EC:3.2.1.23 - FACTA Search

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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)

Mutations in laminin alpha2, a subunit of the basement membrane protein laminin-2/merosin, cause merosin-deficient congenital muscular dystrophy. To gain insight into the molecular mechanism of disease, we generated and used a mutant mouse, dyW, in which the lacZ gene was inserted into the lama2 gene so that beta-galactosidase would be expressed in place of laminin alpha2. Heterozygous and homozygous mutant mice are normal at birth, but homozygous mice develop muscular dystrophy at 2 to 3 weeks of age. The lama2/lacZ gene was highly expressed in muscle in the early stages of embryonic myogenesis, but was down-regulated at later stages in both heterozygous and homozygous mice. No beta-galactosidase activity was detected in skeletal muscle after birth in adult heterozygous mice. In contrast, high beta-galactosidase activity was detected in postnatal homozygous mice. Induction of injury in heterozygous mice resulted in intense reexpression of beta-galactosidase in the injured muscle early in regeneration, with a decline in enzyme activity as repair of the tissue progressed. Although the initial response to injury was similar in heterozygous and homozygous mice with abundant beta-galactosidase-positive, mononucleated cells in the injured area, repair was rarely completed in the homozygous mice, evidently caused by excessive death of cells associated with immature myofibers. The defect in muscle repair was very efficiently corrected in homozygous dyW mice expressing a human LAMA2 transgene in skeletal muscle. The data show the importance of laminin alpha2 in muscle regeneration and suggest that a major contributor to disease in muscular dystrophy is abortive regeneration.
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PMID:Activation of the lama2 gene in muscle regeneration: abortive regeneration in laminin alpha2-deficiency. 1061 10

Adherence of Mycoplasma hyopneumoniae to the swine respiratory tract is mediated by the membrane protein P97. This protein is located on the outer membrane surface, and its role in adherence has been firmly established. The general region of P97 that mediates adherence to swine cilia is thought to be the R1 region near the carboxy terminus of the protein, but it was not clear if this region could mediate adherence to swine cilia independently of other P97 sequences. To examine this in more detail, a series of R1 repeat sequences containing different numbers of repeating units cloned in frame with lacZ was used to produce R1-beta-galactosidase fusion proteins. These proteins were then tested for adherence to swine cilia and for reactivity to the adherence-blocking monoclonal antibody F2G5 and convalescent-phase swine sera. In this way it was possible to accurately define the cilium binding epitope of P97 and the minimal epitope recognized by antibody. Our results indicate that eight R1 repeating units are required for cilium binding and that three repeating units are needed for antibody recognition. These results could lead to more effective therapeutic measures against this important swine pathogen.
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PMID:R1 region of P97 mediates adherence of Mycoplasma hyopneumoniae to swine cilia. 1076 15

Ssu1p, a plasma membrane protein involved in sulphite metabolism in Saccharomyces cerevisiae, was found to be required for efficient sulphite efflux. An SSU1 null mutant accumulated significantly more sulphite than wild-type, whereas cells expressing multicopy SSU1 accumulated significantly less. Cells expressing FZF1-4, a dominant allele of a transcriptional activator of SSU1 that confers sulphite resistance, also accumulated less sulphite. beta-galactosidase activity in the FZF1-4 strain carrying an SSU1::lacZ fusion was found to be 8.5-fold higher than in a strain carrying wild-type FZF1, confirming that the heightened resistance was correlated with hyperactivation of SSU1. Multicopy SSU1 was also found to increase the sulphite resistance of a number of unrelated sulphite-sensitive strains by a factor of 3- to 8-fold. Rates of efflux of free sulphite from cells expressing multicopy SSU1 or FZF1-4 were significantly greater than that from wild-type or from a SSU1 null mutant. Rates of efflux of bound sulphite from wild-type, a SSU1 null mutant, a FZF1-4 mutant, or cells expressing multicopy SSU1 were not significantly different, suggesting that Ssu1p specifically mediates efflux of the free form of sulphite.
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PMID:SSU1 mediates sulphite efflux in Saccharomyces cerevisiae. 1087 99

Expression of the coxsackie-adenovirus receptor (CAR) is a critical determinant in cellular susceptibility to infection with adenovirus-based gene transfer vectors. This study is focused on the hypothesis that manipulation of the cytoplasmic tail and transmembrane regions of CAR can be used to change cell surface levels of CAR and, consequently, to alter the efficiency of Ad-mediated gene transfer. To accomplish this, Flag-tagged ([F]) human CAR ([F]CAR), [F]tailless-CAR (lacking the cytoplasmic tail), and [F]GPI-CAR (containing a GPI lipid anchor instead of the transmembrane and cytoplasmic regions) were exogenously expressed in CHO cells. Analysis of (125)I-labeled anti-Flag antibody binding to transfected cells revealed that [F]tailless-CAR and [F]GPI-CAR were expressed on the cell surface in 1.8- to 2.5-fold higher amounts than [F]CAR, while the total expression levels were similar. Infection with replication-deficient adenovirus encoding beta-galactosidase (Ad-betagal) demonstrated 1.5- to 2-fold higher levels of transgene expression in CHO cells expressing [F]tailless-CAR or [F]GPI-CAR, respectively, compared with cells containing [F]CAR. The form of CAR expressed did not affect the transport of fluorescent Cy3-Ad particles from the cell surface to the nuclear region. These observations indicate that transduction of target cells by Ad vectors can be optimized by increasing cell surface levels of CAR through functional deletion of the tail and membrane protein domains.
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PMID:Manipulation of the cytoplasmic and transmembrane domains alters cell surface levels of the coxsackie-adenovirus receptor and changes the efficiency of adenovirus infection. 1117 39

