Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

E. coli K12 with multicopy plasmid (lambda PR-promoter and temperature-sensitive lambda cI 857 repressor) was cultivated in 60-l bubble column and airlift tower loop reactors. The medium composition, cell concentration, and intracellulary enzyme activity were monitored on-line during batch, fed-batch, and continuous cultivations. The specific growth rates, cell mass yield coefficients, plasmid stabilities, productivities of the amount of active fusion protein (beta-galactosidase activity), concentrations and yields of acetic acid, and volumetric oxygen transfer coefficient were evaluated for different medium compositions and cultivation conditions. The enzyme activity was also monitored during the temperature induction. The results evaluated in the 60-l bubble column and airlift tower loop reactors are compared with those evaluated in a 1-1 stirred-tank reactor.
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PMID:Cultivation of recombinant E. coli and production of fusion protein in 60-1 bubble column and airlift tower loop reactors. 136 39

The R-plasmid, pEB017, restored recombination ability to recA56 and conferred enhanced resistance to UV-radiation and enhanced UV-radiation mutability to wild-type, recA56 and umuC36 strains of Escherichia coli K12. Comparatively, pEB017 enhanced UV-radiation mutability in a umuC strain, and also enhanced UV-radiation and nitrofuran mutability in a wild-type strain several-fold more than did another R-plasmid, pKM101. Plasmid pEB017 also mediated about a 3-fold enhancement of the SOS induction of beta-galactosidase synthesis in a recA strain, compared with the normal recA+ gene of E. coli. A BamHI fragment of pEB017 DNA was cloned into plasmid vector pBR322 to yield pEB021. The BamHI fragment in pEB021 (3.5 kb) is about 170 bp longer between the BamHI and PstI sites on the left end of the recA-like fragment, compared with published data on a similarly cloned recA gene from E. coli. Plasmid pEB021 conferred enhanced resistance to UV-radiation and enhanced UV-radiation mutability in wild-type and recA strains, and restored recombination ability in a recA strain. The introduction of pEB021 into a umuC strain made the cells slightly more resistant to killing by UV-irradiation, and promoted a small amount of UV-mutability in an otherwise nonmutable strain. These results suggest that R-plasmid pEB017 has a recA-like gene that mediates the enhanced resistance to UV-radiation and enhanced UV-radiation mutability, but which seems different in several important aspects from the normal recA gene in E. coli.
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PMID:Properties of R-plasmid pEB017, which confers both enhanced UV-radiation resistance and mutability to wild-type, recA and umuC strains of Escherichia coli K12. 137 54

The beta-galactosidases of several mutagenized strains of Escherichia coli K12 which grew on lactobionate were found to be heat labile. Sequence analysis of the lacZ gene (ligated into Bluescript) of one of these strains (E. coli REH4) showed that the only change in the amino acid sequence was a substitution of an Asp for Gly-794. This change caused a dramatic increase of the activity when lactose was the substrate. The kcat of the purified enzyme from E. coli REH4 (G794D-beta-galactosidase) with lactose as the substrate was five to six times as large as the kcat of the normal enzyme with lactose. Purified G794D-beta-galactosidase was, however, less stable to heat and also to chymotrypsin (which cleaves next to Trp-585) than was normal beta-galactosidase. G794D-beta-Galactosidase bound substrates and substrate analog inhibitors less well than did normal beta-galactosidase while planar transition state analog inhibitors were more strongly bound. The ability to bind 2-amino-D-galactose (a positively charged transition state analog inhibitor) was either unaltered or was decreased somewhat. The data showed that the alteration in structure caused an increase in the value of k2 (the rate constant for the step in which the glycosidic bond is cleaved) with each substrate tested (the increase was at least 25-fold when lactose was the substrate) while k3 was decreased about 4-fold (k3 is the rate constant for the common hydrolysis step with each substrate). Since k2 is rate determining when lactose is the substrate of the normal enzyme, the increase in k2 resulted in a large increase in rate despite the fact that the value of k3 decreased. Large rate increases were not found with the other two substrates because the k2 values were not increased by large factors and because the decrease in the value of k3 negated the effects of the increased k2 values. The destabilization of the substrate binding coupled with a stabilization of the binding of a planar transition state is a possible cause of the significant increase in the value of k2 and of the enhanced activity with lactose.
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PMID:A highly reactive beta-galactosidase (Escherichia coli) resulting from a substitution of an aspartic acid for Gly-794. 190 May 12

When strains of Escherichia coli K12 and Salmonella spp. were incubated with 0.5-0.7 mol/l formic or propionic acid at pH 5.0, propionic acid was more active than formic acid. It killed 90% of the cell population within 60 min compared with over 3 h for formic acid. Cell death was not associated with a reduction in culture turbidity or a loss of membrane integrity since morphologically normal membranes were observed by electron microscopy and only a small proportion of the cytoplasmic enzyme beta-galactosidase leaked into the supernatant fluid of acid-treated E. coli K12 cultures.
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PMID:Short-chain organic acids at ph 5.0 kill Escherichia coli and Salmonella spp. without causing membrane perturbation. 190 5

