EC:3.2.1.31 - FACTA Search

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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)

The ftsH gene of Bacillus subtilis has been identified as a salt-sensitive insertion mutation in strain UG1. Here, we show that UG1 has an insertion near the 3' end of ftsH. The salt sensitivity of this mutant was caused by reduction of ftsH mRNA levels by the synthesis of an artificial antisense RNA originating at a promoter located within the insertion and reading backwards into the ftsH gene. The salt-sensitive phenotype could be overcome by deleting the promoter from which the antisense RNA was transcribed. A physiological analysis of the isogenic wild-type strain in minimal medium revealed unimpaired growth at up to 1 M NaCl, and growth above 1.2 M NaCl was observed only after addition of the osmoprotectant proline or glycine betaine. In contrast, growth of strain UG1 was reduced at a salt concentration above 0.2 M, which could be rescued by the two compatible solutes already mentioned and also by trehalose. Primer extension revealed one potential transcription start site downstream of a putative vegetative promoter, which was activated after osmotic or temperature upshift. Northern (RNA blot) experiments led to the detection of a 2.1-kb transcript, suggesting that ftsH is monocistronic. A transcriptional fusion between ftsH and the gus reporter gene exhibited a twofold increase in beta-glucuronidase activity after osmotic upshift. To further confirm the need for an enhanced level of FtsH protein after osmotic upshift, the promoter was replaced by the sucrose-inducible promoter PsacB. Whereas this mutant strain could grow in the absence of inducer in LB medium, it stopped growth immediately after addition of 1.1 M NaCl. We conclude that an increased amount of FtsH protein is essential for B. subtilis to cope with an increase in osmolarity or temperature.
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PMID:The ftsH gene of Bacillus subtilis is transiently induced after osmotic and temperature upshift. 760 85

A 5-kDa polypeptide, pseudothionin Solanum tuberosum 1 (Pth-St1), which was active against Clavibacter michiganensis subspecies sepedonicus, a bacterial pathogen of potatoes, has been purified from the buffer-insoluble fraction of potato tubers by salt extraction and HPCL. Pth-St1 was also active against other potato pathogens tested (Pseudomonas solanacearum and Fusarium solani). The N-terminal amino acid sequence of this peptide was identical (except for a N/H substitution at position 2) to that deduced from a previously reported cDNA sequence (EMBL accession number X-13180), which had been misclassified as a Browman-Birk protease inhibitor. Pth-St1 did not inhibit either trypsin or insect alpha-amylase activities, and, in contrast with true thionins, did not affect cell-free protein synthesis or beta-glucuronidase activity. Northern-blot and tissue-print analyses showed that steady-state mRNA levels were highest in flowers (especially in petals), followed by tubers (especially in the epidermal cell layers and in leaf primordia), stems and leaves. Infection of leaves with a bacterial pathogen suspended in 10 mM MgCl2 switched off the gene, whereas mock inoculation with 10 mM MgCl2 alone induced higher mRNA levels.
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PMID:Pseudothionin-St1, a potato peptide active against potato pathogens. 803 86

D-Glucaro(1,4)lactone, a potent beta-glucuronidase inhibitor was attached via the carboxylic acid moiety to polyvinylbenzyl chloride (PVBC) using a bimolecular nucleophilic displacement reaction. First, the caesium salt of D-glucaro(1,4)lactone was prepared by titrating the carboxylic acid to neutrality with aqueous caesium bicarbonate. The polyvinylbenzyl D-glucaro(1,4)lactonate was obtained in maximum yields of between 50 and 60% when caesium D-glucaro(1,4)lactonate was incubated with PVBC in DMF at 50 degrees C for 7 d in the presence of a catalyst, caesium iodide.
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PMID:Selective inhibition of gastrointestinal beta-glucuronidase by polyvinylbenzyl D-glucaro(1,4)lactonate: attachment of D-glucaro(1,4)lactone to polyvinylbenzyl chloride. 809 20