The CepR-CepI quorum-sensing system has been shown to regulate production of the siderophore ornibactin, extracellular proteases, and N-octanoyl-homoserine-L-lactone (OHL) in Burkholderia cepacia strain K56-2. To examine the effect of cepIR on production of other siderophores, cepR mutants were constructed in strains that produce pyochelin in addition to salicylic acid and ornibactins. Pc715j-R1 (cepR::tp) hyperproduced ornibactin but produced parental levels of pyochelin and salicylic acid, suggesting that CepR is a negative regulator of ornibactin synthesis but not pyochelin or salicylic acid. Pc715j-R1 was also protease deficient and OHL negative. The effects of cepR on ornibactin biosynthetic genes were examined by constructing cepR pvdA-lacZ and cepR pvdD-lacZ mutants and monitoring beta-galactosidase activity. There was an increase in expression of pvdA in the cepR mutant compared to the level in its parent strain in both low- and high-iron media during stationary phase. When the outer membrane protein profiles of a cepR mutant and the wild-type strain were compared on sodium dodecyl sulfate-polyacrylamide gel electrophoresis, there did not appear to be any difference in levels of expression of the ornibactin receptor. Experiments with cepI-lacZ and cepR-lacZ transcriptional fusions indicated that cepI was not expressed in the cepR mutant and that cepR acts as a negative regulator of its own expression. By a thin-layer chromatography assay for N-acyl homoserine lactones, OHL and N-hexanoyl-L-homoserine lactone (HHL) were detectable in K56-2 and Pc715j, both wild-type strains. OHL was not detectable and HHL was only weakly detectable in the cepI and cepR mutants. These results suggest that CepR is both a positive and negative transcriptional regulator and that CepR may influence the expression of ornibactin biosynthetic genes in addition to the expression of the cepIR quorum-sensing system.
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PMID:Regulation of ornibactin biosynthesis and N-acyl-L-homoserine lactone production by CepR in Burkholderia cepacia. 1124 59

Infection of Escherichia coli by bacteriophage lambda depends on two membrane protein complexes: (i) maltoporin (LamB) in the outer membrane for adsorption and (ii) the IIC(Man)-IID(Man) complex of the mannose transporter in the inner membrane for DNA penetration. IIC(Man) and IID(Man) are components of the phosphoenolpyruvate: sugar phosphotransferase system (PTS) which together with the IIAB(Man) subunit mediate transport and phosphorylation of sugars. To identify structural determinants important for penetration of lambda DNA, the homologous IIC-IID complexes of E. coli, K. pneumoniae and B. subtilis, and chimeric complexes between the IIC and IID were characterized. All three complexes support sugar transport in E. coli. Only IIC-IID of E. coli and B. subtilis also support bacteriophage lambda infection. The six chimeric complexes had lost transport activity, but three containing IIC of E. coli or B. subtilis continue to support bacteriophage lambda infection. Complexes containing IIC(Man) and fusion proteins between truncated IID(Man) and alkaline phosphatase or beta-galactosidase support penetration of lambda DNA if less than 100 residues are missing from the C-terminus of IID(Man). Truncation of IIC(Man) renders the complex unstable. Taken together, these results suggest, that IIC is the major specificity determinant for lambda infection but that the IIC subunit is stably expressed only in a complex with the IID subunit. Lambda DNA in transit across the periplasmic space, but not transforming plasmid DNA, is inaccessible to the non-specific nuclease NucA of Anabaena sp. targeted to the periplasmic space either in soluble form or as a fusion protein to the C-terminus of IID(Man).
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PMID:Facilitation of bacteriophage lambda DNA injection by inner membrane proteins of the bacterial phosphoenol-pyruvate: carbohydrate phosphotransferase system (PTS). 1136 Oct 66

The nasal mucosa may provide a simple, non-invasive route to deliver DNA encoding genes that stimulate a specific immune response. Based on this, a new approach using pCMVbeta-gal plasmid DNA complexed to the Opc meningococcal outer membrane protein was assayed for. Optimal conditions of interaction were established between recombinant Opc protein and pCMVbeta-gal plasmid DNA. Complexes were fully characterized by electrophoresis analysis, DNAse resistance assay and transmission electron microscopy. DNA-protein complexes were also evaluated in in vitro transfection experiments. After the characterisation of complexes, Balb/c mice were intranasal (i.n.) and intramuscularly (i.m.) immunized. The humoral immune response against beta-galactosidase was measured by ELISA. The proliferative response in the spleen lymph nodes was also measured. Complexes administered by i.n. route induced both systemic and mucosal antibody responses. This behavior was not observed with the naked DNA. Finally, a lymphoproliferative response specific to beta-galactosidase induced by DNA-protein complexes was also detected.
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PMID:Plasmid DNA-recombinant Opc protein complexes for nasal DNA immunization. 1139 3

