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)

Defined minimal media conditions were used to assess and subsequently enhance the production of subtilisin by genetically characterized Bacillus subtilis strains. Subtilisin production was initiated by the exhaustion or limitation of ammonium in batch and fed-batch cultures. Expression of the subtilisin gene (aprE) was monitored with a chromosomal aprE::lacZ gene fusion. The beta-galactosidase production driven by this fusion reflected subtilisin accumulation in the culture medium. Subtilisin gene expression was temporally extended in sporulation-deficient strains (spoIIG), relative to co-genic sporogenous strains, resulting in enhanced subtilisin production. Ammonium exhaustion not only triggered subtilisin production in asporogenous spoIIG mutants but also shifted carbon metabolism from acetate production to acetate uptake and resulted in the formation of multiple septa in a significant fraction of the cell population. Fed-batch culture techniques, employing the spoIIG strain, were investigated as a means to further extend subtilisin production. The constant provision of ammonium resulted in linear growth, with doubling times of 11 and 36 h in each of two independent experiments. At the lower growth rate, the responses elicited (subtilisin production, glucose metabolism, and morphological changes) during the feeding regime closely approximated the ammonium starvation response, while at the higher growth rate a partial starvation response was observed.
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PMID:Physiological and genetic strategies for enhanced subtilisin production by Bacillus subtilis. 136 58

A controversy has surrounded the questions of whether or not guanosine tetraphosphate (ppGpp) is a specific inhibitor of bacterial rRNA and tRNA synthesis, especially during normal exponential growth, and whether the RNA polymerase is the target of ppGpp action. To answer these questions, a pBR322-derived plasmid, pKT28, was constructed that carries the Escherichia coli relA gene encoding a ppGpp synthetase under control of the lacUV5 promoter. The plasmid was used to transform the ppGpp reporter strain VH271 in which expression of beta-galactosidase from an rrnB P1 promoter is inhibited by ppGpp. In the presence of high concentrations of lac inducer, bacteria of the transformed strain accumulate ppGpp with the result that synthesis of rRNA and beta-galactosidase is inhibited and growth ceases. At low concentrations of inducer, growth is only reduced and cells form small white colonies on X-gal indicator plates. After continued incubation, these colonies form blue sectors of faster growing mutant cells. Phage P1 transduction experiments showed that these mutants have mutations cotransducing with rpoB, the gene encoding the beta-subunit of RNA polymerase. One particular mutant strain, KT13, had acquired partial resistance to ppGpp inhibition of rRNA synthesis. The mutation in this strain was cloned by in vivo recombination into an rpoB plasmid. The presence of this plasmid conferred increased resistance to overproduction of ppGpp. These results suggest that ppGpp is a specific inhibitor of rRNA synthesis, even in the absence of amino acid starvation, and that RNA polymerase is involved as the target of ppGpp action.
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PMID:Toxic effects of high levels of ppGpp in Escherichia coli are relieved by rpoB mutations. 137 Aug 17

The transcription of the luminescence (lux) system of Vibrio fischeri is regulated by the LuxR protein and an autoinducer. We previously showed that apart from these regulatory elements, the transcription of the lux system is negatively controlled by the LexA protein and positively controlled by the HtpR protein (sigma 32). This study was conducted in order to elucidate the mode of action of the HtpR protein. Using luxR-lacZ fused genes, we showed that the HtpR protein is essential for the maximum expression of beta-galactosidase activity in Escherichia coli lac mutant cells. Using this construct, we also demonstrated that luxR is preferentially expressed toward the end of the logarithmic phase of growth. Starvation and addition of ethanol significantly advanced the appearance of beta-galactosidase activity in htpR+ cells. The luminescence system of E. coli htpR+ cells harboring the pChv1 plasmid with a deletion in the luxI gene is induced in the presence of low and constant concentrations (150 pg/ml) of the inducer only at a late stage of the logarithmic phase of growth. When the cellular LuxR content is reduced, following 23 generations of exponential growth in Luria broth, a mid-log-phase culture does not respond to the inducer (150 pg/ml). On the basis of the above observations we suggest that the HtpR protein controls the formation of V. fischeri LuxR protein. Preliminary findings indicate that the HtpR protein acts through the chaperonins GroESL. E. coli htpR/pChv1 cells retained their full level of in vivo and in vitro luciferase activities in the presence of multiple copies of groESL genes. The possibility that GroESL proteins stabilize the native form of LuxR protein is discussed.
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PMID:Formation of the LuxR protein in the Vibrio fischeri lux system is controlled by HtpR through the GroESL proteins. 142 36

