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 hydrolysis of o-nitrophenyl-beta-D-galactopyranoside (ONPG) by BAL-31, a marine Pseudomonas that acts as a host for bacteriophage PM2, was studied with intact cells and with cell-free extracts. A transport system for ONPG in whole cells and a beta-galactosidase activity in extracts were evident for cells grown on lactose minimal medium. It was found that the addition of isopropylthio-beta-D-galactopyranoside (IPTG) to cells growing in rich medium induced an ONPG hydrolytic activity detectable in cell extracts but cryptic in whole cells. The existence of a transport system for IPTG, which remained cryptic for ONPG, became apparent from studies of the rates of induction of beta-galactosidase as a function of cell mass at different concentrations of IPTG. The main properties of beta-galactosidase and the lactose transport system of BAL-31 were studied in terms of how they were affected by pH, temperature, or by the presence of several sugars. IPTG competitively inhibits the hydrolysis of ONPG by cell extracts. In cells pregrown on lactose, IPTG slightly inhibits the transport of ONPG. Glucose, and with less efficiency lactose, also inhibits the hydrolysis of ONPG in cell extracts. The growth of cells on lactose minimal medium was inhibited by the addition of IPTG. A mechanism for this inhibition and for the inhibition of ONPG transport by IPTG is discussed.
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PMID:Induction and general properties of beta-galactosidase and beta-galactoside permease in Pseudomonas BAL-31. 1 11

Pseudomonas cepacia was recovered from a number of infected sites in three patients with chronic granulomatous disease of childhood. The organisms were identified on the basis of their oxidative utilization of a variety of carbohydrates and their positive beta-galactosidase and oxidase activities. They were resistant to most antimicrobial agents and moderately susceptible to chloramphenicol. Peripheral blood leukocytes isolated from two siblings with chronic granulomatous disease, including one of the patients in this series, failed to kill P. cepacia in vitro. Prolonged prophylactic and antimicrobial therapy may well have played a significant role in the colonization and infection of these patients with P. cepacia.
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PMID:Association of Pseudomonas cepacia with chronic granulomatous disease. 117 12

Although the pervasive soil and water microorganism Pseudomonas aeruginosa demonstrates heightened sensitivity to UV radiation, this species possesses a recA gene that, based on structural and functional properties, could mediate a DNA damage-responsive regulon similar to the SOS regulon of Escherichia coli. To determine whether P. aeruginosa encodes such stress-inducible genes, the response of P. aeruginosa to DNA-damaging agents including far-UV radiation (UVC) and the quinolone antimicrobial agent norfloxacin was investigated by monitoring the expression of fusions linking P. aeruginosa promoters to a beta-galactosidase reporter gene. These fusions were obtained by Tn3-HoHoI insertional mutagenesis of a P. aeruginosa genomic library. Eight different damage-inducible (din) gene fusions were isolated which lack homology to the P. aeruginosa recA gene. Expression of the three gene fusions studied, dinA::lacZYA, dinB::lacZYA, and dinC::lacZYA, increased following UVC and quinolone exposure but not following heat shock. Similar to E. coli SOS genes, the din genes were induced to different extents and with dissimilar kinetics following UVC irradiation.
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PMID:Characterization of stress-responsive behavior in Pseudomonas aeruginosa PAO: isolation of Tn3-lacZYA fusions with novel damage-inducible (din) promoters. 131 30

The Pseudomonas oleovorans alkane hydroxylase is an integral cytoplasmic membrane protein that is expressed and active in both Escherichia coli and P. oleovorans. Its primary sequence contains eight hydrophobic stretches that could span the membrane as alpha-helices. The topology of alkane hydroxylase was studied in E. coli using protein fusions linking different amino-terminal fragments of the alkane hydroxylase (AlkB) to alkaline phosphatase (PhoA) and to beta-galactosidase (LacZ). Four AlkB-PhoA fusions were constructed using transposon TnphoA. Site-directed mutagenesis was used to create PstI sites at 12 positions in AlkB. These sites were used to create AlkB-PhoA and AlkB-LacZ fusions. With respect to alkaline phosphatase and beta-galactosidase activity each set of AlkB-PhoA and AlkB-LacZ fusions revealed the expected complementary activities. At three positions, PhoA fusions were highly active, whereas the corresponding LacZ fusions were the least active. At all other positions the PhoA fusions were almost completely inactive, but the corresponding LacZ fusions were highly active. These data predict a model for alkane hydroxylase containing six transmembrane segments. In this model the amino terminus, two hydrophilic loops, and a large carboxyl-terminal domain are located in the cytoplasm. Only three very short loops near amino acid positions 52, 112, and 251 are exposed to the periplasm.
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PMID:Topology of the membrane-bound alkane hydroxylase of Pseudomonas oleovorans. 131 49