Enteropathogenic Escherichia coli (EPEC) produces the bundle-forming pilus (BFP), a type IV fimbria that has been implicated in virulence, autoaggregation, and localized adherence to epithelial cells. The bfpE gene is one of a cluster of bfp genes previously shown to encode functions that direct BFP biosynthesis. Here, we show that an EPEC strain carrying a nonpolar mutation in bfpE fails to autoaggregate, adhere to HEp-2 cells, or form BFP, thereby demonstrating that BfpE is required for BFP biogenesis. BfpE is a cytoplasmic membrane protein of the GspF family. To determine the membrane topology of BfpE, we fused bfpE derivatives containing 3' truncations and/or internal deletions to alkaline phosphatase and/or beta-galactosidase reporter genes, whose products are active only when localized to the periplasm or cytoplasm, respectively. In addition, we constructed BfpE sandwich fusions using a dual alkaline phosphatase/beta-galactosidase reporter cassette and analyzed BfpE deletion derivatives by sucrose density flotation gradient fractionation. The data from these analyses support a topology in which BfpE contains four hydrophobic transmembrane (TM) segments, a large cytoplasmic segment at its N terminus, and a large periplasmic segment near its C terminus. This topology is dramatically different from that of OutF, another member of the GspF family, which has three TM segments and is predominantly cytoplasmic. These findings provide a structural basis for predicting protein-protein interactions required for assembly of the BFP biogenesis machinery.
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PMID:Novel topology of BfpE, a cytoplasmic membrane protein required for type IV fimbrial biogenesis in enteropathogenic Escherichia coli. 1144 77

Presenilin 2 (PS2) is a polytopic membrane protein that is mutated in some cases of familial Alzheimer's disease (AD). The normal functions of PS2 and its pathogenic role in AD remain unclear. We investigated the biological role of this protein in neurons, using adenovirus-mediated transduction of the PS2 gene into rat primary cortical neurons. Immunocytochemical analyses demonstrated increased PS2 immunoreactivity in most neurons infected with recombinant adenoviruses expressing PS2. Neurons infected with wild-type or mutant (N141I) PS2-expressing adenoviruses showed a significant increase in basal cell death, compared with those infected with control beta-galactosidase-expressing adenovirus. Moreover, PS2 overexpression markedly increased neuronal susceptibility to staurosporine-induced apoptosis. Mutant PS2 was more effective in enhancing apoptosis than its wild-type counterpart. Staurosporine-induced death was significantly inhibited by a specific caspase 3 inhibitor. Western analyses revealed that Bcl-2 protein expression was specifically down-regulated in neurons overexpressing PS2, which temporally corresponded to the accumulation of C- and N-terminal fragments of PS2. Additionally, expression of mutant, but not wild-type PS2, increased the production of beta-amyloid protein (Abeta) 42. These data collectively suggest that the pro-apoptotic effect of PS2 is mediated by down-regulation of Bcl-2. PS2 mutations may increase the susceptibility of neurons to apoptotic stimuli by perturbing the regulation of cell death.
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PMID:Pro-apoptotic effect of presenilin 2 (PS2) overexpression is associated with down-regulation of Bcl-2 in cultured neurons. 1175 57

The Escherichia coli Tat system mediates Sec-independent export of protein precursors bearing twin arginine signal peptides. Formate dehydrogenase-N is a three-subunit membrane-bound enzyme, in which localization of the FdnG subunit to the membrane is Tat dependent. FdnG was found in the periplasmic fraction of a mutant lacking the membrane anchor subunit FdnI, confirming that FdnG is located at the periplasmic face of the cytoplasmic membrane. However, the phenotypes of gene fusions between fdnG and the subcellular reporter genes phoA (encoding alkaline phosphatase) or lacZ (encoding beta-galactosidase) were the opposite of those expected for analogous fusions targeted to the Sec translocase. PhoA fusion experiments have previously been used to argue that the peripheral membrane DmsAB subunits of the Tat-dependent enzyme dimethyl sulphoxide reductase are located at the cytoplasmic face of the inner membrane. Biochemical data are presented that instead show DmsAB to be at the periplasmic side of the membrane. The behaviour of reporter proteins targeted to the Tat system was analysed in more detail. These data suggest that the Tat and Sec pathways differ in their ability to transport heterologous passenger proteins. They also suggest that caution should be observed when using subcellular reporter fusions to determine the topological organization of Tat-dependent membrane protein complexes.
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PMID:Behaviour of topological marker proteins targeted to the Tat protein transport pathway. 1192 47

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