Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.2.1.23 (beta-galactosidase)
 14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The use of copper, zinc, iron, nickel and calcium in three different chelating gels was investigated for preparing immobilized beta-galactosidase. The chelated ligands [Cu(2+)-iminodiacetate (IDA), Cu(2+)-Tris(carboxymethyl)ethylenediamine (TED), Ni(2+)-IDA and Fe(3+)-IDA] absorbed the protein so strongly that it can be considered a true immobilization. The obtained enzyme derivatives were investigated with regard to activity and stability. Enzymic activity was highly preserved in general for the TED derivates (90% when compared with that for Cu(2+)-TED). The immobilized Ni2+ derivatives were more stable to high temperature and to storage than the Cu2+ derivatives. Temperature-stability of the immobilized enzyme was very much improved by adding a strong metal-chelating gel such as carboxymethylated tetraethylenepentamine-agarose. The gel could be re-used and reloaded after elution with chelator. beta-Galactosidase from Escherichia coli was purified using immobilized-metal-ion-chelate chromatography (i.m.a.c.). The potential use of beta-galactosidase immobilized on i.m.a.c. gels for technical purposes is discussed.
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PMID:Immobilization of beta-galactosidase on metal-chelate-substituted gels. 819 68

Specific induction of the copper resistance operon (cop) promoter from Pseudomonas syringae was measured by beta-galactosidase production from a cop promoter-lacZ fusion. Induction of the cop promoter in P. syringae pv. syringae required trans-acting factors from copper resistance plasmid pPT23D, from which cop was originally cloned. Tn5 mutagenesis of pPT23D was used to localize two complementation groups immediately downstream from copABCD. Cloning and sequencing of the DNA in this region revealed two genes, copR and copS, expressed in the same orientation as the cop operon but from a separate constitutive promoter. The amino acid sequence deduced from these genes showed distinct similarities to known two-component regulatory systems, including PhoB-PhoR and OmpR-EnvZ. In addition, CopR showed strong similarity to copper resistance activator protein PcoR from Escherichia coli. Functional chromosomal homologs to copRS activated the cop promoter, in a copper-inducible manner, in copper-resistant or -sensitive strains of P. syringae pv. tomato and other Pseudomonas species. This implies that copper-inducible gene regulation is associated with a common chromosomally encoded function, as well as plasmid-borne copper resistance, in Pseudomonas spp.
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PMID:A two-component regulatory system required for copper-inducible expression of the copper resistance operon of Pseudomonas syringae. 844 73

The AMT1 metalloregulatory trans-acting factor from Candida glabrata was found to functionally mimic the ACE1 metalloregulatory trans-acting factor from Saccharomyces cerevisiae in the copper-induced expression of the chromosomal S. cerevisiae metallothionein gene. Plasmid constructs with promoters of various metal-inducible genes fused to the bacterial beta-galactosidase (lacZ) reporter gene were used in S. cerevisiae to evaluate the roles of ACE1 and AMT1 in mediating metal-stimulated expression. Promoters from the S. cerevisiae CUP1 gene and Cu,Zn-superoxide dismutase (SOD1) and from the C. glabrata MT genes MTI, MTIIa, and MTIIb were used. The ACE1 factor was effective in the metalloregulation of the two S. cerevisiae promoters, CUP1 and SOD1, but of only one C. glabrata promoter, MTI. AMT1 was found to be effective in the metalloregulation of all three C. glabrata MT promoters and the two S. cerevisiae promoters tested. The regulation mediated by both ACE1 and AMT1 was copper-dependent and copper-specific. Episomally expressed SWI5, a distinct trans-acting factor of S. cerevisiae, enhanced only the basal expression from promoters. The SWI5 enhancement was not metal dependent. In conclusion, AMT1 and ACE1 are functionally homologous in metal-specific regulation, AMT1 appears to be more promiscuous than ACE1 in this function.
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PMID:Regulation of metallothionein genes by the ACE1 and AMT1 transcription factors. 850 91

