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 ability to regulate temporal- and spatial-specific expression of target genes in transgenic mice will facilitate analysis of gene function and enable the generation of murine models of human diseases. The genetic analysis of mammary gland tumorigenesis requires the development of mammary gland-specific transgenics, which are tightly regulated throughout the adult mammary epithelium. Analysis of genes implicated in mammary gland tumorigenesis has been hampered by mosaic transgene expression and the findings that homozygous deletion of several candidate genes (cyclin D1, Stat5A, prolactin receptor) abrogates normal mammary gland development. We describe the development of transgenic mouse lines in which sustained transgene expression was inducibly regulated, both specifically and homogeneously, in the adult mammary gland epithelium. Transgenes encoding RXRalpha and a chimeric ecdysone receptor under control of a modified MMTV-LTR, which targets mammary gland expression, were used. These transgenic 'receptor' lines were crossed with transgenic 'enhancer' lines in which the ecdysone/RXR binding site induced ligand-dependent expression of transgenic beta-galactosidase. Pharmacokinetic analysis of a highly bioactive ligand (ponasterone A), identified through screening ecdysteroids from local plants, demonstrated sustained release and transgene expression in vivo. This transgenic model with both tightly regulated and homogeneous transgene expression, which was sustained in vivo using ligands readily extracted from local flora, has broad practical applicability for genetic analysis of mammary gland disease.
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PMID:Sustained mammary gland-directed, ponasterone A-inducible expression in transgenic mice. 1078 41

Ovotransferrin antimicrobial peptide (OTAP-92) is a cationic fragment of hen ovotransferrin (OTf). OTAP-92 consists of 92 amino acid residues located within the 109-200 sequence of the N-lobe of OTf. This study was aimed to delineate the antimicrobial mechanism of OTAP-92 and to identify its interaction with bacterial membranes. OTAP-92 caused permeation of Escherichia coli outer membrane (OM) to 1-N-phenylnaphthylamine fluorescent probe in a dose-dependent manner. These results suggested that OTAP-92 crossed the bacterial OM by a self-promoted uptake. Cytoplasmic membrane of E. coli was found to be the target for OTAP-92 bactericidal activity, as assayed by the unmasking of cytoplasmic beta-galactosidase due to membrane permeabilization in a kinetic manner. Pretreatment of bacteria with uncoupler, carbonyl cyanide m-chlorophenylhydrazone, markedly enhanced permeation of cytoplasmic membrane, suggesting that the membrane permeation due to OTAP-92 is independent of the transmembrane potential. In an E. coli phospholipid liposome model, it was demonstrated that OTAP-92 has the ability to dissipate the transmembrane electrochemical potential. Intrinsic fluorescence spectra of the two tryptophan residues in OTAP-92, using liposomal membrane, have identified the lipid-binding region as a helix-sheet motif, and suggested an adjacent Ca(2+)-sensitive site within OTAP-92. These data indicated that OTAP-92 possesses a unique structural motif similar to the insect defensins. Further, this cationic antimicrobial peptide is capable of killing Gram-negative bacteria by crossing the OM by a self-promoted uptake and cause damage to the biological function of cytoplasmic membrane.
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PMID:Ovotransferrin antimicrobial peptide (OTAP-92) kills bacteria through a membrane damage mechanism. 1104 84

This study determined whether Astragalus lusitanicus inhibits glycosidase enzymes other than alpha-mannosidase. Plasma collected from lambs given fresh A lusitanicus inhibited beta-glucosidase and beta-galactosidase, indicating the presence of inhibitors in their blood. The residual activity of these enzymes was also modified in tissues of dead animals. beta-glucosidase activity was reduced in liver and kidney specimens with pronounced effects in tissues of animal that presented with prominent clinical signs of poisoning; beta-galactosidase activity was decreased by 88.5 to 95% in kidney, while that of liver remained unchanged. Fractions of the plant butanol extract inhibited the gycosidase enzymes. Chemical analysis revealed the presence of hypaphorin in the extract of A lusitanicus. As a tryptophan derivative, this alkaloid may play a role in the toxicity of this legume.
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PMID:Inhibition of glycosidases by Astragalus lusitanicus and correlation with toxicity. 1157 29

Interactions of viral proteins play an important role in the virus life cycle, especially in capsid assembly. Andean potato mottle comovirus (APMoV) is a plant RNA virus with a virion formed by two coat proteins (CP42 and CP22). Both APMoV coat protein open reading frames were cloned into pGBT9 and pGAD10, two-hybrid system vectors. HF7c yeast cells transformed with the p9CP42 construct grew on yeast dropout selection media lacking tryptophan and histidine. Clones also exhibited beta-galactosidase activity in both qualitative and quantitative assays. These results suggest that CP42 protein contains an amino acid motif able to activate transcription of His3 and lacZ reporter genes in Saccharomyces cerevisiae. Several deletions of the CP42 gene were cloned into the pGBT9 vector to locate the region involved in this activation. CP42 constructions lacking 12 residues from the C-terminal region and another one with 267 residues deleted from the N-terminus are still able to activate transcription of reporter genes. However, transcription activation was not observed with construction p9CP42deltaC57, which does not contain the last 57 amino acid residues. These results demonstrate that a transcription activation domain is present at the C-terminus of CP42 between residues 267 and 374.
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PMID:The 42-kDa coat protein of Andean potato mottle virus acts as a transcriptional activator in yeast. 1196 Jan 88

