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)

Transcription of the manganese-superoxide dismutase gene (sodA) in Escherichia coli was shown to be activated by manganese. Addition of MnCl2 increased the expression of beta-galactosidase from a sodA::lacZ protein fusion and increased the concentration of mRNA transcribed from sodA+ and sodA::lacZ constructs. The stimulatory affect of manganese on the expression of sodA::lacZ was greatly reduced (i.e., > 90%) in a strain harboring a fur mutation. We also found that manganese was capable of altering DNA topology. These results show that Mn2+ causes activation of sodA transcription.
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PMID:Transcriptional activation of Mn-superoxide dismutase gene (sodA) of Escherichia coli by MnCl2. 824 Dec 58

The lethal effects of inorganic acid on phoE+ Escherichia coli strains, grown at neutral pHo, were enhanced by chloramphenicol, apparently because some organisms acquire acid tolerance (habituate) during challenge and chloramphenicol stops this. Phosphate (and/or polyphosphate) present during challenge prevented killing and damage by acid to outer membranes, DNA and cellular enzymes but did not prevent acid pHo enhancing novobiocin activity. To reverse acid effects, phosphate must interact with or cross the outer membrane but need not enter the cytoplasm; it is probable that it competes with H+ (or protonated anions) for passage through the PhoE pore. Phosphate also prevented induction of beta-galactosidase in a strain with the cadA promoter fused to lacZ. Four unc mutants showed essentially normal acid sensitivity and habituation; the same was true for strains with lesions in fur, oxyR, katF, phoP, cadA and hycB. In contrast, deletion of rpoH led to slightly increased acid sensitivity for cells grown at pHo 7.0, although habituation was relatively normal.
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PMID:PhoE porin of Escherichia coli and phosphate reversal of acid damage and killing and of acid induction of the CadA gene product. 839 10

The Fur protein, which regulates iron uptake in Escherichia coli, also represses the biosynthesis of the manganese-containing superoxide dismutase (MnSOD). A strain of E. coli bearing a lacZ fusion to the aerobactin operon was used to compare the metal specificities of the regulation of MnSOD and of aerobactin by Fur. Iron, but not manganese, acted as a corepressor of the Fur-dependent inhibition of MnSOD biosynthesis. The iron-mediated inhibition of MnSOD biosynthesis was dependent upon an intact fur locus, indicating that the effect of iron is mediated by the fur gene product. The suppression of the accumulation of MnSOD by iron, but not by manganese, was not due to destabilization of the MnSOD polypeptide by iron. Thus this effect of iron was also seen in a sodA::lacZ operon fusion in which the production of beta-galactosidase was regulated by the sodA promoter. In contrast, both iron and manganese served as corepressors of aerobactin biosynthesis. It thus appears that the effectiveness of specific metal cations to act as corepressors with Fur varies with the gene being regulated by the Fur-metal complex.
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PMID:Iron specificity of the Fur-dependent regulation of the biosynthesis of the manganese-containing superoxide dismutase in Escherichia coli. 844 93

Human lactase-phlorizin hydrolase (LPH, EC 3.2.1.23/62) is synthesized as a single-chain precursor glycoprotein (pro-LPH) with a relative molecular mass of just over 200 kDa. Maturation to the mature enzyme (m-LPH, 160 kDa) occurs after passage of pro-LPH through the Golgi complex and involves the proteolytic removal of a 849 amino acid propeptide. The role of this propeptide as well as its removal is not fully understood and the proteolytic enzyme or enzymes involved are unknown. We studied the potential role of five different members of the family of subtilisin-like proprotein processing proteases in the maturation process of human LPH using a vaccinia virus based coexpression system in pig kidney PK(15) cells. Infected/transfected PK(15) cells expressed full-length pro-LPH but no maturation to m-LPH was observed. Coexpression of human pro-LPH with human furin, human PC1/PC3, human PC2, human PACE4 and mouse PC6A in PK(15) cells did not result in maturation of the enzyme. Cleavage and secretion of von Willebrand factor precursor (pro-vWF) was used as a positive control. None of the five proprotein processing proteases tested were capable of cleaving human pro-LPH, strongly suggesting that they are not involved in the maturation of this enzyme.
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PMID:Human lactase-phlorizin hydrolase is not processed by furin, PC1/PC3, PC2, PACE4 and PC5/PC6A of the family of subtilisin-like proprotein processing proteases. 866 47

