Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.7 (DNA polymerase)
 17,007 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A subgroup of growth hormone (GH)-secreting pituitary tumors carries somatic mutations within the gene coding for the alpha subunit of the stimulatory heterotrimeric guanosine 5'-triphosphate-binding protein, Gs alpha. These so-called gsp mutations result in constitutively activated Gs alpha and the signal transduction cascade downstream of it, with eventual markedly and continuously elevated cyclic adenosine monophosphate levels as a result of constitutive adenylyl cyclase activity. It is this elevation of intracellular cyclic adenosine monophosphate that is thought to be the cause of excessive GH secretion and somatotroph proliferation. We examined the clinical and biochemical characteristics of acromegalics harboring gsp-positive and gsp-negative pituitary tumors. Of 19 tumors studied, 8 (42%) were gsp positive. There was a slight tendency for basal GH levels in serum to be lower and to be further reduced by an oral glucose tolerance test in gsp-positive patients. However, there was no difference between the two groups in terms of clinical features, tumor size, mitotic activity (as assessed by cytosolic deoxyribonucleic acid polymerase and KI-67 staining), and in vitro GH response to GH releasing factor. We conclude that there is, in general, little difference in the clinical and biochemical characteristics between gsp-positive and gsp-negative human pituitary GH-secreting tumors.
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PMID:Clinical and biochemical characteristics of acromegalic patients harboring gsp-positive and gsp-negative pituitary tumors. 839 23

To test the hypothesis that mitochondrial DNA (mtDNA) is more prone to reactive oxygen species (ROS) damage than nuclear DNA, a continuous flux of hydrogen peroxide (H2O2) was produced with the glucose/glucose oxidase system. Using a horse radish peroxidase (HRPO)-based colorimetric assay to detect H2O2, glucose oxidase (GO; 12 mU/ml) produced 95 microM of H2O2 in 1 h, whereas only 46 microM of hydrogen peroxide accumulated in the presence of SV40-transformed human fibroblasts ( approximately 1 x 10(6). DNA damage was assessed in the mitochondira and three nuclear regions using a quantitative PCR assay. GO (12 mU/ml) resulted in more damage to the mitochondrial DNA (2.250 +/- 0.045 lesions/10 kb) than in any one of three nuclear targets, which included the non-expressed beta-globin locus (0.436 +/- 0.029 lesions/10 kb); and the active DNA polymerase b gene (0.442 +/- 0.037 lesions/10 kb); and the active hprt gene (0.310 +/- 0.025). Damage to the mtDNA occurred within 15 min of GO treatment, whereas nuclear damage did not appear until after 30 min, and reached a maximum after 60 min. Repair of mitochondrial damage after a 15 min GO (6 mU/ml) treatment was examined. Mitochondria repaired 50% of the damage after 1 h, and by 6 h all the damage was repaired. Higher doses of GO-generated H202, or more extended treatment periods, lead to mitochondrial DNA damage which was not repaired. Mitochondrial function was monitored using the MTT (3,(4,5-dimethylthiazol-2-yl)2,5-diphenyltetrazolium bromide) assay. A 15 min treatment with 6 mU/ml of GO decreased mitochondrial activity to 80% of the control; the activity recovered completely within 1 h after damage. These data show that GO-generated H202 causes acute damage to mtDNA and function, and demonstrate that this organelle is an important site for the cellular toxicity of ROS.
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PMID:Preferential mitochondrial DNA injury caused by glucose oxidase as a steady generator of hydrogen peroxide in human fibroblasts. 944 35

