UNIPROT:Q8NEX9 - FACTA Search

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Query: UNIPROT:Q8NEX9 (reductase)
26,410 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Carbonyl reductase, an NADPH-dependent oxidoreductase of broad specificity, is present in many human tissues. Its precise localization, however, has remained unclear, as well as its physiological and possible pathophysiological significance. The present study reports the immunohistochemical localization of the enzyme in normal human tissues. Immunostaining was detectable in all organs investigated. The highest concentrations were found in the parenchymal cells of the liver, the epithelial cells of the stomach and small intestine, the epidermis, the proximal tubules of the kidney, neuronal and glial cells of the central nervous system, and certain cells of the anterior lobe of the pituitary gland. Consistently pronounced staining was also observed in smooth muscle fibers and the endothelium of blood vessels. The results are in agreement with a housekeeping function of carbonyl reductase in the elimination of reactive carbonyl compounds.
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PMID:Immunohistochemical localization of carbonyl reductase in human tissues. 145 4

Transgenic mouse lines were established bearing tandem arrays of a fusion construct comprising the promoter region of a housekeeping gene, HMGCR, encoding 3-hydroxy 3-methylglutaryl CoA reductase, linked to a bacterial cat reporter gene encoding chloramphenicol acetyltransferase (CAT). CAT activity was observed in all transgenic mouse tissues examined. The methylation state of the fusion transgene was determined. In non-transgenic mice the endogenous HMGCR promoter is devoid of methylation while flanking regions are extensively modified. In HMGCR-cat transgenic mice the fusion gene promoter was found to be similarly hypomethylated. However, the extent of hypomethylation varied with copy number: methylation-free status was progressively lost with increasing transgene copy number. Further transgenic mouse lines were constructed carrying a truncated HMGCR regulatory region linked to cat. Transgene expression and hypomethylation were observed in testis but not in any other tissue, and testis-specific methylation-free status was also lost at high copy number. Loss of hypomethylation at high copy number may indicate that saturable DNA-binding factors normally protect the HMGCR promoter from methylation.
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PMID:The methylation-free status of a housekeeping transgene is lost at high copy number. 221 Mar 79

Cholesterol homeostasis is maintained by feedback inhibition of transcription of the gene encoding HMG CoA reductase. To study this mechanism, we joined the 5' end of the hamster reductase gene to the coding region for chloramphenicol acetyltransferase (CAT). The chimeric gene produced high levels of CAT activity in mouse L cells; sterols suppressed expression by 70% to 90%. Sequences responsible for both promotion and inhibition of transcription were distributed over 500 bp extending 300 bp upstream of the reductase transcription initiation sites. Any sizable deletion within this region decreased CAT expression in vivo and CAT mRNA transcription in vitro. This region contains five hexanucleotide repeats (CCGCCC or GGGCGG) that occur in promoters of viral and cellular housekeeping genes. Every reductase-CAT plasmid that showed transcriptional activity also showed inhibition by sterols, indicating that the sites for promotion and inhibition of transcription are closely associated.
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PMID:5' end of HMG CoA reductase gene contains sequences responsible for cholesterol-mediated inhibition of transcription. 386 Mar 1

We have analyzed the regulation of transcription of integrated SV40 DNA and of five cellular genes during the cell cycle of two lines of SV40 transformed mouse 3T3 cells. These cells (ts SV3T3) are temperature sensitive for the expression of the transformed phenotype and at the nonpermissive temperature (39 degrees C) become arrested in G1 at low serum concentrations. SV40 specific RNAs are not detected either in the nuclear or in the cytoplasmic poly(A+)RNA of quiescent cells, suggesting control at the level of transcription. After serum stimulation, however, viral transcription increases and reaches its maximum during S-phase. The expression of a group of selected housekeeping genes has received parallel analysis to determine whether other cellular genes, beside the integrated SV40, are shut off in G1 arrested cells or are expressed in restricted periods of the cell cycle. We have found that, while the mRNAs for collagen, adenosinphosphoribosiltransferase (APRT) and the mouse major histocompatibility complex (H2) are present throughout the cell cycle, the genes coding for the multifunctional protein CAD and dehydrofolate reductase are cell-cycle regulated.
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PMID:Changes in the levels of viral and cellular gene-transcripts in the cell cycle of SV40 transformed mouse cells. 631 50

Among the numerous hypotheses proposed to explain the absence of fetal rejection by the mother in mammals, it has been suggested that regulation of expression of the polymorphic major histocompatibility complex (MHC) at the fetal-maternal interface plays a major role. In addition to a lack of MHC gene expression in the placenta throughout gestation, the absence of polymorphic MHC molecules on the early embryo, as well as their low level of expression after midgestation, could contribute to this important biologic phenomenon. In order to test this hypothesis, we have produced transgenic mice able to express polymorphic MHC class I molecules early in embryogenesis. We have placed the MHC class la gene H-2Kb under the control of a housekeeping gene promoter, the hydroxy-methyl-glutaryl coenzyme A reductase (HMG) gene minimal promoter. This construct has been tested for functionality after transfection into mouse fibroblast L cells. The analysis of three founder transgenic mice and their progeny suggested that fetoplacental units that could express the H-2Kb heavy chains are unable to survive in utero beyond midgestation. We have shown further that a much higher resorption rate, on days 11 to 13 of embryonic development, is observed among transgenic embryos developing from eggs microinjected at the one-cell stage with the pHMG-Kb construct than in control embryos. This lethality is not due to immune phenomena, since it is observed in histocompatible combinations between mother and fetus. These results are discussed in the context of what is currently known about the regulation of MHC expression at the fetal-maternal interface and in various transgenic mouse models.
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PMID:Selective loss of mouse embryos due to the expression of transgenic major histocompatibility class I molecules early in embryogenesis. 954 8