Escherichia coli shifted from external pH (pH(O)) 7.0 to pH(O) 8.5-9.5 rapidly becomes tolerant to pH(O) 10.0-11.5, induction of tolerance (alkali habituation) being dependent on periplasmic or external alkalinization with either NaOH or KOH. Induction needs protein synthesis and makes organisms resistant to DNA damage by alkali and better able to repair any damage that occurs. Induction of tolerance was reduced by glucose (not reversed by cAMP) and by amiloride, was dependent on DNA gyrase and was abolished by fur and himA lesions (the latter suggests IHF involvement). Tolerance induction was not prevented by L-leucine, FeCl3 or FeSO4 nor by hns or relA mutations. Habituation probably involves attachment of IHF upstream of the promoter leading to DNA bending which switches on transcription. Habituation is aberrant in nhaA mutants, so ability to resist alkali damage may only arise if NhaA is induced, with extrusion of Na+ by this antiporter during alkali challenge. In accord with one tolerance component involving NhaA induction, beta-galactosidase formation from nhaA-lacZ fusions at pH(O) 9.0 was inhibited by glucose and amiloride.
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PMID:Regulatory aspects of alkali tolerance induction in Escherichia coli. 869 68

Rat myoblast primary cultures were tested as a model for proinsulin synthesis and processing and unregulated insulin delivery for insulin-dependent diabetes mellitus (IDDM) gene therapy. Three human proinsulin cDNA constructs containing genetically engineered furin endoprotease cleavage sites between the B-chain and C-peptide (IFur) and between the C-peptide and A-chain (IIFur) and/or containing a histidine B10 to aspartic acid point mutation were subcloned into a mammalian expression vector (pCMV) containing the cytomegalovirus (CMV) promoter. The altered cleavage sites enable the insulin to be processed by the ubiquitous endoprotease furin. The histidine B10 to aspartic acid mutation creates a more stable form of insulin leading to an increase in insulin accumulation. Myoblasts transfected with a proinsulin cDNA construct mutated at all three sites (pCMV.IFur.IIFur.B10), a construct with only the furin sites (pCMV.IFur.IIFur), and a construct containing only the mutation at the B10 position (pCMV.B10) accumulated 852 +/- 16, 150 +/- 13, and 883 +/- 39 microU (pro)insulin/ml, respectively, in the culture medium during a 48-hr incubation. (Pro)insulin was detected in the culture medium within 2 hr post-transfection. Significant (pro)insulin release continued for 1 week and gradually diminished over a month. Approximately 50% of the proinsulin released from rat myoblasts transfected with pCMV.IFur.IIFur.B10 was completely processed into mature insulin based on densitometric analysis of autoradiographs of gels containing immunoprecipitated 35S-Cys-labeled (pro)insulin. However, only a trace of the proinsulin encoded by pCMV.B10 was processed. In an isolated rat adipocyte [14C]glucose oxidation assay, insulin released from myoblasts transfected with pCMV.IFur.IIFur.B10 was active biologically, displaying more biological activity than normal human insulin. Plasmid expression was studied by transfecting myoblasts with the beta-galactosidase (beta-Gal) gene in pCMV, allowing them to divide and fuse into multinucleated myotubes, followed by staining for beta-Gal. Approximately 80% of myotubes expressed beta-Gal. The results indicate that proinsulin encoded by genetically modified proinsulin cDNA is processed into mature insulin, which is secreted at high levels, making myoblasts a viable target cell for gene therapy of IDDM.
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PMID:Synthesis and processing of genetically modified human proinsulin by rat myoblast primary cultures. 882 70

Legionella pneumophila, a parasite of alveolar macrophages, requires iron for intra- and extracellular growth. Although its mechanisms for iron assimilation are poorly understood, this bacterium produces Fur, a protein that can repress gene transcription in response to iron concentration. Because iron- and Fur-regulated genes are important for infection in other bacteria, the identification of similar genes in L. pneumophila was undertaken. A wild-type strain of L. pneumophila was randomly mutated with a mini-Tn10' lacZ transposon, and the resulting gene fusions were tested for iron regulation by assessing beta-galactosidase production in the presence and absence of iron chelators. Of the initial six mutants with iron-repressed lacZ fusions, two strains, NU229 and NU232, possessed fusions that were stably iron regulated. To assay for Fur regulation, the levels of beta-galactosidase were measured in strains no longer producing Fur. As in a number of pathogenic bacteria, L. pneumophila fur could not be insertionally inactivated, but spontaneous Fur- derivatives were generated by selecting for manganese resistance. Strain NU229 contained a Fur-repressed fusion based on derepression of lacZ expression in its manganese-resistant derivative. Extracellular growth of NU229 in bacteriological media was similar to that of wild-type strain 130b. To assess the role of an iron- and Fur-regulated (frgA) gene in intracellular infection, the ability of NU229 to grow within U937 cell monolayers was tested. Quantitative infection assays demonstrated that intracellular growth of NU229 was impaired as much as 80-fold. Reconstruction of the mutant by allelic exchange proved that the infectivity defect in NU229 was due to the inactivation of frgA and not to a second-site mutation. Subsequently, complementation of the interrupted gene by an intact plasmid-encoded gene demonstrated that the infectivity defect was due to the loss of frgA and not to a polar effect. Nucleotide sequence analysis revealed that the 63-kDa FrgA protein has homology with the aerobactin synthetases IucA and IucC of Escherichia coli, raising the possibility that L. pneumophila encodes a siderophore which is required for optimal intracellular replication. Southern hybridization analysis determined that frgA is specific to L. pneumophila.
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PMID:An iron- and fur-repressed Legionella pneumophila gene that promotes intracellular infection and encodes a protein with similarity to the Escherichia coli aerobactin synthetases. 897 3