A sulfated glycoglycerolipid, 1-O-(6'-sulfo-alpha-D-glucopyranosyl)-2,3-di-O-phytanyl- sn-glycerol (KN-208), a derivative of the polar lipid isolated from an archaebacterium, strongly inhibited DNA polymerase (pol) alpha and pol beta in vitro among 5 eukaryotic DNA polymerases (alpha, beta, gamma, delta, and epsilon). It also inhibited Escherichia coli DNA polymerase I Klenow fragment (E. coli pol I) and human immunodeficiency virus reverse transcriptase (HIV RT). The mode of inhibition of these polymerases was competitive with the DNA template primer and was non-competitive with the substrate dTTP. KN-208 inhibited pol beta most strongly, with a Ki value of 0.05 microM, 10-fold lower than that for pol alpha (0.5 microM) and 60- or 140-fold lower than that for HIV RT (3 microM) or for E. coli pol I (7 microM), respectively. The loss of sulfate on the 6'-position of glucopyranoside of this compound completely abrogated inhibition. However, the hydrophilic part of KN-208, glucose 6-sulfate alone, showed no inhibition. Other sulfated compounds containing different hydrophobic structures, such as dodecyl sulfate and cholesterol sulfate, exhibited a much weaker inhibition. Our results suggest that the whole molecular structure of KN-208 is required for inhibition. KN-208 was shown to be modestly cytotoxic for the human leukemic cell line K562. Interestingly, a subcytotoxic dose of KN-208 increased the sensitivity of the human leukemic cells to an alkylating agent, methyl methanesulfonate, while it did not potentiate the effects of ultraviolet light or of cisplatin.
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PMID:Sulfated glycoglycerolipid from archaebacterium inhibits eukaryotic DNA polymerase alpha, beta and retroviral reverse transcriptase and affects methyl methanesulfonate cytotoxicity. 959 Jan 27

Seven ellagitannins isolated from Phyllanthus myrtifolius and P. urinaria (Euphorbiaceae) have been shown, for the first time, to be active against Epstein-Barr virus DNA polymerase (EBV-DP) at the microM level. All these compounds have the same moiety of a corilagin, and differ from each other by different substitutions at C-2 and C-4 of the glucose core. SAR analysis and molecular modeling reveal that the essential pharmacophore of these tannins resides in the corilagin moiety. The outer complex carboxylic acid moieties appear to act only as auxopharmacore.
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PMID:Antiviral tannins from two Phyllanthus species. 1008 44

Sulfolipids of photosynthetic bacteria and plants are characterized by their unique sulfoquinovose headgroup, a derivative of glucose in which the 6-hydroxyl group is replaced by a sulfonate group. These sulfolipids have been discussed as promising anti-tumor and anti-HIV therapeutics based on their inhibition of DNA polymerase and reverse transcriptase. To study sulfolipid biosynthesis, in particular the formation of UDP-sulfoquinovose, we have combined computational modeling with biochemical methods. A database search was performed employing the derived amino acid sequence from SQD1, a gene involved in sulfolipid biosynthesis of Arabidopsis thaliana. This sequence shows high similarity to other sulfolipid biosynthetic proteins of different organisms and also to sugar nucleotide modifying enzymes, including UDP-glucose epimerase and dTDP-glucose dehydratase. Additional biochemical data on the purified SQD1 protein suggest that it is involved in the formation of UDP-sulfoquinovose, the first step of sulfolipid biosynthesis. To understand which aspects of epimerase catalysis may be shared by SQD1, we built a three-dimensional model of SQD1 using the 1.8 A crystallographic structure of UDP-glucose 4-epimerase as a template. This model predicted an NAD(+) binding site, and the binding of NAD(+) was subsequently confirmed by enzymatic assay and mass spectrometry. The active-site interactions together with biochemical data provide the basis for proposing a reaction mechanism for UDP-sulfoquinovose formation.
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PMID:Prediction of the active-site structure and NAD(+) binding in SQD1, a protein essential for sulfolipid biosynthesis in Arabidopsis. 1046 38