Kinetic studies on the aldose reductase protein (AR2) have shown that it does not behave as a classical enzyme in relation to ring aldose sugars. These results have been confirmed by X-ray crystallography studies, which have pinpointed binding sites for pharmacological "aklose reductase inhibitors" (ARIs). As with non-enzymic glycation reactions, there is probably a free-radical element involved derived from monosaccharide autoxidation. In the case of AR2, there is free radical oxidation of NADPH by autoxidising monosaccharides, enhanced in the presence of the NADPH-binding protein. Whatever the behaviour of AR2, many studies have showed that sorbitol production is not an initiating aetiological factor in the development of diabetic complications in humans. Vitamin E (alpha-tocopherol), other antioxidants and high fat diets can delay or prevent cataract in diabetic animals even though sorbitol and fructose levels are not modified; vitamin C acts as an AR1 in humans. Protein post-translational modification by glyc-oxidation or other events is probably the key factor in the aetiology of diabetic complications. There is now no need to invoke AR2 in xylitol biosynthesis. Xylitol can be produced in the lens from glucose, via a pathway involving the enzymes myo-inositol-oxygen oxidoreductase, D-glucuronate reductase. L-gulonate NAD(+)-3-oxidoreductase and L-iditol-NAD(+)-5-oxidoreductase, all of which have recently been found in bovine and rat lens. This chapter investigates the molecular events underlying AR2 and its binding and kinetics. Induction of the protein by osmotic response elements is discussed, with detailed analysis of recent in vitro and in vivo experiments on numerous ARIs. These have a number of actions in the cell which are not specific, and which do not involve them binding to AR2. These include peroxy-radical scavenging and recently discovered effects of metal ion chelation. In controlled experiments, it has been found that incubation of rat lens homogenate with glucose and the copper chelator o-phenanthroline abolishes production of sorbitol. Taken together, these results suggest AR2 is a vestigial NADPH-binding protein, perhaps similar in function to a number of non-mammalian crystallins which have been recruited into the lens. There is mounting evidence for the binding of reactive aldehyde moieties to the protein, and the involvement of AR2 either as a 'housekeeping' protein, or in a free-radial-mediated 'catalytic' role. Interfering with the NADPH binding and flux levels--possibly involving free radicals and metal ions--has a deleterious effect. We have yet to determine whether aldose reductase is the black sheep of the aldehyde reductase family, or whether it is a skeleton in the cupboard, waiting to be clothed in the flesh of new revelations in the interactions between proteins, metal ions and redox metabolites.
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PMID:Aldose reductase: a window to the treatment of diabetic complications? 969 97

The NADH-specific enoyl-acyl carrier protein (ACP) reductase, which catalyses the last reducing step during the fatty acid biosynthesis cycle, is encoded in Arabidopsis thaliana encoded by a single housekeeping gene (ENR-A) which is differentially expressed during plant development. To identify elements involved in its tissue-specific transcriptional control, a fragment comprising the 1470 bp region directly upstream of the ATG start codon of the ENR-A gene was fused to the uidA (GUS) reporter gene and analysed in transgenic Nicotiana tabacum plants. GUS activity found during development of the transgenic plants was similar to endogenous ENR protein levels found in both tobacco and Arabidopsis plants, except for developing flowers. In floral tissue the promoter fragment showed very little activity in contrast to the relatively high level of endogenous ENR expression. Successive deletions from the 5' and 3' regions of the promoter fragment revealed the presence of at least three elements which control GUS expression in different stages of development in the transgenic tobacco plants. First, expression in young developing leaves required both the presence of sequences between -329 to -201 relative to the transcription start and part of the untranslated leader comprising the first intron. Second, root-specific GUS expression was still observed after deletion of the 5'-upstream sequences up to 19 bp of the transcription initiation site. Further, the additional removal of the intron from the untranslated leader increased root-specific expression by ca. 4- to 5-fold. Third, high expression in seeds was still observed with the minimal upstream promoter segment of 19 bp. This seed expression level was found to be independent of the presence or absence of the intron in the untranslated leader. Finally, 3' deletion of the leader sequence up to 17 bp of the transcription start greatly impaired GUS activity during all stages of plant development, suggesting that the deleted sequence of the leader either functions as an enhancer for transcription initiation or stabilizes the mRNA.
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PMID:Sequences surrounding the transcription initiation site of the Arabidopsis enoyl-acyl carrier protein reductase gene control seed expression in transgenic tobacco. 1038 Aug 6

