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1.
A beta-phosphoglucomutase (beta-PGM) mutant of Lactococcus lactis subsp. lactis ATCC 19435 was constructed using a minimal integration vector and double-crossover recombination. The mutant and the wild-type strain were grown under controlled conditions with different sugars to elucidate the role of beta-PGM in carbohydrate catabolism and anabolism. The mutation did not significantly affect growth, product formation, or cell composition when glucose or lactose was used as the carbon source. With maltose or trehalose as the carbon source the wild-type strain had a maximum specific growth rate of 0.5 h(-1), while the deletion of beta-PGM resulted in a maximum specific growth rate of 0.05 h(-1) on maltose and no growth at all on trehalose. Growth of the mutant strain on maltose resulted in smaller amounts of lactate but more formate, acetate, and ethanol, and approximately 1/10 of the maltose was found as beta-glucose 1-phosphate in the medium. Furthermore, the beta-PGM mutant cells grown on maltose were considerably larger and accumulated polysaccharides which consisted of alpha-1,4-bound glucose units. When the cells were grown at a low dilution rate in a glucose and maltose mixture, the wild-type strain exhibited a higher carbohydrate content than when grown at higher growth rates, but still this content was lower than that in the beta-PGM mutant. In addition, significant differences in the initial metabolism of maltose and trehalose were found, and cell extracts did not digest free trehalose but only trehalose 6-phosphate, which yielded beta-glucose 1-phosphate and glucose 6-phosphate. This demonstrates the presence of a novel enzymatic pathway for trehalose different from that of maltose metabolism in L. lactis.  相似文献   

2.
Evidence was found which indicated that a mutation in gene trpS affected the rate of synthesis of tyrosine-repressible 3-deoxy-D-arabinoheptulosonic acid-7-phosphate (DAHP) synthetase. The effect was found to occur independently of repression mediated by the tyrR gene product, and it was not due to a change in growth rate, nor was it a manifestation of the stringent response. It is proposed that in the proximal region of the aroF-tyrA operon there is an attenuator site controlled by the level of charged tryptophanyl-transfer RNA. In addition, it was demonstrated that starvation for certain amino acids led to degradation of tyrosine-repressible DAHP synthetase, but not phenylalanine-repressible DAHP synthetase, and supplementation with the missing amino acid led to an increased rate of synthesis of tyrosine-repressible DAHP synthetase during subsequent growth.  相似文献   

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In Bacillus subtilis, CcpA-dependent carbon catabolite repression (CCR) mediated at several cis-acting carbon repression elements (cre) requires the seryl-phosphorylated form of both the HPr (ptsH) and Crh (crh) proteins. During growth in minimal medium, the ptsH1 mutation, which prevents seryl phosphorylation of HPr, partially relieves CCR of several genes regulated by CCR. Examination of the CCR of the histidine utilization (hut) enzymes in cells grown in minimal medium showed that neither the ptsH1 nor the crh mutation individually had any affect on hut CCR but that hut CCR was abolished in a ptsH1 crh double mutant. In contrast, the ptsH1 mutation completely relieved hut CCR in cells grown in Luria-Bertani medium. The ptsH1 crh double mutant exhibited several growth defects in glucose minimal medium, including reduced rates of growth and growth inhibition by high levels of glycerol or histidine. CCR is partially relieved in B. subtilis mutants which synthesize low levels of active glutamine synthetase (glnA). In addition, these glnA mutants grow more slowly than wild-type cells in glucose minimal medium. The defects in growth and CCR seen in these mutants are suppressed by mutational inactivation of TnrA, a global nitrogen regulatory protein. The inappropriate expression of TnrA-regulated genes in this class of glnA mutants may deplete intracellular pools of carbon metabolites and thereby result in the reduction of the growth rate and partial relief of CCR.  相似文献   