An Arabidopsis cDNA (Atmyb2) that contains a sequence that encodes a transcription factor, which is a homolog of MYB, was cloned from a cDNA library prepared from dehydrated Arabidopsis rosette plants. A gene (Atmyb2) corresponding to the Atmyb2 cDNA was also cloned and its nucleotide sequence was determined. RNA gel blot analysis showed that the Atmyb2 mRNA was induced by dehydration and disappeared upon rehydration. The Atmyb2 mRNA also accumulated upon salt stress and with the onset of treatment with abscisic acid. A beta-glucuronidase reporter gene driven by the Atmyb2 promoter was induced by dehydration and salt stress in transgenic Arabidopsis plants. These observations indicate that Atmyb2 is responsive to dehydration at the transcriptional level. The putative protein (ATMYB2) encoded by Atmyb2 has 274 amino acids, a molecular mass of 32 kD, and a putative DNA binding domain that shows considerable homology to plant MYB-related proteins, such as maize C1. A fusion protein that included ATMYB2 was expressed in Escherichia coli, and it bound specifically to oligonucleotides that contained a consensus MYB recognition sequence (TAACTG), such as is found in the simian virus 40 enhancer and the maize bronze-1 promoter. Binding was sequence specific, as indicated by a gel mobility shift experiment. These results suggest that a MYB-related transcription factor is involved in the regulation of genes that are responsive to water stress in Arabidopsis.
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PMID:An Arabidopsis myb homolog is induced by dehydration stress and its gene product binds to the conserved MYB recognition sequence. 831 38

We characterized the expression of genes that correspond to a cDNA clone, RD29, which is induced by desiccation, cold and high-salt conditions in Arabidopsis thaliana. Northern analysis of desiccation-induced expression revealed a two-step induction process. Early induction occurs within 20 min and secondary induction occurs 3 h after the start of desiccation. Exogenous abscisic acid (ABA) induces RD29 mRNA within 3 h. Two genes corresponding to RD29, rd29A and rd29B, are located in tandem in an 8 kb region of the Arabidopsis genome and encode hydrophilic proteins. Desiccation induces rd29A mRNA with two-step kinetics, while rd29B is induced only 3 h after the start of desiccation. The expression of both genes is stimulated about 3 h after application of ABA. It appears that rd29A has at least two cis-acting elements, one involved in the ABA-associated response to desiccation and the other induced by changes in osmotic potential. The beta-glucuronidase (GUS) reporter gene driven by the rd29A promoter was induced at significant levels by desiccation, cold, high-salt conditions and ABA in both transgenic Arabidopsis and tobacco. Histochemical analysis of GUS activity revealed that the rd29A promoter functions in almost all the organs and tissues of vegetative plants during water deficiency.
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PMID:Characterization of the expression of a desiccation-responsive rd29 gene of Arabidopsis thaliana and analysis of its promoter in transgenic plants. 843 77

The 5' flanking region of a salt-stress-inducible, CAM-specific phosphoenolpyruvate carboxylase (PEPC) gene from the facultative halophyte Mesembryanthemum crystallinum, was fused to the beta-glucuronidase (GUS) reporter gene and introduced into Nicotiana tabacum SR1. The Ppc1 promoter displayed high levels of expression in transgenic tobacco quantitatively and qualitatively similar to a full-length 35S CaMV-GUS construct. Histochemical assays revealed that the full-length Ppc1-GUS fusions expressed GUS activity in all tissues except in root tips. While tobacco is capable of utilizing the Ppc1 cis-acting regulatory regions from M. crystallinum to yield high levels of constitutive expression, this glycophyte fails to direct a stress-inducible pattern of gene expression typical of this promoter in its native, facultative halophytic host.
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PMID:Expression of a phosphoenolpyruvate carboxylase promoter from Mesembryanthemum crystallinum is not salt-inducible in mature transgenic tobacco. 844 49

The 1,3-diethyl-2-thiobarbituric acid (DETBA) assay for nicotine metabolites has been improved so that it can be used to determine the concentrations of nicotine and up to 12 metabolites in the urine of humans and laboratory animals, including phase 2 metabolites. The products of beta-glucuronidase cleavage found in human urine were mainly trans-3'-hydroxycotinine, cotinine, and a small amount of nicotine. Following isolation, spectroscopic analyses showed the structure of the nicotine DETBA derivative to be the one-to-one ring-opening product of DEBTA and the cyanopyridinium salt of nicotine.
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PMID:High-performance liquid chromatographic determination of nicotine and its urinary metabolites via their 1,3-diethyl-2-thiobarbituric acid derivatives. 845 8