A facultatively anaerobic bacterium, designated strain COOI3B(T) (= ATCC BAA 136T = DSM 13966T), was isolated from the waters emitted by a bore well tapping the deep subterranean thermal waters of the Great Artesian Basin of Australia. The cells were straight to slightly curved rods (0.5-0.8 x 2-25 microm) that occurred singly and rarely in pairs or in chains. Strain COOI3B(T) was motile by peritrichous flagella. It stained gram-negative, but electron micrographs showed a gram-positive-type cell wall. Spores were never observed and cells were heat-sensitive. Yeast extract at 0.02% (w/v) was required for growth and could also be used as a sole carbon and energy source at concentrations higher than 0.1% (w/v). The strain utilized amorphous iron(III), manganese(IV), nitrate, nitrite and fumarate as electron acceptors in the presence of yeast extract, glucose, sucrose, fructose, maltose, xylose, starch, glycerol, ethanol or lactate. Electron acceptors were not obligately required and growth was better in the presence of nitrate than in its absence. Acid was not produced from growth on carbohydrates. Tryptophan deaminase, H2S, arginine dihydrolase, lysine decarboxylase, beta-galactosidase, arabinosidase, glucuronidase, glucosaminidase, nitroanilidase, xylosidase and ornithine decarboxylase were not produced. Starch and gelatin, but not casein, were hydrolysed. Aesculin and catalase, but not oxidase and urease, were produced. Strain COOI3B(T) grew optimally at temperatures between 37 and 40 degrees C (the temperature growth range was 25-45 degrees C) and at pH 7.0-9.0 (the pH growth range was 6.0 to 9.5) with 5% (w/v) NaCl (the NaCl concentration growth range was 0.9%, w/v). The DNA base composition was 43 +/- 1 mol % G+C. Phylogenetic analysis indicated that it was a member of the family Bacillaceae, Bacillus infernus and Bacillus firmus being the closest phylogenetic neighbours (having a mean similarity value of 96%); hence, strain COOI3B(T) is designated as a novel species, Bacillus subterraneus sp. nov.
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PMID:Bacillus subterraneus sp. nov., an iron- and manganese-reducing bacterium from a deep subsurface Australian thermal aquifer. 1205 51

To obtain silica supports for high-performance affinity chromatography, a method of preparing CNBr-activated diol-silica under anhydrous conditions was developed. Activation of the silane-derived hydroxyls with cyanogen bromide and triethylamine was optimized and demonstrated to efficiently couple several amino ligands (tryptophan, 6-aminohexyl-Cibacron Blue, and DNA). Sonication and vacuum degassing, a procedure used to remove air from the silica beads, increased activation. Coupling of an amino ligand under slightly basic conditions (pH 8.0) gave the highest yield. The linkage between the immobilized ligands and silica was stable from pH 2-10. Anhydrous acetone was the most effective solvent for activation but dimethylformamide and 2-propanol were also good choices. The high-performance affinity chromatography columns obtained by coupling sequence-specific DNA binding sequences for Lac repressor-beta-galactosidase fusion protein were compared to affinity columns obtained by coupling the same DNA element to Sepharose beads; 5 microm silica gave the best performance.
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PMID:Cyanogen bromide activation and coupling of ligands to diol-containing silica for high-performance affinity chromatography optimization of conditions. 1235 Jan 29

