressed prostate mucin-2. Concentrations of mRNA for controls, beta-actin, and glyceraldehyde-3-phosphate dehydrogenase were unaffected. These results indicate that mastitis induces changes in the levels of mRNA encoding for a variety of peptide growth factors. Such changes in growth factors could be important in a variety of processes that occur during infection, such as protection against injury or tissue repair and recovery processes.
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PMID:Mastitis increases growth factor messenger ribonucleic acid in bovine mammary glands. 931 43

Circadian clocks function to govern a wide range of rhythmic activities in organisms. An integral part of rhythmicity is the daily control of target genes by the clock. Here we describe the sequence and analysis of a novel clock-controlled gene, ccg-7, showing similarity to glyceraldehyde-3-phosphate dehydrogenase (GAPDH), a glycolytic enzyme widely used as a constitutive control in a variety of systems. That ccg-7 encodes GAPDH was confirmed by demonstrating that in vitro synthesized CCG-7 possesses GAPDH activity. Rhythms in both ccg-7 mRNA accumulation and CCG-7 (GAPDH) activity are observed in a clock wild-type strain where the peak in GAPDH activity lags several hours behind the peak in ccg-7 mRNA accumulation in the late night. Together with our previous observation that ccg-7 mRNA is not developmentally regulated, we show that ccg-7 is not induced by environmental stresses such as glucose or nitrogen deprivation (which also trigger development), heat shock, or osmotic stress. Thus, the finding that GAPDH is clock-regulated points to a specific role for the circadian clock in controlling aspects of general metabolism and provides evidence for circadian regulation of a gene found in most living organisms.
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PMID:Glyceraldehyde-3-phosphate dehydrogenase is regulated on a daily basis by the circadian clock. 941 2


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