The short flanking homology PCR strategy (Wach et al., 1994) was used to disrupt six open reading frames (ORFs) on chromosome X of diploid strains (FY1679 and W303) of the yeast Saccharomyces cerevisiae. Two of the six ORFs analysed (YJL069c and YJL066c) display no similarity to known sequences. Three others (YJL065c, YJL068c, and YJL070c) are similar to those respectively encoding the DNA polymerase epsilon subunit c, human esterase D and rat AMP deaminase 1. YJL071w has recently been identified as the ARG2 gene coding for acetylglutamate synthase. Inactivation of the YJL069c gene proved lethal and the yjl071w haploid disruptants were auxotrophic for arginine. For the four other gene inactivations, neither the heterozygous deletion diploids nor the corresponding haploid deletion mutants displayed any special phenotype when grown on rich glycerol or glucose medium or on synthetic minimal medium at three different temperatures, or on media containing compounds interfering with nucleic acid or protein synthesis. Mating and sporulation efficiencies were the same for the viable disruptants as for wild-type cells. The six kanMX4 disruption cassettes were cloned into the pUG7 vector and each of the cognate wild-type genes was inserted into the pRS416 centromeric plasmid. All strains and plasmids have been deposited in the EUROFAN collection (EUROSCARF, K. -D. Entian, Frankfurt, Germany).
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PMID:Disruption of six ORFs on Saccharomyces cerevisiae chromosome X: the YJL069c gene of unknown function is essential to cell viability. 1050 23

A specific and sensitive combined selection and enrichment PCR procedure was developed for the detection of Clostridium botulinum types B, E, and F in fecal samples from slaughtered pigs. Two enrichment PCR assays, using the DNA polymerase rTth, were constructed. One assay was specific for the type B neurotoxin gene, and the other assay was specific for the type E and F neurotoxin genes. Based on examination of 29 strains of C. botulinum, 16 strains of other Clostridium spp., and 48 non-Clostridium strains, it was concluded that the two PCR assays detect C. botulinum types B, E, and F specifically. Sample preparation prior to the PCR was based on heat treatment of feces homogenate at 70 degrees C for 10 min, enrichment in tryptone-peptone-glucose-yeast extract broth at 30 degrees C for 18 h, and DNA extraction. The detection limits after sample preparation were established as being 10 spores per g of fecal sample for nonproteolytic type B, and 3.0 x 10(3) spores per g of fecal sample for type E and nonproteolytic type F with a detection probability of 95%. Seventy-eight pig fecal samples collected from slaughter houses were analyzed according to the combined selection and enrichment PCR procedure, and 62% were found to be PCR positive with respect to the type B neurotoxin gene. No samples were positive regarding the type E and F neurotoxin genes, indicating a prevalence of less than 1.3%. Thirty-four (71%) of the positive fecal samples had a spore load of less than 4 spores per g. Statistical analysis showed that both rearing conditions (outdoors and indoors) and seasonal variation (summer and winter) had significant effects on the prevalence of C. botulinum type B, whereas the effects of geographical location (southern and central Sweden) were less significant.
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PMID:Development of a combined selection and enrichment PCR procedure for Clostridium botulinum Types B, E, and F and its use to determine prevalence in fecal samples from slaughtered pigs. 1157 Nov 85

Oxidative stress plays an important role in tissue damage caused by hypoglycemia and diabetes, which may be the result of deterioration in glucose homeostasis caused by these metabolic disorders. The present study examined the effects of insulin-induced hypoglycemia and streptozotocin induced diabetes on mitochondrial lipid peroxidation and antioxidant enzymes from different brain regions, namely, cerebral hemispheres, cerebellum, brain stem and diencephalon. In situ localization of DNA single strand breaks (SSBs) were also studied by DNA polymerase-I mediated biotin dATP labeled nick translation method after inducing hypoglycemia and diabetes. Significant decrease in mitochondrial catalase, manganese superoxide-dismutase (Mn-SOD) and reduced glutathione (GSH) content and increase in the lipid peroxidation (LPx) and glutathione peroxidase (GPx) activity was observed under these metabolic stress conditions with more pronounced effects in hypoglycemic group. We conclude that during severe energy deprivation following hypoglycemia and diabetes, mitochondrial free radicals scavenger system is down regulated, which leads to reactive oxygen species (ROS) generation. High levels of ROS in turn activate the processes leading to DNA damage. DNA SSBs, which indicates nuclear disintegration is an important feature of neuronal cell death.
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PMID:Impact of hypoglycemia and diabetes on CNS: correlation of mitochondrial oxidative stress with DNA damage. 1522 97

