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)

For the differentiation of Shigella from Escherichia coli, Indole (tryptophanase), PGUA (beta-glucuronidase) and ONPG (beta-galactosidase) tests were used. A total of 377 Shigella and 124 E. coli strains was examined for each sero- and biosero-type by using these tests. The results were as follows. 1) There were no Shigella strains showing positive reactions for both Indole and ONPG tests. 2) No E. coli strains with Shigella-like characteristics (negative for lysine-decarboxylase, motility and lactose-fermentation tests) showed negative results for both Indole and PGUA tests. 3) The abovementioned strains were classified into twelve types according to the results of these tests. Shigella strains, thus, were differentiated from antigenically Shigella-like E. coli strains. Additional use of these tests together with the conventional methods may valuable for the identification of Shigella strains.
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PMID:[Rapid differentiation method for Shigella and Escherichia coli--application of Indole (tryptophanase), PGUA (beta-glucuronidase) and ONPG (beta-galactosidase) tests]. 162 38

Except for beta-galactosidase, little is known about the effect of environmental toxicants on enzyme induction. The information could be potentially useful for the development of low-cost and rapid ecotoxicity assays. The effect of toxicants on the de novo biosynthesis of three inducible enzymes, beta-galactosidase and tryptophanase in E. coli and alpha-glucosidase in B. subtilis was investigated. Biosynthesis of alpha-glucosidase was the most sensitive to environmental toxicants, particularly pentachlorophenol and sodium dodecyl sulfate. The sensitivity of B. subtilis to toxicants was further increased when Tween 80 was incorporated in the growth medium.
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PMID:Effect of environmental toxicants on enzyme biosynthesis: a comparison of beta-galactosidase, alpha-glucosidase and tryptophanase. 211 3

L-Proline, which is accumulated by Escherichia coli during growth in media of high osmolality, also induces the synthesis of the enzyme degrading it to glutamate. To determine if proline catabolism is inhibited during osmotic stress, proline utilization and the formation of proline dehydrogenase were examined in varying concentrations of NaCl and sucrose. Although the specific growth rate of E. coli with proline as the sole nitrogen source diminished as the solute osmolality increased, a comparable reduction in growth rate occurred with ammonium as the primary nitrogen source. Proline catabolism, as measured in whole cells by the conversion of [14C]proline to [14C]glutamate, was only slightly inhibited by solute osmolalities up to 1.0 osmol/kg; more than 50% of the initial activity was still found at 2.0 osmol/kg. By contrast, the specific activity of proline dehydrogenase in bacteria grown in the presence of added solutes decreased to less than 20% of the control level. This reduction was related to a lower rate of synthesis, but was independent of genes currently known to be involved in osmoregulation or proline metabolism. The specific activities of tryptophanase, beta-galactosidase, and histidinol dehydrogenase were also reduced under similar growth conditions. These results indicate that while proline catabolism is not directly inhibited by high solute concentrations, prolonged exposure to osmotic stress leads to its reduction as part of a more general metabolic response.
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PMID:Nonspecific inhibition of proline dehydrogenase synthesis in Escherichia coli during osmotic stress. 268 74

