- Volume 143, Issue 7, 1997
Volume 143, Issue 7, 1997
- Physiology And Growth
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Physiology of poly-3-hydroxybutyrate (PHB) production by Alcaligenes eutrophus growing in continuous culture
More LessSummary: Alcaligenes eutrophus was grown in continuous culture (34 °C, pH 6.8) under various conditions with respect to dilution rate, nutrient limitation and carbon substrate. Poly-3-hydroxybutyrate (PHB) content, the rate of PHB production (q PHB) and the rate of carbon substrate utilization (q s) during growth on glucose were maximum at low dilution rate under ammonia limitation (ammonia limitation > potassium/oxygen limitation > glucose limitation). PHB content decreased in a linear manner as a function of dilution rate, from approximately 80% at D 0-025 h−1 during ammonia-limited growth to approximately 5% during growth at the maximum specific growth rate (μmax) in batch culture. PHB content, q PHB and qs varied with the nature of the carbon substrate during ammonia-limited growth at fixed dilution rate, and were maximum during growth on lactate [lactate>pyruvate>glucose/gluconate>fructose; highest q PHB 0.38 g PHB (g non-PHB biomass)−1 h−1]. qPHB was related in an approximately linear manner to the q s in excess of that required solely for the production of non-PHB biomass. This surplus q s was higher during growth on lactate than on glucose because q s was approximately equal to the maximum rate of carbon substrate utilization (q smax) during growth on lactate, but much lower than q smax during growth on glucose. The relationship between q PHB and surplus q s was confirmed by the effect of adding formate (as an additional source of NADH and/or ATP) and the uncoupling agent carbonyl cyanide-m-chlorophenylhydrazone (CCCP) to ammonia-limited cultures. It is concluded that A. eutrophus is unable to regulate the rate at which it takes up excess carbon substrate to match that required solely for growth, particularly during growth on lactate at low dilution rate, and thus produces PHB as a means of avoiding the potentially deleterious effects of generating high concentrations of intracellular metabolites. Possible ways of further increasing PHB production are discussed.
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Anaerobic pathways of glycerol dissimilation by Enterobacter agglomerans CNCM 1210: limitations and regulations
Summary: Continuous cultures of Enterobacter agglomerans CNCM 1210 were performed under regulated pH conditions (pH 7.0) with glycerol or glucose (20 gl−1) as carbon source. Cultures grown on glucose produced mainly acetate, ethanol and formate. In contrast, 1,3-propanediol (PPD) was the main product with glycerol. The carbon flow distribution at branching metabolic points was investigated. Higher PPD yields with increased dilution rate were correlated with an important increase in the relative ratio of glycerol dehydratase to glycerol dehydrogenase. Determination of intracellular triose-phosphate and fructose 1,6-biphosphate concentrations demonstrated that glyceraldehyde-3-phosphate dehydrogenase is the limiting step in glycerol dissimilation. At the pyruvate branching point, pyruvate dehydrogenase (PDH) activity was systematically detected. The pyruvate flow shifted to PDH is suspected to represent up to 22% of the acetyl-CoA formed. In addition, this enzyme pattern combined with the enhanced in vivo lactate dehydrogenase activity at high growth rates, was correlated with a decrease in the pyruvate formate-lyase activity. A regulation of this latter enzyme by the accumulation of triose-phosphate is suspected.
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Mitogenic factor secreted by Streptococcus pyogenes is a heat-stable nuclease requiring His122 for activity
More LessSummary: The gene encoding a mitogenic factor, termed MF, was cloned from Streptococcus pyogenes and the recombinant MF was overexpressed in Escherichia coli. Both the natural and recombinant MF had heat-resistant nuclease activity. The nuclease activity of MF was characterized using the recombinant protein. MF showed endonuclease activity, digesting ssDNA, dsDNA and tRNA. The optimal pH for the DNase activity of MF was 9.5. The DNase activity was enhanced approximately tenfold by the simultaneous presence of two divalent cations, Mg2+ and Ca2+, compared to either alone and was inhibited by EDTA or NaCI. The heat stability of MF was biphasic; the DNase activity was heat-stable from 0 to 50 °C and over 80 °C but very unstable at around 60 °C. DNA digested by MF possessed 5′-phosphorylated and 3′-hydroxylated termini, identical to those obtained by digestion of DNA by pancreatic deoxyribonuclease I. A mutant clone revealed that His122 was a residue essential to the nuclease activity.
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Protein kinase Sck1 is involved in trehalase activation by glucose and nitrogen source in the fission yeast Schizosaccharomyces pombe
More LessSummary: Trehalase activity is markedly enhanced upon addition of glucose and a nitrogen source to cells of the fission yeast Schizosaccharomyces pombe. This increase corresponds to a post-translational activation of the enzyme, which is controlled by cAMP-dependent and cAMP-independent pathways. Recent work has shown that overexpression of SCK1 in Schiz. pombe is able to suppress mutations that result in reduced Pka1 (cAMP-dependent protein kinase A activity, suggesting that Sck1 (suppressor of loss of cAMP-dependent protein kinase) might be a functional analogue of Pka1 in the fission yeast. Here, an analysis of the possible role of Sck1 in the activation of trehalase triggered by glucose and a nitrogen source is reported in cells that were deficient in either Pka1, Sck1 or both protein kinases. The results showed that, except in repressed cells, Sck1 probably mediates a cAMP-independent activation of trehalase following the signal(s) triggered by glucose and the nitrogen source. The absence of functional Sck1 in derepressed cells renders trehalase insensitive to activation by glucose and the nitrogen source even in the presence of Pka1, indicating that the Sck1-dependent, cAMP-independent pathway is the main signalling pathway controlling trehalase activation under derepression conditions. It is proposed that, during the activation of trehalase induced by glucose or a nitrogen source, the cAMP-Pka1 activation pathway previously characterized is to some extent parallel to this newly described one which includes Sck1 as ohosphorylating enzyme. Neither of these two pathways, however, plays a key role in the heat-induced increase in trehalase activity.
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- Genome Analysis
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Molecular characterization of the restriction endonuclease gene (scrFIR) associated with the ScrFI restriction/modification system from Lactococcus lactis subsp. cremoris UC503
More LessSummary: The nucleotide sequence of the chromosomally encoded type II ScrFI restriction/modification system from Lactococcus lactis subsp. cremoris UC503 was completed. The ScrFI restriction endonuclease (ENase) has previously been shown to specifically recognize 5’ CCNGG 3’ sites, cleaving after the second cytosine and the degenerate central base. The ENase gene (scrFIR; 862 bp) was located between, and co-directionally transcribed with, two formerly characterized 5-methylcytosine methyltransferase genes, which encode proteins that independently confer protection against ScrFI digestion. scrFIR codes for a protein of 272 amino acids with a predicted molecular mass of 31470 Da, which agrees favourably with a previously estimated molecular mass of 34 kDa for this enzyme. The deduced sequence of this protein did not show any significant homology with known protein sequences, including the isoschizomeric SsoII ENase from ShigeIIa sonnei. The ENase gene was cloned and expressed in Escherichia coli and Lactococcus; however, no in vivo restriction of phage was observed, suggesting that expression of the ENase gene may be repressed, or that the appropriate expression signals may be absent in the cloned constructs. The ability of ScrFI to cleave non-canonically modified 5’ CCNGG 3’ sequences suggested that some ScrFI sites may require complex modifications to fully impair digestion by this enzyme.
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- Corrigendum
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- Guidelines For Authors
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