5.
A β-phosphoglucomutase (β-PGM) mutant of Lactococcus lactis subsp. lactis ATCC 19435 was constructed using a minimal integration vector and double-crossover recombination. The mutant and the wild-type strain were grown under controlled conditions with different sugars to elucidate the role of β-PGM in carbohydrate catabolism and anabolism. The mutation did not significantly affect growth, product formation, or cell composition when glucose or lactose was used as the carbon source. With maltose or trehalose as the carbon source the wild-type strain had a maximum specific growth rate of 0.5 h−1, while the deletion of β-PGM resulted in a maximum specific growth rate of 0.05 h−1 on maltose and no growth at all on trehalose. Growth of the mutant strain on maltose resulted in smaller amounts of lactate but more formate, acetate, and ethanol, and approximately 1/10 of the maltose was found as β-glucose 1-phosphate in the medium. Furthermore, the β-PGM mutant cells grown on maltose were considerably larger and accumulated polysaccharides which consisted of α-1,4-bound glucose units. When the cells were grown at a low dilution rate in a glucose and maltose mixture, the wild-type strain exhibited a higher carbohydrate content than when grown at higher growth rates, but still this content was lower than that in the β-PGM mutant. In addition, significant differences in the initial metabolism of maltose and trehalose were found, and cell extracts did not digest free trehalose but only trehalose 6-phosphate, which yielded β-glucose 1-phosphate and glucose 6-phosphate. This demonstrates the presence of a novel enzymatic pathway for trehalose different from that of maltose metabolism in L. lactis.  相似文献   

6.
Under certain growth conditions, some strains of Escherichia coli accumulate toxic levels of methylglyoxal. This report characterizes a strain which synthesizes a mutant cAMP receptor protein in an adenylate cyclase deletion background. When cultured in glucose 6-phosphate minimal medium, this strain (222) was prematurely growth arrested due to methylglyoxal production; growth inhibition did not occur when the strain was grown in glucose minimal medium. A comparison of a variety of enzyme and cofactor levels in the related strains 222 (mutant) and 225 (wild-type) grown on either glucose or glucose 6-phosphate medium was carried out. The only difference found that might explain an increase in methylglyoxal accumulation was an elevated level of phosphofructokinase in strain 222 grown on glucose 6-phosphate. Since this enzyme activity probably limits hexose phosphate metabolism, it is suggested that growth inhibition in strain 222 may be due to increased production of triose phosphate, some of which is converted to methylglyoxal.  相似文献   

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Tyrosine-inhibitable 3-deoxy-D-arabinoheptulosonic acid-7-phosphate (DAHP) synthase was purified to homogeneity without significant loss of sensitivity to inhibition by tyrosine from an operator-constitutive strain (tyrOc) of Salmonella. The enzyme had an apparent molecular weight of 76,000 by gel filtration and a subunit molecular weight of 40,000 by sodium dodecyl sulfate-gel electrophoresis and by reaction with dimethyl suberimidate. It had an isoelectric point of 4.68. Inhibition by L-tyrosine showed a Hill coefficient of 1.8 at pH 7.0, suggesting cooperative interaction between tyrosine-binding sites, and was competitive with phosphoenol pyruvate and noncompetitive with erythrose-4-phosphate.  相似文献   

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Glucose pulse experiments were performed to elucidate their effects on the carbon flux into the aromatic amino acid pathway in different Escherichia coli strains. Using a 3-deoxy-D-arabino-heptulosonate 7-phosphate (DAHP, aroB(-))-producing strain, a fed-batch fermentation strategy specialized for glucose pulse experiments was developed and further applied for 3-dehydroshikimate (DHS, aroE(-))- and shikimate 3-phosphate (S3P, aroA(-))-producing E. coli strains. The strains overexpress a feedback-resistant DAHP synthase and additional enzymes to prevent rate-limiting steps in the aromatic amino acid pathway. Changes of carbon flux into the aromatic amino acid pathway were determined via extracellular metabolite accumulations using (1)H NMR and HPLC measurements. As an important result, a close relationship between pulse intensity and aromatic metabolite formation rates was identified. The more downstream an aromatic pathway intermediate was located, the stronger the glucose pulse intensity had to be in order to detect significant changes in product formation. However, with the experimental conditions chosen, changes after pulse were detected even for shikimate 3-phosphate, the most downstream accumulating metabolite of this experimental series. Hence glucose pulse experiments are assumed to be a promising tool even for the analysis of final pathway products such as, for example, L-phenylalanine.  相似文献   