We have previously shown that nucleosome loss, obtained by repressing histone H4 mRNA synthesis, activates otherwise inactive PHO5, GAL1, and CYC1 gene promoters (fused to the bacterial beta-galactosidase [lacZ] reporter gene) to moderate levels of activity (approximately 2 to 15% of fully induced levels). We now report that nucleosome loss activates the expression of two additional promoters that are normally induced by independent mechanisms: CUP1 (induced by heavy-metal toxicity) and HIS3 (induced by amino acid starvation). Surprisingly, the level of CUP1-lacZ and HIS3-lacZ activation by nucleosome loss approximates fully induced levels of transcription. These CUP1 and HIS3 promoter activities are increased similarly from either episomal or genomic constructs. Our results emphasize the universality of the mechanism by which nucleosome loss activates yeast promoters. Moreover, a comparison of absolute levels of activation for different promoters suggests that activation by nucleosome loss results in a relatively constant level of activation, while levels obtained by normal induction vary considerably. These data argue that nucleosome loss may play a uniquely dominant role in the regulation of certain promoters.
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PMID:Nucleosome loss activates CUP1 and HIS3 promoters to fully induced levels in the yeast Saccharomyces cerevisiae. 154 16

The Escherichia coli purine auxotrophs with the complete block of utilization of hypoxanthine, guanine and xanthine by means of phosphoribosyltransferases, as a result of the hpt and gpt mutations, have the Rel phenotype. In the purD hpt gpt bacteria, under conditions of amino acid starvation synthesis of RNA continues and accumulation of ppGpp is not found. Upon a study of expression of the deo-operon, uridine phosphorylase and beta-galactosidase genes, data were obtained showing that activity of catabolite sensitive promoters of these genes is inhibited in the purD hpt gpt cells. Inhibition of activity of the catabolite sensitive cytP promoter in the deo-operon seems to be accompanied by an increase in activity of the preceding deoP promoter.
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PMID:[Characteristics of the phenotypic manifestation of hpt and gpt mutations blocking 6-oxypurine utilization and their effect on the expression of catabolite-sensitive genes in the cells of an Escherichia coli K-12 purine auxotroph]. 241 35

A genomic library containing DNA fragments of 0.5 to 2 kilobase pairs in length from Yersinia enterocolitica serovar O:8 was constructed in a bacteriophage lambda gt11 expression vector. Mouse antibodies specific for the iron-regulated high-molecular-weight proteins (HMWPs) were used to screen the library. Two positive clones of 1 and 0.5 kilobase pairs, designated A13 and D7, respectively, were detected and isolated. They coded for beta-galactosidase fusion proteins of 151,000 and 138,000 daltons (Da). Antibodies affinity purified on the two recombinant lambda gt11 vectors specifically recognized the smaller HMWP (190,000 Da) and not the larger (240,000 Da). The two cloned DNA fragments were used to construct recombinant amplification plasmid pUC13 and to obtain large amounts of purified A13 and D7 inserts. Southern hybridizations performed with the inserts used as probes revealed that: (i) the two cloned DNA fragments overlap; (ii) only one gene hybridizes with the A13 and D7 inserts; (iii) the gene coding for the HMWP is conserved among all highly pathogenic Yersinia species studied; (iv) this gene is missing in the low-virulence and nonvirulent strains; and (v) transcription of the HMWP gene is induced by iron starvation.
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PMID:The gene coding for the 190,000-dalton iron-regulated protein of Yersinia species is present only in the highly pathogenic strains. 246 94