The cea-kil operon of the ColE1 plasmid is negatively regulated by the LexA-repressor and therefore, it is under the control of SOS regulation. We constructed a gene fusion between the cea and lacZ genes. Expression of the translational fusion can be easily detected by monitoring the levels of beta-galactosidase. Since the whole detection system is plasmid-based, it can be used in both Escherichia coli and Salmonella typhimurium strains. The SOS-function-inducing activities of 14 chemical mutagens were investigated in E. coli K12 and in two S. typhimurium Ames-strains and compared with results obtained by the SOS-chromotest and by the Umu-test. To correct for the inhibitory effects of test chemicals on mRNA and/or protein synthesis, the level of the constitutive chloramphenicol acetyl transferase was assayed in parallel.
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PMID:Construction and evaluation of a cea-lacZ gene fusion for the detection of environmental mutagens and carcinogens. 191 30

The induction of several amino acid decarboxylases under anaerobic conditions at low pH has been known for many years, but the mechanism associated with this type of regulation has not been elucidated. To study the regulation of the biodegradative arginine and lysine decarboxylases of Escherichia coli K12, Mudlac fusions to these genes were isolated. Mudlac fusion strains deficient for lysine decarboxylase or arginine decarboxylase were identified using decarboxylase indicator media and analysed for their regulation of beta-galactosidase expression. The position of the Mudlac fusion in lysine decarboxylase-deficient strains has been mapped to the cadA gene at 93.7 minutes, while the Mudlac fusions exhibiting a deficiency in the inducible arginine decarboxylase have been mapped to 93.4 minutes.
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PMID:Construction of lac fusions to the inducible arginine- and lysine decarboxylase genes of Escherichia coli K12. 252 31

The structural gene for an acid phosphatase coded for by the gene appA of Escherichia coli K12 was cloned from a cosmid library into pBR322 and the restriction map determined. Several appA deletion plasmids and a smaller appA+ plasmid were constructed by in vitro recombination techniques and tested for their ability to complement an appA1 mutation. The appA gene was localized within a 2.1 kb segment. Its orientation was determined by construction of a hybrid plasmid carrying an appA-lacZ fusion. beta-galactosidase synthesized from the appA promoter was negatively regulated by cyclic AMP.
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PMID:Cloning and characterization of the pH 2.5 acid phosphatase gene, appA: cyclic AMP mediated negative regulation. 282 63

Enoxacin inhibits growth of Escherichia coli K12 strains primarily by binding to the GyrA subunit of DNA gyrase (topoisomerase II); strains with gyrA, but not gyrB, mutations are less susceptible to the bactericidal effects of this agent. In sensitive strains, enoxacin completely inhibits DNA synthesis within 5 min and produces drug-gyrase-DNA complexes at numerous sites throughout the E. coli chromosome, as shown by the formation of linear DNA molecules after detergent treatment. Enoxacin, even at subminimal inhibitory concentrations, induces the bacterial SOS system, even in partially resistant gyrA strains. This drug also inhibits the induced expression of the lacZ encoded beta-galactosidase, regardless of whether this gene is located on the chromosome, a low copy number F' plasmid or high copy number Col E1 related plasmids. This inhibition of gene expression at subminimal inhibitory concentrations is likely to be a factor, in addition to gyrase inhibition, in the elimination of Col E1 plasmids and to the reduction in R plasmid conjugal transfer. Enoxacin enhances the bactericidal effects of kanamycin in both in-vitro and in-vivo models, suggesting that this quinolone may be effective in the treatment of infections due to strains resistant to antibacterials as a consequence of plasmid encoded resistance determinants.
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PMID:Alteration of bacterial DNA structure, gene expression, and plasmid encoded antibiotic resistance following exposure to enoxacin. 283 13

Phage MudII301 was used to isolate new periplasmic-leaky mutants of Escherichia coli K12 carrying an lkyB-lacZ gene fusion. The properties of strain JC2299 carrying the lkyB-2299 insertion mutation were identical to those of strain JC207 carrying the previously described lkyB-207 mutation. The LkyB-beta-galactosidase hybrid protein was partially extracellular and membrane bound. It was shown that both a nonsense (envZ-22) and a polar (ompR::Tn10) mutation in the ompB operon led to an increase of beta-galactosidase activity in the lkyB-lacZ fusion strain. On the other hand, mutations in the phoB, phoR, phoS, phoT, malT or envY genes had no effect on lkyB gene expression.
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PMID:Regulation of the lkyB gene expression in Escherichia coli K-12 strains carrying an lkyB-lacZ gene fusion. 300 35

Multiple lines of evidence show that oxidation products of ascorbic acid (vitamin C) are capable of inducing a variety of genetic alterations in microbial and mammalian cells. We have studied the inactivation kinetics in repair proficient and deficient Escherichia coli K12 cells treated with oxidized solutions of ascorbic acid, in the presence of catalytic amounts of copper. Our results suggest that the repair pathways controlled by the recA and uvrA gene products (the latter in a recA strain) contribute to cell survival. However, the lack of beta-galactosidase induction, in the SOS chromotest, implies a role for the RecA protein other than SOS induction. Catalase and thiourea suppress the toxic effects of oxidized ascorbate solutions, confirming that H2O2 and hydroxyl radicals are intermediate agents in the damaging action. Single-strand breaks were detected in DNA from treated cells.
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PMID:Ascorbate-copper induced DNA lesions and repair in Escherichia coli K12 cells. 300 73


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