Twenty N-terminal point mutations of the human estrogen receptor (hER) were constructed as ubiquitin fusion products and expressed under the control of the copper regulated promoter CUP1 in Saccharomyces cerevisiae. The objective of these studies was to overexpress hER in yeast and also to evaluate the functional properties of the N-terminal variants of hER. Fusion of the C-terminus of ubiquitin to the N-terminus of other proteins has been shown to increase the level of protein expression in yeast. Ubiquitin C-terminal hydrolases (UCHs) in yeast efficiently and precisely cleave at the junction with ubiquitin and render free hER with desired amino termini. The variant hER proteins, that were generated by mutating the N-terminus of hER, showed enormous differences in receptor protein levels and transactivation potential. All variant hER proteins were synthesized as 66 kDa species as identified by Western blotting with the exception of the proline-containing variant (Pro-ER). The UB-Pro-ER variant was cleaved inefficiently by UCHs in yeast. The UB-Pro-hER [correction of UB-Pro-hEr] variant also exhibited a different DNA band-shift profile compared to those of the other receptor variants and the wild-type. Val-, Thr-, and Lys-ER did not express, as measured by enzyme-immunoassay and Western blotting; nor did they transactivate a beta-galactosidase reporter gene in yeast. However, the Glu-ER was 50% more active in transactivation as compared to the wild-type. The results of the receptor content, DNA binding properties and transactivation analysis in yeast demonstrate that the N-terminal residue plays an important role in the structure and function of hER.
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PMID:Structural and functional analysis of N-terminal point mutants of the human estrogen receptor. 863 65

The marine Bacillus sp. strain SG-1 forms spores that oxidize manganese(II) as a result of the activities of uncharacterized components of its spore coat. Nucleotide sequence analysis of chromosomal loci previously identified through insertion mutagenesis as being involved in manganese oxidation identified seven possible genes (designated mnxA to mnxG) in what appears to be an operon. A potential recognition site for the sporulation, mother-cell-specific, RNA polymerase sigma factor, sigmaK, was located just upstream of the cluster, and correspondingly, measurement of beta-galactosidase activity from a Tn917-lacZ insertion in mnxD showed expression at mid-sporulation to late sporulation (approximately stage IV to V of sporulation). Spores of nonoxidizing mutants appeared unaffected with respect to their temperature and chemical resistance properties and germination characteristics. However, transmission electron microscopy revealed alterations in the outermost spore coat. This suggests that products of these genes may be involved in the deposition of the spore coat structure and/or are spore coat proteins themselves. Regions of the deduced protein product of mnxG showed amino acid sequence similarity to the family of multicopper oxidases, a diverse group of proteins that use multiple copper ions to oxidize a variety of substrates. Similar regions included those that are involved in binding of copper, and the addition of copper at a low concentration was found to enhance manganese oxidation by the spores. This suggests that the product of this gene may function like a copper oxidase and that it may be directly responsible for the oxidation of manganese by the spores.
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PMID:Identification and characterization of a gene cluster involved in manganese oxidation by spores of the marine Bacillus sp. strain SG-1. 865 49

A Tn917 transposon derivative was used to construct a lacZ transcriptional fusion mutant in Listeria monocytogenes DRDC8 that displayed increased beta-galactosidase activity in response to cation stress. A 4.3 kb fragment of L. monocytogenes chromosomal DNA flanking the lacZ fusion was cloned and sequenced. A 1962 bp open reading frame was identified, and designated ctpA. Analysis of the deduced 653 amino acid sequence revealed significant similarity to the family of ATP-dependent enzymes involved in copper transport in prokaryotes and eukaryotes. CtpA is distinctive by virtue of an N-terminal truncation in the domain responsible for cation binding. Growth of ctpA insertion mutants was restricted by the copper-chelating agent 8-hydroxyquinoline. DNA/RNA hybridisation studies revealed that levels of ctpA mRNA were increased following growth in media containing low and high copper concentrations. These results suggest the isolation of a region of DNA that encodes a novel copper-transporting system in L. monocytogenes.
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PMID:The Listeria monocytogenes gene ctpA encodes a putative P-type ATPase involved in copper transport. 903 9