Proteins that are preferentially produced in developing xylem may play a substantial role in xylogenesis. To reveal the identity of these proteins, comparative two-dimensional polyacrylamide gel electrophoresis was performed on young differentiating xylem, mature xylem, and bark of poplar (Populus trichocarpa Hook. cv. 'Trichobel') harvested at different times of the year. The most-abundant xylem proteins were identified by microsequence analysis. For 17 of these proteins a putative function could be assigned based on similarity with previously characterized proteins, and for 15 out of these corresponding expressed sequence tags (ESTs) were found in the poplar EST database. The identified xylem-preferential proteins, defined by comparing the protein patterns from xylem and bark, were all involved in the phenylpropanoid pathway: two caffeoyl-coenzyme A O-methyltransferases (CCoAOMT), one phenylcoumaran benzylic ether reductase (PCBER), one bispecific caffeic acid/5-hydroxyferulic acid O-methyltransferase (COMT), five S-adenosyl-L-methionine synthetases, and one homologue of glycine hydroxymethyltransferase (GHMT). Remarkably, the biological function of the two most-abundant xylem-preferential proteins (PCBER and a GHMT homologue) remains unclear. In addition, several housekeeping enzymes were identified: two enolases, two glutamine synthetases, one 70-kDa heat-shock cognate, one calreticulin, and one alpha-tubulin. In comparison to the xylem-preferential proteins, the housekeeping proteins were expressed at significant levels in the bark as well. Also, several additional protein spots were detected for CCoAOMT, PCBER, and COMT by immunoblot. Our data show that for the study of xylogenesis, two-dimensional protein gel comparisons combined with systematic protein sequencing may yield information complementary to that from EST sequencing strategies.
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PMID:Wood formation in poplar: identification, characterization, and seasonal variation of xylem proteins. 1078 52

The cytochrome P450 mono-oxygenase system represents a major defence against chemical challenge from the environment, constituting part of an adaptive response mounted by an organism following exposure to harmful agents. Cytochrome P450s are also able to catalyse the activation of compounds to toxic products, and participate in a variety of essential 'housekeeping' functions, such as biosynthesis of steroid hormones and fatty acid oxidation. It is clear that the modulation of expression of these enzymes can have a significant effect on chemical toxicity, carcinogenicity and mutagenicity. The concept of cancer chemoprevention, i.e. the administration of a (non-toxic) chemical or dietary component in order to prevent neoplastic disease or to inhibit its progression, is an attractive one. Despite this, relatively little work has been done to characterize the ability of putative chemopreventive agents to modulate P450 expression, or to understand the interaction between P450s and chemopreventive agents. Before chemopreventive treatment can become a reality, it is essential that this complex issue is addressed; for instance, it is likely that any single chemopreventive agent will induce more than one P450 isoenzyme, and while altered expression of a particular P450 may attenuate the effects of one toxic agent, the effects of others might well be potentiated. Our laboratory has created a transgenic mouse line in which the rat CYP1A1 promoter drives expression of the beta-galactosidase gene. These mice can be used to define which compounds act via the Ah receptor, in which tissues, and at which stage of development. We are currently developing another mouse line in which beta1-galactosidase expression is controlled by the mouse GstA1 promoter, allowing us to define the role of the antioxidant responsive element in the action of chemopreventive agents. Finally, using cre-loxP transgenic technology, we have generated a mouse line in which P450 reductase can be deleted in a conditional, i.e. tissue-specific, manner, permitting us to investigate the role of P450s in chemoprevention in a more defined manner.
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PMID:Cytochrome P450s and chemoprevention. 1081 96

The acyl carrier protein NodF is required for the synthesis of unusual polyunsaturated fatty acids that confer specificity to lipochitin oligosaccharide nodulation (Nod) factors of Rhizobium leguminosarum. In this study, homogeneous NodF protein was used as a ligand to identify proteins of R. leguminosarum that specifically interact with NodF and presumably are involved in the biosynthesis or transfer of the unusual fatty acids. The N-terminal amino acid sequence of a 29-kDa protein that interacts strongly with NodF revealed high similarity to NodG of Rhizobium sp. N33 and to NodG of Sinorhizobium meliloti We cloned and sequenced the gene coding for the NodG-like protein of R. leguminosarum and found it to be the product of the constitutively expressed gene fabG. FabG is the 3-oxoacyl-acyl carrier protein reductase that catalyzes the first reduction step in each cycle of fatty acid elongation. FabG of R. leguminosarum and NodG of Rhizobium sp. N33 were expressed in Escherichia coli. In both cases, the purified protein showed 3-oxoacyl-acyl carrier protein reductase activity in vitro. Therefore, NodG has the same biochemical function as FabG, and the high degree of similarity at the protein and DNA level suggest that nodG is a duplication of the housekeeping genefabG.
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PMID:The nodulation protein NodG shows the enzymatic activity of an 3-oxoacyl-acyl carrier protein reductase. 1127 32

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