A broad host-range expression plasmid was constructed comprising the incQ replicon, the recA promoter from Escherichia coli and the g10-L ribosome binding site (RBS) derived from bacteriophage T7. The structural genes for porcine somatotropin (pst) and E. coli beta-galactosidase (lacZ) were used to monitor gene expression in a diverse collection of Gram-negative bacterial hosts: Escherichia coli, Pseudomonas aeruginosa, Pseudomonas syringae, Pseudomonas putida, Pseudomonas fluorescens, Pseudomonas testosteroni, Serratia marcescens and Erwinia herbicola. The E. coli recA promoter was functional in this wide range of hosts and was inducible by the addition of nalidixic acid. Moreover, the level of lacZ expression was often at least as high as that observed in E. coli. Previous studies had shown that the g10-L RBS was superior to a simple "consensus" RBS sequence for expression of foreign genes in E. coli. Here we demonstrate a 38 to 70 fold increase in expression in two Pseudomonas hosts using the g10-L RBS, indicating that the translational enhancer present in the g10-L RBS is also functional in other bacteria. The juxtaposition of these transcriptional and translational elements in a broad host-range vector provides a simple way to evaluate alternate hosts for recombinant protein production.
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PMID:Broad host-range vector for efficient expression of foreign genes in gram-negative bacteria. 136 37

The XylS protein is the positive regulator of the TOL plasmid-encoded meta-cleavage pathway for the metabolism of alkylbenzoates in Pseudomonas putida. This protein is activated by a variety of benzoate analogues. To elucidate the functional domains of the regulator and their interactions, several fusions of the XylS C-terminus to MS2 polymerase and of the N-terminus to beta-galactosidase were constructed but all are inactive. In addition, 15 double mutant xylS genes were constructed in vitro by fusing parts of various mutant genes to produce mutant regulators exhibiting C-terminal and N-terminal amino acid substitutions. The phenotypic properties of the parental single mutant genes, and those of the double mutant genes, suggest that the C-terminal region is involved in binding to DNA sequences at the promoter of the meta-cleavage pathway operon, and that the benzoate effector binding pocket includes critical residues present at both the N-terminal and C-terminal ends of the protein. The intraallelic dominance of the Ile229 (Ser229-->Ile) and Val274 (Asp274-->Val) substitutions over the N-terminal His41 (Arg41-->His) substitution, and the intraallelic dominance of Thr45 (Arg45-->Thr) over Ile229 and Val274, support the proposal that these two regions of the regulator interact functionally. Combination of the Leu88 (Trp88-->Leu) and Arg256 (Pro256-->Arg) substitutions did not suppress the semiconstitutive phenotype conferred by Leu88, but resulted in a protein with altered ability to recognize benzoates. In contrast, the Leu88 semiconstitutive phenotype was suppressed by Val288 (Asp288-->Val), and the double mutant was susceptible to activation by benzoates.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:XylS domain interactions can be deduced from intraallelic dominance in double mutants of Pseudomonas putida. 146 13

CatR, a LysR family protein, positively regulates the Pseudomonas putida catBC operon, which is required for growth on benzoate as a sole carbon source. Transcriptional studies show that the catR and catBC promoters are divergent and overlapping by 2 bp. A beta-galactosidase promoter probe vector was constructed to analyze expression from the catR and catBC promoters under induced and uninduced conditions. As predicted, the catBC promoter is expressed only under induced conditions, while the catR promoter is constitutive. CatR has been shown to specifically bind the catRBC promoter region, and this property was used to devise a purification protocol for CatR. Linear M13 DNA containing the catRBC control region was covalently bound to cyanogen bromide-activated Sepharose in order to construct a DNA affinity column. Crude extracts containing hyperproduced CatR protein were then incubated with the affinity resin under binding conditions, and the CatR protein was eluted with 1 M NaCl. CatR was also purified by heparin-agarose chromatography. This highly purified protein was used for gel retardation and hydroxyl-radical footprinting studies. From this analysis, it was shown that CatR binds upstream of the catBC promoter within the transcribed region of catR.
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PMID:Functional analysis of the Pseudomonas putida regulatory protein CatR: transcriptional studies and determination of the CatR DNA-binding site by hydroxyl-radical footprinting. 164 20

