Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.31 (beta-glucuronidase)
 7,680 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Liver microsomal beta-glucuronidase is stabilized within microsomal vesicles by complexation with the accessory protein, named egasyn. In this study, we showed that egasyn is identical to one of the carboxylesterase isozymes and organophosphorus and carbamate insecticides, acetanilide which is a specific substrate of egasyn and halothane caused a rapid dissociation of the egasyn-microsomal beta-glucuronidase complex when administered in vivo or when added in vitro to isolated hepatocytes. The dissociation was relatively specific to organophosphates, carbamates, but not pyrethroids. Dissociation of the egasyn-beta-glucuronidase complex in vivo by organophosphates was followed by massive and rapid secretion of microsomal beta-glucuronidase into plasma. From these results, we concluded that release of liver microsomal beta-glucuronidase is the most rapid and sensitive marker to organophosphorus or carbamate insecticide-induced intoxication.
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PMID:Release of liver microsomal beta-glucuronidase from hepatocytes in vitro and in vivo by organophosphates and hepatotoxic agents. 192 May 40

Organophosphorous compounds, which are potent inhibitors of egasyn-esterase activity, caused a rapid dissociation of the high molecular weight egasyn-microsomal beta-glucuronidase complex when administered in vivo or when added in vitro to microsomal suspensions. The dissociation was relatively specific to phosphodiester inhibitors of the esterase active site. Also, the egasyn-esterase active site was inaccessible to substrates and to inhibitors when egasyn was complexed to beta-glucuronidase. Dissociation of the egasyn-microsomal beta-glucuronidase complex in vivo by organophosphorous compounds was followed by massive and rapid secretion of microsomal beta-glucuronidase, but not egasyn, into plasma. These experiments implicate the egasyn-esterase active site in attachment of microsomal beta-glucuronidase to egasyn by a novel mechanism that, in turn, compartmentalizes beta-glucuronidase within the endoplasmic reticulum.
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PMID:Involvement of the esterase active site of egasyn in compartmentalization of beta-glucuronidase within the endoplasmic reticulum. 359 74

Hydrolysis of 3-methylumbelliferyl glucuronide by liver microsomal beta-glucuronidase is enhanced about 2-fold by micromolar concentrations of Ca2+; half-maximal stimulation occurs with 0.35 microM Ca2+. Dissociation of the enzyme from microsomal membranes by various treatments increases basal beta-glucuronidase activity and markedly decreases the sensitivity of the enzyme to Ca2+. Under similar conditions, the soluble lysosomal form of the enzyme is insensitive to Ca2+. Ca2+ stimulation was unaltered by addition of calmodulin inhibitors or exogenous calmodulin. Thus, interaction of cytosolic Ca2+ with membrane bound beta-glucuronidase may modulate glucuronidation in intact hepatocytes via a novel, calmodulin-independent mechanism.
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PMID:Stimulation of hepatic microsomal beta-glucuronidase by calcium. 674 23

Adsorptive pinocytosis of acid hydrolases by fibroblasts depends on phosphomannosyl recognition markers on the enzymes and high-affinity pinocytosis receptors on the cell surface. In this study, beta-glucuronidase binding to the cell surface of attached fibroblasts was found to be saturable and inhibitable by mannose-6-phosphate (Man-6-P). Dissociation of cell-bound beta-glucuronidase occurred very slowly at neutral pH, but was greatly accelerated by lowering the pH below 6.0, or by exposure to Man-6-P. Comparison of the maximal cell surface binding and the observed rate of enzyme pinocytosis suggests that the pinocytosis receptors are replaced or reused about every 5 min. Enzyme pinocytosis was not affected by inhibition of new protein synthesis for several hours, suggesting a large pool of internal receptors and/or reuse of internalized receptors. Chloroquine treatment of normal human fibroblasts had three effects: (a) greatly enhanced secretion of newly synthesized acid hydrolases bearing the recognition marker for uptake, (b) depletion of enzyme-binding sites from the cell surface, and (c) inhibition of pinocytosis of exogenous enzyme. Only the third effect was seen in I-cell disease fibroblasts, which were also less sensitive than control cells to this effect. These observations are consistent with a model for transport of acid hydrolases that proposes that delivery of newly synthesized acid hydrolases to lysosomes requires the phosphomannosyl recognition marker on the enzymes, and intracellular receptors that segregate receptor-bound enzymes into vesicles for transport to lysosomes. This model explains how chloroquine, which raises intralysosomal pH, can disrupt both the intracellular pathway for newly synthesized acid hydrolases, and the one for uptake of exogenous enzyme by cell surface pinocytosis receptors.
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PMID:Chloroquine inhibits lysosomal enzyme pinocytosis and enhances lysosomal enzyme secretion by impairing receptor recycling. 719 Jan 50

