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)

Previous studies by others have indicated that the synthesis of secreted enzymes is unusually sensitive to many translation inhibitors and resistant, for about 30 min, to rifampicin. We have studied the sensitivity of secreted (periplasmic) phosphatases to such inhibitors. Alkaline phosphatase synthesis is more sensitive than total protein synthesis to tetracyclin and spectinomycin, but not to sparsomycin, streptomycin, chloramphenicol, kasugamycin, blasticidin S or thiostrepton; it is slightly more resistant than total protein synthesis to the latter two antibiotics. Acid hexose-phosphatase was also preferentially sensitive to tetracyclin and spectinomycin and also to kasugamycin. beta-galactosidase was also included in the study, as an intracellular enzyme, and was found to be preferentially inhibited ("repressed"), sometimes transiently, by all eight translation inhibitors. This effect did not seem to be mediated through cyclic AMP or guanosine tetraphosphate; the "repression" was still evident in mutants with altered rho factor indicating that it may also not be related to artificial polarity. Synthesis of both periplasmic phosphatases was immediately inhibited by rifampicin. These results differ from those found in previous studies with other organisms and suggest a reappraisal of the usual interpretation of these phenomena.
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PMID:The effect of translation and transcription inhibitors on the synthesis of periplasmic phosphatases in E. coli. 14 3

In an extract containing all the components for lac gene expression except washed ribosomes, lac mRNA formation was increased 4- to 6-fold by the addition of washed ribosomes. The formation of beta-galactosidase mRNA and enzyme showed very different dependency on added ribosomes. Enzyme was formed in proportion to the number of ribosomes added, whereas 10% of the standard level of ribosomes promoted full levels of transcription. Consistent with their action in vivo, chloramphenicol and erythromycin blocked the ribosome-dependent lac transcription. The same inhibition was seen with RNA pulse-labeled for 1 or 5 min, so that the effect was truly a blockage of formation rather than an increased hyperlability of nascent mRNA. The effect was specified for some RNA species, as it is in vivo: phage lambda N gene transcription was increased rather than inhibited in the presence of chloramphenicol. Chloramphenicol did not stop lac transcription as a result of its blockage of formation of the regulatory nucleotide tetraphosphate (ppGpp), because addition of the nucleotide did not restore mRNA formation in chloramphenicol-treated extracts. Rather, the data are consistent with the ideas that one or a few ribosomes moving closely behind RNA polymerase can prevent its arrest and that, when ribosome movement is blocked by chloramphenicol, the RNA polymerase is exposed to factors that provoke premature RNA chain termination.
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PMID:Coupling of lac mRNA transcription to translation in Escherichia coli cell extracts. 41 5

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

Escherichia coli has two enzymes catalyzing the synthesis of guanosine tetraphosphate (ppGpp), designated ppGpp synthetase I (PSI = RelA) and II (PSII), whose activities are regulated differently. Until now, the gene for PSII had not been identified. Here, an E. coli relA1 strain that expresses lacZ from an rrnB P1 promoter was used to screen mutants with increased beta-galactosidase activity on 5-bromo-4-chloro-3-indoyl beta-D-galactoside indicator plates at 30 degrees C. About 15% of the mutants obtained in this manner had reduced levels of ppGpp at 30 degrees C and no detectable ppGpp at 43 degrees C. These mutants did not form colonies at 42 degrees C on minimal medium plates and had elevated ribosome concentrations and higher growth rates at 30 degrees C. Genetic mapping by phage P1 transduction and complementation analyses showed that the mutations were located in spoT and that they were recessive. Specific inhibition of SpoT-dependent ppGpp degradation activity with picolinic acid showed that two of the mutants tested were deficient in ppGpp synthesis activity. These results indicate that spoT is required for PSII activity, suggesting that spoT encodes both ppGpp degradation and synthesis activities and that these two functions can be affected independently by mutation.
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PMID:Escherichia coli ppGpp synthetase II activity requires spoT. 200 35