Species of the phylum Aquificae are of great interest due to their strict extreme thermophilic growth characteristics. Presently, there is no known molecular characteristic which is unique to this group of bacteria. This work describes six conserved inserts and deletions (indels or signature sequences) in four widely distributed proteins that are distinctive features of species from the phylum Aquificae. These include three signatures consisting of a 2 aa insert, a 5-6 aa insert and a 6 aa deletion in DNA polymerase I (PolA), a 6-7 aa insert in glucose-inhibited protein A (GidA), a 52 aa insert in the RNA polymerase beta'-subunit (RpoC) and a 4 aa insert in elongation factor Tu (EF-Tu). Fragments of these genes were amplified in most cases from Hydrogenobacter hydrogenophilus, Hydrogenothermus marinus and Thermocrinis ruber and combined with available sequence data from 'Aquifex aeolicus' and Sulfurihydrogenibium azorense. The presence of the PolA, GidA and RpoC indels in all of the species sequenced provides evidence that they are probably distinctive characteristics of the entire phylum. The indel in EF-Tu, which is shared by Aquifex species and Hydrogenobacter but not Hydrogenothermus and Sulfurihydrogenibium, may provide a molecular marker for the family Aquificaceae. We have also identified a 51 aa insert in SecA preprotein translocase that is commonly shared by various species of the Aquificae as well as two Thermotoga species (Thermotoga maritima and Thermotoga neapolitana) which may be due to lateral gene transfer between these groups. In phylogenetic trees based on a concatenated dataset of fragments from eight different proteins as well as 16S rRNA, the observed branching pattern of these species was very similar and it was consistent with the relationships inferred from various indels. The identified indels provide a novel means for distinguishing species of the Aquificae from all other bacteria in molecular terms and may prove useful for functional studies aimed at understanding the unique biochemical and physiological characteristics of the Aquificae.
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PMID:Molecular signatures in protein sequences that are characteristics of the phylum Aquificae. 1640 73

DinB, a Y-family DNA polymerase, is conserved among all domains of life; however, its endogenous substrates have not been identified. DinB is known to synthesize accurately across a number of N(2)-dG lesions. Methylglyoxal (MG) is a common byproduct of the ubiquitous glycolysis pathway and induces the formation of N(2)-(1-carboxyethyl)-2'-deoxyguanosine (N(2)-CEdG) as the major stable DNA adduct. Here, we found that N(2)-CEdG could be detected at a frequency of one lesion per 10(7) nucleosides in WM-266-4 human melanoma cells, and treatment of these cells with MG or glucose led to a dose-responsive increase in N(2)-CEdG formation. We further constructed single-stranded M13 shuttle vectors harboring individual diastereomers of N(2)-CEdG at a specific site and assessed the cytotoxic and mutagenic properties of the lesion in wild-type and bypass polymerase-deficient Escherichia coli cells. Our results revealed that N(2)-CEdG is weakly mutagenic, and DinB (i.e., polymerase IV) is the major DNA polymerase responsible for bypassing the lesion in vivo. Moreover, steady-state kinetic measurements showed that nucleotide insertion, catalyzed by E. coli pol IV or its human counterpart (i.e., polymerase kappa), opposite the N(2)-CEdG is both accurate and efficient. Taken together, our data support that N(2)-CEdG, a minor-groove DNA adduct arising from MG, is an important endogenous substrate for DinB DNA polymerase.
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PMID:Efficient and accurate bypass of N2-(1-carboxyethyl)-2'-deoxyguanosine by DinB DNA polymerase in vitro and in vivo. 1856 83


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