We have introduced a genetically marked Dissociation transposable element (DsHPT) into tomato (Lycopersicon esculentum) by Agrobacterium tumefaciens-mediated transformation. Probes for the flanking regions of the T-DNA and transposed DsHPT elements were obtained with the inverse polymerase chain reaction (IPCR) technique and used in RFLP linkage analyses. The RFLP map location of 11 T-DNAs carrying DsHPT was determined. The T-DNAs are distributed on 7 of the 12 tomato chromosomes. To explore the feasibility of gene tagging strategies in tomato using DsHPT, we examined the genomic distribution of DsHPT receptor sites relative to the location of two different, but very closely linked, T-DNA insertion sites. After crosses with plants expressing Ac transposase, the hygromycin phosphotransferase (HPT) marker on the Ds element and the excision markers beta-glucuronidase (GUS) and Basta resistance (BAR) facilitated the identification of plants bearing germinally transposed DsHPT elements. RFLP mapping of 21 transposed DsHPT elements originating from the two different T-DNA insertions revealed distinct patterns of reintegration sites.
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PMID:Transgenic tomato lines containing Ds elements at defined genomic positions as tools for targeted transposon tagging. 802 83

Our objective was to test whether the double Ds structure correlated with Dissociation state I activity (i.e., high frequency of chromosome breakage and low frequency of reversion) in maize exhibited similar properties in tobacco. A genetic assay was established to test double Ds and related structures for their ability to cause loss of the linked marker genes streptomycin phosphotransferase and beta-glucuronidase in transgenic tobacco. An engineered double Ds element and a simple Ds element showed behavior consistent with that of state I and state II Ds elements, respectively, as described for maize. DNA structural rearrangements accompanied marker gene loss. Dissection of the double Ds structure showed that a left end and a right end of Ds in direct orientation were sufficient for the instability observed. This result suggested that left and right ends of Ds in direct orientation can participate in aberrant transposition events, consistent with two different models for double Ds-induced chromosome breakage proposed previously. Both models predict that the inversion of a half Ds element accompanies the aberrant transposition event. Such an inversion was detected by polymerase chain reaction experiments in tobacco and maize only when Activator activity was present in the genome.
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PMID:A genetic analysis of DNA sequence requirements for Dissociation state I activity in tobacco. 839 Aug 77

Enhancer trap derivatives of the maize Dissociation (Ds) transposon were introduced into Arabidopsis thaliana. The enhancer trap Ds was so designed that upon transposition to sites containing regulatory sequences in adjacent genomic DNA, transcription of a Ds-borne beta-glucuronidase (GUS) gene would be activated. Sixty percent of all transposition events were associated with GUS expression patterns including one linked to a mutant phenotype. Patterns of GUS expression were found in various organs and were stably inheritable in the F4 and F5 progenies. These results demonstrate the potential value of the technique as a means for detection of developmentally regulated genes and analysis of their function. The enhancer trap construct used in our experiments, as well as the seeds of primary transformants are publicly available.
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PMID:Novel GUS expression patterns following transposition of an enhancer trap Ds element in Arabidopsis. 855 40

To investigate the excision of a maize transposable element in wheat cells, plasmid DNAs containing a Dissociation (Ds) element located between a rice actin 1 gene promoter and a beta-glucuronidase (GUS) gene (gus) were introduced into wheat callus lines by microprojectile bombardment, and transient GUS expression was assayed. The gus-expressing cells after Ds excision were detected only when the Activator (Ac) transposase gene was co-transformed. To further examine a relationship between the amount of Ac mRNA and the Ds excision frequency, the Ds-containing plasmids were introduced into 15 independent transgenic callus lines transformed with the Ac transposase gene. Ten lines expressed the Ac transposase gene under the control of either the cauliflower mosaic virus 35S promoter or the Ac native promoter. The gus gene expression that indicated the Ds excision was observed only in the transgenic callus lines stably expressing the Ac transposase gene. The number of blue spots reflecting the frequency of Ds excision was variable among them. Northern-blot analysis also showed a large variability in the amount of Ac transposase transcripts among the lines. It was however noted that the excision frequency was decreased at a high level of the Ac transposase transcripts, supporting the hypothesis that Ds excision is inhibited above a certain level of the Ac transposase as observed in maize and transgenic tobacco.
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PMID:Variations in the maize Ac transposase transcript level and the Ds excision frequency in transgenic wheat callus lines 1065 92

RING zinc-finger proteins play important roles in the regulation of development in a variety of organisms. In the plant kingdom, few genes encoding RING zinc-finger proteins have been documented with visible effects on plant growth and development. A novel gene, RIE1, encoding a RING-H2 zinc-finger protein was identified in Arabidopsis thaliana and is characterized in this paper. RIE1 encodes a predicted protein product of 359 amino acids residues with a molecular mass of 40 kDa, with a RING-H2 zinc-finger motif located at the extreme end of the C-terminus. Characterization of a Dissociation (Ds) insertion line (SGT4559) and a T-DNA insertion line (SRIE1) demonstrated that disruption of RIE1 is embryo-lethal. SGT4559 heterozygous plants produced seeds with embryo development arrested from globular to torpedo stages. Some mutant seeds were rescued by embryo culture, and the mutant (rie1) plants seemed to grow normally compared to wild-type plants, except that the mutants produced only abnormal seeds. However, RIE1 was expressed in different tissues throughout the whole plant as revealed by northern blot analysis and gene fusion assay of RIE1 promoter with the beta-glucuronidase (GUS) gene. Our results indicated that RIE1 plays an essential role in seed development.
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PMID:A RING-H2 zinc-finger protein gene RIE1 is essential for seed development in Arabidopsis. 1475 5