We have fused the ribosomal RNA promoter P1 from the rrnB gene of Escherichia coli to lacZ and examined its guanosine tetraphosphate (ppGpp)-dependent expression at different growth rates. The rrnB P1-lacZ fusion was constructed on plasmid vectors and then recombined into the chromosome of a delta lac relA1 strain close to the normal location of the rrnB locus and in the normal orientation, coincident with the direction of replication. A series of spoT strains differing in the severity of their SpoT defect were analyzed with respect to their growth characteristics and ppGpp metabolism. The spoT203 allele was introduced into the rrnB P1-lacZ fusion containing strain and used to manipulate the ppGpp concentration independently of the growth medium. 1) The levels of ppGpp during exponential growth are decreased in rich media due to a decreased activity of (p)ppGpp synthetase II (PSII). 2) The specific activity of rrn P1-directed beta-galactosidase was increased in a parabolic fashion with increasing growth rate. A theoretical analysis showed that this was to be expected since enzyme expression from a stringently controlled promoter is affected by changes in the growth rate both via the control of the promoter, and indirectly via the control of bulk mRNA synthesis. 3) The observer specific enzyme activities were converted into rrnB P1 promoter activities, given as lacZ transcription relative to the total rate of transcription. The rrn P1 promoter activity decreased exponentially with increasing cytoplasmic concentration of ppGpp, independent of whether a given level of ppGpp was achieved by using different growth media or by using a spoT allele. These results support two hypotheses: (i) that RNA polymerase is partitioned by ppGpp into two fractions with different abilities to initiate transcription at rrn P1 promoters; and (ii) that during exponential growth ppGpp is derived from ppGpp synthetase II (PSII). Together these hypotheses predict that the growth rate control of rRNA synthesis reflects a control of PSII activity which is regulated by the composition of the growth medium.
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PMID:Guanosine tetraphosphate (ppGpp) dependence of the growth rate control of rrnB P1 promoter activity in Escherichia coli. 211

The effects of guanosine tetraphosphate (ppGpp) and guanosine pentaphosphate (pppGpp), both produced by E. coli, were measured on the activities of several genes in a cell-free system. Gene activity is measured as gene-directed synthesis of biochemically competent protein or transfer RNA. Both ppGpp and pppGpp stimulated the activities of the ara, lac, and trp operons and inhibited the arg operon. Production of transfer-RNA(Tyr) was unaffected by moderate levels of either ppGpp or pppGpp and only slightly inhibited at higher levels of ppGpp. Since the cell-free reaction mixtures hydrolyze pppGpp to ppGpp, we performed similar studies with a hydrolysis-resistant analog of pppGpp, the beta-gamma methylenyl derivative (pcppGpp). In general, pcppGpp shows the same inhibitory potency as pppGpp for the arg operon, but lacks the stimulatory effects on the ara, lac, and trp operons. This result suggests that the stimulation of these gene activities is specific for ppGpp.Under similar conditions, pppGpp and ppGpp show a slight inhibitory effect on the messenger-directed synthesis of beta-galactosidase and no effect on the messenger-directed synthesis of MS2 viral-coat protein. These observations, together with the fact that in the same system these nucleotides affect coupled transcription and translation, lead us to surmise that the activities of pppGpp and ppGpp are exerted at the level of RNA polymerase activity.
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PMID:Effects of guanosine tetraphosphate, guanosine pentaphosphate, and beta-gamma methylenyl-guanosine pentaphosphate on gene expression of Escherichia coli in vitro. 435 31

Biologically active su(+) (III) tyrosyl-tRNA has been synthesized in a DNA-directed cell-free system from Escerichia coli. Such a system should be most useful for studying the mechanism of tRNA synthesis. This tRNA is capable of suppressing amber mutations in the gene coding for beta-galactosidase (EC 3.2.1.23) and, therefore, must be capable of being charged and transferring amino acids. A 4-fold stimulation in the activity of the tRNA formed de novo is obtained with isopentenyl pyrophosphate, a compound involved in the post-transcriptional acylation of an adenine base adjacent to the anticodon. It has been suggested elsewhere that formation of RNA subject to stringent control may be inhibited by guanosine tetraphosphate (ppGpp). However, guanosine tetraphosphate did not affect the synthesis of su(+)III tyrosyl-tRNA, even though the synthesis of this tRNA is subject to stringent control.
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PMID:DNA-directed cell-free synthesis of biologically active transfer RNA: su + 3 tyrosyl-tRNA. 494 92

By use of Mu cts d1(Ap lac) phage, a strain of Salmonella typhimurium was isolated containing a Mu d insertion in a locus (sinA) which is induced during nicotinate, thiamine, purine, amino acid, phosphate, and carbon starvation conditions. Depending on the starvation condition, a 2- to 10-fold increase in beta-galactosidase activity was demonstrated. The sinA locus, which mapped at 32 U, became induced after a decline in growth rate due to starvation. The introduction of relA into the sinA-lac strain prevented induction by nicotinate starvation and partially prevented induction by phosphate starvation. The data suggest that sinA responds to changes in growth rate due to various nutrient starvation conditions and probably responds in part to changes in guanosine tetraphosphate levels.
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PMID:Identification and characterization of a relA-dependent starvation-inducible locus (sin) in Salmonella typhimurium. 635 85

