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)

Melanomas exhibiting mutated ras genes are frequently invasive and amelanotic. Transfecting melanocytes with ras oncogenes causes transformation and a loss of visible pigmentation. We analyzed murine melanocytes rendered amelanotic by transfection with the v-rasHa oncogene. Consistent with previous reports, tyrosinase and tyrosinase-related protein-1 (TRP-1) were not expressed by transformed cells. In addition, lack of expression of TRP-2 and the product of the silver locus was documented. Levels of melanosomal matrix antigens, the pink-eyed dilution locus protein and lysosome-associated membrane protein-1 were markedly reduced. Residual matrix antigens were localized by immunofluorescence to large vacuoles distributed peri-nuclearly in transfected cells. Electron microscopy demonstrated the absence of typical melanosomes and the presence of large vacuolar structures, also in a peri-nuclear distribution. Although levels of lysosomal hydrolases, such as beta-glucuronidase and cathepsin D, were diminished, marked elevations were observed in the expression of cathepsins B and L, 2 thiol proteases implicated in the acquisition of invasiveness. Our data demonstrate that transfection of melanocytes with v-rasHa is sufficient to disrupt the biogenesis of melanosomes and to up-regulate thiol protease synthesis, providing insights into the amelanotic and invasive nature of melanomas exhibiting mutations in ras genes.
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PMID:Melanosomal and lysosomal alterations in murine melanocytes following transfection with the v-rasHa oncogene. 863 74

Neutrophils contain several populations of secretory granules with characteristic sets of proteins. Granule proteins are sorted into their respective granule types by temporal regulation of their expression during cell differentiation and/or by specific targeting signals. We investigated the expression of some granule proteins in human promyelocytic NB4 cells. Like other myeloid cell lines which can be differentiated into neutrophils, NB4 cells lack the specific-granule population. We report here that, nevertheless, they express the specific-granule matrix protein lactoferrin, when differentiated with retinoic acid. Lactoferrin and the azurophil-granule protein beta-glucuronidase were simultaneously expressed, whereas myeloperoxidase expression had stopped, showing that azurophil-granule proteins are not all produced concomitantly. Cell fractionation by Percoll gradient revealed that while beta-glucuronidase co-fractionated with myeloperoxidase, lactoferrin was mostly contained in a vesicular compartment free of markers for azurophil granules, plasma membrane, and Golgi. This vesicular compartment was not implicated in regulated exocytosis since it was not mobilized by secretagogues, which, in parallel, induced the release of myeloperoxidase. Furthermore, the specific granule-membrane protein cytochrome b558 also became expressed during NB4-cell differentiation. However, it did not co-localize with lactoferrin but was present in the plasma-membrane fraction. Therefore, differentiation of NB4 cells with retinoic acid leads to the expression of specific- and azurophil-granule proteins and provides a unique cell line model to study the mechanisms involved in the sorting of azurophil- and specific-granule proteins.
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PMID:Expression of azurophil and specific granule proteins during differentiation of NB4 cells in neutrophils. 952 79

klotho mutant mice provide a unique model to analyze mechanisms of aging because their phenotypes resemble those of human aging-associated disorders. The klotho gene encodes Klotho, a type I membrane protein that shares sequence similarity with members of the glycosidase family 1. Because Klotho lacks the glutamic acid residues that have been shown to be involved in the catalytic activity of this family of enzymes, the function of this protein was unknown. Here, we have studied the biochemical characteristics of recombinant Klotho. The purified chimeric Klotho-human IgG1 Fc protein (KLFc) was assayed with a series of 4-methylumbelliferyl (4Mu) beta-glycosides as potential substrates. An enzymatic activity of Klotho was observed only with 4-methylumbelliferyl beta-D-glucuronide in contrast to bovine liver beta-glucuronidase, which exhibits a rather wide substrate specificity. Furthermore, the enzymatic activity of KLFc was reduced by the addition of specific inhibitors of beta-glucuronidase. A number of natural beta-glucuronides were screened by competitive inhibition for KLFc beta-glucuronidase. We found that steroid beta-glucuronides such as beta-estradiol 3-beta-D-glucuronide, estrone 3-beta-D-glucuronide, and estriol 3beta-D-glucuronide were hydrolyzed by KLFc. The artificial fluorescent substrate and the steroid conjugates share a common phenolic structure. Collectively, these data suggest that Klotho functions as a novel beta-glucuronidase and that steroid beta-glucuronides are potential candidates for the natural substrate(s) of Klotho.
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PMID:Klotho is a novel beta-glucuronidase capable of hydrolyzing steroid beta-glucuronides. 1470 53