We have recently shown that the transcription of the PR lux operon for Vibrio fischeri luminescence is positively controlled by the htpR (sigma 32) protein. It was suggested that the LexA protein might negatively control the lux genes. This paper extends these findings. It was found that Escherichia coli cells that contain the entire lux operon (pChv1) in RecA or LexA mutants which are unable to remove the LexA protein are considerably dimmer than the wild-type strain. Mutants that do not make LexA or form a weakly bound LexA are very bright. The role of sigma 32 protein was studied on luxR-luxI genes that are fused to beta-galactosidase. The addition of V. fischeri inducer brings about the formation of beta-galactosidase activity in htpR+ but not in htpR- strains of E. coli/pMJ3. Similar to the effect of starvation on the induction of luminescence in marine bacteria and in E. coli/pChv1 cells, beta-galactosidase activity in such constructs is preferentially induced by low nutrient concentrations. A new model for the regulatory control of the V. fischeri luminescence system is discussed.
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PMID:The regulatory control of the bacterial luminescence system--a new view. 267 20

Of the 30 carbon starvation proteins whose induction has been previously shown to be important for starvation survival of Escherichia coli, two-thirds were not induced in cya or crp deletion mutants of E. coli at the onset of carbon starvation. The rest were induced, although not necessarily with the same temporal pattern as exhibited in the wild type. The starvation proteins that were homologous to previously identified heat shock proteins belonged to the latter class and were hyperinduced in delta cya or delta crp mutants during starvation. Most of the cyclic AMP-dependent proteins were synthesized in the delta cya mutant if exogenous cyclic AMP was added at the onset of starvation. Furthermore, beta-galactosidase induction of several carbon starvation response gene fusions occurred only in a cya+ genetic background. Thus, two-thirds of the carbon starvation proteins of E. coli require cyclic AMP and its receptor protein for induction; the rest do not. The former class evidently has no role in starvation survival, since delta cya or delta crp mutants of either E. coli or Salmonella typhimurium survived starvation as well as their wild-type parents did. The latter class, therefore, is likely to have a direct role in starvation survival. This possibility is strengthened by the finding that nearly all of the cya- and crp-independent proteins were also induced during nitrogen starvation and, as shown previously, during phosphate starvation. Proteins whose synthesis is independent of cya- and crp control are referred to as Pex (postexponential).
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PMID:Differential regulation by cyclic AMP of starvation protein synthesis in Escherichia coli. 284 91

A number of lysosomal enzymes are secreted from Tetrahymena pyriformis during growth and during starvation. The secretion is energy-dependent and kinetically different among hydrolases. On the basis of the secretion kinetics under starvation conditions, Tetrahymena hydrolases can be separated into three classes. The first group containing acid phosphatase, beta-glucosidase and alpha-galactosidase, are secreted slowly. Within this group about 4% of the initial cellular activity is released per hour. The second group of enzymes, including alpha-glucosidase, alpha-mannosidase and beta-galactosidase, exhibit moderate secretion (11-15% of the initial cellular activity per hour). The third group, N-acetyl-beta-hexosaminidase, has the highest rate of secretion (22% of the initial cellular activity per hour). N-Acetyl-beta-hexosaminidase shows a continuous increase in overall activity during starvation, which is completely blocked by adding cycloheximide; its secretion is also suppressed. Such involvement of enzyme biosynthesis was not seen in the first and second groups. Furthermore, treatment with weak bases caused inhibited secretion of differing degree among acid phosphatase (group I), alpha-glucosidase (group II) and N-acetyl-beta-hexosaminidase (group III).
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PMID:Secretion heterogeneity of lysosomal enzymes in Tetrahymena pyriformis. 295 37

Tn5 lac is a transposon that fuses the transcription of lacZ to exogenous promoters. We generated 2374 Tn5 lac insertion-containing strains of Myxococcus xanthus, a soil bacterium that undergoes multicellular development which culminates in the formation of spores. Thirty-six strains were identified that specifically increase beta-galactosidase expression at some particular time during development and these expression times range from minutes after starvation initiates development to 24 hr, when sporulation begins. Different maximum levels of beta-galactosidase expression were also observed and the maximum for many strains that begin beta-galactosidase expression late in development was observed only if spores were disrupted. Seven of the 36 strains display mild to severe defects in aggregation and/or sporulation, as did an additional five strains whose beta-galactosidase expression was not developmentally regulated. Restriction maps of the DNA adjacent to the Tn5 lac insertions that are developmentally regulated and/or cause developmental defects show that most of the 41 insertions are in different regions of the Myxococcus genome. The developmentally regulated Tn5 lac insertions described here provide a set of at least 29 new developmental markers for Myxococcus.
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PMID:A global analysis of developmentally regulated genes in Myxococcus xanthus. 301 94

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