The in vivo activities of seven constitutive promoters in Escherichia coli have been determined as functions of growth rate in wild-type relA+ spoT+ strains with normal levels of guanosine tetraphosphate (ppGpp) and in ppGpp-deficient DeltarelADeltaspoT derivatives. The promoters include (i) the spc ribosomal protein operon promotor Pspc; (ii) the beta-lactamase gene promotor Pblaof plasmid pBR322; (iii) the PLpromoter of phage lambda; (iv) and (v) the replication control promoters PRNAIand PRNAIIof plasmid pBR322; and (vi) and (vii) the P1 and P2 promoters of the rrnB ribosomal RNA operon. Each strain carried an operon fusion consisting of one of the respective promoter regions linked to lacZ and recombined into the chromosome at the mal locus of a lac deletion strain. The amount of 5'-terminal lacZ mRNA and of beta-galactosidase activity expressed from these promoters were determined by standard hybridization or enzyme activity assays, respectively. In addition, DNA, RNA and protein measurements were used to obtain information about gene dosage, rRNA synthesis and translation rates. By combining lacZ mRNA hybridization data with gene dosage and rRNA synthesis data, the absolute activity of the different promoters, in transcripts/minute per promoter, was determined. In ppGpp-proficient (relA+ spoT+) strains, the respective activities of rrnB P1 and P2 increased 40 and fivefold with increasing growth rate between 0.7 and 3.0 doublings/hour. The activities of Pspc, PL, Pbla, and PRNAIincreased two- to threefold and reached a maximum at growth rates above 2.0 doublings/hour. In contrast, PRNAIIactivity decreased threefold over this range of growth rates. In ppGpp-deficient (DeltarelA DeltaspoT) bacterial strains, the activities of rrnB P1 and P2 promoters both increased about twofold between 1.6 and 3.0 doublings/hour, whereas the activities of Pspc, PL, Pbla, and PRNAI, and PRNAIIwere about constant. To explain these observations, we suggest that the cellular concentration of free RNA polymerase increases with increasing growth rate; for saturation the P1 and P2 rRNA promoters require a high RNA polymerase concentration that is approached only at the highest growth rates, whereas the other promoters are saturated at lower polymerase concentrations achieved at intermediate growth rates. In addition, the data indicate that the respective rrnB P1 and PRNAIIpromoters were under negative and positive control by ppGpp. This caused a reduced activity of rrnB P1 and an increased activity of PRNAIIduring slow growth in wild-type (relA+ spoT+) relative to ppGpp-deficient (DeltarelA DeltaspoT) bacterial strains.
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PMID:Activities of constitutive promoters in Escherichia coli. 1049 54

Fed-batch production of recombinant beta-galactosidase in E. coli was studied with respect to the specific growth rate at induction. The cultivations were designed to induce protein production by IPTG at a glucose feed rate corresponding to high mu = 0.5 h(-1)) or low (mu = 0.1 h(-1)) specific growth rate. Protein production rate was approximately 100% higher at the higher specific growth rate, resulting in the accumulation of beta-galactosidase up to 30% of the total cell protein. Transcription analysis showed that beta-galactosidase-specific messenger RNA was immediately formed after induction (<5 min), but the amount was the same in both cases and was thus not the initial limiting factor. The content of ribosomes, as represented by rRNA, rapidly decreased with specific growth rate from a relative level of 100%, at the high specific growth rate, to 20% at the low specific growth rate. At high specific growth rate, ribosomes were additionally degraded upon induction due to the high production level. Translation therefore seemed to be the initial limiting factor of the protein synthesis capacity. The alarmone guanosine tetraphosphate increased at both high and low feed level inductions, indicating an induction-forced starvation of charged tRNA and/or glucose. The altered physiological status was also detected by the formation of acetic acid. However, the higher production rate resulted in high-level accumulation of acetic acid, which was absent at low feed rate production. Acetic acid production is thus coupled to the high product formation rate and is proposed to be due either to a precursor drain of Krebs cycle intermediates and a time lag before induction of the glyoxalate shunt, or to single amino acid overflow, since the model product is relatively poor in glycin and alanin. In conclusion, it is proposed that production at high specific growth rate becomes precursor-limited, while production at low specific growth rate is carbon- and/or energy-limited.
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PMID:Limiting factors in Escherichia coli fed-batch production of recombinant proteins. 1245 52

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