The tryptophan repeat motif of the human immunodeficiency virus type-1 (HIV-1) reverse transcriptase (RT) is comprised of a cluster of six tryptophan residues at codons 398, 401, 402, 406, 410 and 414 that are highly conserved amongst primate lentiviral RTs. To determine the contributions of each of these residues for HIV-1 RT dimerization, we introduced changes into cloned DNA and tested the mutant subunits for their capacity to mediate heterodimerization in the yeast two-hybrid system. Changes of residue 401 to either leucine or alanine (but not phenylalanine) and residue 414 to leucine resulted in major reductions in beta-galactosidase activity produced from the reporter gene as compared to yeast expressing wild-type p66 bait and p51 prey fusions. Subunit selective mutagenesis revealed that the effect of these mutations was mediated mainly through the p66 subunit. Introduction of tryptophan mutants into the bacterial expression vector pRT6H/NB-PROT showed that RTs containing W401A or W401L substitutions (but not W401F) and W414L were defective for dimerization in vitro. Consistent with their dimerization defect, the W401A, W401L and W414L mutants were devoid of RT activity. Using the yeast two-hybrid system, we identified several second-site suppressors in p66 that restored interaction of the p66W401A bait to the p51W401A prey. The suppressors (T409I, D110G, V372A and I393M) also restored heterodimerization of bacterially expressed W401A subunits. When introduced into the W401A mutant, T409I was able to restore RT activity to 50% of the wild-type level. Examination of the RT structures revealed that K331 in p51 makes multiple hydrogen bond contacts with residues in the p66 loop spanned by W401 and W414. Consistent with this observation, the K331A RT mutant was dimerization-defective. We conclude that mutations at codons 401 and 414 in p66 impair dimerization by altering the proper positioning of structural elements in between these residues that make important contacts with p51.
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PMID:Role of residues in the tryptophan repeat motif for HIV-1 reverse transcriptase dimerization. 1255 8

The ability of selected phthalocyanines and metallophthalocyanines to block HIV infection has been evaluated in an epithelial HeLa-CD4 cell line with an integrated LTR-beta-galactosidase gene. Sulfonated phthalocyanine itself (PcS), as well as its copper, nickel, and vanadyl chelates, were the most effective in blocking viral infection. These compounds were also very effective in blocking the fusion activity of the viral Env proteins. All of these compounds are expected to bind axial ligands weakly or not at all. In contrast, sulfonated phthalocyanines bearing metals expected to bind axial ligands more tightly (aluminum, cobalt, chromium, iron, silicon, and zinc) were less effective in blocking HIV infection and also less effective at inhibiting fusion. A number of active compounds were found to block binding of gp120 to CD4. Selected cationic and carboxy phthalocyanines, as well as porphyrazines, were also evaluated. Our results indicate that at least some of the compounds render the virus noninfectious, i.e. that they are virucidal. These compounds have potential as microbicides that might be used to provide protection against sexually transmitted HIV.
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PMID:Prevention of HIV-1 infection by phthalocyanines. 1289 93

In this study, the taxonomic positions of 19 Vibrio isolates disclosed in a previous study were evaluated. Phylogenetic analysis based on 16S rDNA sequences partitioned these isolates into groups that were closely related (98.8-99.1 % similarity) to Vibrio pelagius and Vibrio xuii, respectively. DNA-DNA hybridization experiments further showed that these groups had <70 % similarity to other Vibrio species. Two novel Vibrio species are proposed to accommodate these groups: Vibrio fortis sp. nov. (type strain, LMG 21557(T)=CAIM 629(T)) and Vibrio hepatarius sp. nov. (type strain, LMG 20362(T)=CAIM 693(T)). The DNA G+C content of both novel species is 45.6 mol%. Useful phenotypic features for discriminating V. fortis and V. hepatarius from other Vibrio species include production of indole and acetoin, utilization of cellobiose, fermentation of amygdalin, melibiose and mannitol, beta-galactosidase and tryptophan deaminase activities and fatty acid composition.
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PMID:Vibrio fortis sp. nov. and Vibrio hepatarius sp. nov., isolated from aquatic animals and the marine environment. 1313 38

The ability of certain theta-defensins, including retrocyclin-1, to protect human cells from infection by HIV-1 marks them as potentially useful molecules. Theta-defensins composed of L-amino acids are likely to be unstable in environments that contain host and microbial proteases. This study compared the properties of two enantiomeric theta-defensins, retrocyclin-1, and RC-112. Although these peptides have identical sequences, RC-112 is composed exclusively of D-amino acids, whereas retrocyclin-1 contains only L-amino acids. We compared the ability of these peptides to protect JC53-BL human cells from infection by 30 primary HIV-1 isolates. JC53-BL cells are modified HeLa cells that express surface CD4, CXCR4, and CCR5. They also contain reporter cassettes that are driven by the HIV-1 LTR, and express beta-galactosidase and luciferase. The HIV-1 isolates varied in co-receptor specificity and included subtypes A, B, C, D, CRF01-AE, and G. RC-112 was several fold more potent than retrocyclin-1 across the entire HIV-1 panel. Although RC-112 bound immobilized gp120 and CD4 with lower affinity than did retrocyclin-1, surface plasmon resonance experiments performed with 1 microg/mL of RC-112 and retrocyclin-1 revealed that both glycoproteins were bound to a similar extent. The superior antiviral performance of RC-112 most likely reflected its resistance to degradation by surface-associated or secreted proteases of the JC53-BL target cells. Theta-defensins composed exclusively of D-amino acids merit consideration as starting points for designing microbicides for topical application to the vagina or rectum.
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PMID:A theta-defensin composed exclusively of D-amino acids is active against HIV-1. 1517 19


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