The cyclic AMP (cAMP) suppressor mutation (csm) of Escherichia coli has been cloned from strain NCR30 in the HindIII-EcoRI site of pBR322. This mutation has been mapped in or near the crp gene. Wild-type crp DNA hybridized to recombinant plasmids pGM5 and pGM25 containing the cloned csm mutation. These recombinant plasmids encoded a protein product of identical molecular weight and charge as that of the wild-type cAMP receptor protein. Transformants of cya crp deletion strains harboring pBM5 or pGM25 exhibited phenotypic characteristics common to strain NCR30. These included the expression of catabolite-repressible enzymes, such as arabinose isomerase, tryptophanase, beta-galactosidase, and threonine deaminase; the expression of chemotactic and motility genes; cAMP sensitivity; and the accumulation of toxic levels of methylglyoxal. DNA sequence analysis indicated that the Csm suppressor phenotype was attributable to the insertion of a guanosine residue 17 base pairs downstream from the termination codon of the crp structural gene. The guanosine insertion is located in the stem region of the presumed transcriptional termination loop. This stem region contained a unique BssHII restriction site which was used to construct an in vitro deletion in the wild-type crp insert in plasmid pHA7. The resulting plasmid, pGM459, renders transformants having a phenotype common to that conferred by the chromosomal or cloned csm mutation. Our results indicate a novel role for the 3' flanking region of the crp structural gene in the expression of the cAMP receptor protein.
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PMID:Cloning and molecular characterization of csm mutations allowing expression of catabolite-repressible operons in the absence of exogenous cyclic AMP. 300 5

Effectivity of expression of catabolite operons is repressed in bacteria with altered cytoplasmic components of the sugar, transport system (pts mutants). Mutation crp* changing the ability of the cyclic adenosine-3',5'-monophosphate receptor protein to activate transcription leads to suppression of the pts mediated disturbance of the enzyme inducible synthesis. This suppression manifests in ability of double delta ptsH crp* mutants to utilize different substrates and in restoration of the rate of beta-galactosidase synthesis and L-tryptophanase synthesis up to the levels in wild type bacteria.
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PMID:[Effect of mutations damaging cyclic adenosine-3',5'-monophosphate receptor protein on the expression of catabolic operons in Escherichia coli delta ptsH K12]. 391 30

Catabolite repression of tryptophanase was studied in detail under various conditions in several strains of Escherichia coli and was compared with catabolite repression of beta-glactosidase. Induction of tryptophanase and beta-galactosidase in cultures grown with various carbon sources including succinate, glycerol, pyruvate, glucose, gluconate, and arabinose is affected differently by the various carbon sources. The extent of induction does not seem to be related to the growth rate of the culture permitted by the carbon source during the course of the experiment. In cultures grown with glycerol as carbon source, preinduced for beta-galactosidase or tryptophanase and made permeable by ethylenediaminetetraacetic acid (EDTA) treatment, catabolite repression of tryptophanase was not affected markedly by the addition of cAMP (3',5'-cyclic adenosine monophosphate). Catabolite repression by glucose was only partially relieved by the addition of cAMP. In contrast, under the same conditions, cAMP completely relieved catabolite repression of beta-galactosidase by either pyruvate or glucose. Under conditions of limited oxygen, induction of tryptophanase is sensitive to catabolite repression; under the same conditions, beta-galactosidase induction is not sensitive to catabolite repression. Induction of tryptophanase in cells grown with succinate as carbon source is sensitive to catabolite repression by glycerol and pyruvate as well as by glucose. Studies with a glycerol kinaseless mutant indicate that glycerol must be metabolized before it can cause catabolite repression. The EDTA treatment used to make the cells permeable to cAMP was found to affect subsequent growth and induction of either beta-galactosidase or tryptophanase much more adversely in E. coli strain BB than in E. coli strain K-12. Inducation of tryptophanase was reduced by the EDTA treatment significantly more than induction of beta-galactosidase in both strains. Addition of 2.5 x 10(-3)m cAMP appeared partially to reverse the inhibitory effect of the EDTA treatment on enzyme induction but did not restore normal growth.
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PMID:Catabolite repression of tryptophanase in Escherichia coli. 432 48

Cyclic guanosine 3',5'-monophosphate inhibits the synthesis of beta-galactosidase and tryptophanase in cultures of Escherichia coli growing in minimal media with glucose or glycerol as the carbon source. Cyclic guanosine 3',5'-monophosphate acts at the transcriptional level in the lac operon, it exerts its action at the promoter site of the operon, and requires the presence of functional cyclic adenosine 3',5'-monophosphate receptor protein.
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PMID:Effect of cyclic guanosine 3,5-monophosphate on the synthesis of enzymes sensitive to caatabolite repression in intact cells of Escherichia coli. 437 46