Several lines of evidence suggest that the cellular enzyme 15 lipoxygenase (15-LO) may be important in promoting the oxidation of lipoproteins in vivo. In previous studies we have shown that fibroblasts transfected with 15-LO "seed" LDL with lipoperoxides such that subsequent oxidation readily generates an LDL that is taken up by macrophages through scavenger receptors. We now demonstrate that LDL incubated with 15-LO cells is "minimally modified" and has bioactive properties. Characterization of LDL incubated with 15-LO cells reveals that lipid peroxidation is modest, with low levels of TBARS generated (12.6 +/- 4.7 nmole MDA per mg protein) and small amounts of 18:2 lost as a result of oxidation (7%, compared with extensive loss [82%] with copper oxidation). The 15-LO-conditioned LDL showed mildly increased electrophoretic mobility on agarose gels, and on polyacrylamide gels it showed only mild protein degradation compared with copper-oxidized LDL. Additionally 15-LO-conditioned LDL competed very well for the LDL receptor of fibroblasts but did not compete for macrophage uptake of 125I-acetylated LDL. Importantly, compared with LDL incubated on beta-galactosidase (lac Z)-transfected control cells, LDL incubated on 15-LO cells stimulated monocyte chemotaxis (15-LO-LDL, 6.9 +/- 1.2 monocytes per field versus lac Z-LDL, 0 +/- 0.9 monocytes per field) and when added to endothelial cells enhanced adhesion (15-LO-LDL, 31.1 +/- 5.0 monocytes per field versus lac Z-LDL, 0 +/- 2.0 monocytes per field). Preincubation of 15-LO cells with 15-LO inhibitors significantly inhibited the generation of bioactive LDL. Lipid extracts of LDL conditioned on 15-LO cells showed chemotactic activity not related to lysophosphatidylcholine levels. Preincubation of target endothelial cells with several different platelet-activating factor receptor antagonists prevented stimulation of monocyte adhesion by 15-LO-conditioned LDL. When probucol- or vitamin E-enriched LDL was incubated with 15-LO cells it was less oxidized and less bioactive, which suggests that these cells seed LDL with LOOH, which then requires further propagation of lipid peroxidation to yield bioactivity. These studies demonstrate that fibroblasts expressing 15-LO reliably produce a bioactive "minimally modified" LDL, which may explain in part how cellular 15-LO activity may generate atherogenic LDL in vivo.
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PMID:Fibroblasts that overexpress 15-lipoxygenase generate bioactive and minimally modified LDL. 943 16

The slowpoke gene of Drosophila encodes a pore-forming subunit of a BK-type Ca(2+)-activated K+ channel. The gene is expressed in neurons, muscles, tracheal cells and in the midgut. The P1 transgene gene contains the entire slowpoke transcriptional control region and drives the expression of a reporter protein comprised of slowpoke amino terminal sequences fused to beta-galactosidase. Here we show that midgut expression is limited to the copper cell and iron cell regions. The copper cell region is composed of two cell types, the copper cells and the interstitial cells. The P1 transgene is expressed in the interstitial cells but not the copper cells. Furthermore, we show that the reporter protein is apically localized in the interstitial cells. In these cells, the slowpoke Ca(2+)-activated K+ channel is thought to participate in the transport of ions between the hemolymph and the lumen of the gut. Subcellularly localized BK channels may be involved in the secretion of acid into the gut lumen. An analogous role for basolaterally localized BK channels has been proposed in the acid-secreting intercalating cells of the human kidney.
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PMID:Calcium-activated potassium channel gene expression in the midgut of Drosophila. 944 Feb 34