The granulocyte is an interesting model for studying the behavior of fragile cells at low temperature. A previous study suggested that during slow freezing the plasma membrane was not the primary site of injury and, as a corollary to this, we examined the damage occurring in the cytoplasmic compartment. The present study was designed to investigate the role of granules during cryoinjury of the granulocytes. Granulocytes were prepared from fresh blood and a population of granules was extracted by nitrogen cavitation. A graded freeze-thaw protocol was used to follow the release of beta-glucuronidase (beta-Glu), one of the hydrolytic enzymes present in granules. Granulocytes and granules were subjected to treatments simulating slow freezing conditions, and the release of beta-Glu was evaluated after exposure to increased hydrolytic enzymes and hypertonic salt concentration. It was found that, after thawing, granulocytes generally expressed more release than granules during graded freezing. The postthaw incubation period had no effect on enzyme release. Increase in salt concentration reduces beta-Glu activity. Direct exposure to hydrolytic enzymes produced similar injury on both granules and granulocytes, and salt combined with enzymes did not increase granule disruption. It is concluded that the effect of injured granules may be more apparent during rewarming when isotonicity is reestablished. Enzymes released extracellularly induce no extra injury to the granulocyte because of dilution effect; however, their release in the cytosol can cause a defect resulting in the loss of cell viability but no membrane disruption. Overall, the release of enzymes is seen as a secondary factor contributing to whole cell or membrane damage during slow freezing.
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PMID:Freezing injury of granulocytes during slow cooling: role of the granules. 876 47

We have isolated a genomic clone encoding tomato TAS14, a dehydrin that accumulates in response to mannitol, NaCl or abscisic acid (ABA) treatment. A fragment of tas14 gene containing the region from -2591 to +162 fused to beta-glucuronidase gene drives ABA- and osmotic stress-induced GUS expression in transgenic tobacco. Histochemical analysis of salt-, mannitol- and ABA-treated plants showed GUS activity mainly localized to vascular tissues, outer cortex and adventitious root meristems, coinciding with the previously observed distribution of TAS14 protein in salt-stressed tomato plants. In addition, GUS activity was also observed in guard cells, trichomes and leaf axils. Developmentally regulated gus expression was studied in unstressed plants and found to occur not only in embryos, but also in flowers and pollen. Tas14 expression in floral organs was confirmed by northern blots of tomato flowers.
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PMID:Structure of the dehydrin tas14 gene of tomato and its developmental and environmental regulation in transgenic tobacco. 898 Apr 94

An Agrobacterium-mediated gene transfer method for production of transgenic melon plants has been optimized. The HAL1 gene, an halotolerance gene isolated from yeast, was inserted in a chimaeric construct and joined to two marker genes: a selectable-neomycin phosphotransferase-II (nptII)-, and a reporter-beta-glucuronidase (gus)-. The entire construct was introduced into commercial cultivars of melon. Transformants were selected for their ability to grow on media containing kanamycin. Transformation was confirmed by GUS assays, PCR analysis and Southern hybridization. Transformation efficiency depended on the cultivar, selection scheme used and the induction of vir-genes by the addition of acetosyringone during the cocultivation period. The highest transformation frequency, 3% of the total number of explants cocultivated, was obtained with cotyledonary explants of cv. 'Pharo'. Although at a lower frequency (1.3%), we have also succeeded in the transformation of leaf explants. A loss of genetic material was detected in some plants, and results are in accordance with the directional model of T-DNA transfer. In vitro cultured shoots from transgenic populations carrying the HAL1 gene were evaluated for salt tolerance on shoot growth medium containing 10 gl-1 NaCl. Although root and vegetative growth were reduced, transgenic HAL1-positive plants consistently showed a higher level of tolerance than control HAL1-negative plants.
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PMID:Transfer of the yeast salt tolerance gene HAL1 to Cucumis melo L. cultivars and in vitro evaluation of salt tolerance. 903 77

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