The initial rates of induced synthesis of tryptophanase, beta-galactosidase, and d-serine deaminase were measured in relation to the chromosome replication cycle of Escherichia coli B/r. Exponentially growing cultures were exposed briefly to (14)C-thymidine or the appropriate inducers (or both), and the amount of label or enzyme (or both) in cells of different ages was found by measuring these quantities in their progeny. The rates of induced synthesis of the three enzymes increased abruptly at about 4, 20, and 34 min, respectively, after the start of a round of replication lasting 40 min. By matching this sequence to the ind, lac, and Dsd loci on the genetic map of E. coli K-12, it was estimated that replication began at about 8 o'clock (60 min) and proceeded clockwise. In rapidly growing cells, the sequence during the division cycle was consistent with the concept that rounds of replication overlapped.
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PMID:Origin and sequence of chromosome replication in Escherichia coli B-r. 487 Feb 79

1. Two hypotheses to account for general catabolite repression of the lactose enzymes in Escherichia coli were tested: the dilution model of Palmer & Moses (1967), and the specific catabolite repressor model of Loomis & Magasanik (1965, 1967). 2. The dilution model predicts that in mutants lacking the i-o regulation system the differential rate of beta-galactosidase synthesis should increase when amino acid-synthesizing enzymes are repressed by the presence of amino acids in the medium. It also predicts that with such mutants the total absence of P(i) from the medium should not result in the complete cessation of beta-galactosidase synthesis that is observed with wild-type cells. 3. Neither prediction was confirmed experimentally, and it is concluded that this model cannot explain catabolite repression. 4. The specific repressor hypothesis depends on the properties of a strain of E. coli carrying the CR(-) mutation. It requires both that cells of this genotype should be totally resistant to general catabolite repression and that this resistance should be specific for the lactose enzymes. 5. In fact the synthesis of beta-galactosidase by CR(-) cells, though showing resistance to catabolite repression by growth on glucose, was found to be repressed in several other circumstances. 6. Two other inducible enzymes, l-tryptophanase and d-serine deaminase, also showed resistance to repression by glucose in CR(-) cells. 7. It is concluded that this model, too, does not account for general catabolite repression. 8. Strains carrying deletions at either end of the lactose operon that extend into the structural genes of the operon continue to exhibit catabolite repression. 9. These experiments appear to eliminate the possibility that catabolite repression operates at the level of DNA transcription, and suggest that repression affects instead the translation of messenger RNA into protein.
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PMID:Catabolite repression in Escherichia coli. A study of two hypotheses. 488 Nov 42

Induced formation of tryptophanase in Escherichia coli B/r is temporarily inhibited by near-ultraviolet (UV) irradiation. The inhibition is greater when irradiation is at 5 C than when at room temperature. Hence, the inhibition is the result of a photochemical, rather than photoenzymatic, alteration of some cellular component. The action spectrum has a peak in the region of 334 nm and is similar to that for growth delay. However, inhibition of tryptophanase formation is more sensitive to near-UV irradiation than are growth, respiration, and the induced formation of beta-galactosidase. Thus, for tryptophanase the lack of formation cannot be due to general inhibition of metabolism. Pyridoxal phosphate absorbs in the near-UV region of the spectrum and is a cofactor for tryptophanase, but this enzyme in induced cells is not inactivated by near UV-radiations. An experiment in which toluene-treated suspensions from irradiated and unirradiated cells were mixed showed that irradiation does not cause the formation of an inhibitor of tryptophanase activity. The possibility remains that the absorption of radiant energy by pyridoxal phosphate interferes with the synthesis of tryptophanase.
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PMID:Inhibition of the induced formation of tryptophanase in Escherichia coli by near-ultraviolet radiation. 491 82


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