12.
In meat juice medium, aerobic spoilage bacteria utilized the following substrates in the order shown: Pseudomonos , glucose, amino acids, lactic acid; Acinetobacter , amino acids, lactic acid: Enterobacter , glucose, glucose-6-phosphate, amino acids; Microbacterium thermosphactum , glucose, glutamate. All the bacteria grew at their maximum rate utilizing the first and second substrates, but the growth rates declined when these were exhausted. The growth rate of Acinetobacter was reduced at pH 5·7 and below. All other species grew at their maximum rate within the pH range 5·5–7·0. On meat pseudomonads grew faster than the other species at all temperatures between 2° and 15°C. Interactions between any two species were observed only when one organism had attained its maximum cell density. Substrate exhaustion at the meat surface did not limit bacterial growth and it is suggested that the maximum cell density of aerobic spoilage cultures is determined by oxygen limitation of growth.  相似文献   

13.
Escherichia coli grows on long-chain fatty acids after a distinct lag phase. Cells, preadapted to palmitate, grow immediately on fatty acids, indicating that fatty acid oxidation in this bacterium is an inducible system. This hypothesis is supported by the fact that cells grown on palmitate oxidize fatty acids at rates 7 times faster than cells grown on amino acids and 60 times faster than cells grown on a combined medium of glucose and amino acids. The inhibitory effect of glucose may be explained in terms of catabolite repression. The activities of the five key enzymes of beta-oxidation [palmityl-coenzyme A (CoA) synthetase, acyl-CoA dehydrogenase, enoyl-CoA hydrase, beta-hydroxyacyl-CoA dehydrogenase, and thiolase] all vary coordinately over a wide range of activity, indicating that they are all under unit control. The ability of a fatty acid to induce the enzymes of beta-oxidation and support-growth is a function of its chain length. Fatty acids of carbon chain lengths of C(14) and longer induce the enzymes of fatty acid oxidation and readily support growth, whereas decanoate and laurate do not induce the enzymes of fatty acid oxidation and only support limited growth of palmitate-induced cells. Two mutants, D-1 and D-3, which grow on decanoate and laurate were isolated and were found to contain constitutive levels of the beta-oxidation enzymes. Short-chain fatty acids (相似文献   

14.
A mutant of Neurospora crassa able to grow on liquid minimal glycerol medium without evidence of conidiation and with high cell yields has been isolated and shown to be allelic to ff-1. The glycerol-specific induction of glycerokinase and glycerol-3-phosphate dehydrogenase was similar in both wild-type and mutant cells, although higher specific activities as well as higher glycerokinase cross-reacting material levels were found in fully induced mutant cells. After growth in minimal glycerol medium there is a significant reduction in wild-type cells of the activities of both pyruvate dehydrogenase and dihydrolipoyl transacetylase. This evidence indicates a relationship between the conditional acetate requirement by wild-type cells grown on glycerol medium and the levels of the pyruvate dehydrogenase complex.  相似文献   

15.
Cells of Nocardia corallina ATCC 4273 form multiply branched coenocytic mycelia and subsequent fragment to spherical cells when grown on solidified complex media. In liquid shake cultures using complex media the organisms grow into pleomorphic but seldomly branched rods, divide as rods and then the rods fragment to spheres as the stationary phase is reached. In a defined liquid medium with glucose as carbon source, the organisms divide entively as spheres at a doubling time of 44 hrs. The addition of L-tyrosine, some fatty acids and tricarboxylic acid cycle intermediates or fructose to the glucose medium caused the cells to grow at considerably faster growth rates (2.8-8.5 hrs doubling times) and to undergo the shphre-rod-shpere growth cycle. Other amino acids, fatty acids or surgars added singly to the glucose medium did not produce the sphere to rod morphology change. Some amino acids when added to the medium in pairs effected sphere to rod morphopoiesis. None of these amino acids alone were effectors. Some of the culture grew as rods and the remainder as spheres when isoleucine and valine were added to the glucose medium. No other amino acid combination tested gave this result. The reason for the mixed growth response was traced to inhomogeneity of the parent culture. The life cycle of N. corallina is illustrated in a series of photomicrographs of two slide cultures.  相似文献   

16.
The metabolism of Cephalosporium acremonium grown in a complex medium supplemented with DL-methionine or inorganic sulfate was studied. More growth occurred in a sulfate medium than in a methionine medium. Methionine-grown cells had an increased rate of respiration, a higher rate of catabolism with acetate and glucose as substrate, and higher specific activities of certain respiratory enzymes than sulfate-grown cells. Labeled acetate and glucose were assimilated at a faster rate by methionine-grown cells than sulfate-grown cells. Taurine, cystathionine, and small quantities of four acidic compounds were present in the amino acid pool of methionine-grown cells, but they were not detected in the pool of sulfate-grown cells. The differences in metabolic activity of sulfate and methionine-grown cells are discussed in regard to cephalosporin C synthesis.  相似文献   