A tripartite resistance-nodulation-cell division (RND) transporter system, called the PseABC efflux system, was identified at the left border of the syr-syp genomic island of Pseudomonas syringae pv. syringae strain B301D. The PseABC efflux system was located within a 5.7-kb operon that encodes an outer membrane protein (PseA), a periplasmic membrane fusion protein (PseB), and an RND-type cytoplasmic membrane protein (PseC). The PseABC efflux system exhibited amino acid homology to a putative RND efflux system of Ralstonia solanacearum, with identities of 48% for PseA, 51% for PseB, and 61% for PseC. A nonpolar mutation within the pseC gene was generated by nptII insertional mutagenesis. The resultant mutant strain showed a larger reduction in syringopeptin secretion (67%) than in syringomycin secretion (41%) compared to parental strain B301D (P < 0.05). A beta-glucuronidase assay with a pseA::uidA reporter construct indicated that the GacS/GacA two-component system controls expression of the pseA gene. Quantitative real-time reverse transcription-PCR was used to determine transcript levels of the syringomycin (syrB1) and syringopeptin (sypA) synthetase genes in strain B301D-HK4 (a pseC mutant). The expression of the sypA gene by mutant strain B301D-HK4 corresponded to approximately 13% of that by parental strain B301D, whereas the syrB1 gene expression by mutant strain B301D-HK4 was nearly 61% (P < 0.05). In addition, the virulence of mutant strain B301D-HK4 for immature cherry fruits was reduced by about 58% compared to parental strain B301D (P < 0.05). Although the resistance of mutant strain B301D-HK4 to any antibiotic used in this study was not reduced compared to parental strain B301D, a drug-supersensitive acrB mutant of Escherichia coli showed two- to fourfold-increased resistance to acriflavine, erythromycin, and tetracycline upon heterologous expression of the pseA, pseB, and pseC genes (pseABC efflux genes). The PseABC efflux system is the first RND transporter system described for P. syringae, and it has an important role in secretion of syringomycin and syringopeptin.
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PMID:Characterization of a resistance-nodulation-cell division transporter system associated with the syr-syp genomic island of Pseudomonas syringae pv. syringae. 1615 Oct 87

klotho mutant mice were originally described as a short-lived mouse model with premature aging-like disorders. The klotho gene responsible for these phenotypes encodes a type I membrane protein with a considerable similarity to beta-glycosidase. klotho is predominantly expressed in tissues functioning in the regulation of calcium homeostasis. Suggested functions of Klotho are (i) a fundamental regulator of calcium homeostasis, namely, a cofactor for the fibroblast growth factor (FGF) receptor 1c in FGF23 signaling and a regulator of parathyroid hormone secretion; (ii) a hormone that interferes with the intracellular signaling of insulin and insulin-like growth factor-1; and (iii) a beta-glucuronidase that activates the transient receptor potential ion channel TRPV5 by trimming its sugar moiety. How can we reconcile these pleiotropic functions of Klotho? Is there any common mechanism? Further in vivo studies, and biochemical as well as physiological analyses, are required for a better understanding of the molecular aspects of Klotho.
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PMID:Toward a better understanding of Klotho. 1667 27

Ethylene is an important plant growth regulator perceived by membrane-bound ethylene receptors. The ETR1 ethylene receptor is positively regulated by a predicted membrane protein, RTE1, based on genetic studies in Arabidopsis. RTE1 homologs exist in plants, animals and protists, but the molecular function of RTE1 is unknown. Here, we examine RTE1 expression and subcellular protein localization in order to gain a better understanding of RTE1 and its function in relation to ETR1. Arabidopsis plants transformed with the RTE1 promoter fused to the beta-glucuronidase (GUS) reporter gene revealed that RTE1 expression partly correlates with previously described sites of ETR1 expression or sites of ethylene response, such as the seedling root, root hairs and apical hook. RTE1 transcript levels are also enhanced by ethylene treatment, and reduced by the inhibition of ethylene signaling. For subcellular localization of RTE1, a functional RTE1 fusion to red fluorescent protein (RFP) was expressed under the control of the native RTE1 promoter. Using fluorescence microscopy, RTE1 was observed primarily at the Golgi apparatus and partially at the endoplasmic reticulum (ER) in stably transformed Arabidopsis protoplasts, roots and root hairs. Next, a functional ETR1 fusion to a 5xMyc epitope tag was expressed under the control of the native ETR1 promoter. Immunohistochemistry of root hairs not only showed ETR1 residing at the ER as previously reported, but revealed substantial localization of ETR1 at the Golgi apparatus. Lastly, we demonstrated the subcellular co-localization of RTE1 and ETR1. These findings support and enhance the genetic model that RTE1 plays a role in regulating ETR1.
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PMID:Subcellular co-localization of Arabidopsis RTE1 and ETR1 supports a regulatory role for RTE1 in ETR1 ethylene signaling. 1799 43

The promoter of the pepper pathogen-induced membrane protein gene CaPIMP1 was analyzed by an Agrobacterium-mediated transient expression assay in tobacco leaves. Several stress-related cis-acting elements (GT-1, W-box and ABRE) are located within the CaPIMP1 promoter. In tobacco leaf tissues transiently transformed with a CaPIMP1 promoter-beta-glucuronidase (GUS) gene fusion, serially 5'-deleted CaPIMP1 promoters were differentially activated by Pseudomonas syringae pv. tabaci, ethylene, methyl jasmonate, abscisic acid, and nitric oxide. The -1,193 bp region of the CaPIMP1 gene promoter sequence exhibited full promoter activity. The -417- and -593 bp promoter regions were sufficient for GUS gene activation by ethylene and methyl jasmonate treatments, respectively. However, CaPIMP1 promoter sequences longer than -793 bp were required for promoter activation by abscisic acid and sodium nitroprusside treatments. CaPIMP1 expression was activated in pepper leaves by treatment with ethylene, methyl jasmonate, abscisic acid, beta-amino-n-butyric acid, NaCl, mechanical wounding, and low temperature, but not with salicylic acid. Overexpression of CaPIMP1 in Arabidopsis conferred hypersensitivity to mannitol, NaCl, and ABA during seed germination but not during seedling development. In contrast, transgenic plants overexpressing CaPIMP1 exhibited enhanced tolerance to oxidative stress induced by methyl viologen during germination and early seedling stages. These results suggest that CaPIMP1 expression may alter responsiveness to environmental stress, as well as to pathogen infection.
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PMID:The promoter of the pepper pathogen-induced membrane protein gene CaPIMP1 mediates environmental stress responses in plants. 1893 63

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