The tolQRA genes have been recently identified in Pseudomonas aeruginosa PAO. In this study, we examined the effect of iron and temperature on tolQRA expression. A promoterless lacZ gene was introduced downstream of plasmid-encoded tolQ and tolA, and expression was monitored by measuring beta-galactosidase activity of cultures. Addition of 25 microM FeCl3 to the culture medium reduced tolQRA expression by 50 to 60% in PAO but by only 25% in the fur mutant PAO A4. Northern hybridization analysis revealed that iron regulation occurs at the level of transcription and involves the P. aeruginosa ferric uptake regulator (Fur). Primer extension analysis was used to identify the proposed transcriptional start site of tolA. Although a putative Fur box was identified 20 bp upstream of the proposed start site, purified Fur did not bind to the tolA or tolQR promoter regions in an in vitro gel retardation assay. Therefore, iron regulation of the tol genes appears to involve an intermediate regulatory gene. Expression of tolQR and tolA was optimal at 37 degrees C and was reduced by 40 to 50% when cultures were grown at either 42 or 25 degreesC. Growth in high-iron medium at 25 degrees C further reduced tolQR and tolA expression.
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PMID:Effects of iron and temperature on expression of the Pseudomonas aeruginosa tolQRA genes: role of the ferric uptake regulator. 960 69

In Escherichia coli, the expression of sodB, which encodes iron superoxide dismutase, has been suggested to be activated by Fur, the iron-responsive global regulator initially characterized as a transcriptional repressor. We investigated sodB regulation by functional analysis of the sodB promoter using sodB-lac fusions with various truncated and mutated promoters. Several cis- and trans-acting elements involved in sodB regulation have been identified. The beta-galactosidase activity of sodB-lacZ reporter fusions and RNA analysis showed sevenfold iron-dependent, Fur-mediated activation of expression. A region just downstream from -10, including a large palindromic sequence encompassing the +1 position followed by a 14-bp AT-rich motif, is the site of Fur positive regulation, and the integrity of both sequences was required for full Fur-mediated activation. The life span of sodB mRNA was three times longer in a fur(+) strain, indicating that Fur-mediated activation proceeds, at least in part, at the posttranscriptional level. The H-NS and IHF histone-like factors also affected sodB expression. IHF slightly repressed sodB expression independently of Fur regulation. In contrast, H-NS negative regulation operated only in the absence of Fur. Remarkably, psodB behaved like a "pure extended -10" promoter. Deletion of the -35 region did not affect expression, whereas expression was totally abolished by a TG-to-CC mutation in the extended -10 sequence TGcTACCCT.
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PMID:Fur positive regulation of iron superoxide dismutase in Escherichia coli: functional analysis of the sodB promoter. 1085 Sep 97

A simple method for the construction of targeted transcriptional and translational fusions to the lac operon using FLP mediated site-specific recombination is described. Conditional plasmids containing promoterless lacZY genes and the FLP recognition target (FRT) site in both orientations were constructed for generating transcriptional fusions. Similarly, a plasmid used to create translational fusions was constructed in which the endogenous translational start of lacZ has been removed. These plasmids can be transformed into strains containing a single FRT site, which was previously integrated downstream of the promoter of interest using the lambda Red recombination method. The FLP protein produced from a helper plasmid that contains a conditional origin of replication promotes site-specific recombination between the FRT sites, resulting in an integrated lac fusion to the gene of interest. Transcriptional fusions to the Salmonella typhimurium genes sodCII and sitA were constructed using this method and shown to respond appropriately to mutations in the respective regulatory genes, rpoS and fur. Translational fusions were also constructed using this method. In this case, expression of beta-galactosidase was dependent on translation of the target protein. Given that the FLP recombinase does not require host factors for function and that this method requires no molecular cloning, this method should be applicable for the analysis of gene expression in a variety of organisms.
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PMID:Construction of targeted single copy lac fusions using lambda Red and FLP-mediated site-specific recombination in bacteria. 1206 10

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