K1 is a monoclonal antibody that reacts with a cell surface antigen (CAK1) found in human mesothelia and nonmucinous ovarian tumors. In this article, the characteristics of the CAK1 antigen have been examined in detail. Using immunofluorescence microscopy, we have found that the CAK1 signal is removed from the cell surface by treatment with proteases or by phosphatidylinositol-phospholipase C, but not by neuraminidase and beta-galactosidase. The phosphatidylinositol-phospholipase C-released material was found to contain the CAK1 antigen which was detected by a competition radioimmunoassay. The phosphatidylinositol-phospholipase C-released CAK1 antigen was examined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and immunoblotting and found to be approximately 40 kDa protein. The CAK1-K1 antibody complex remains on the cell surface and is poorly internalized, as shown by an acid wash immunofluorescence internalization assay. An immunotoxin composed of K1 and Lys-PE40, a mutant form of Pseudomonas exotoxin lacking the cell binding domain, was not cytotoxic, supporting the conclusion that the CAK1-K1 antibody complex is not internalized. However, an immunotoxin composed of K1 and native Pseudomonas exotoxin was selectively cytotoxic to cells expressing the CAK1 antigen. This cytotoxicity is due to the fact that domain I of Pseudomonas exotoxin promotes internalization of antigens which are not internalized or bound to antibody alone. Our results suggest that CAK1 is a polypeptide that is expressed on mesothelial cells and many ovarian cancers, and that K1 may be useful as a targeting agent for the immunotherapy of human ovarian cancer.
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PMID:Characterization of the antigen (CAK1) recognized by monoclonal antibody K1 present on ovarian cancers and normal mesothelium. 172 78

A series of controlled expression vectors was constructed based on the wide-host-range plasmid pMMB66EH. Some of these new vectors code for the alpha-peptide of beta-galactosidase and allow the direct screening of recombinant clones by inactivation of alpha-complementation. The bla gene was replaced in some plasmids by the cat gene of Tn9 coding for chloramphenicol resistance, extending the use into beta-lactam-resistant strains. They all feature either the tac or taclac (tac-lac UV5 in tandem) promoters in front of a polylinker followed by the rrnB transcriptional stop point. These vectors were tested by subcloning the xylE gene coding for the Pseudomonas putida catechol 2,3-oxygenase and the Escherichia coli lamB gene coding for the lambda receptor. The expression of these genes in E. coli indicated that the tac promoter is five times stronger than the taclac promoter and that both were tightly regulated. The tac promoter in Pseudomonas syringae pv glycinea and Xanthomonas campestris pv vesicatoria had a strength similar to that in E. coli, while the taclac promoter was much weaker, reaching only 6.5 and 3% of the level of expression of the tac promoter, respectively. The taclac promoter, however, proved to be useful for the cloning in E. coli of DNA fragments that were unstable in vectors with stronger promoters and higher copy number. Expression of the lamB gene in Vibrio cholerae strain TRH7000 was not sufficient to permit cosmid transduction. Two subunits of the E. coli mannose permease, coded by the ptsP and ptsM genes, are also required for cosmid DNA penetration into the recipient cells.
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PMID:A series of wide-host-range low-copy-number vectors that allow direct screening for recombinants. 184 47

The syrB gene is required for syringomycin production by Pseudomonas syringae pv. syringae and full virulence during plant pathogenesis. Strain B3AR132 containing a syrB::lacZ fusion was used to detect transcriptional activation of the syrB gene in syringomycin minimal medium by plant metabolites with signal activity. Among 34 plant phenolic compounds tested, arbutin, phenyl-beta-D-glucopyranoside, and salicin were shown to be strong inducers of syrB, giving rise to approximately 1,200 U of beta-galactosidase activity at 100 microM; esculin and helicin were moderate inducers, with about 250 to 400 U of beta-galactosidase activity at 100 microM. Acetosyringone and flavonoids that serve as signal molecules in Agrobacterium and Rhizobium species, respectively, did not induce the syrB::lacZ fusion. All syrB inducers were phenolic glucosides and none of the aglucone derivatives were active, suggesting that the beta-glycosidic linkage was necessary for signal activity. Phenyl-beta-D-galactopyranoside containing galactose substituted for glucose in the beta-glycosidic linkage also lacked inducer activity. Phenolic signal activity was enhanced two- to fivefold by specific sugars common to plant tissues, including D-fructose, D-mannose, and sucrose. The effect of sugars on syrB induction was most noticeable at low concentrations of phenolic glucoside (i.e., 1 to 10 microM), indicating that sugars such as D-fructose increase the sensitivity of P. syringae pv. syringae to the phenolic plant signal. Besides induction of syrB, syringomycin biosynthesis by parental strain B3A-R was induced to yield over 250 U of toxin by the additions of arbutin and D-fructose to syringomycin minimal medium. These data indicate that syringomycin production by most strains of P. syringae pv. syringae is modulated by the perception of two classes of plant signal molecules and transduced to the transcriptional apparatus of syringomycin (syr) genes such as syrB.
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PMID:Plant signal molecules activate the syrB gene, which is required for syringomycin production by Pseudomonas syringae pv. syringae. 188 50


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