The yeast Saccharomyces cerevisiae contains a flavohemoglobin, encoded by the gene YHB1, whose function is unclear. Previous reports presented evidence that its maximal expression requires disruption of mitochondrial respiration and that it plays a role in the response to oxidative stress. We have studied the expression of YHB1 in respiratory deficient cells and in cells exposed to various compounds causing oxidative stress. Several different strains and approaches (spectroscopic detection of the oxygenated form of Yhb1p, beta-galactosidase activity of a YHB1-lacZ fusion, and Northern blot analysis) were used to demonstrate that YHB1 expression and Yhb1p production are not increased by respiration deficiency. YHB1 expression was unchanged in cells challenged with antimycin A or menadione, while it decreased in cells exposed to H2O2, diamide, dithiothreitol, and Cu2+. Transcription of YHB1 is not under the control of the transcriptional factor Yap1p. These results do not support a participation of YHB1 in the genetic response to oxidative stress. We also analyzed the growth phenotypes associated with altered Yhb1p production using YHB1-deleted strains and strains that greatly overproduced Yhb1p. Yhb1p appears to protect cells against the damage caused by Cu2+ and dithiothreitol, while sensitizing them to H2O2. Yhb1p overproduction in a glucose-6-phosphate dehydrogenase-deficient mutant decreased its growth rate. These data indicate that there is a complex relationship(s) between Yhb1p function(s) and cell defense reactions against various stresses.
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PMID:Flavohemoglobin expression and function in Saccharomyces cerevisiae. No relationship with respiration and complex response to oxidative stress. 954 81

Transgenic nematodes (Caenorhabditis elegans strain PC72), carrying a stress-inducible reporter gene (Escherichia coli beta-galactosidase) under the control of a C. elegans hsp16 heat-shock promoter, have been used to monitor toxicant responses both in water and soil. Because these transgenic nematodes respond both to heat and toxic chemicals by synthesising an easily detectable reporter product, they afford a useful preliminary screen for stress responses (whether thermal or non-thermal) induced by microwave radiation or other electromagnetic fields. We have used a transverse electromagnetic (TEM) cell fed from one end by a source and terminated at the other end by a matched load. Most studies were conducted using a frequency of 750 MHz, at a nominal power setting of 27 dBm. The TEM cell was held in an incubator at 25 degrees C inside a shielded room; corresponding controls were shielded and placed in the same 25 degrees C incubator; additional baseline controls were held at 15 degrees C (worm growth temperature). Stress responses were measured in terms of beta-galactosidase (reporter) induction above control levels. The time-course of response to continuous microwave radiation showed significant differences from 25 degrees C controls both at 2 and 16 h, but not at 4 or 8 h. Using a 5 x 5 multiwell plate array exposed for 2 h, the 25 microwaved samples showed highly significant responses compared with a similar control array. The wells most strongly affected were those in the rows closest to the source, whereas the most distant row did not rise above control levels, suggesting a shadow effect. These differential responses are difficult to reconcile with general heating effects, although localised power absorption affords a possible explanation. Experiments in which the frequency and/or power settings were varied suggested a greater response at 21 than at 27 dBm, both at 750 and 300 MHz, although extremely variable responses were observed at 24 dBm and 750 MHz. Thus, lower power levels tended, if anything, to induce larger responses (with the above-mentioned exception), which is opposite to the trend anticipated for any simple heating effect. These results are reproducible and data acquisition is both rapid and simple. The evidence accrued to date suggests that microwave radiation causes measurable stress to transgenic nematodes, presumably reflecting increased levels of protein damage within cells (the common signal thought to trigger hsp gene induction). The response levels observed are comparable to those observed with moderate concentrations (ppm) of metal ions such as Zn2+ and Cu2+. We conclude that this approach deserves further and more detailed investigation, but that it has already demonstrated clear biological effects of microwave radiation in terms of the activation of cellular stress responses (hsp gene induction).
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PMID:Transgenic nematodes as biomonitors of microwave-induced stress. 963 89


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