17.
Strains of Aspergillus nidulans carrying the orlA1 or tse6 allele are deficient in cell wall chitin and undergo lysis at restrictive temperatures. The strains are remediable by osmotic stabilizers or by the presence of N-acetylglucosamine (GlcNAc) in the medium. The remediation by GlcNAc suggests that the lesion(s) in chitin synthesis resides in the amino sugar biosynthetic pathway prior to the synthesis of N-acetylglucosamine-6-phosphate. orlA1 strains grown at permissive temperature exhibit an abnormally low specific activity for L-glutamine:fructose-6-phosphate amidotransferase (EC 2.6.1.16, amidotransferase), the first enzyme unique to amino sugar synthesis. In addition, the enzyme produced is temperature sensitive in vitro. tsE6 strains grown at permissive temperature show virtually no amidotransferase activity. This finding is consistent with an extremely labile enzyme which is destroyed by cell breakage and extract preparation. The enzyme must be active in vivo at permissive temperatures since GlcNAc is not required for growth. Thus, two structural genes (orlA and tsE) are necessary for the amidotransferase activity. bimG11 strains are temperature sensitive for a type 1 protein phosphatase involved in cell cycle regulation and arrest in mitosis. Like orlA1 and tsE6 strains, conidia from bimG11 strains swell excessively when germinated and lyse; the germlings produced are deficient in chitin content. The amidotransferase from wild-type and mutant strains is sensitive to feedback inhibition by uridine diphosphate-N-acetylglucosamine. The sensitivity of the amidotransferase from bimG11 strains is dependent on growth temperature, while that from wild-type strains is independent of temperature. The enzyme can be desensitized in vitro under conditions consistent with a protein phosphatase reaction. It is proposed that amino sugar (and chitin biosynthesis) is partially regulated by phosphorylation-dephosphorylation of the amidotransferase or a protein regulator of the enzyme.  相似文献   

18.
The control of the synthesis of certain key enzymes of aromatic amino acid biosynthesis was studied. Tyrosine represses the first enzyme of the 3-deoxy-d-arabino heptulosonic acid 7-phosphate pathway, DAHP synthetase, as well as shikimate kinase and chorismate mutase about fivefold in cultures grown under conditions limiting the synthesis of the aromatic amino acids. A mixture of tyrosine and phenylalanine represses twofold further. Tryptophan does not appear to be involved in the control of these enzymes. The specific activity of at least one early enzyme, dehydroquinase, remains essentially constant under a variety of nutritional supplementations. Two enzymes in the terminal branches are repressed by the amino acids they help to synthesize: prephenate dehydrogenase can be repressed fourfold by tyrosine, and anthranilate synthetase can be repressed over 200-fold by tryptophan. There is no evidence that phenylalanine represses prephenate dehydratase. Regulatory mutants have been isolated in which various enzymes of the pathway are no longer repressible. One class is derepressed for several of the prechorismate enzymes, as well as chorismate mutase and prephenate dehydrogenase. In another mutant, several enzymes of tryptophan biosynthesis are no longer repressible. Thus, the rate of synthesis of enzymes at every stage of the pathway is under control of various aromatic amino acids. Tyrosine and phenylalanine control the synthesis of enzymes involved in the synthesis of the three aromatic amino acids. Each terminal branch is under the control of its end product.  相似文献   

19.
K D Price  S Roels    R Losick 《Journal of bacteriology》1997,179(15):4959-4961
Bacillus subtilis gene ypfP, which is located at 196 degrees on the genetic map, shows similarity to both the monogalactosyldiacylglycerol synthase gene of Cucumis sativus, which encodes a galactosyltransferase, and the murG genes of B. subtilis, Escherichia coli, Haemophilus influenzae, and Synechocystis sp. strain PCC6803, which encode N-acetylglucosaminyltransferases involved in peptidoglycan biosynthesis. Cells containing a null mutation of ypfP are shorter and rounder than wild-type cells during growth in Luria-Bertani medium and glucose minimal medium. In addition, the mutant cells preferentially undergo lysis when grown on solid Luria-Bertani medium.  相似文献   

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